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Permit M19-0104 - AMAZON - ROOFTOP A/C & HEATING UNITS, STORAGE RACKS, REFRIGERATION EQUIPMENT
AMAZON 18323 ANDOVER PARK W M19-0104 r\ Parcel No: ��^�vx m�� Tukwila ~~��� x�u . ��n���Uva Department ofCommunity Development 63UOSouthcenterBoulevard, Suite #1VV Tukwila, Washington g81gW Phnne:Z06'431'367U Inspection Request Line: 20G-438'9350 Web site: http://www.TukwilaWA.gov MECHANICAL PERMIT 3523049018 Permit Number: M19-0104 Issue Date: 8/20/2019 Permit Expires On: 2/16/2020 Project Name: AMAZON Owner: Contact Person: Name: Address: PRIME NOW, LLC 41OTERRY AVE, SEA7TL[{,WA, 98109 APR|LHOU5E 3617SVVCHARL[3TUNST'SEAlTLE VV4 98126 Contractor: Name: KEY [NE[M[DOFVVASH|NGTON Address: 19430 68TMAVE SSTER'K[N7,WA, 9BV]Z'1l9J License No: KEv[mEVV~240NZ Lender: Address: ''' Phone: (206)478f044 Phone: (253)872- 392 Expiration Date; 3/27/2021 DESCRIPTION OF WORK; WAREHOUSE FOR NEW TENANT. ADDING PACKAGED ROOFTOP UNITS FOR SPACE AIR CONDITIONING AND HEATING. ADDING WAREHOUSE RACKING, REFRIGERATION EQUIPMENT, PREP ROOM. Valuation of Work: $250,000.00 Typeof'Work: NEW Fuel type: GAS Fees Collected: $3,212.43 Electrical Service Provided by: Water District: Sewer District: Current Codes adopted bythe City nyTukwila: International Building Code Edition: International Residential Code Edition: International Mechanical Code Edition: Uniform Plumbing Code Edition: International Fuel Gas Code: Permit Center Authorized Signature: National Electrical Code: vVACities Electrical Code: vV4CZg646O: Code: ate:&)8-, 9 ' I hearby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority toviolate orcancel the provisions ofany other state orlocal laws regulating construction ortheperfonnanoenfwmdk. |amauthorized tosign and obtain this development permit and agree to theconclitions attachedtnthis permit. / Signature: y Date: Print Name: se - This permit shall become null and void if the work is not commenced within 180 days for the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. PERMIT CONDITIONS: l: Work shall be installed in accordance with the approved construction documents, and any changes made during construction that are not in accordance with the approved construction documents shall be resubmitted for approval. 2: All permits, inspection record card and approved construction documents shall be kept at the site of work and shall be open to inspection by the Building Inspector until final inspection approval is granted, 3: Readily accessible access toroof mounted equipment isrequired. 4: All construction shall be done in conformance with the Washington State Building Code and the Washington State Energy Code. S: Remove all demolition rubble and loose miscellaneous material from lot or parcel of ground, properly cap the sanitary sewer connections, and properly fill or otherwise protect all basements, cellars, septic tanks, wells, and other excavations. Final inspection approval will be determined by the building inspector based on satisfactory completion of this requirement. 6: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the City ofTukwila Building Department (ZU6-4]l'367U). 7: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center. 8: VALIDITY OFPERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances ofthe City ofTukwila shall not bevalid. The issuance ofapermit based unconstruction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 9: `MECHANICAL PERMIT CONDITIONS*** 10: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center(2O6/431-367U). 11: Manufacturers installation instructions shall beavailable onthe job site atthe time ufinspection. 12: The attached set of mechanical plans have been reviewed by The Tukwila Fire Marshals Officeandam acceptable with the following concerns: 22: Refrigeration systems shall be installed in accordance with the International Mechanical Code and shall be inaccordance with ASHRAEIS. 13: H.V.A.C. units rated at greater than 2,000 cfm require auto -shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #Z437> 14: H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall beequipped with anautomatic shutoff. Automatic shutoff shall beaccomplished byinterrupting the power source of the air -moving equipment upon detection of smoke in the main return -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (|K4C6O6.1,6O62.1) 15: Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #2437) 16: Duct detectors shall send a supervisory signal only upon activation. (City Ordinance #2437) 17: All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #2437) (IFC 901.2) 18: An electrical permit from the City of Tukwila Building Department Permit Center (206-431-3670) is required for this project. 19: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #2436 and #2437) 20: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 21: These plans were reviewed by Inspector 511. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575-4407. PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (206) 438-9350 1400 FIRE FINAL 0703 MECH EQUIP EFF 1800 MECHANICAL FINAL 0609 PIPE/DUCT INSULATION 0705 REFRIGERATION EQUIP 0701 ROUGH -IN MECHANICAL CITY OF TUKWILA Community Development Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http://www.TukwilaWA.gov Mechanical Permit No. VII ‘ 01 Project No. Date Application Accepted: 1.12 Ck Date Application Expires: 1 2_ -l9 (For office use only) MECHANICAL PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. **please print** SITE LOCATION 8700210100 King Co Assessor's Tax No.: Site Address: 18323 Andover Park West, Tukwila, WA 981 Suite Number: nia Floor: Tenant Name: Amazon New Tenant: VI _Yes OWNER _PROPERTY Name: Prime Now, LLC Address: 410 Terry Avenue N. City: Seattle State: WA Zip: 98109 CONTACT PERSON — person receiving all project communication Name: April House Paroline & Associates Address: 3617 SW Charlestown St City: Seattle State: WA Zip: 98126 Phone: (206) 478-0844 Fax: Email: april@parolineassociates.com n/a ..No MECHANICAL CONTRACTOR INFORMATION Company Name: TBD Address: City: State: Zip: Phone: Fax: Contr Reg No.: Exp Date: Tukwila Business License No.: Valuation of project (contractor's bid price): $ Describe the scope of work in detail: Warehouse for new tenant. Adding packaged rooftop units for space air conditioning and heating. Adding warehouse racking, refrigeration equipment, prep room. 250,000 Use: Residential: New .....,.... Replacement E] Commercial: New ...... Replacement Fuel Type: Electric Gas Other: HAApplicationsWorms-Applications On Line\ 2016 ApplicationsVsteehanical Permit Application Revised 1-4-16.docz Revised: January 2016 bb Page 1 of 2 1 Ni Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <100k btu 2 Furnace >100k btu 8 Floor furnace Suspended/walUfloor mounted heater Appliance vent 1 Repair or addition to heat/refrig/cooling system Air handling unit <10,000 cfm Unit Type Qty Air handling unit >10,000 cfm Evaporator cooler Ventilation fan connected to single duct 2 Ventilation system Hood and duct Incinerator — domestic Incinerator — comm/industrial Unit Type Qty Fire damper Diffuser 16 Thermostat 9 Wood/gas stove Emergency generator Other mechanical equipment Boiler/Compressor Qty 0-3 hp/100,000 btu 3-15 hp/500,000 btu 15-30 hp/1,000,000 btu 30-50 hp/1,750,000 btu 50+ hp/1,750,000 btu Noise: Mechanical units need to be in compliance with the Tukwila Noise Code. Maximum permissible sound levels are based on from where the sound is created and where the sound is heard. Additionally, if sound can be heard from within a house at night in a residential zone it may not be allowed. For more details, see TMC 8.22 District of Sound Producing Source District of Receiving Property Residential, Daytime* Residential, Nighttime Commercial Industrial Residential 55 dB(A) 45 dB(A) 57 dB(A) 60 dB(A) Commercial 57 dB(A) 47 dB(A) 60 dB(A) 65 dB(A) Industrial 60 dB(A) 50 dB(A) 65 dB(A) 70 dB(A) *Daytime means 7AM-10PM, Monday through Friday and 8AM-IOPM, Saturday, Sunday and State-reco A few sounds are exempt from the noise code, including: • Warning devices; Construction and property maintenance during the daytime hours (7am-l0pm); Testing of backup generators during the day. d holidays. PERMIT APPLICATION NOTES - Value of construction — in all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the permit center to comply with current fee schedules. Expiration of plan review — applications for which no permit is issued within 180 days following the date of application shall expire by limitation. The building official may grant one extension of time for additional periods not to exceed 90 days each. The extension shall be requested in writing and justifiable cause demonstrated. Section 105.3.2 International Building Code (current edition). I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OF WASFIINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER,OR AUTb1OIUZED AGENT: Signature: Print Name: April House-Paroline & Associates Mailing Address: 3617 SW Charlestown St Seattle WA 98126 Date: 6912, t% / / Day Telephone: (206) 478-0844 City State Zip H:1AppGmtionslFonns•Applications On Linel2016 ApplicationsWechanical Permit Application Revised 1-4I6.doca Revised: January 2016 bh Page 2 of 2 \ PermitTRAK Cash Register Receipt Receipt Number City of Tukwila R18835 70.00 M19-0104 Address: 18323 ANDOVER PARK W Apn: 3523049018 70.00 MECHANICAL 70.00 ADDITIONAL PLAN REVIEW R000.345.830.00.00 1.00 $70.00 TOTAL FEES PAID BY RECEIPT: R18835 $70.00 Date Paid: Wednesday, October 16, 2019 Paid By: KEY MECHANICAL CO OF WASHINGTO Pay Method: CHECK 100302 Printed: Wednesday, October 16, 2019 2:10 PM 1 of 1 rrwSYSTEMS DESCRIPTIONS ACCOUNT QUANTITY PAID PermitTRAK $7,222.67 EL19-0532 Address: 18323 ANDOVER PARK W Apn: 3523049018 $4,015.88 Credit Card Fee $116.97 Credit Card Fee R000.369.908.00.00 0.00 $116.97 ELECTRICAL $3,713.25 PERMIT FEE MULTI-FAM/COMM R000.322.101.00.00 0.00 $3,630.73 PERMIT FEE MISCELLANEOUS R000.322.101.00.00 0.00 $82.52 TECHNOLOGY FEE $185.66 TECHNOLOGY FEE R000.322.900.04.00 0.00 $185.66 M19-0104 Address: 18323 ANDOVER PARK W Apn: 3523049018 $2,594.66 Credit Card Fee $75.57 Credit Card Fee R000.369.908.00.00 0.00 $75,57 MECHANICAL $2,399.13 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $33.15 PERMIT FEE R000.322.100.00.00 0.00 $2,365.98 TECHNOLOGY FEE $119.96 TECHNOLOGY FEE R000.322.900.04.00 0.00 $119.96 PG19-0090 Address: 18323 ANDOVER PARK W Apn: 3523049018 $612.13 Credit Card Fee $17.83 Credit Card Fee R000.369.908.00.00 0.00 $17.83 GAS $178.00 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $35.00 PERMIT FEE R000.322.100.00.00 0.00 $143.00 PLUMBING $388.00 PERMIT FEE R000.322.100.00.00 0.00 $353.00 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $35.00 TECHNOLOGY FEE $28.30 TECHNOLOGY FEE TOTAL FEES PAID BY RECEIPT: R18377 R000.322.900.04.00 0.00 $28.30 $7,222.67 Date Paid: Tuesday, August 20, 2019 Paid By: APRIL HOUSE Pay Method: CREDIT CARD 510204 Printed: Tuesday, August 20, 2019 1:40 PM 1 of 1 SYSTEMS DESCRIPTIONS PermitTRAK ACCOUNT QUANTITY PAID $9,861.69 D19-0208 Address: 18323 ANDOVER PARK W Apn: 3523049018 $8,170.99 Credit Card Fee $237.99 Credit Card Fee R000.369.908.00.00 0.00 $237.99 DEVELOPMENT $7,933.00 PLAN CHECK FEE R000.345.830.00.00 0.00 $7,933.00 EL19-0532 Address: 18323 ANDOVER PARK W Apn: 3523049018 $934.91 Credit Card Fee $27.23 Credit Card Fee R000.369.908.00.00 0.00 $27.23 ELECTRICAL $907.68 PLAN CHECK FEE R000.345.832.00.00 0.00 $907.68 M19-0104 Address: 18323 ANDOVER PARK W Apn: 3523049018 $617.77 Credit Card Fee $17,99 Credit Card Fee R000.369,908.00.00 0.00 $17.99 MECHANICAL $599.78 PLAN CHECK FEE R000.322.102.00.00 0.00 $599.78 PG19-0090 Address: 18323 ANDOVER PARK W Apn: 3523049018 $138.02 Credit Card Fee $4,02 Credit Card Fee R000.369.908.00.00 0.00 $4.02 GAS $44.50 PLAN CHECK FEE R000.322.103.00.00 0.00 $44.50 PLUMBING $89.50 PLAN CHECK FEE TOTAL FEES PAID BY RECEIPT: R17983 R000.322.103.00.00 0.00 $89.50 $9,861.69 Date Paid: Monday, June 24, 2019 Paid By: ANDREW PAROLINE Pay Method: CREDIT CARD 714280 Printed: Monday, June 24, 2019 3:10 PM 1 of 1 Y HMS CO TUKNILA ETRAKIT 0280 5UUTH[ENTER DLVD TUKwILA, WA 98188 206-433'1870 CITY OF TUKWILA Date: 88/20/2019 01:40:09 PM CREDIT CARD SALE VISA [«no NUMBER: **********4521 K TKAN AMOUNT: $7'222.67 APPROVAL [D: 510204 RECORD #: 000 CLERK ID: Bill Thank you! Customer Copy Page 1 of 2 CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA 0017340000802374464500 Date: 06/24/2019 03:08:28 PM CREDIT CARD SALE VISA CARD NUMBER: **********6173 K TRAN AMOUNT: $9,861.69 APPROVAL CD: 714280 RECORD #: 000 CLERK ID: kandace X {CARDHOLDER'S SIGNATURE} I AGREE TO PAY THE ABOVE TOTAL AMOUNT ACCORDING TO THE CARD ISSUER AGREEMENT (MERCHANT AGREEMENT IF CREDIT VOUCHER) Thank you! Merchant Copy https://www.myvirtualmerchant.com/VirtualMerchant/transaction.do?dispatchMethod—pri... 6/24/2019 INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO_ CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 43'i-3670 Permit Inspection Request Line (206) 438-9350 M‘9-a1°4t. Project: Type of Inspection: f yl e c c+-44% pal- Pr , I-- / TN/IA 7,0") Address: 3234vh-�� I Date Called: 'Special Instructions =bate Wanted: a.m. Requester: . rt�A PhonNo: 7.e et is 57a7 Approved per applicable codes. Corrections required prior to approval. COMMENTS: Inspecto Date: REINSPECTION FEE REQUIRED. Prior to next inspection. fee must b paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 H19-o/c'q Project441 ��� Ty e''f In echo tlt i`t't. Address: Special Instructions: 0 ©ate Wanted. © Z E71?�kr a.m_ p.m. Requester: --.1 0 4 Phone No: EIJApproved per applicable codes. Corrections required prior to approval. REINSPECTION FEE RQUIRE1. Prior to next inspectio'. tee musk ie paid at 6300 Southcenter atid.. Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 Permit Inspection Request Line (206) 438-9350 (206) 431 -3670 Project.% I1'0} 44 IV .. of In ectlon: ��A Q C c --- Address: IS3 Z4%r- . Special Instructions: Date Wad: a.m. p.m. Requeste . Phone No: Approved per applicable codes. Corrections required prior to approval. 1,464-1 Inspector. REINSPECTION FEE REQUIRED. Prior to next inspection. fei must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT Na CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Pro, ect: Type of Inspection: 'Address: /a3.23 iveR ©ate Called: Special Instructions: Date Wanted: ,4 a �.rr `Requester: Pf L L.-- Phone No: /1 no2 � fir/4) ~" proved per applicable codes. COMMENTS: rections required prior to approval. /WC27 tcLc7 Inspecto REINSPECTI©N FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. Date: STRUCTURAL ENGINEERING CALCULATIONS TAMARACK tr GROVE E N E E R N G Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 BRIAN J. SIELAFF, P.E. STRUCTURAL ENGINEERING CALCULATIONS FOR AMAZON PRIME NOW UWA5 TUKWILA, WASHINGTON KPS GLOBAL TGE PROJECT NO.: TGE19-12899 TGE FIRM NO.: 603490470 REVIEWED FOR CODE COMPLIANCE APPROVED ,t-TS OCT1O2019" City of Tukwila BUILDING DIVISION 09/25/19 STAMP DESIGN CRITERIA: STRUCTURAL CODE: RISK CATEGORY: SEISMIC PARAMETERS: RECEIVED CITY OF TUKWILA SEP 3 0 2019 PERMIT CENTER ni 01 0.-f 2015 IBC 11 Ss = 1.424 Si = 0.531 SEISMIC DESIGN CATEGORY: MINIMUM INDOOR LATERAL LOAD: 5.0 PSF PANEL DEAD LOAD: 5.0 PSF CEILING LIVE LOAD: 10.0 PSF 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 1 of 40 STRUCTURAL ENGINEERING CALCULATIONS Emn/"rc°/"o p,ojou Name: AMAZON uvxAS Location: TUKVxILA.\0A TGE Job Number: TGE1942899 TABLE OF CONTENTS I PROJECT INFORMATION 3 zSCOPE OFWORK --.................. ----_—........... ............. --- .............. ----...... —....... ...... —............... --4 4 4 |[CEVALUATION REPORT, PRODUCT SPECIFICATION LITERATURE AND DESIGN AIDS 5 GENERAL STRUCTURAL NOTES 6 SEISMIC ANALYSIS 7 STRUCTURAL ENGINEERING CALCULATIONS 8 8 SOFTWARE PRINTOUTS 5 6 27 8.3- H|OlPROF|SREPORT 27 8.2 zOGA. DOWEL BEARING STRENGTH 32 g MATERIAL AND HARDWARE PRINTOUTS 34 9.2 LARKz4gz3. 34 9.2 ENGINEERING BULLETIN NO: gz3(HANGER BRACKET SUPPORT) ]g 9.3 UN|STRUTALLDVVABLES 40 r} � . � 0' � 812m. LaCassia Dr. - owy°. /m=»pmaruo - (208) 345-8941 - (208) 34"946pAX Page uof/m STRUCTURAL ENGINEERING CALCULATIONS cwv.wucR/°v Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 PROJECT INFORMATION Tamarack Grove Engineering TGEProject Number: Date: TGE[ontact: TGEEngineer ofRecord: Project Client Information: Company: Project Number: Contact: Address: Phone: Email: Client Logo: Project Site information: Name: Addres : Coordinates: Phone: Email: Site Elevation: Live and Dead Loads: Panel Live Load: Panel Dead Loads: Steel Facing (ASTK4'A'646): Insulation: Miscellaneous: TOTAL: TGEz9'z2899 gbS/z»z9 Jill Hagen KPSG|oba| FTo7G79 G|ennShuping 420:LN. Beach St. Fort Worth, TX76z37 682.3z7-53S7 G|enn.Shuping@KPSG|obaicnm P s Amazon Prime Now UVVA5 z83z3Andover Park West Tukwila, YVAg83.6O 47-43633~N'122.26665^VV N/A N/A N/A 1.8 PSF (z6GA. —t=u.o2inch) 1.2 PSF 2.0 rSF 5.0 PSF 812S. Luoanmao�-onisw mahouurns- (208) 345-89*1 '(2oa) 345-8946FuX Page uof40 STRUCTURAL ENGINEERING CALCULATIONS mT_" GROVE L^m.wL Ln.wo Project Name: AMAZON uWAS Location: n]wxmLA.VV4 TGE Job Number: TGE194289e 2 SCOPEOFWORK Tamarack Grove Engineering is providing structural engineering calculations for the walk-in manufactured by KPS Global to verify the structural integrity of the panels and anchorage to the slab. The design of the slab/foundation is to be provided by others. Redline drawings provided to the client as needed based on calculations and code requirements. JURISDICTIONAL INFORMATION Seismic Design information: Seismic Parameters: Site Coefficient, FA: Site Coefficient, Fv: Building Site Class: Seismic Design Category: Analysis Procedure Used: Basic Seismic- Force- Resisting - System: Importance Modification Factor, le: Response Modification Factor, Rv: Lateral Pressure Design Information: Minimum Indoor Lateral Load: Ss~1.4z4 g S`~«.S8z g Sm~o.949 g SD` ~o.Bz g z (|8[Tab|e16z]-3.3 (1)) 1.5 (IBC Table z6z3.3,](z)) D (IBC Table z6z3.5.6(z&z)) Equivalent Lateral Force Procedure for Non - Building Stmctues Similar toBuildings Building FrampSystem—LightFramed Walls ofAll Other Materials zu (A5[E7'u»Table 1.S'z) (A6[E7aoTable zz.z'z) 2.5 5.0 PSF 4 |CC EVALUATION REPORT, PRODUCT SPECIFICATION LITERATURE AND DESIGN AIDS • LO5ANGELESRESEARCH REPORT z4gz1FOR KPSGLOBAL (-ARRz4921.) • zoz5NATIONAL DESIGN SPECIFICATION FOR WOOD CONSTRUCTION (zoz5NDS) * |C[E5R'3nz7, °H|LT| KVY|K HU5'EZ(KH'EZ), KVV|KHU5'EZ P(KH'EZ P), KVV|KHUS'EZ'E(KH'EZE), AND KWIK HUS- EZ I (KH-EZ 1) CARBON STEEL SCREW ANCHORS FOR USE IN CRACKED AND UNCRACKED CONCRETE" 812S. Laoasoiao�-ovisu Idahoourns- (208)3*5-89*1-p0834e-8946rAX Page «of^V STRUCTURAL ENGINEERING CALCULATIONS ENGINEERING Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 S GENERAL STRUCTURAL NOTES GENERAL STRUCTURAL NOTES: A. CONTRACTOR TO VERIFY ALL OPENINGS, BUILDING DIMENSIONS, COLUMN LOCATIONS AND DIMENSIONS WITH OWNER PRIOR TO SETTING OF ANY COOLER BOXES OR CONSTRUCTION. B. THE ENGINEER OF RECORD IS NOT RESPONSIBLE FOR ANY DEVIATIONS FROM THESE PLANS UNLESS SUCH CHANGES ARE AUTHORIZED IN WRITING TO THE ENGINEER OF RECORD. C. THE CONTRACTOR IS RESPONSIBLE FOR PROVIDING SAFE AND ADEQUATE SHORING AND/OR TEMPORARY STRUCTURAL STABILITY FOR ALL PARTS OF THE STRUCTURE DURING CONSTRUCTION. THE STRUCTURE SHOWN ON THE DRAWINGS HAS BEEN DESIGNED FOR FINAL CONFIGURATION. D. NOTCHING AND/OR CUTTING OF ANY STRUCTURAL MEMBER IN THE FIELD IS PROHIBITED, UNLESS PRIOR CONSENT IS GIVEN BY THE ENGINEER OF RECORD. E. ALL FUTURE ROOF/CEILING MOUNTED EQUIPMENT NOT CURRENTLY SHOWN ON THE APPROVED SHOP DRAWINGS SHALL BE COORDINATED WITH THE FOR PRIOR TO ANY INSTALLATION, TYP. F. THE ASSUMED THICKNESS OF EXISTING CONCRETE WILL BE 4" WITH AN fc OF 2,500 PSI, UNLESS OTHERWISE NOTED IN CALCULATIONS. 2. SPECIAL INSPECTIONS & TESTING (QUALITY ASSURANCE PLAN): A. GENERAL: i. INDEPENDENT TESTING LAB SHALL BE RETAINED BY OWNER TO PROVIDE INSPECTIONS AND SPECIAL INSPECTIONS AS DESCRIBED HEREIN. 2. THE CONTRACTOR IS RESPONSIBLE FOR COORDINATING AND PROVIDING ON SITE ACCESS TO ALL REQUIRED INSPECTIONS AND NOTIFIES TESTING LAB IN TIME TO PERFORM SUCH INSPECTIONS PRIOR. 3. DO NOT COVER WORK REQUIRED TO BE INSPECTED PRIOR TO INSPECTION BEING MADE. IF WORK IS COVERED, CONTRACTOR WILL BE RESPONSIBLE FOR UNCOVERING AS NECESSARY. 4. THE CONTRACTOR SHALL CORRECT ALL DEFICIENCIES AS NOTED WITHIN THE SPECIAL INSPECTION REPORTS AND/OR THE ENGINEER OF RECORD'S FIELD OBSERVATION (STRUCTURAL OBSERVATIONS) REPORTS TO BRING THE CONSTRUCTION INTO COMPLIANCE WITH THE CONTRACT DOCUMENTS, ADDENDUMS, REVISIONS, RFI'S AND/OR WRITTEN INSTRUCTIONS. THE CONTRACTOR IS RESPONSIBLE TO REQUEST SUMMARY REPORTS FROM THE SPECIAL INSPECTOR AND ENGINEER OF RECORD AT THE TIME OF THE PROJECT SUBSTANTIAL COMPLETION. PRIOR TO REQUESTING THE SUMMARY OF STRUCTURAL OBSERVATION REPORTS FROM THE ENGINEER OF RECORD, THE CONTRACTOR SHALL SUBMIT TO THE ARCHITECT AND ENGINEER OF RECORD A LETTER STATING THAT ALL OUTSTANDING ITEMS NOTED ON PREVIOUS STRUCTURAL OBSERVATION REPORTS HAVE BEEN COMPLETED IN ACCORDANCE WITH THE CONTRACT DOCUMENTS, ADDENDUMS, REVISIONS, RFI'S AND/OR WRITTEN INSTRUCTIONS. B. SPECIAL INSPECTIONS: i. ALL SPECIAL INSPECTIONS SHALL BE PERFORMED TO MEET THE REQUIREMENTS OF THE 2025 INTERNATIONAL BUILDING CODE (203.5 IBC) AS RECOMMENDED BY THE LOCAL BUILDING JURISDICTION. 2. REQUIRED SPECIAL INSPECTIONS SHALL BE PERFORMED BY AN INDEPENDENT CERTIFIED TESTING LABORATORY EMPLOYED BY THE OWNER PER SECTION 3.704 OF THE 203.5IBC FOR THE AREAS INDICATED IN THE SPECIAL INSPECTION PROGRAM. 3. THE INDEPENDENT CERTIFIED TESTING LABORATORY AND INSPECTORS SHALL BE A QUALIFIED PERSON WHO SHALL SHOW COMPETENCE TO THE SATISFACTION OF THE LOCAL BUILDING OFFICIAL, OWNER, ARCHITECT AND ENGINEER OF RECORD FOR THE PARTICULAR OPERATION. ALL SPECIAL INSPECTION REPORTS SHALL BE SUBMITTED TO THE BUILDING DEPARTMENT, ARCHITECT AND ENGINEER OF RECORD STATING THE PROJECT NAME AND ADDRESS. 4. THE CONTRACTOR AND SPECIAL INSPECTOR SHALL NOTIFY THE ENGINEER OF RECORD OF ANY ITEMS NOT COMPLYING WITH THE PROJECT SPECIFICATIONS, CONTRACT DOCUMENTS AND/OR APPLICABLE CODES BEFORE PROCEEDING WITH ANY WORK INVOLVING THAT ITEM. THE ENGINEER OF RECORD WILL REVIEW THE ITEM AND DETERMINE ITS ACCEPTABILITY. IF WORK INVOLVING THAT ITEM PROCEEDS WITHOUT PRIOR APPROVAL FROM THE ENGINEER OF RECORD, THEN THE WORK WILL BE CONSIDERED NON -COMPLIANT. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 5 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK P GROVE F.NGiNEER IMO Project Name: AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 6 SEISMIC ANALYSIS OTC Hazards by Location Search Information Address: 18323 Andover Park W. Tukwila, WA 98188, USA Coordinates: 47.436334, -122.25664599999999 Elevation: 26 ft Timestamp: 2019-07-24T17:0517.443Z Hazard Type: Seismic Reference ASCE7-10 Document: Risk Category: II Site Class: MCER Horizontal Response Spectrum sa(e) 1.40 1.20 1.00 0.80 0.60 0.40 0.20 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7,0 Period (s) It st-11, Go g!e inarnaa Redmond Sr -1'61- 26 ft Kent u Tacoma 0 PL J" up • • Map Report map erns Design Horizontal Response Spectrum sa(e) 0.80 0.60 0.40 0.20 0.00 Basic Parameters Name Value Description Ss 1.424 MCER ground motion (period=0.2s) Si 0.531 MCER ground motion (period=1.0s) Sms 1.424 Site -modified spectral acceleration value SM1 0.797 Site -modified spectral acceleration value Sos 0.949 Numeric seismic design value at 0.2s SA SDi 0.531 Numeric seismic design value at 1.0s SA Additional Information Name Value Description SDC D Seismic design category Site amplification factor at 0.2s 1.5 Site amplification factor at 1.0s 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 Period (s) 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 6 of 40 STRUCTURAL ENGINEERING CALCULATIONS CRs 0.952 CR1 0.934 PGA 0.584 FpGA PGAM 0.584 Tt SsRT 1.424 TAMARACK GROVE ELMO Project Name; AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 Coefficient of risk (0.2s) Coefficient of risk (1.0s) MCEG peak ground acceleration Site amplification factor at PGA Site modified peak ground acceleration Long -period transition period (s) Probabilistic risk -targeted ground motion (0.2s) SsUH 1.496 Factored uniform -hazard spectral acceleration (2% probability of exceedance in 50 years) SsD 3.064 Factored deterministic acceleration value (0.2s) S1RT 0.531 Probabilistic risk -targeted ground motion (1.0s) S1UH 0.569 Factored uniform -hazard spectral acceleration (2% probability of exceedance in 50 years) S10 0.978 Factored deterministic acceleration value (1.0s) PGAd 1.098 Factored deterministic acceleration value (PGA) The results indicated here DO NOT reflect any state or local amendments to the values or any delineation lines made during the building code adoption process. Users should confirm any output obtained from this fool with the local Authority Having Jurisdiction before proceeding with design. Disclaimer Hazard loads are provided by the U.S. Geological Survey Seismic Design Web Services. While the information presented on this website is believed to be correct, ATC and its sponsors and contributors assume no responsibility or liability for its accuracy. The material presented in the report should not be used or relied upon for any specific application without competent examination and verification of its accuracy, suitablity and applicability by engineers or other licensed professionals. ATC does not intend that the use of this information replace the sound judgment of such competent professionals, having experience and knowledge in the field of practice, nor to substitute for the standard of care required of such professionals in interpreting and applying the results of the report provided by this website. Users of the information from this website assume al liability arising from such use. Use of the output of this website does not imply approval by the governing building code bodies responsible for building code approval and interpretation for the building site described by latitude/longitude location in the report. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 7 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK GRO ENGiNELRING 7 STRUCTURAL ENGINEERING CALCULATIONS Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 JURISDICTION INFORMATION JURISDICTION: STRUCTURAL CODE: TUKWILA, WA 2015 INTERNATIONAL BUILDING CODE OK := NG := 0 DESIGN CRITERIA SFISNITC_CATTERIA S = 0.949 R.= 2.5 41=1.0 Design Spectral Response for Short Period, (g) Response Modification Factor Importance Modification Factor BASIC DESIGN VALUES LLI„1:=10 pal PEL := 300 lbf DLpa„.1:= 5 paf Pfnt$ rival 5 paf Cooler Panel Live Load Imposed Live Load Cooler Panel Dead Load Minimum Indoor Lateral Load ASD LOAD COMB ATION (7-10) 15 pef Load Combination 3: D+(Lr, S, or R) 1) DESIGN CALCULATIONS: <1-001> Width= 75.33 ft Length7,114.75 ft tpaw rriling := 3.5 in = 3.5 in if= 12.29 ft H,,:= 12 ft PANEL MANUFACTURER: KPS GLOBAL Unit Width Unit Length Ceiling Panel Thickness (Worst Case) Wall Panel Thickness (Worst Case) Mean Ceiling Height Mean Wall Height PANEL SPECIFICATION: 3.5" WOOD FRAME URETHANE PANELS (LARR #24921) 812 S. La Cassia Dr. • Boise, Idaho 83705 (208) 345-8941 • (208) 345-8946 FAX Page 8 of 40 nni • Trvidth = 39 Pif ( Wdetogn_celling • L STRUCTURAL ENGINEERING CALCULATIONS TAMARACK GROVE CEILING PANE L:=7 ft L„ii:= 7.17 ft Twidth:=3-92 ft LOADS: mma.r:= max 8 Wde,qgtt_ceiling L 2 L wairixismg := 80 Paf • 7' wtrith = 314 Pl) Wall milin 8 V allow := - Wall ey-iling • Lai/ — 1124 ibf 2 2 CHECK Itl,n› 4 Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 Design Length Corresponding Allowable Span (LARR 24921) Tributary Width of Panel for Evaluation Governing Load Combination for Ceiling — 525 ft-lbf Maximum Moment = 300 lbf Maximum Shear Allowable Panel Load (LARR 24921) = 2015 ft • ibf Allowable Moment Allowable Shear Valkne Vnutx = 1 SUMMARY: THEREFORE, USE 3.5" WOOD FRAMED PANELS FOR CEILING PER PLAN. 812 S. La Cassia Dr. • Boise, Idaho 83705 (208) 345-8941 • (208) 345-8946 FAX Page 9 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK P GROVE EN R N Project Name: AMAZON UVVA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 3) SUSPENDED CEILING ALL THREAD ANALYSIS <1-001> • := 3.92 ft S all_thrrad 7 ft LOADS: WrieNigra • Treidth = 20 Pli P DL panci. T width S all_thrnari = 137 lbf P LLtxmel"Twidth'Sall_thrflvi= 274 lbf Fp_„„1:= 0.2. S Ds • PDL = 26 lbf Tributary Width of Panel on Suspension Line Spacing of AO -Thread Governing Load Combination for Ceiling Total Dead Load on Rod Total Live Load on Rod Generated Seismic Uplift Force per Rod C 0.7 • Fp,,„t — 0.6 wdesia„ • Se_threm = —64.1 lbf Compression Load per Rod NOTE: NEGATIVE VALUE INDICATES NO COMPRESSION IS PRESENT ALL -THREAD ROD: f?:= 1.67 K:=1.0 F!,:= 36 kai E:= 29000 kai dr :=0.375 in 2 ) Agr„,:=71. =0.11 in 2 Gross Cross -Sectional Area of Rod • ASD Factor Length Factor Nominal Yield Strength of All -Thread Modulus of Elasticity for Steel Diameter of All -Thread Rod \ 2 ASTM STEEL CONSTRUCTION MANUAL CHAP. D - MEMBERS IN TENSION: T ”:=F w• 3976.078 lbf T, Tai 2380.885 lbf THREADED ROD CHECK Pin+ PLL all 1 Nominal Yield Strength of Rod Allowable Yield Strength of Rod NOTE: REFERENCE THE DESIGN AIDS SECTION FOR THE MAXIMUM SPACING ALLOWED FOR KPS SUSPENSION BRACKETS, THE SPACING PER PLANS MEETS THE REQUIRED LIMITATIONS SUMMARY: THE ALLOWABLE LOADS ARE GREATER THAN THE ACTUAL LOADS ON THE ROD. THEREFORE, USE 3/17" THREADED ROD TO SUSPEND CEILING PANELS FROM EXISTING STRUCTURE PER PLAN. G. C TO yERIFY EXISTING STRUC77JRE IS CAPABLE OF RESISTINti SPECIFIED LOADS. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 10 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK W GROVE NEER HREAD TO (E) JOIST ANALYSIS. Project Name: AMAZON UWA5 Location: TUXWILA, WA TGE Job Number: TGE19-12899 NOTE; NOTE: PER THE CONTARCTOR, THE (E) BUILDING JOISTS ARE RUNNING PERPENDICULAR TO THE CEILING PANEL SPAN. THE LOADS SHOWN BELOW ARE SELECTED BASED ON ALL POSSIBLE LOAD LOCATIONS THAT PRODUCE THE LARGEST BENDING MOMENT. Sgs'=8 ft UNISTRUT ANALYSIS: Lb,,,,„:=Sjoi,„= 8 ft T tettith '= 3-92 ft LOADS: PDL = 137 lbf — 2 • Twicith a := =0.08 ft 2 M„ := 490 Of - ft ALLOWABLE LOADING: Lallow := 10 ft := 340 lbf FOSIh 1 .0 FOS := 1 FOS b„„,:= 0.66 F0.5,,,1„, • F (E) Joist Spacing Unistrut Length Ceiling Width All -Thread Rod Dead Load b := a + T 4 ft c + 2- T width= 7.92 ft Maximum Moment (Enercalc) Allowable Unistrut Length (Unistrut Catalog No. 17) Allowable Total Load on Unistrut (Unistrut Catalog No. 17) Shape Reduction Factor Load Type Reduction Factor Load Type Reduction Factor cad' FCISbracing &low I.' allow —561 lb.,' • ft Allowable Moment 4 CHECK: Ala> max M„) = 1 ALL -THREAD ROD ANALYSIS: Twidthjuw_i := Sjuisfs = 8 ft T tvidth_jm3(_2 S _thread = 7 ft Pmar:= 2 DidpandT,= CHECK: T„ji >P 140 lbf Tirbutary Width 2 of Ceiling on Connection Tirbutary Width 1 of Ceiling on Connection Maximum Load Per All -Thread Rod 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 11 Of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK ` GROVE E N G i N E E R i N G Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 SAMMY'S ANALYSIS P,,,,, =140 Ibf CD:=0.9 p:=1 in d .i.,.u, := 0.25 in Tr ,v4 2 Valr_+�ammy:=CD•210 lbf • =95 lbf 8 • dxcrcw CHECK: na • Vall M , nby > Pm/2 = 1 Maximum Connection Load Load Duration Factor Screw Embedment (Worst Case) Screw Diameter Number of Screws Allowable Shear of Screws SUMMARY: PROVIDE THE UNISTRUT, ALL -THREAD ROD, AND JOIST ATTACHMENTS PEI� PLANS FOR CEILING SUSPENSION SUPPORT, 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 12 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK 11 GROVE NEER ICAL.WALt. PANEL = 12 ft 7.08 ft Tundth,ceiling := 2 T = 3.92 ft LOADS: W i gn_reil P LL + DLpimet• T _reit ing = 87.7 Pij width Han 12 ft Pail := 2080 pif de.sign_urnir• T width= 20 Of := Pinternal air,,:= 12.66 ft Wau:= 23.2 pal • 7 'dth= 91 pif 1-(1 de qign_ceiling WdEsign_tordi = 0.26 1?turetbirred := 1-4/1_axial Wan CHECK < 1.0 =1 H. au„,0=1 Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 Design Height Tributary Width of Ceiling on Wall Tributary Width of Ceiling Panel Total Axial Load From Ceiling Allowable Height for Axial Load (LARR 24921) Total Allowable Axial Load (LARR 24921) Transverse Load on Wall Allowable Height for Transverse Load (LARR 24921) Total Allowable Transverse Load Combined Axial and Bending Ratio SUMMARY: THEREFORE, USE 3.5" THICK WOOD FRAMED URETHANE FOAM PANELS FOR WALLS PER PLAN. GRIDLINES_LAYOUT, 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 13 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK GROVE iNEER1 Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: 'TGE19-12899 6) LATERAL ANALYSIS OF WALK-IN PER ASCE 7-10 CHAPTER 15, SECTION 15.1.3, "STRUCTURAL ANALYSIS PROCEDURES FOR NONBUILDING STRUCTURES THAT ARE SIMILAR TO BUIDINGS SHALL BE SELECTED IN ACCORDANCE WITH SECTION 12.6". THUS, AS PER ASCE 7-10 SEC. 12.6, THE EQUIVALENT LATERAL FORCE PROCEDURE WILL BE USED. SEISMIC CRITERIA: 5,:= 1.424 Seismic Coefficient F= 1 Site Amplification Factor := 0.531 Seismic Coefficient S Ds 0.949 Seismic Coefficient Spi:= 0.531 Seismic Coefficient TL := 6 Long -Period Transition h 12 Height of Structure In Feet (Unitless) Ct= 0.02 Approximate Period Parameter 1 (Table 12.8-2) x=0.75 Approximate Period Parameter 2 (Table 12.8-2) DESIGN CRITERIA: Length • Width = 8644 ft' Total Area of Ceiling := 2. Width +2. Length = 380 ft Total Length of Walls LATERAL FORCE GERERATION: VVt:= I Hit., • L • DL Wail punt' 2 =54625 ibf Effective Seismic Weight T„I=C( • h„a" =0,131 Approximate Fundamental Period NOTE: IF THE STRUCTURE IS 5 STORIES OR LESS ABOVE THE BASE, Ss MAY BE RECALCULATED AS: S.,;= if(Ta < 0.5 , min 1.5,5),S) = 1 Seismic Coefficient (12.8.1.3) Sns:=-2. Fa. $n= 0.95 3 SDS := I R Design Spectral Response for Short Period, (g) =0.38 Seismic Response Coefficient (Sec. 12.8.1.1) C, ;= if T, < , SDi SD1.TL T.• R r Ty • =2 max (0.044 • Sps • le ,0.01) = 0.042 if S1>0.6, ° 5 Si , Cs „ = 0.042 /I le „„„ =0.38 Maximum Coefficient Minimum Coefficient Minimum Coefficient Seismic Response Coefficient 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 14 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK ` GROVE E N G 1 N G Cs:=min(C ,C4 „tea.}=0.38 Fp:=C,.Wt=20743 ibf FF Qom:=0.7•Fp=14520 ibf • Length • P,ntcr,uil = 3526 Ibf Project Name: AMAZON UWA5 Location TUKWILA, WA TGE Job Number: TGE19-12899 Seismic Response Coefficient Seismic Base Shear ASD Seismic Base Shear Lateral Force from Minimum Indoor Lateral Load (1-1) Fp_de.4,g„_1:=max(Fp_aad,Fp_pr�=14520 ibf Lateral Design Force (1-1) wJcsig„1 Fp_deargtt ' 127 pif Distributed Design Load (1-1) Length Lateral Force from Minimum Indoor Lateral Load(2-2) Fp_dEsig„ 2 := max (Fp a4d + Fp_prcSs1tre2}=1.4520 ibf Lateral Design Force (2-2) p_prcFt nrc_2 2 • VY taTh • P,Rt,,+.„va = 2315 ibf yid, , Fp_de4g,1_2 =193 pif Distributed Design Load (2-2) ri"iY„_z = Width. SHEAR WALLCALCULATIONS: L,:=Width-9 ft=66 ft Length of Wall Line 1 urde�,t_i • Tw,du+_! = 109 pif L2 := Wi dth = 75.33 ft Length of Wall Line 2 wde.s,g„_1 • Twidth-2 _ 96 of L2 Tu*,dlh_I — Length 2 = 57.4 ft Tributary Width In -Plane Force on Wall A Length Turdth 2:= 2 — 57.4 ft Tributary Width In -Plane Force on Wall B L Length 105.75 t Length of Wall Line A T Width =37.7ft Tributa Width ,, �= g ft= f 9 „pdths+:= 2 rY r_2 Ttaidtl;_A =69 pif LA In -Plane Force on Wall A hn := Length= 115 ft Length of Wall Line B T,, i ilh ri 11/dcsig.+_2•Tuirttt_13 =63 of La ape non (L, Hu Fat!_iriptunc := l 60 Of CHECK: =4 Faft_lnp,a,wimax (ft ffz,fA,fB) = 1 Width 2 =37.7 ft Tributary Width In -Plane Force on Wall B Allowable In -Plane Shear (LARR 24921) SUMMARY: THEREFORE USE3.5" THICK WOOD FRAMED URETHANE FOAM PANELS FO%j LATERAL RESISTANCE, 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 15 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK Tr GROVE ENGINEERING Project Name: AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 7) TYPICAL CEILING TO WALL CONNECTION (DETAI 1) LOADS: H Pte03)...?:'= P61 2 f max VI f2 f 0=109 Of f --109 pif 3/8" LAG BOLT: S bolt= 24 in Dhoti= 0.375 in pboit := 1.5 in CD:. 1.6 Co• 180 lbf • Punic 8. Dboit V all_bnit:= = 72 Of S bolt Molt C • 110 lbf • 8 DNA( V au butt 9(0= = 4.4 Of Sboic #14 TEK SCREW: 12 in 76 lbf =76 of V all_serrwil 1:= S r u 57 ibf =57 of Tllwretp11:= ''''SC/110 CHECK firepirtne 5 V cal Jolt +V all = 1 Transverse Shear Force on Wall -Ceiling Connection In -Plane Shear Force on Wall -Ceiling Connection Goveming Shear Force on Wall -Ceiling Connection Spacing of Lag Bolt Diameter of Lag Bolt Lag Bolt Penetration into Main Member Load Duration Factor for Wind & Seismic (2015 NDS) Allowable Shear on Bolt - Parallel to Grain (2015 NDS) Allowable Shear on Bolt - Perp. to Grain (2015 NDS) Spacing of #14 Tek Screw Through Angle Allowable Shear of #14 Tek (Dowel Bearing Strength Printout) Allowable Tension of #14 Tek (2015 NDS) Ptrons Vair_boIL90 = 1 5UMMARY: THE MAXIMUM FORCE ON THE CONNECTION IS LESS THAN THE ALLOWABLE FORCE. THUS. CEILING -WALL CONNECTION IS ACCEPTABLE FOR RESISTING IMPOSED LOADS, 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-B941 • (208) 345-8946 FAX Page 16 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK GROVE ENGINEER( Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 8) WALL TO CONCRETE CONNEC i IONS (DETAIL 2) LOADS: Ptrans.:=Pintemti•-2-11 =31 plf fatoame := max f2 fA ILO = 109 plf max (pf,,,„,fi„vina) = 109 plf #14 TEK SCREW: L„,:= 1.5 in-0.05 in= 1.45 in Transverse Shear Force on Floor -Wall Connection In -Plane Shear Force on Floor -Wall Connection Governing Shear Force on Floor -Wall Connection Penetration Length of Screw in Main Member 12 in Spacing of #14 Tek Screw Through Angle Vascre-w_l 1 = Ta/Lscretv .14 '= lbf 104.7 — • Lm in w -152 Of lbf 121 -7-- • Lut sn = 175 plf S„,„„, Allowable Shear of #14 Tek (Dowel Bearing Strength Printout) Allowable Tension of #14 Tek (2015 NDS) 1/4" HILTI KH-EZ: Sandia,. := 24 in Spacing of Anchor Through Angle f/0 := 2.0 Overstrength Factor (ASCE 7-10) nu' f max' anchor Vanrhor = 625 lbf LRFD Shear Force on Anchor 0.7 Van !anchor 1= 750 114 Allowable Shear on Anchor (Hilti Anchor Software Printouts) NOTE: SEE HILTI REPORT FOR THE ANCHOR ANALYSIS. CHECK f tnplanc Val qrrcw11 = 1 Ptrans -5- Tfall_wrew_l = 1 vanchor V a:Lam-bar = 1 SUMMARY: THE MAXIMUM FORCE ON THE CONNECTION IS LESS THAN THE ALLOWABLE FORCE; THEREFORE, THE WALL -FLOOR CONNECTION IS ACCEPTABLE FOR RESISTING IMPOSED LOADS. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 17 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK 'Tr GROVE 1.4 E R Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 1) DESIGN CALCULATIONS: <2-F01> Width:.= 50.25 ft Length := 79.25 ft tpanel. 5 in tp„,,i n := 5 in 11=12.83 ft 1-1:= 12 ft PANEL MANUFACTURER: KPS. Unit Width Unit Length Ceiling Panel Thickness (Worst Case) Wall Panel Thickness (Worst Case) Mean Ceiling Height Mean Wall Height PANEL SPECIFICATION: 5" WOOD FRAME URETHANE PANELS (LARR #24921) PICAL CEILING PANEL L:=7 ft := 8.83 ft Tdt 3.92 ft LOADS: Wiksign flZrnL:= max vr,„ i= max ei.Ttvidtli= 39 Pli ( ifide,sigrn_ceittng•L2 PLL • L 8 4 ,PLI,)= 274 lbf tvdcsifm_cc-iling L Design Length Corresponding Allowable Span (LARR 24921) TributaryWidth of Panet for Evaluation Governing Load Combination for Ceiling = 480 ft.lbf Maximum Moment 2 ding ;= 100 P8f • 7-width = 392 Of walketitaig Lai/2 := 8 Lau = 1731 lbf 2 =3820 ft • ibf Maximum Shear Allowable Panel Load (LARR 24921) Allowable Moment Allowable Shear CHECK Mei cilow> v=1 SUMMARY: THEREFORE. USE 3.5" WOOD FRAMED PANELS FOR CEILING PER PLAN. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 18 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK "fi GROVE R Project Name: AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 3 SUSPENDED CEILING ALL THREAD ANALYSIS <1 1> T width 3.92 ft Sail_thread 7 ft LOADS: Tributary Width of Panel on Suspension Line Spacing of All -Thread '1-1'1 de xi gli :=DLI),„0 • Todth = 20 plf Governing Load Combination for Ceiling P DI := L paw.:•T width S all_thrrad '="" 137 lbf Total Dead Load on Rod P LL LL wit!. • T wirtth • S ofijitmad = 274 lbf F 0.2 •gos* Pm= 26 lbf Total Live Load on Rod Generated Seismic Uplift Force per Rod 0.6. gp • = —64.1 ibf Compression Load per Rod NOTE: NEGATIVE VALUE INDICATES NO COMPRESSION IS PRESENT ALL -THREAD ROD: Q 1.67 ASD Factor K:=1..0 Length Factor F = 36 kiwi Nominal Yield Strength of All -Thread E:= 29000 kei Modulus of Elasticity for Steel dr„d:=0.375 in Diameter of All -Thread Rod A„ „ = 7r • (d,. 2 =OM in2 Gross Cross -Sectional Area of Rod ASTM STEEL CONSTRUCTION MANUAL CHAP. D - MEMBERS IN TENSION: Fy AgrOM = 3976.078 lbf T oz. 2380.885 lbf THREADED ROD CHECK P P fj.,< Tan = Nominal Yield Strength of Rod Allowable Yield Strength of Rod ceiling NOTE: REFERENCE THE DESIGN AIDS SECTION FOR THE MAXIMUM SPACING ALLOWED FOR KPS SUSPENSION BRACKETS. THE SPACING PER PLANS MEETS THE REQUIRED LIMITATIONS. SUMMARY.' THE ALLOWABLE LOADS ARE GREATER THAN THE ACTUAL LOADS ON THE ROD, THEREFORE, USE 3/2" THREADED ROD TO SUSPEND CEILING PANELS FROM EXISTING STRUCTURE PER PLAN. G.E. TO VERIFYEXISTING STRUCTURE IS CAPABLE OF RESISTING SPECIFIED LOADS, 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 19 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK It GROVE Gi t Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 4) ALL —THREAD TO (E) JOIST ANALYSIS NOTE: PER THE CONTARCTOR, THE (E) BUILDING JOISTS ARE RUNNING PERPENDICULAR TO THE CEILING PANEL SPAN. THE LOADS SHOWN BELOW ARE SELECTED BASED ON ALL POSSIBLE LOAD LOCATIONS THAT PRODUCE THE LARGEST BENDING MOMENT. ft UNISTRUT ANALYSIS: :=Sjoios = 8 ft Tdth= 3.92 ft LOADS: p DL'137 lbf — 2 • Twidth := =0.08 ft 2 Amu. := 490 lbf ft ALLOWABLE LOADING: Lau„:= 10 ft pakm,:= 340 lbf Fosth,- 1.0 FOS := 1 FOSbr„,i,9:=0.66 Atell *= 4 (E) Joist Spacing Unistrut Length Ceiling Width All -Thread Rod Dead Load b := a + Twidth = 4 ft c := a + 2. T,„,?,= 7.92 ft Maximum Moment (Enercalc) Allowable Unistrut Length (Unistrut Catalog No. 17) Allowable Total Load on Unistrut (Unistrut Catalog No. 17) Shape Reduction Factor Load Type Reduction Factor Load Type Reduction Factor FOS,th4p, • FOS load • MS &mon, • Pat low • know = 561 lbf. ft Allowable Moment CHECK: /1411> tt = 1 ALL -THREAD ROD ANALYSIS: joi.t :=Siocct,s =8 ft Tw,dth_,2:=5ti1_threcid = 7 ft DL nd • Teridth_jai.0_1 • Twidth_ini,5t-2 = 140 lbf P1114.1":= Pn 2 CHECK: Tall> P =1 Tirbutary Width 2 of Ceiling on Connection Tirbutary Width 1 of Ceiling on Connection Maximum Load Per All -Thread Rod 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 20 of 40 STRUCTURAL ENGINEERING CALCULATIONS SAMMY'S ANALYSIS P,,140 lbf cD:= 0-9 p:=l in := 0.25 in 71'NerfITLW := 2 CHECK: TAMARACK 1:1 GROVE E EER C D • 210 lbf P = 95 lbf 8. d Mc,„. nSCITIES V all_samtny> Pular 1 Project Name: AMAZON UWA5 Location: TUKVVILA, WA TGE Job Number TGE19-12899 Maximum Connection Load Load Duration Factor Screw Embedment (Worst Case) Screw Diameter Number of Screws Allowable Shear of Screws SUMMARY: PROVIDE THE UNISTRUT ALL -THREAD ROD AND JOIST ATTACHMENTS PER PLANS FOR CEILING SUSPENSION SUPPORT 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 21 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK . GROVE ENGINEER i N G Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 I.. WALL PANEL H= 12 ft 7.08 ft wailkseiling:= 2 — J T width 3.92 ft LOADS: P LI, 87 = pi.7 f < 1.0 =1 W etr,T gn-reiling 1= T width au anal := 16 ft Pallimlni := 2779 Of := Pint(' ma! " Tu,idth = 20 Of 12.5 ft Wan := 46.3 Psf • Twidth =181 Of WileAgn_ccif fug WdEsign-10611 - 0. 14 Rcurnbilied CHECK SUMMARY: THEREFORE, USE 5" THICK WOOD FRAMED URETHANE FOAM PANELS AND AffTHONY DOORS FOR WALLS PER PLAN, Wail Design Height Tributary Width of Ceiling on Wall Tributary Width of Ceiling Panel Total Axial Load From Ceiling Allowable Height for Axial Load (LARR 24921) Total Allowable Axial Load (LARR 24921) Transverse Load on Wall Allowable Height for Transverse Load (LARR 24921) Total Allowable Transverse Load Combined Axial and Bending Ratio Hu, < Haltu..riu; = 1 GRIDUNES LAYOUT: 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 22 of 40 STRUCTURAL ENGINEERING CALCULATIONS 5 e N E E R I N Project Name: AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 PER ASCE 7-10 CHAPTER 15, SECTION 15.1.3, "STRUCTURAL ANALYSIS PROCEDURES FOR NONBUILDING STRUCTURES THAT ARE SIMILAR TO BUIDINGS SHALL BE SELECTED IN ACCORDANCE WITH SECTION 12.6". THUS, AS PER ASCE 7-10 SEC. 12.6, THE EQUIVALENT LATERAL FORCE PROCEDURE WILL BE USED. SEISMIC CRITERIA: 5,,:= I.424 Seismic Coefficient S1:= 0.531 SDS := 0.949 SD1:= 0.531 TL:=6 Seismic Coefficient Seismic Coefficient Seismic Coefficient Long -Period Transition DESIGN CRITERIA: A,,,,tlt;ay := Length • Width = 3982 ft Site Amplification Factor ii„ :_ ft =13 Height of Structure In Feet (Unitless) Cr := 0.02 Approximate Period Parameter 1 (Table 12.8-2) x:=0.75 Approximate Period Parameter 2 (Table 12.8-2) Total Area of Ceiling Lu,RI1 := 2 - Width+ 2 • Length = 259 ft Total Length of Walls LATERAL FORCE GENERATION: jWt : At • DLpnF) +(-i. 2• Liunat • DLpw./ I = 27682 lbf Effective Seismic Weight Ta:=Ct•hT =0.136 Approximate Fundamental Period NOTE: IF THE STRUCTURE IS 5 STORIES OR LESS ABOVE THE BASE, Ss MAY BE RECALCULATED AS: Sh_:= if (T„ c 0.5 , min. (1.5 , S) , S) =1 2 SDs:= •F„-S,=0.95 S G,,:= ns =0.38 Rll if SDI SD • T'L T„ (IR,/� Cs na „:= max (0.044 • SD$ • 1, , 0.01) = 0.042 0 5•S1 C,_n,i„:=if S1?0.6, R ,C,_,i, = 0.042 IF) C, := max (Cs, C,v7,,zn)= 0.38 Cq := in (C, , CS_,,,•,,.) = 0.38 Seismic Coefficient (12.8.1.3) Design Spectral Response for Short Period, (g) Seismic Response Coefficient (Sec. 12.8.1.1) Maximum Coefficient Minimum Coefficient Minimum Coefficient Seismic Response Coefficient Seismic Response Coefficient 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 23 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACKTfGRO ENGINLERI Fp:=C, • Hit = 10512 tbf Fp0.7. F — 7358 Ibf •=p — H Fp_p„_1:= — • Length = 2542 ibf 2 Fp_dcsigrt_l rnax (FId IFp_prcsmure = 7358 IV wdesigrl_1= = 93 Of Length pressure 2 := — • Width • Pi„jer„al= 1612 tbf 2 Project Name; AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 Seismic Base Shear ASD Seismic Base Shear Lateral Force from Minimum Indoor Lateral Load (1-1) Lateral Design Force (1-1) Distributed Design Load (1-1) Lateral Force from Minimum Indoor Lateral Load(2-2) Fp_d„ig„22:= max (Fpj, Fpp„„,,_2 = 7358 tbf Lateral Design Force (2-2) Fp_rintrign_2 wdesixt_2 = 146 Of Distributed Design Load (2-2) Width. SHEAR WALL CALCULATIONS: Li= Width— 6 ft= 44 ft Length of Wall Line 1 TuwLength =39.6 ft ith := 2 Tributary h wde.opc.i. • Twidthi _83 of Li L2 := Width= 50.25 ft In -Plane Force on Wall A Length of Wall Line 2 T„,dth_2:=-- Length =39.6 ft 2 turte.,ign_ wi4th_2 — 73 if 2 LA := 74.58 ft In -Plane Force on Wall B Tributary Width Width Length of Wall Line A T =25.1 ft Tributary Width 2 licsiyat, 2 * Twidth A =49 Of LA In -Plane Force on Wall A LB= Length of Wall Line B u:= Width-25.1 ft Length = 79 ftTributary Width 46 pif J =0.5 min (LI , L2, LA , LB , 22.08 ft) In -Plane Force an Wall B Frdu„pia„,:= 646 Of Allowable In -Plane Shear (LARR 24921) CHECK: FulLiztplam: -? max VI /f2 •f,1f/J) 1 SUMMARY: THERFORE. USES' THICK WOOD FRAMED URETHANE FOAM PANELS FOR LATERAL RESISTANCE, 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 24 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK Tr GROVE E E R WALL CONNEC1 ION (DETAIL LOADS: Ptrans Pititernal =32 pif 2 ,=- max (f ,f2 , f. ,fri) = 83 plf fnukr. := max (Pt ream )finpiane 3/8" LAG BOLT: S boa 24 in Dbnit := .375 in Non := 1.5 in C 1,6 V all_holt := =83 pif C D • 180 Ibf Pboit 8 • Sbuit .72 pif Pbolt C D • 110 lbf • Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 Transverse Shear Force on Wall -Ceiling Connection In -Plane Shear Force on Wall -Ceiling Connection Governing Shear Force on Wall -Ceiling Connection Spacing of Lag Bolt Diameter of Lag Bolt Lag Bolt Penetration into Main Member Load Duration Factor for Wind & Seismic (2015 NDS) Allowable Shear on Bolt - Parallel to Grain (2015 NDS) s•Dbou Allowable Shear on Bolt - Perp. to Grain V all _bult — 44 plf Sh,„it #14 TEK SCREW: 12 in 76 ibf Vail_ek7rm_ 14 : = 7 6 pif "'Acre 11, 57 ibf Tali_scror_14 — 57 Of Tor CHECK f <V a _bait +jc.rew I 4 = 1 (2015 NDS) Spacing of #14 Tek Screw Through Angle Allowable Shear of #14 Tek (Dowel Bearing Strength Printout) Allowable Tension of #14 Tek (2015 NDS) Ptrans 'all bolt DO + V ail...t4Cretv 14 = 1 SUMMARY: THE MAXIMUM FORCE ON THE CONNECTION IS LESS THAN THE ALLOWABLE FORCE THUS. CEILING -WALL CONNECTION IS ACCEPTABLE FOR RESISTING IMPOSED LOADS. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 25 of 40 STRUCTURAL ENGINEERING CALCULATIONS tNG,NEER Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 8) WALL TO CONCRETE CONNECTIONS (DETAIL 2) LOADS: P,a2th =32 Pt/ 2 f utplaw 1= MaX VI f2 fA fB) = 83 Of Lax (Ptruns finpia #14 TEK SCREW: =83 Of L„,:771.5 in — 0 .05 in =1.45 in 12 in 104.7 ibf V aT, „, 11:= = 105 plf TUti 14= 16D NAIL: S.,1:=8 in CD:= 1.6 S ArrClf' =175 Of Transverse Shear Force on Floor -Wall Connection In -Plane Shear Force on Floor -Wall Connection Goveming Shear Force on Floor -Wall Connection Penetration Length of Screw in Main Member Spacing of #14 Tek Screw Through Angle Allowable Shear of #14 Tek (Dowel Bearing Strength Printout) Allowable Tension of #14 Tek (2015 NDS) Spacing of Nail Load Duration Factor for Wind & Seismic (2015 NDS) CD. 98 ibf • 0.5 Allowable Shear of Nail (2015 NDS) V .= —118 Of all mad Snail 1/4" HILTI KH-EZ: .9„„ehar := 24 in Ai= 2.0 Panclinr := 0.7 Van anchor= 750 lbf NOTE: SEE HIL77 REPORT FOR THE ANCHOR ANALYSIS CHECK1inplane Vali_scretrj = Ptrans Tali_srrete_14 = V anchor Vallanchor = 1 f max 5. 17 = 1 f Spacing of Anchor Through Angle Overstrength Factor (ASCE 7-10) .f""u*SamiKA* =475 ibf LRFD Shear Force on Anchor Allowable Shear on Anchor (Hilti Anchor Software Printouts) SUMMARY: THE AfAJCIMUM FORCE ON THE CONNECTION IS LESS THAN THE ALLOWABLE FORCE; THEREFORE . THE WALL -FLOOR CONNECTION IS ACCEPTABLE FOR RESISTING IMPOSED LOADS, 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 26 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK P GROVE N 8 SOFTWARE PRINTOUTS 8.1 HILTI PROFIS REPORT wronv.hilti.us Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 Profis Anchor 2. .0 Company: Specifier; Address: Phone I Fax: E-Mail: Page: Project: Sub-Projecl I Pos. No.: Date: 2/21/2019 Specifiers comments: 1 Input data Anchor type and diameter: KWIK HUS-EZ (KH-EZ) 1/4 (1 5/8) Effective embedment depth: = 1.180 = 1.625 in. Material: Carbon Steel Evaluation Service Report: ESR-3027 issued I Malid: 12/112017 I 12/1/2019 Proof: Design method ACI 318-14 / Mech. Stand -oft installation: et, = 0,000 In. (no stand-off); t 0.050 in. Anchor plate: L x x = 23,000 in. x 1.500 in. x 0.050 in.; (Recommended plate thickness: not calculated Profile: no profile Base material: cracked concrete. 2500. 1, = 2,500 psi; h 4.000 In. Installation: hammer drilled hole, Installation condition: Dry Reinforcement: tension: condition B, shear: condition B; no supplemental splitting reinforcement present edge reinforcement: none or < No. 4 bar Seismic loads (cat. C, D, E, or F) Tension load: yes (17.2.3.4.3 (b)) Shear load: yes (17.2.3.5.3 (a)) - The anchor calculation is based on a rigid baseplate assumption. Geometry Vol & Loading (Ib, in.lb] 3 3 spot data and tests Must bet:Packed for stmestruset with UM eststang Comfit -Mum and tor stmmitsitsyl PROMS Anohor 1e ) 2003-2009 HSU AG, FL-9494 Schasn HAN is a ;needed Trademark of Hed AG, Sam. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 27 of 40 STRUCTURAL ENGINEERING CALCULATIONS www.hilti. us TAMARACK ' GROVE ER Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 Profis Anchor 2.8.0 Company: Specttier: Address: Phone 1 Fax: E-Mail: Page: Project: Sub -Project I Pos. No.; Date: 2 2/21/2019 2 Load case/Resulting anchor forces Load case: Design loads Anchor reactions (lb] Tension force: (+Tension, -Compression) Anchor Tension force Shear force Shear force x Shear force y 1 0 750 750 0 max. concrete compressive strain: - [961 max. concrete compressive stress: . [psi) resulting tension force in (x/y)=(0.000/0.000). 0 (Ib) resulting compression force in (0)=(0.000/0.000): 0 (lb) Anchor forces are calculated based on the assumption of a rigid baseplate. 3 Tension load Load N„,Ub1 Capacity + Nn (Ib] Utilization = PC). Nr. Status Steel StrengthN/A N/A N/A N/A Pullout Strength' N/A N/A NIA N/A Concrete Breakout Strength" N/A N/A N/A N/A ' anchor having the highest loading **anchor group (anchors in tension) keen data and rem men be I:tanked tor agreement wan the ekeeng caeons are for plevekkeir FROM Anchor 1c ) 2003,2039 telti AG. FL-Ek44 Schoen Hi is a naghdered Trademark of Hi AG, Selman 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 28 of 40 STRUCTURAL ENGINEERING CALCULATIONS www.hilti.us Company: Specifier: Address: Phone I Fax: E-Mail: E N 0 P4E E Ft Project Name: AMAZON UWAS Location: TUKVVILA, WA TGE Job Number: TGE19-12899 Profis Anchor 2.8.0 Page: 3 Project: Sub -Project I Pos. No.: Date: 2/21/2019 4 Shear load Load V,, (lb) Capacity + V, [lb] Utilization pv vu.i+ V, Status Steel Strength* 750 837 90 OK Steel failure (with lever arm)* N/A N/A N/A N/A Pryout Strength" 750 763 99 OK Concrete edge failure in direction y-" 750 1,637 46 OK • anchor having the highest loading "anchor group (relevant anchors) 4.1 Steel Strength V.„ = ESR value 4, v,,„, z Variables v 0.05 Calculations V.. [lb] 1.395 Results V, [lb] 1,395 refer to ICC-ES ESR-3027 ACI 318-14 Table 17.3,1,1 fom [Psi) 125,000 0.600 4, nO,Kkall• 1.000 4.2 Pryout Strength ri ANc Vg' 4, AN, see ACI 318-14, Section 17,4.2.1, Fig, R 17,4.2,1(b) Awe Cerein ee.bi 0.7+ 0.3 (,)a 1.0 ,ps 1.c5her Nb = k ),, Variables krp ‘if s.N 1,000 hei [in.] 1.180 ec,N (In.) 0.000 c„ [in.] 2.000 17 • V. (lb] 837 [1b] 750 ACI 318-14 Eq. (17.5.3.1a) ACI 318-14 Table 17,3.1,1 ACI 318-14 Eq. (17.4.2.1c) ACI 318-14 Eq, (17.4,2,4) ACI 318-14 Eq. (17.4.2.5b) ACI 318-14 Eq. (17.4.2,7b) ACI 318-14 Eq. (17.4.2.2a) €12,N (in.) 0.000 1.000 ce.„ [in.] 3.000 [psi) 2,500 Calculations AN, pm?) Aike lirl-1 Y ett N w ae2.14 41 ea N 41 ,P,N 12.53 12.53 1.000 1.000 1.000 1.000 Results V, [lb] 4, 4, 4, nc,n4,,-;14 4, vg, [lb] V, [lb] 1.090 0.700 1000 1.000 763 750 N, (1b) 1,090 Input data end rebate exist be cbobko0 for ',greenbelt with Ihe errebbb condeiores and for PIXISiblIgyi PROFIS Anchor ( c I 20LO-2000Dfillti AG. FL-9404 Schoen Hi is a reuiatenwl Trademark of I-141i AG, Scheer. 812 S. La Cassia Dr. • Boise, Idaho 83705 (208) 345-8941 • (208) 345-8946 FAX Page 29 of 40 STRUCTURAL ENGINEERING CALCULATIONS www.hitti.us TAMARACK tr GROVE F.NGINELRINO Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number; TGE19-12899 Company: Spectfier: Address: Phone I Fax E-Mail: Page: Project: Sub -Project I Pos. No.: Date: Profis Anchor 2.8.0 4 2/21/2019 4.3 Concrete edge failure In direction y- - (4) ed,V 4' NV 'V parellely Vb ACI 318-14 Eq. (17.52.1e) Vth V,. ACI 318-14 Table 17.3.1.1 Av, see ACI 318-14, Section 17.5.2.1, Fig. R 17.5.2.1(b) Avo = 4.5 c2., ACI 318-14 Eq. (17.5,2.1c) 1 = ACI 318-14 Eq, (17,5.2.5) ACI 318-14 Eq. (17,5.2.6b) ) kv 1 '1 1,0 ACI 318-14 Eq. (17,52.8) Vb = (7 (L)°2 Yd. . c:15 ACI 318-14 Eq. (17 5 2 2a) d. Variables cai (in.) cv [in.) tic,. [in.) ‘1, 0/ h. Fn.] 3.000 0.000 1.000 4.000 I. (in.) k . ri. (in.) f.[Psil ky perallely 1.180 1.000 0,250 2,500 2.000 Calculations Av. [in.21 Av.a lin?) y w,v y et1V y h,V 36.00 40.50 1.000 1.000 1,061 Results Vm PI s 4. um,rs, 1 . v. PI 2,339 0,700 1.000 1.000 1,637 Vb [lb] 1,240 V.. (lb] 750 5 Warnings • The anchor design methods in PROFIS Anchor require rigid anchor plates per current regulations (ETAG 001/Annex C, EOTA TR029, etc.). This means load re -distribution on the anchors due to elastic deformations of the anchor plate are not considered - the anchor plate is assumed to be sufficiently stiff, in order not to be deformed when subjected to the design loading, PROFIS Anchor calculates the minimum required anchor plate thickness with FEM to limit the stress of the anchor plate based on the assumptions explained above. The proof if the rigid base plate assumption is valid is not carried out by PROFIS Anchor. Input data and results must be checked for agreement with the existing conditions and for plausibility! • Condition A applies when supplementary reinforcement is used. The 81ac9or is increased for non -steel Design Strengths except Pullout Strength and Pryout strength. Condition B applies when supplementary reinforcement is not used and for Pullout Strength and Pryout Strength, Refer to your local standard, • Refer to the manufacturer's product literature for cleaning and installation instructions. • Checking the transfer of loads into the base material and the shear resistance are required in accordance with ACI 318 or the relevant standard! • An anchor design approach for structures assigned to Seismic Design Category C, D, E or F is given in ACI 318-14, Chapter 17. Section 17.2.3.4.3 (a) that requires the goveming design strength of an anchor or group of anchors be limited by ductile steel failure. If this Is NOT the case, the connection design (tension) shall satisfy the provisions of Section 17.2.3.4.3 (b), Section 17.2.3.4.3 (c), or Section 17.2.3.4.3 (d). The connection design (shear) shall satisfy the provisions of Section 17.2.3.5.3 (a), Section 17.2.3.5.3 (b), or Section 17.2.3.5.3 (c). • Section 17.2.3.4.3 (b) / Section 17.2.3.5.3 (a) require the attachment the anchors are connecting to the structure be designed to undergo ductile yielding at a load level corresponding to anchor forces no greater than the controlling design strength. Section 17.2.3.4.3 (c) / Section 17.2.3.5.3 (b) waive the ductility requirements and require the anchors to be designed for the maximum tension / shear that can be transmitted to the anchors by a non -yielding attachment. Section 17.2.3.4.3 (I) / Section 17,2.3.5.3 (c) waive the ductility requirements and require the design strength of the anchors to equal or exceed the maximum tension / shear obtained from design load combinations that include E. with E increased by too. • Hilo post -installed anchors shall be installed in accordance with the Hilti Manufacturer's Printed Installation Instructions (MPII). Reference ACI 318-14, Section 17.8.1. Fastening meets the design criteria! V.P.A. data and reSUll3 must be checked for agreement -v4J lee coedeons and for pietadottd PROFIS Amt. ( c I 2003,200= Hilt' AG, FL-5404 Sawn NKr is • regilloncl Tratirnark of Heti AG, Scher 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 30 of 40 STRUCTURAL ENGINEERING CALCULATIONS www.hilti.us TAMARACK 'Tr GROVE E E R 14 Project Name: AMAZON UWA5 Location: TUKVVILA, WA TGE Job Number TGE19-12899 Pro s Anchor 2.8.0 Company: Specifier: Address: Phone I Fax E-Mail: Page: Project: Sub-Projecl I Pos. No,: Date: 5 2/21/2019 6 Installation data Anchor plate, steel: Anchor type and diameter: KWIK HUS-EZ (KH-EZ) 1/4 (1 5/8) Profile: no profile Installation torque: 216.002 in.lb Hole diameter in the fixture: Or = 0.375 in. Hole diameter in the base material: 0.250 in. Plate thickness (input): 0.050 in, Hole depth in the base material: 1.836 in. Recommended plate thickness: not calculated Minimum thickness of the base material: 3.250 in, Drilling method: Hammer drilled Cleaning: Manual cleaning of the drilled hole according to instructions for use is required, 6.1 Recommended accessories Drilling Cleaning Setting • Suitable Rotary Hammer • Property sized drill bit 11.500 • Manual blow-out pump • Torque wrench a Y 11.500 • 1- 1 11,500 11.500 Coordinates Anchor in. Anchor x y c., c, 1 0.000 0.000 3,000 3.000 Input dpia and remits MP! be checked lea agreement with the errstrg eandreons and ler s Myr PROFIS Anchor ( 2003-2009 AG, FL-9494 Schean 1-1.11 is a registered Trademark ol Hati AG, Schwan 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 31 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK Ir GROVE E P G 1 N EER IN G Project Name: AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 8.2 18 GA. DOWEL BEARING STRENGTH DOWEL BEARING STRENGTH IN WOOD - 2015 NDS VARIABLE VALUE UNITS DEFINITION Screw # 14 L 1,5 in. Total Screw Length t Jim 26 Skin Gouge t 0,0 18 Angle Gauge SPF Wood Type D 0.196 in. Diameter. D = Dr for reduced body fasteners (see Table L3) F em 3350 psi Dowel Bearing Strength of Main Member Fes 61850 psi Dowel Bearing Strength of Side Member 1 N/A 1+(0.25*( i/90)) where 0 is maximum angle to groin for any member t skin 0.0179 Skin Thickness t ado 0.0474 Angle Thickness T 0.484 Tapered Length L m0.9507 in. Bearing Length in Main Member, L - - t Ono - T L s 0.0474 in. Dowel Bearing Length in Side Member F yb 70000 psi Dowel Bending Yield Strength Re 0.05416 Fem/Fes R , 20.05696 Lm/Ls I \ IRe + 2Re2(1 + R( +R,2) + Rt2Re3 — Re(1 + Rt) ki 0.448262403 (1 + Re) 2Fyb(1 + 2Re)D2 Re) k2 0.662695038 —1 + 2(1 + + 3F„b1,2 2Fyt,(2 + R k3 21.98259487 2(1 + Re) e)D2 1-1++ Re 3Fern1,2 REDUCTION TERM, Rd (0.25<=0<=1) R di 4 Reduction Term for I m and 1, R d2 3.6 Reduction Term fort( R d3 3.2 Reduction Term for 111 „ 111,, and IV REDUCTION TERM, R d (D<0.25) R a 2.46 'Reduction Term for all Yield Modes 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 32 of 40 STRUCTURAL ENGINEERING CALCULATIONS RING Project Name: AMAZON UWAS Location: TUKVVILA, WA TGE Job Number TGE19-12899 YIELD LIMIT STATES YEILD MODE J SHEAR (LBF) I FAILURE MECHANISM EQUATION I 253.75 'Bearing Failure of Main Member 233.58 'Bearing Failure of Side Member 1 104.71 IFostener Rotation 159.52 'Double Bolt Bends Ills I 135.39 IDouble Bolt Bends IV 190.17 uble Bolt Bends DIFe„, R s es Rd k2D1m4m (1 + Re)Ra k3DI,F,,, 2 + Re Rd 2Fe,,,Fyb Rd 3(1 + Re) REFERENCE DESIGN VALUE (LBF) 104.7 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 33 of 40 STRUCTURAL ENGINEERING CALCULATIONS L.NGiNEERiNG Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 9 MATERIALAND HARDWARE PRINTOUTS 9.1 LARR 24921 BOARD OF BUILDING AND SAFETY COMMISSIONERS VAN AMBATIELOS PRESIDENT E. FELICIA BRANNON vicE PRESIDENT JOSELYN GEAGA-ROSENTHAL GEORGE HOVAGUIMIAN JAVIER NUNEZ KPS GLOBAL LLC 4201 North Beach St. Fortworth, TX 76137 Attn: Kirk Mcllits (682) 317-5284 CITY OF Los ANGELES CALIFORNIA ERIC GARCETTI MAYOR DEPARTMDIT OF BUILDING AND SAFETY 201 NORTH FIGUEROA STREET LOS ANGELES, CA 90012 FRANK M. BUSH GENERAL MANAGER SUPERINTENDENT of BUILDING OSAMA YOUNAN, P.E. EXECUTIVE OFFICER RESEARCH REPORT: RR 24921 (CS1# 13030) Expires: May 1, 2020 Issued Date: May 1, 2018 Code: 2017 LABC GENERAL APPROVAL —Renewal — KPS Global - Wood -Frame and Insu1-Frame Wall and Ceiling Panels for Walk-in Coolers and Freezers for Indoor and Outdoor usc. DESCRIPTION KPS Global, prefabricated wall and ceiling panels consist of minimum 31/4-inch wood or urethane lumber frames with 26 gage stucco embossed galvanized steel and a core of urethane foam. The panels utilize "cam -lock" devices to hold them together. The wood Frame Panels are made of S-P-F No. 2 or better, while the Insul-Frame panels are made of moulded urethane foam having a density of 10.3 pounds per cubic foot. The urethane foam is Dow or BASF Class I foam. Flame spread and smoke developed ratings per ASTM E-84 of 25 or less and 450 or less respectively. KPS Global -Wood Frame and Insul-Frame fabricated walk-in coolers and freezers constructed of panels described above are approved with the following requirements: 1. Height to width ratio of units are as indicated in Table 2. RR 24921 Page 1 of 3 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 34 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK GROVE ENGINEERING Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 KI'S Global RE: Wall and Ceiling Panels for Walk-in Coolers and Freezers 2. No permanent loads, equipment or storage loads shall bc carried by the ceiling panels with the exception for the evaporator. If evaporator is supported from the top panel, it must be accounted for in calculations for ceiling panel loads. For equipment loads, calculations demonstrating that the applied loads are less than the maximum allowable loads must bc submitted to the structural plan check section for each project. The calculations must be prepared by a California registered Civil Engineer or Architect. 3. The panels shall be considered combustible and may be used only in areas where combustible materials are permitted by the Code. 4. An approved fire retardant roof covering shall be placed over the panels when used as an exterior roof panel. 5. The panels shall be fabricated in a shop of a licensed Type I fabricator approved by the Los Angeles City Building Department. Fabrication in unlicensed shops will invalidate this approval. If piping or other utilities are in the walls or ceilings a type II fabricators license is required. DISCUSSION The report is in compliance with the 2017 Los Angeles City Building Code. The approval is based on tests. Addressee to whom this Research Report is issued is responsible for providing copies of it, complete with any attachments indicated, to architects, engineers and builders using items approved herein in design or construction which must be approved by Department of Building and Safety Engineers and Inspectors. RR 24921 Page 2 of 3 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 35 of 40 STRUCTURAL ENGINEERING CALCULATIONS E N G I N E E N+ N G Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number: TGE19-12899 KPS Global RE: Wall and Ceiling Panels for Walk-in Coolers and Freezers This general approval of an equivalent alternate to the Code is only valid where an engineer and/or inspector of this Department has determined that all conditions of this Approval have been met in the project in which it is to be used. QUAN NGHIEM, Chief Engineering Research Section 201 N. Figueroa St., Room 880 Los Angeles, CA 90012 Phone- 213-202-9812 Fax- 213-202-9943 QN 11 R24921. MS W ord21) 11 R24421 04 292018 'II.NIVWl14 2npi A Attachment: Span Chart (2 page) RR 24921 Page 3 of 3 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 36 of 40 STRUCTURAL ENGINEERING CALCULATIONS TAMARACK GROVE E N R I Project Name: AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 LARK 24921 TABLE 2 KPS Global Racking Shear - Based on PFS Load Test Report # 05-37A Maximum Allowable Shear Load of Wood Framed Panels Height to Width Ratio Allowable Shear PLF 4 To 1 160 3 To 1 161 2 To 1 179 1 '/z To 1 246 1 To 1 333 Y2To1 646 KPS Global Compressive Load - Based on PFS Test Report # 05-376 Maximum Allowable Vertical Load of Wood Framed Panels Panel Thickness (Inches) Panel Height (Feet) Allowable Vertical Load (PLF) 3 '/z 12 2080 3Yz 17 1946 3 ' 22 1033 5 16 2779 5 21 1582 5 26 1037 KPS Global Racking Shear - Based on PFS Load Test Report # 05-37A Maximum Allowable Shear Load of Insul-Frame Panels Height to Width Ratio Allowable Shear PLF 4 To 1 56 3 To 1 65 2To 1 88 1 '/2 To 1 108 1 To 1 136 Yz To 1 208 KPS Global Compressive Load - Based on PFS Test Report # 05-37B ximum nituwaoivrW.4I LIMO VI LnbuI-rrdme rdrieIS Panel Thickness (Inches) Panel Height (Feet) Allowable Vertical Load (PLF) 3 'h 12 920 3 'h 17 714 3 Y2 22 603 5 16 1048 5 21 800 5 26 623 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 37 of 40 STRUCTURAL ENGINEERING CALCULATIONS -J CO 1- LARR 24921 TAMARACK P GROVE Project Name: AMAZON UWA5 Location: TUKWILA, WA TGE Job Number TGE19-12899 Shod Number 147 of 147 OUTDOOR ASCE 7-0SHO EXP. C. s15' OAH sec Ones OK b.,—x0 on delect:on crierxU 1CO -L---/ ' 6 I, 6 6. 6 6 ,b.: tc• k. o o • • C; i i *! ... ... — ;:, 'i• r•z ••• 1. 4. ;,. •41. • • • 4r. . . •••••••••••••••••1 11 I:. I.. ;„ .... 4 ... Z [ i 0 r. m 4 - 4 b 14 .... ..., ,.., •-• .' .' 1 ... la. 1..1 , — r LLJ Panel Span Chart • ' X i . • •—• .1„ 6 • :... 5 '7' g T'i ;'., $'.• --. - • - 11 •wi. ''., .• -Itr tr. !.e. il: • - 1/4' — A ...- g. 4 lit ,--.-- to • ' i.. 1—....-1 . 4 6 . - • • -. - 41 ‘ . a'.. a',' 7•• ' ...I • IT LI ..— a, a? `f .:•• ... _. Tit !,..., i; A. A 6 v. 1 .1 .. • - IltA , . . t. ttt; . •4 .4 ;•.; ;r 1... tr, ... t... :,..,, Iv '',‘ • . • 01 • • . §-- o l'. IP In —, Er k• -• ;0 ... i'.. 7-: L; ' • . 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La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 38 of 40 STRUCTURAL ENGINEERING CALCULATIONS ENGINEERING Project Name: AMAZON UWA6 Location: TUKWILA, WA TGE Job Number: TGE19-12899 9.2 ENGINEERING BULLETIN NO: 913 (HANGER BRACKET SUPPORT) ENGINEERING BULLETIN NO: 913 SUBJECT; HANGER BRACKET SUPPORT DATE: June 5. 2013 R: September 29. 2016 Whcn lop panel spans exceed the noted (Eng. Bulletin 900) allowable unsupported lengths. then top support is required. Hanger Bracket support is an option when used indoors and surrounding building structure can support the additional loading. (Fastening to over -head structure is responsibility of others) 12 gauge galvanized wire (2-s(rands per bracket) is standard. Optional metal all -thread rods can be used when wire is not feasible. Maximum spacing between hangers as noted: Wood Frame panels: 7'-0" max (nailed to groove side of panel) High Density Rail panels: 5%0" max (nailed to groove side of panel) GALV. STEEL TOP HANGER E3RACKET CAM - ACTION FASTENERS TOP PANEL STANDARD 2 STRANDS OF 12 GA. WIRE TO TOP CORD OF BAR JOIST COATED NAILS AS SHOWN 3/8" ALL -THREAD ROD FASTENING TO OVERHEAD STRUCTURE 15 THE RESPONSIBILITY OF OTHERS \ GALV. STEEL TOP HANGER BRACKET CAM -ACTION FASTENERS NUT AND WASHER TO BE ABOVE AND BELOW HANGER 8c1 COATED NAILS (4) PER HANGER TOP PANEL ODTION A 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 39 of 40 STRUCTURAL ENGINEERING CALCULATIONS 9.3 UNISTRUT ALLOWABLES TAMARACK GROVE E E R I n G Project Name: AMAZON UWAS Location: TUKWILA, WA TGE Job Number: TGE19-12899 P1000 & P1001 Channels P1000 • BEAU LOADING Max, Allowable Span Uniform Load In Lbs Dell. al Uniform Load In Uniform Loading at Deflection Span/180 Span/240 Span/360 Lbs Lbs Lbs 24 36 48 60 72 84 96 10b '12(j 142 165 192 216 240 1,690 1,130 850 680 560 480 420 380 260 240 210 190 170 0.06 0.13 0.22 0.35 0.50 0.68 0.89 1.14 1.40 2.00 2,72 3.55 4.58 5.62 1,690 1,130 850 650 450 330 250 200 160 110 80 60 50 40 1 690 1,130 760 480 340 250 190 150 120 80 60 40 NR 1.690 900 500 320 160 130 100 80 60 40 NR NR NR P1000 - COLUMN LOADING Max.Alowabk Unbraced Load at Height Slot Face In Lbs Maximum Column Load Applied at C.G. K=0,65 K=0,a0 K=1,0 K=1,2 Lbs Lbs Lbs Lbs 24 3.550 10,740 9690 36 3,190 8.910 7.740 48 2,770 7,260 6.010 60 2,380 5.910 4.690 72 2,080 4.840 3.800 84 1,860 4.040 3.200 96 1.670 3.480 2,750 108 1.510 3.050 2,400 120 1.380 2,700 2,110 144 1,150 2.180 1.660 8,770 6.390 4.690 3,630 2,960 2,480 2,110 1,810 7,740 5,310 3,800 2,96D 2,400 1,980 1,660 P1000(P1OO1 - ELEMENTS OF SEci10N Parameter P1000 P1001 Area of Section Axis 1-1 Moment of Inertia () Section Modulus (S) Radius of Gyration (r) Axis 2-2 Moment of Inertia (q Section Modulus (S) Radios of Gyralion Cr) 0.555 In, 1.111 In, 0.185 In' 0,928 In' 0202 In' 0.571 In' 0.577 In 0,914 In 0.236 In' 0,471 In' 0.290 In' 0.580 In' 0.651 In 0,651 In P1001 • BF -AM LOADING UNISTRUT Del at Uniform Loading at Deflection Max. Moveable Uniform Span Uniform Load (n Liss Load Spanf180 Spanf240 Span/360 In Lbs Lbs Lbs 24 3.500' 36 3.190 48 2,390 60 1,910 72 1.600 84 1,370 96 1,200 108 1.060 120 960 144 800 168 680 192 600 216 530 240 480 0.02 0.07 0.13 0.20 0.28 0.39 0.51 0.64 0.79 1.14 1.53 2.02 2.54 3.16 3.500' 3.500' 3,190 3,190 2,390 2,390 1.910 1,910 1.600 1,600 1,370 1,240 1,200 950 1,000 750 810 610 410 560 420 280 3,500' 3,190 2,390 1,620 1,130 830 630 500 410 320 250 200 310 240 190 150 210 160 130 100 P1001 - COLUMN LOADING Mao. ANowable Unbiased Load Maximum Column Load Applied at C.G. Height at Slot Face K.0.65 K=0.60 K=1,0 K=1,2 Lbs Lbs Lbs Lbs Lbs 24 36 48 60 72 108 120 144 6,430 6,290 6,160 6,000 5,620 5,170 4,690 4,170 3,690 2.930 24,280 22,810 21,410 20,210 18,970 16,950 14,890 12,850 10,900 7,630 23,610 21.820 20.300 18,670 16,160 13,630 11,190 8,950 7,250 5,040 22,700 20,650 18,670 15,520 12,390 9,470 7.250 5,730 4,640 21.820 19,670 16.160 12.390 8,950 6,580 5,040 3,980 Notes: ' Load limited by spot weld shear. "KL/r>200 NR = Not Recommended. 1. Beam bads are pen in mldl uniform load (W Lbs) not uniform load (w 6sf8 or w Ibshn). 2. Beam loads are based on a simple span and assumed to be adequately laterally braced. Unbraced spans can reduce beam bad carryba capacity. Refer to Page 62 for reduction factors for unbraced lengths. 3. For pierced channel, multiply beam loads by the fdbwting factor: "KO" Seriea_....95% "HS" Series.._,.90% "H3' "T" Serles "SL' Series_._._B5% "DS" Serles_._._70% 4. Deduct channel we:ghl from the beam loads. 5. For concent•ated mdspan point loads. mat@ply beam loads by 50% and the corresponding defection by aa%. For other load oondibons refer to page 18. 8. All beam loads are for bending about Axis 1.1. 812 S. La Cassia Dr. • Boise, Idaho 83705 • (208) 345-8941 • (208) 345-8946 FAX Page 40 of 40 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Summary 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 MECH-SUM Revised January 2017 Project Information Project Title: UWAS Seattle Date 1/1/2015 Applicant Information. Provide contact information for individual who can respond to inquiries about compliance form information provided. For Building Dept. Use Company Name: Henderson Engineers Company Address: 8345 Lenexa Dr. Lenexa, KS Applicant Name: Derek Gay Applicant Phone: 913-742-5000 ----,, Project Description Briefly describe mechanical systems in the text box provided 0 Total Bldg Performance (TBP) This path includes all mandatory provisions per C401.2 Option 2. MECH-SUM, MECH-CHK, and C407 Energy Analysis forms required. 16S s P0411tvE Nfffltem Changes uDE COMP IANCE APPROVED AUG 08 2019 • • New Building • Building Addition 15 Tenant Improvement ' = O'L Design Load Calculations 0 Load calculation summary E) MECH-LOAD-CALC Form Provide design load calculations for all mechanical systems and equiprestAdailkitGldraMteile) ventilating needs. If a load calculation summary is provided with the p compliance information then the MECH-LOAD-CALC form is not required. City of Tukwila or Mechanical Schedules plans then MECH-EQ forms are not required, in MECH-EQ tables. Mechanical Plans 1 MECH-EQ Forms (TBD) Indicate location of equipment compliance information. If provided on however, include on plans all applicable compliance information listed Dedicated Outdoor Air System Requirements and High Efficiency VAV Alternate library and fire station occupancies) required ventilation air in a manner that does cycled off when no heating or cooling is required. of DOAS (C403.6, Exception 1) per C403.7 in lieu of DOAS (C403.6, Exception retail, education, library or fire station) to 40% per C402.4.1.4 with 100% of MECH-ECONO form. IIII DOAS is required per C403.6 effective July 1, 2017 (office, retail, education, All occupied, conditioned areas shall be served by a DOAS that delivers not require space conditioning fan operation. Space conditioning fans 1 Ventilation provided via natural ventilation per 2015 IMC in lieu • Ventilation and space conditioning provided by a HEVAV system • 2) • DOAS included in project, although not required (occupancy not office, IIII DOAS related allowances included in project: 0 Prescriptive vertical fenestration maximum area allowance increased conditioned floor area in building served by DOAS. o Exception to air economizer per 0403.3 Exception 1, include Fan Power 0 Project includes HVAC air distribution systems that provide heating If yes, provide a MECH-FANSYS -SUM form. and/or cooling in HVAC system exceeds 5hp. exceeding the 5 horsepower threshold. and exceptions. . For one or more systems, the total fan motor nameplate hp of all fans If yes, provide a seperate MECH-FANSYS form for each HVAC system Refer to Section C403.2.11 and MECH-FANSYS-DOC for requirements HVAC Hydronic Systems 0 Hydronic chilled water D Water -loop heat pump 0 Hydronic heating water El Geothermal 151 No hydronic systems C406 Additional Efficiency Options - Mechanical RECErIED V i-: W C,1Tn-RIK in tables C403.2.3(1)-(9) or air -to -water heat must be 15% more efficient than fans over 1hp must have FEQ 71 and must be C403.6 that delivers required ventilation air in a and that 60% of annual hot water energy use be systems. • 0406.2 More efficient HVAC equipment and fan systems Requires 90% of heating and cooling capacity to be equipment listed pumps and heat recovery chillers. All equipment listed in tables C403.2.3(1)-(7) minimum requirements. All stand alone supply, return, and exhaust selected within 10% of maximum total or static pressure. • C406.6 Dedicated outdoor air system (DOAS) Requires 90% of conditioned floor area to be served by a DOAS per manner that does not require space conditioning fan operation. 0 0406.7 Reduced energy in service water heating Requires 90% of floor area be in occupancy types listed in 0406.7.1 provided by heat pump, waste heat recovery or solar water -heating I PERMIT CENTER 11(11c1•01 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Summary, pg. 2 MECH-SUM 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Service Water Heating Systems Equipment Type (s) El Instantaneous 0 Heat exchange from space heat boiler or central hot water/steam El On -demand water systems • Hot water heating tank(s) • No service • Dedicated boiler Distribution Type (s) 0 Circulation System Commissioning Commissioning is required 0 Mechanical systems If required, commissioning Exceptions to commissioning for: per 0408.2 E Service water heating systems per 0408,4 shall be performed for all applicable systems regardless of individual equipment capacity. requirements: of all mechanical space conditioning systems in the building do not exceed 240,000 Btu/h heating. Mechanical systems commissioning not required. water heating system in building does not exceed 200,000 Btu/h. Service water heating not required. • Total output capacity cooling or 300,000 Btu/h El Capacity of largest service systems commissioning Low Energy and Semi -Heated Spaces (Note 6 and 7) Space Type Location in Plan(s) Space(s) Served Area Served, square feet Heating Capacity, Btu/h (Note 4) Cooling Capacity, Btu/h (Note 5) Peak Space Conditioning Capacity, Btu/h-sf Compliance Check Notes Note 4 - Provide total installed heating ou put capacity of systems serving Low Energy or Semi -Heated space(s) in btuh. Note 5 - Provide total installed cooling capacity of system serving Low Energy space(s) in Btu/h. Not allowed for semi -heated spaces. En er 0 if no cooling. Note 6 - Refer to Section C402.1.1 Low Energy Building. Intafied peak space conditioning capacity, heating or cooling, may not exceed 3.4 Btu/h*sf. Note 7 - Refer to Section C402.1.1.1 and Semi -Heated Space definition in Chapter 2. Total heating output capacity may not exceed 8 Btu/h*sf. Only systems without electric resistance heating and no cooling are eligible for the wall insulation exception under semi -heated. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 1 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: UWA5 Seattle Date 1/1/2015 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes Equipment - Sizing, Performance and Type No C403.1 Exempt process equipment Identify equipment to be used in manufacturing, industrial or commercial processes that do not provide space conditioning; identify provisions applicable to this equipment per C403.1 exception Yes C403.2.1 Load calculations Provide load calculations performed per ASHRAE Std 183 or equivalent, using design parameters per C302 and Appendix C; include load adjustments to account for energy recovery MECH- LOAD - CALCS Yes C403.2.2 Equipment and system . . sizing Indicate that output capacities of heating and cooling equipment and systems are no greater than the smallest available equipment size that exceeds the calculated loads; note exceptions taken MECH- LOAD - CALCS Yes C403.2.3 C403.2.3.2 C403.2.13.1 HVAC equipment performance requirements (efficiency) Provide equipment schedules on plans or complete MECH-EQ forms indicating type, capacity, rated and WSEC minimum efficiencies for all heating and cooling equipment; include supply and OSA cfms and operating hours for all air systems; identify heating and cooling equipment that does not have a corresponding WSEC minimum efficiency (manufacturer rated) M601 Yes C405.8 C403.2.14 Electric motor efficiency List all motors a 1/12 hp (that are not integral to a rated piece of equipment) in the mechanical or electrical equipment schedules on plans; indicate hp, rpm, number of poles and rated efficiency, or exception applied M601 For fractional hp motors (1/12 - 1 hp), indicate whether they are an electronically commutated motor, have rated efficiency of at least 70%, or exception taken M601 Yes C403.2.11.1 Fan power limitation For all HVAC fan systems that provide heating and / or cooling, provide system total nameplate hp in MECH-FANSYS-SUM form MECH- FANSYS- SUM For all applicable HVAC systems with total fan motor hp > 5hp, verify fan system motor hp or bhp complies with fan power limits per equations in Table C403.2.11.1(1), provide MECH- FANSYS form for each system NA NA C403.2.11.2 Motor nameplate hp For all applicable HVAC systems with total fan motor hp > 5hp, indicate fan motors specified are the smallest available motor hp size greater than fan bhp, note exceptions taken NA C403,2.11.3 Fan efficiency For all applicable IIVAC systems with total fan motor hp > 5hp, identify in equipment schedule all fans required to comply with fan efficiency grade and indicate rated FEG is a 67, cr exception taken; indicate these fans are sized so total efficiency is within 15% of the tan maximum total efficiency NA C403.2.11.4 Group R occupancy exhaust fan efficacy For all exhaust fans < 40D cfm in Group R occupancies, indicate in equipment schedule the fan flow rate and efficacy (cfm/watt), or exception taken; refer to Table C403.2.11.4 (CE-57) NA C403.2'13 Variable flow capacity - fans For fan motors a 7.5 hp, indicate method of variable flow control (VSD or equivalent method) in Hequipment schedule, or exception taken; for equivalent method for anVAC system refer to HVAC System Controls for additional requirements NA C403,2.3 Maximum air cooled chiller capacity For chilled water plants and buildings with > 500 tons of cooling capacity, indicate air-cooled chiller capacity is s 100 tons, or exception taken NA C403.4 Large capacity cooling systems For buildings with a 300 tons of cooling capacity, indicate method of multi -stage or variable capacity control (VSD, multiple staged compressors, or max capacity of any single unit < 66% of the total) NA C403.2.3.1 Non-standard water-cooled centrifugal chillers For water-cooled centrifugal chillers not designed for operation at standard conditions, provide calculations documenting maximum full load and part load rated equipment performance requirements NA C403.2.13.1 C403.4.3.2 Centrifugal fan open -circuit cooling towers For open -circuit centrifugal fan cooling towers with a 1,100 gpm capacity, indicate cooling towers comply with efficiency requirements for axial fan open circuit cooling towers NA C403.4.2 C403.4.2.5 Large capacity boiler systems For single boilers with > 500,000 Btu/h capacity, indicate multi -stage or modulating burner For boiler system (single or multiple) with > 1,000,000 Btu/h capacity, indicate turndown ratio per Table C403,4.2,5 and method (multiple single input boilers, modulating boilers, or combination) NA C403.2.13 Variable flow capacity - pumps For pump motors a 7.5 hp, indicate method of variable flow control (VSD or equivalent method) in equipment schedule, or exception taken; for equivalent method for a hydronic system refer to Hydronic System Controls for additional requirements NA C403.2.3 Gas and oil -fired forced air furnace and unit healers For forced air furnaces with capacity a 225,000 Btu/h and all unit heaters, indicate in equipment schedule intermittent ignition or IID, flue or draft damper, and rated jacket loss NA C403.2.4.8 Combustion heating . equipment For combustion heating equipment with output capacity > 225,000 Btu/h, indicate modulating or staged combustion control NA C403.2.3.3 Packaged electric heating / cooling equipment Verify all packaged electric equipment with > 6,000 Bluth cooling capacity and any amount of heating is a heat pump; include in equipment schedules NA C403.2.12 Heating outside a building Indicate systems providing heating in non -enclosed outdoor occupied spaces are radiant systems; refer to HVAC System Controls for additional requirements NA C403.2.7.1 Kitchen exhaust hoods Indicate on plans the type, duty and exhaust air rate of each kitchen hood, refer to HVAC System Controls for additional requirements Yes C403.2.4.3 Outdoor supply air, exhaust and relief dampers Indicate locations of OSA intake, and exhaust and relief outlet dampers on plans; indicate whether dampers are Class 1 motorized, or gravity and exception taken (include leakage rating, cfmtsf); refer to HVAC System Controls for additional requirements for OSA dampers M002 Yes C403.2.4.3 Retum air dampers Indicate locations of return air dampers that are integral to economizer operation; verify dampers are motorized; indicate whether dampers are Class 1, or within packaged equipment eligible for leakage rating exception (include leakage rating, cfm/sf) M002, M601 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 2 of 7 Mechanical Permit Plans Checklist MECH-CHK Revised January 2017 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Project Title: UWA5 Seattle Date 1/1/2015 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,n Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.2.4.3 Stairway and shaft vent dampers Indicate location of stairway and shaft vent dampers on plans; verify dampers are Class 1 motorized; refer to HVAC System Controls for additional requirements NA C403.2.4.4 Zone isolation dampers For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non -simultaneously; identify isolation zone areas on plans and locations of associated isolation dampers in HVAC distribution system; refer to HVAC System Controls for additional requirements NA C403.2.3.4 Humidification For cooling systems with humidification equipment that are also required to have air economizer, indicate humidifier is adiabatic (direct evaporative or fog atomization), or exception taken Additional Efficiency Package Option, More Efficient HVAC Equipment & Fan Performance - Must comply with all 3 provisions to be eligible NA C406.2.1 C403.2.3 HVAC system selection To comply with additional efficiency package option, calculate the percentage of heating and cooling equipment in the project (based on output capacity) that do not have a corresponding WSEC listed efficiency; shall be less than 10% to comply NA C406.2.2 C403.2.3 Minimum equipment efficiency To comply with additional efficiency package option, indicate that all listed heating and cooling equipment have a rated efficiency that exceeds WSEC listed efficiency by at least 15% NA C406.2.3 C403.2.11.3 Minimum fan efficiency To comply with additional efficiency package option, indicate rated FEG of stand alone fans is >_ 71; indicate these fans are sized so the fan efficiency at design conditions is within 10% of the maximum total or static efficiency HVAC System Controls Yes C403.2.4.1 Thermostatic controls (thermostats and humidistats) Indicate locations of thermostatic and humidity control devices and the zones they serve on plans, including perimeter system zones M101 Where adjacent (neighboring) zones are controlled by separate thermostats (including perimeter systems used to offset heat gain or loss), and are connected by permanent openings > 10% of either zone sf area, indicate controls configured to prevent adjacent zones from operating in conflicting modes (one in heat, other in cool); applies to adjacent perimeter zones, adjacent nonperimeter zones, and adjacent perimeter and nonperimeter zones NA If applying Exception 2 to nonperimeter zones adjacent to perimeter zones, indicate that setpoints and deadband settings in these zones are coordinated so cooling in a nonperimeter zone does not occur until the temperature in that zone is 5°F higher than the adjacent perimeter zone temperature in heating NA NA C403.2.4.1.1 Heat pump supplementary heat Indicate staged heating operation with compression as the first stage of heating and supplemental heating controlled with outdoor lock -out temperature set to 40°F or less Yes C403.2.4.1.2 Deadband Indicate zone thermostatic controls configured with 5°F minimum deadband for systems that control both heating and cooling M001, M601 Yes C403.2'4,1.3 Setpoint overlap restriction (thermostats) If separate heating and cooling systems with separate thermostatic control devices are used to serve a zone, indicate locations of both thermostatic control devices and the zone they serve on plans M601 Indicate a limit switch, mechanical stop or DDC control with programming to prevent simultaneous heating and cooling M601 Yes C403.2.4.2 C403.2.4.2.1 C403.2.4.2.2 Automatic setback and shutdown Indicate zone thermostatic controls configured with required automatic setback and manual override functions, setback temperatures, and control method (automatic time clock or programmable controls); note exceptions taken M601 Yes C403.2.4.2.3 Automatic (optimum) start Indicate system controls that adjust equipment start time required to bring each area served up to design temperature just prior to scheduled occupancy M601 Yes C403.2.4.3 Outdoor supply air dampers Indicate automatic controls configured to close OSA damper during unoccupied equipment operation; not including economizer cooling, night flush or IMC required OSA / exhaust M601 NA C403.2.4.3 Stairway and shaft vent dampers Indicate method of activation of stairway and shaft vent dampers (fire alarm or interruption of power) NA C403.2,4.4 Zone isolation controls For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non -simultaneously; indicate controls that allow for independent space conditioning of isolation zones; or exception taken NA C403.2.12 Heating outside a building Indicate occupancy sensing or timer switch controls configured to automatically shut off heating system when area served is unoccupied NA C403.2.4.5 Snow melt systems Indicate automatic controls configured to shut off system when pavement temperature exceeds 50°F and no precipitation is falling, and when outdoor air temperature exceeds 40°F NA C403.2.4.6 Freeze protection system controls Indicate automatic controls to shut off system when outdoor temperature exceeds 40°F, or conditions protect fluid from freezing NA C403.2.4.9 Group R1 hotel / motel guest rooms For hotels and motels with over 50 guest rooms, indicate automatic controls serving guest rooms that are capable of setback (heating) and set-up (cooling) of temperature setpoint by at least 5°F; indicate control method - activated by room entry or occupancy sensor 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 3 of 7 Mechanical Permit Plans Checklist MECH-CHK Revised January 2017 2015 Washington State Energy Code Compliance Forms for Commercial Buildings ncluding includingR2 & R3 over 3 stones and all R1 Project Title: UWA5 Seattle Date 1/1/2015 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NAunits,Group C403.2.4.10 04032411 Group R2 / R3 dwelling R2 sleeping units For primary space conditioning system, indicate 5-2 programmable thermostats capable of two setback periods per day; for all thermostats indicate purpose (heating only, cooling only, or both), required temperature range and at minimum a 10°F deadband; or exception taken Yes C403.2.6 C403.2.11.4 Ventilation Indicate method of ventilation air delivery (natural or mechanical) for each zone M601 If mechanically delivered, indicate that systems are configured to provide not more than 150% of, but at least the minimum required volume of outdoor air to each zone per IMC, ASHRAE 62.1 or other applicable code (WAC, OSHA, etc); or exception taken M601 If delivered via natural ventilation, identify required elements per IMC including minimum openable area to the outdoors or qualifying adjoining spaces NA NA C403.2.6.2 Demand controlled ventilation Identify spaces > 500 sf with occupant load > 25 people/1,000 sf per IMC; for each space indicate whether it is served by an HVAC system with total design OSA > 3,000 cfm, and / or the system has airside economizer or automatic modulating OSA damper; indicate OSA controls are configured to provide demand controlled ventilation or provide supporting documentation for applied exception NA 0403.2.6.3 Occupancy sensors For gyms, classrooms, auditoriums and conference rooms > 500 sf, indicate occupancy -based OSA control when space is unoccupied and method (closes OSA damper or shuts -off equipment); or alternate means provided to automatically reduce OSA when space is partially occupied NA C403.2.6.4 C403.2.6.4.1 Enclosed loading dock ventilation For enclosed loading docks, indicate ventilation / exhaust system method of activation (gas detection system for CO and NO2, or occupancy sensors), and control method (staged or modulating) NA C403.2.6.4 C403.2.6.4.2 Enclosed parking garage ventilation For enclosed parking garages, indicate ventilation / exhaust system activated by gas detection system for CO and NO2, and control method (staged or modulating); or exception taken NA 0403.2.7.1 Kitchen exhaust hoods Provide calculations that show a balanced accounting of total kitchen exhaust (include all hoods) with % of; supply air, transfer air from adjacent spaces, and make-up air; if applicable, indicate that direct make-up air to each hood does not exceed 10% of hood exhaust For kitchens with total hood exhaust exceeding 2,000 cfm, indicate exhaust air rate per Table C403.2.7.1 and compliance method (DCV, energy recovery, or transfer air that would otherwise be exhausted) NA 0403.2.7.2 Laboratory exhaust systems Refer to Systems Requiring Energy Recovery for requirements NA 0403.2.13 Variable flaw capacity - HVAC system fans For HVAC fan motors ..?. 7.5 hp, indicate method of variable flow control (VSD, or equivalent control method that reduces design air volume by 50% at 1/3 static design pressure); note exception taken Yes C403'3.1 DX air handler variable cooling control (Under Integrated Economizer) For DX air handlers with economizer and cooling capacity 65,000 Btu/h, indicate number of cooling stages provided and method (multiple compressors and / or variable speed compressors); indicate minimum displacement (capacity reduction) as % of full load M601 Indicate control method (cooling capacity controlled in response to space temperature, space temperature controlled by modulating supply airflow, or both) M101, M601 Yes 0403.2.11.5 Fan airflow control For DX air handling units with cooling capacity 2. 65,000 Btu/h and evaporative and chilled water air handling units with fan 0.25 hp, indicate whether system is single zone or multiple zone and related control method (cooling capacity controlled in response to space temperature, space temperature is controlled by modulating supply airflow, or both) M601 For mechanical cooling systems (includes DX and chilled water coils) that control cooling capacity in response to space temperature - Provide a minimum of two stages of fan control; indicate minimum fan speed is 5 66% of full speed drawing s 40% of full speed fan power during periods of low cooling or ventilation only M601 For other mechanical cooling systems (includes DX and chilled water coils) that control space temperature by modulating airflow (in lieu of, or in addition to, controlling capacity in response to space temperature) - Provide fan controls for modulating supply airflow; indicate minimum fan speed is S 50% of full speed drawing S 30% of full speed fan power during periods of low cooling or ventilation only; or exception taken NA NA 0403.2.4.12 DDC system capabilities Provide central and zone level DDC controls as required based on system application, capacity or size thresholds and other qualification per Table 0403.2.4.12.1 Identify all DDC system input / output control points; indicate capability for trending and graphical display Ducting Systems Yes C403.2.8.1 C403.2.8.3 Duct construction Indicate on plans that all ductwork is constructed and sealed per IMC M002 For OSA ductwork, also indicate on plans that ductwork meets air leakage requirements per C402.5 and vapor retarder requirements per the IBC NA Yes 0403.2.8.3 Duct pressure classifications Identify location of low, medium and high pressure ductwork on plans All low pressure NA 0403.2.8.3.3 High pressure duct leakage test Indicate high pressure duct leakage testing requirements on plans; provide test results to jurisdiction when completed 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 4 of 7 Mechanical Permit Plans Checklist MECH-CHK Revised January 2017 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Project Title: UWA5 Seattle Date 1/1/2015 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes Yes C403.2.8.1 C403.2.8.2 Duct insulation For supply and return ductwork located in unconditioned space or outdoors, indicate R-value of insulation on ductwork on plans; identify climate zone; note exceptions taken M002 For supply ductwork located in conditioned space, identify if design supply temperature is < 55°F or > 105°F and indicate R-value of insulation on this ductwork on plans; note exception taken M002 For OSA ductwork, shafts and plenums, indicate R-value of insulation on these elements on plans per Table C402.1.3 for steel -framed walls; note exception taken NA — Piping Systems NA C403.2.9 Piping insulation Indicate design temperature range of fluid conveyed in piping and thickness of insulation (in inches) on hydronic piping plans; or exception taken NA C403.2.9.1 Piping insulation exposed 10 weather Indicate method of protection of pipe insulation from damage / degradation on hydronic piping plans Economizers Yes C403.3 Air economizer required Identify in equipment schedules on plans or in MECH-EQ forms all cooling systems requiring air economizer controls M601 Provide MECH-ECONO form indicating systems utilizing air economizer exceptions, including those with water -side economizer in lieu of air economizer; indicate on plans eligible exception(s) taken and measures to comply with exception(s) YES Yes C403.3.1 Integrated economizer operation - air and water Indicate air and water -side economizers are configured for partial cooling operation even where additional mechanical cooling is required to meet the load M601 Yes C403.3.2 Economizer heating system impact - air and water Verify control method of HVAC systems with economizers does not increase building heating energy usage during normal operation M601 Yes C403.3.3.1 Air economizer capacity Indicate modulating OSA and return air dampers are configured to provide up to 100% OSA for cooling M601 Yes C403.3.1 C403,3.3.2 ,Integrated air economizer Verify mechanical cooling controls are interlocked with air economizer controls so the outside air damper remains in 100% open position when mechanical cooling is also required to meet the cooling load, until the leaving air temperature is < 45°F M601 For systems with cooling capacity z 65,000 Btu/h, verify that control of economizer dampers is not based only on mixed air temperature; or exception taken M601 Yes C403.3.3.3 Air economizer high limit controls Indicate high limit shut-off control method and required high limit per Table C403.3.3.3 M601 NA C403.3.4.1 Water economizer capacity For eligible systems where water -side economizer may be provided in lieu of air economizer, indicate system is capable of 100% design cooling capacity at 50°F db / 45'F wb OSA temperatures NA NA C403.3.4.2 Water economizer maximum pressure drop Indicate pressure drop across precooling coils and heat exchangers in water economizer system do not exceed pressure drop limit NA Yes C403.3.1 DX air handling equipment control For DX air handlers with economizer and cooing capacity >_ 65,000 Btu/h, refer to HVAC System Controls for requirements M002, M601 Yes C403.2.4.7 DX equipment economizer fault detection and diagnostics For DX air handlers with economizer and cooling capacity >_ 54,000 Btu/h, provide a fault detection and diagnostics (FDD) system to monitor economizer system operation and report faults M601 Systems Requiring Energy Recovery NA C403.5.1 Energy recovery (ER) - ventilation / exhaust systems For systems with design OSA > 5,000 cfm, or design supply air cfm and % OSA exceeding the values in Tables C403.5.1(1) or (2), indicate exhaust air ER method; or exception taken with supporting calculations For rooms served by multiple systems with aggregate design OSA > 5,000 cfm, or aggregate design supply air cfm and % OSA exceeding the values in Tables C403.5.1(1) or (2), indicate exhaust air ER method; or exception taken with supporting calculations Indicate ER rated effectiveness that increases OSA enthalpy by z 50% based on delta between OSA and return air enthalpies at design conditions NA C403.2.7.2 Laboratory exhaust systems (energy recovery) For buildings with total lab exhaust > 5,000 cfm, indicate method of energy recovery used to pre -condition laboratory make-up air; ER effectiveness (min 25°F); or alternative method per exception (VAV exhaust, semi -conditioned makeup, or GERM calculation) NA C404.10.4 (under C404.11) Pools and permanent spas exhaust systems (energy recovery) For buildings with pools or spas with water surface area > 200 sf, indicate exhaust air ER method and use of waste heat (preheat ventilation air, pool water or service hot water); or exception taken Indicate ER system has the rated effectiveness and is configured to decrease the exhaust air temperature at design conditions by >_ 36°F NA C403.5.2 Energy recovery - steam condensate systems For buildings with on -site steam heating systems, indicate condensate water ER _,— __. For buildings that use off -site generated steam where condensate is not retumed to the source, indicate on -site condensate water ER 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 5 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stones and all R1 Re is Project Title: UWAS Seattle Date :/1/2015 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) I Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.5.3 Energy recovery - cooler / freezer condensers For buildings with food service, meat or deli departments that have 2 500,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy (service water heating, space heating, or dehumidification reheating) _ For buildings with a 40,000 sf conditioned floor area and with a 1,000,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy for service water heating and also for space heating, or dehumidification reheating NA C403.5.4 Energy recovery - condenser systems For buildings with 24-hour operation and with > 1,500,000 Btu/h of heat rejection capacity and design service hot water load > 250,000 Btu/h, indicate condenser ER to pre -heat service water; or exception taken. Provide calculations showing the amount of recovered heat that is utilized (60% of peak heat rejection load or pre -heat service water to 85°F). Hydronic System Controls NA C403.2.13 C403.4.2.7 Variable flow control - hydronic system pumps For hydronic system pump motors k 7.5 hp, indicate method of variable flow control (VSD or equivalent method that requires .? 30% design wattage at 50% design fluid flow); note exception taken Identify whether hydronic coils have DDC controls and associated manner of pump speed control (differential pressure, zone hydronic demand, etc) NA C403.2.5 C403.4.2.4 Hydronic system setback and part load controls For boilers that provide building heating, indicate controls that provide heating water temperature setback based on outdoor temperature For heating and chilled water systems 2 300,000 Eitu/h, indicate systems are configured to automatically reset supply water temperature based upon demand; or exception taken, If system pump motor hp 2 3 hp, also indicate controls automatically reduce flow by a 50%. — -- -- For chilled water systems (a 300,000 Btu/h, pump motor hp a 3 hp) that serve water-cooled unitary air conditioners, indicate VSD or staged pumps in chilled water system and heat rejection loop that reduce pump flow so that one control valve is nearly wide open, or to maintain a minimum differential pressure; or exception taken — NA C403.4.2 Boiler sequencing Indicate automatic controls that sequence operation of multiple boilers NA C403.4.6 Hot gas bypass limitation For cooling equipment with hot gas bypass, provide either multiple step unloading or continuous capacity modulation; indicate bypass capacity per Table C403.4.6 NA C403.4.2.2 Two -pipe changeover systems Indicate changeover deadband (min 15°F), heating / cooling mode scheduling and changeover temperature range (limit 30°F) NA C403.4.2.6 Chiller / boiler plant pump isolation Indicate controls are configured to automatically reduce overall plant flow and shut-off flow through individual chillers and boilers when not in use NA C403.2.13.1.1 C403.4.3.1.1 C403.4.3.1.2 Heat rejection equipment - variable flow control For cooling towers with fan motors ? 7.5 hp, indicate VSD and method to adjust fan speed (adjusted based on leaving fluid temperature or condenser temperature / pressure of heat rejection device) For multiple -cell heat rejection equipment with VSD, indicate controls that ramp all fans in unison NA C403.4.3,3 Heat rejection equipment - cooling tower flow turndown Indicate open -circuit cooling towers with multiple pumps or VSD control are designed so all cells can be run in parallel NA C403.4.2.3.1 Water loop heat pump - deadband Indicate capability of central equipment to provide minimum 20°F water supply temperature deadband between heat rejection and heat addition modes; or exception taken NA C403.4.2.3.2.1 Water loop heat pump - heat rejection equipment, Zone 4 Indicate type of cooling tower (open- or closed-circuit) in equipment schedule; indicate method used to limit system heat loss when heat rejection is not needed NA C403.4.2.3.2.2 Water loop heat pump - heat rejection equipment, Zone 5 For open- or closed-circuit cooling towers, provide a heat exchanger that separates the cooling tower and heat pump loop NA C403.4.2.3.3 Water loop heat pump - isolation valves For hydronic heat pump systems with total system power > 10 hp, indicate 2-way isolation valves on each heat pump and variable flow system control Dedicated Outdoor Air Systems (DOAS) - Optional through 6/30/16, Prescriptive 7/1/2016 NA C403.6 C403.6.3 Dedicated outdoor air systems For buildings with office, retail, education, library and fire station spaces, identify these spaces on plans; indicate that ventilation air in each occupied space is provided via a DOAS system; or document compliance with C403.6.3 Impracticality; or exception taken (buildings complying with C402.4.1.4 or C406.6 may not utilize exceptions) NA C403.6.1 Energy recovery ventilation with DOAS For all DOAS systems, indicate exhaust air ER method; or exception taken with supporting calculations. Indicate ER rated effectiveness that increases OSA enthalpy by 50% based on delta between OSA and return air enthalpies at design conditions. NA C403.6.2 Heating / cooling system controls with DOAS Indicate equipment associated with the delivery of zone level heating and cooling (fans, hydronic pumps, primary air dampers, etc) are configured to shut off, and central equipment is configured to turn down, when there is no call for heating or cooling in the zone they serve If applying Exception to heating / cooling fans used for air mixing in the space during deadband periods, include fan watts per cfm in equipment schedule 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 6 of 7 Mechanical Permit Plans Checklist MECH-CHK Revised Janu 2 7 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Project Title: UWASSeattle Date 1/1/2015 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C402.4.1,4 C403.6 Increased prescriptive maximum vertical fenestration area with DOAS Indicate that all occupied, conditioned spaces are served by a DOAS per C403.6 Additional Efficiency Package Option, Dedicated Outside Air Systems (DOAS) NA C406.6 Building provided with DOAS To comply with additional efficiency package option, indicate that 90% or more of all occupied, conditioned spaces are served by a DOAS per C403,6 Multiple Zone Air Systems NA C403.4.4 Air systems serving multiple zones Identify supply air systems serving multiple zones and the zones they serve on plans; indicate whether system is VAV and method of primary air control; or provide supporting documentation for applied exception to VAV NA C403.4.4 VAV systems serving multiple zones Provide equipment schedules on plans or MECH-EQ form that list all VAV air terminals and types For each air terminal include; maximum airflow rates for primary supply air during zone peak heating and zone peak cooling; maximum airflow during reheating, retooling or mixing; minimum airflow rate to maintain required ventilation, and the basis for these values; if IMC or ASHRAE 62.1 multiple zone equation is basis for minimum flow rates, provide calcu.ation on plans NA C403.4.4.1 Single duct VAV terminal units Indicate single duct terminal units are configured to reduce primary supply air before reheating or retooling NA C403.4.4.2 Dual duct systems - terminal units For systems with separate warm air and cool air ducts, indicate terminal units are configured to reduce the flow from one duct to minimum before mixing with air from the other duct NA C403.4.1.1 C403.4.1.2 VAV system static pressure sensors - sensors and DDC set points Indicate locations of duct static pressure sensors on plans; include at least one sensor per major duct branch; verify controller setpoint pressure at each sensor is 5 1.2 inch w.g. For systems with zone level DDC, indicate controls are configured to monitor zone damper positions and reset staticpressure setpoint based on the zone requiring most pressure; P q g include control logic that automatically detects and generates an alarm if any zone excessively drives reset logic, and allows building operators to exclude zones from reset logic NA C403.4.4.3 Multiple -zone VAV system ventilation optimization controls For systems with zone level DDC controls, indicate controls are configured to automatically reduce outdoor airflow in response to changes in system ventilation efficiency; or exception taken NA C403.4.4.4 VAV system supply air reset Indicate controls automatically reset supply air temperature in response to building loads or outdoor air temperature; or exception taken Multiple Zone HVAC Systems, High Efficiency VAV - Required for systems utilizing C403.6 DOAS Exception 2, must comply with all 16 provisions NA C403.7, Item 1 Air economizer Indicate system is configured for 100% air economizer operation and complies with all related economizer requirements per C403.3 (without economizer exceptions) NA C403.7, Item 2 Direct digital controls (DDC) Provide DDC controls for all components of system; identify all DDC system input / output control points; indicate capability for trending and graphical display NA C403.7, Item 3 Outdoor airflow measurement and reduction For systems with minimum OSA > 2,500 cfm, indicate outdoor airflow monitoring station that measures OSA intake under all load conditions; indicate control sequence that increases or reduces system OSA cfm based on VAV terminal feedback of ventilation efficiency (per C403.4.4.3 without exceptions) or DCV (per C403.2.6.2) NA C403.7, Item 4 Supply airflow measurement For systems with minimum OSA > 2,500 cfm, indicate supply airflow monitoring station capable of measuring supply air delivered to VAV terminals under at load conditions NA C403,7, Item 5 Zone isolation and maximum area served Verify maximum area served by a single HEVAV system is s 50,000 sf, or one entire floor, whichever is greater; in addition if a system serves > 25,000 sf, that includes areas that are expected to be occupied non -simultaneously, indicate zone isolation controls per C4032.4.4 NA C403.7, Item 6 Interior / exterior zone design supply air temperature Verify that VAV terminals serving interior cooling driven loads are sized per design supply air temperature that is 5°F higher than VAV terminals serving exterior zones NA C403.7, Item 7 Maximum air terminal inlet velocity Identify air terminals with minimum primary airflow setpoints > 50% of maximum setpoint in equipment schedule or MECH-EQ form; indicate air terminal inlet velocity does not exceed 900 fpm NA C403.7, Item 8 Sequence of operation Indicate DDC system sequences of operation are designed and configured per ASHRAE GPC 36 NA C403.7, Item 9 Maximum allowable system brake horsepower Verify fan system bhp is 5 90% of the bhp limit per Option 2 equation in Table C403.2.11.1(1), provide MECH-FANSYS form for each system NA C403.7, Item 10 Fan -powered terminal unit motor and control Indicate all series and parallel terminal fans have electronically commutated motors; indicate DDC control system is configured to vary air terminal fan speed as a function of the load; indicate fan speed during periods of low heating, low cooling, or ventilation only is 5 66% of peak design air flow or provide supporting documentation for applied exception 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 7 of 7 Mechanical Permit Plans Checklist MECH-CHK Revised January 2017 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Project Title: UWA5 Seattle Date 1/1/2015 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.7, Item 11 Application of single duct and fan -powered terminal units Indicate VAV terminal types on plans; verify fan -powered terminal units only serve perimeter zones with envelope loads; verify all other zones are served by single duct terminal units NA C403.7, Item 12 Fan -powered terminal unit primary air reset Indicate DDC controls are configured to automatically reset the primary supply air cfm setpoint of all fan -powered terminal units to the minimum required to maintain ventilation during occupied heating or deadband, based upon the VAV air handling unit OSA ventilation fraction NA C403.7, Item 13 High occupancy space controls For spaces > 150 sf with occupant density a 25 people / 1000 sf, indicate space is served by a dedicated terminal unit with DCV control that resets terminal unit ventilation setpoint; also indicate occupancy sensor control that automatically reduces minimum ventilation to zero and sets back room heating and cooling setpoints by a 5°F NA C403.7, Item 14 Dedicated HVAC systems For server, electronic equipment, telecom or similar spaces with cooling loads > 5 W/sf, indicate spaces are served by independent HVAC systems that are separate from HPVAV systems servingrest of building; indicate dedicated HVAC systems have air economizer controls or energy recovery per C403.3 Exception 9 NA C403.7, Item 15 Central plant efficiency Indicate whether systems are served by a high efficiency heating water plant, or a high efficiency chilled water plant If complying via high efficiency heating water plant: Indicate all VAV terminals have hydronic heating coils served by heating water system with either gas -fired boiler(s) with thermal efficiency z 90%, air -to -water heat pumps, or heat recovery chillers If complying via high efficiency chilled water plant: Indicate all VAV air handlers have cooling coils served by chillers with rated IPLV efficiency that exceeds WSEC listed IPLV by at least 25% per Table C403.2.3(7) (note water-cooled IPLV is max, all others are min); indicate smallest chiller or compressor in plant is <_ 20% of total plant capacity, or provide thermal storage sized for <_ 20% of total plant capacity NA C403.7, Item 16 Fault detection and diagnostics Indicate DDC system includes a fault detection and diagnostics (FDD) system configured to monitor operation and provide fault reporting of required parameters for all VAV air handlers and VAV air terminal units in the HPVAV system HVAC Equipment Energy Use Metering NA C409.3.1 HVAC equipment energy use metering For new buildings > 50,000 sf and building additions > 25,000 sf, verify energy use metering of all equipment used to provide space heating and cooling, dehumidification and ventilation will be provided per C409; indicate equipment eligible for exception Documentation and System Specific Requirement To Support Commissioning Yes C408.2 Scope of mechanical systems commissioning Indicate that all mechanical systems, equipment, and controls for which the WSEC requires control functions and / or configuration to perform specific functions are required to be commissioned; M001, M601 For buildings with >_ 240,000 Btu/h total output cooling capacity or >_ 300,000 Btu/h total output heating capacity, indicate that all mechanical systems regardless of individual capacity are required to be commissioned; or provide building heating / cooling capacity calculation demonstrating eligibility for exception MO01, M601 Yes C403.2.10 C408.1.1 C408.1.2 C408.1.4.2 C103.6 Commissioning requirements in construction documents Indicate in plans and specifications that Cx per C408 is required for all applicable mechanical systems; M001, M601 Include general summary with at a minimum of Items 1 thru 4 of the Cx plan per C408.1.2 including: narrative description of activities, responsibilities of the Cx team, schedule of activities including verification of project close out documentation per C103.6, and conflict of interest plan (if required); M001, M601 Include in general summary that a Cx project report or Compliance Checklist (Figure C408.1.4.2) shall be completed by the Certified Cx Professional and provided to the owner prior to the final mechanical inspection. M001, M601 Yes C408.2.2 Air system and hydronic system balancing Indicate in plans that air and fluid flow rates shall be tested and balanced within the tolerances defined in the specifications; indicate systems shall be balanced in a manner to first minimize throttling losses, then adjusted to meet design flow conditions M002 Yes C408.2.2.1 Air system balancing devices Indicate devices that provide the capability to balance all supply air outlets, zone terminals and air handling equipment requiring system balancing M002 NA C408.2.2.2 Hydronic system balancing devices Indicate devices that provide the capability to isolate, balance and measure flow across all hydronic equipment requiring system balancing including heating and cooling coils and pumps Yes C408.2.3 Functional performance testing criteria Identify in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing -to -remain systems Moot, M601 Project Close Out Documentation Yes C103.6 Documentation and project close out submittal requirements Indicate in plans that project close out documentation and training of building operations personnel is required for all mechanical components, equipment and systems governed by this code; indicate close out documentation shall include: record documents, O&M manuals, applicable WSEC compliance forms and calculations M002 1 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 1 of 2 Service Water Heating Permit Plans Checklist SWH-CHK Revised January 2017 Project Title: UWA5 Seattle Date 1/1/2015 The following information is necessary to check a permit application for compliance with the mechanicial systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes Equipment - Sizing, Performance and Type Yes C404.2 SWH equipment type and efficiency Provide equipment schedule on plans indicating type and capacity; indicate efficiency complies with required federal standard P601 NA C404.2.1 High input -rated SWH systems For individual SWH equipment serving an entire building with z 1,000,000 Btu/h capacity, indicate thermal efficiency z 90%; or exception taken For buildings with aggregate capacity of all SHW equipment z 1,000,000 Btu/h (exclude < 100,000 Btu/h equipment from threshold calculation), indicate average capacity weighted thermal efficiency z 90%; or exception taken If applying Exception 1 for site -solar or site -recovered energy, provide calculations and source of annual service water heating energy use estimate Yes C404.4 Heat traps Indicate piping connected to equipment have heat traps on supply and discharge P501 NA C404.5 Insulation under electric water heater For electric water heaters located in unconditioned spaces or on concrete floors, indicate R-10 insulation under equipment Piping Systems Yes C404,6 Insulation of piping Indicate thickness of piping insulation on plans per Table C403.2.9; verify insulation is provided - from the water heater to the final fixture in a line, from the inlet / outlet piping at water heater to heat trap (up to 8 feet), and on piping that is heat traced; note exceptions taken P002, P003 Yes C404.3 Efficient SWH supply piping Indicate method of compliance on plans for all piping runs connecting service hot water source to hot water fixture (maximum pipe length or maximum pipe volume method per Table C404.3,1); provide calculations for all piping runs documenting the total length and / or volume P101 Service Water Heating System Controls Yes C404.7.1 C404.8 Heated -water circulating systems For circulation systems with dedicated return piping, indicate controls are configured to automatically start pump based on demand for hot water and shut-off pump when there is no demand and when the desired water temperature is met - P101, P601 - For circulation systems with cold water supply piping serving as the return, indicate controls are configured to automatically start pump based on demand for hot water and shut-off pump when there is no demand, or when temperature of water entering the cold water supply pipe is z 104°F NA NA C404.7.2 Heat trace system controls For heat trace systems provided to maintain temperature of service hot water in piping, indicate controls are configured to de -energize system when there is no demand for hot water and when the desired water temperature is met NA C404.7.3 Controls for hot water storage For systems with separate water heater and storage tank, indicate controls are configured to limit operation time of pump after end of heating cycle to <_ 5 minutes NA C403.2.13 C403.4.2.7 Variable flow control - pumps For SWH, pool / spa and pressure boosting pump motors z 7.5 hp, indicate method of variable flow control (VSD or equivalent method that requires z 30% design wattage at 50% design fluid flow); note exception taken Identify basis of pump speed control (differential or static pressure setpoint, pressure, zone load demand, etc) Pools and Permanent Spas - Equipment and Controls (Sections are under C404.11) NA C404.10.1 Pool heating equipment efficiency Provide equipment schedule on plans indicating type and capacity for all pool heating equipment; indicate efficiency complies with required federal standard; for heat pump water heaters indicate COP z 4 C403.2.13 VNA pumsle flow control - Refer to Service Water Heating System Controls NA C404.10.1 C404.10.2 pool heater on / off controls Indicate automatic on / off control based on scheduling and readily accessible on / off switch on heater that operates independent of thermostat setting; note exceptions taken NA C404.10.3 Pool covers For all pools and in -ground permanent spas, indicate a vapor retardant cover on plans For all pools and in -ground spas heated to > 90°F, indicate cover shall include insulation z R- 12 NA C404.10.3 Pool assembly insulation For all pools and in -ground spas heated to > 90°F, Indicate on plans that sides and bottom are provided with insulation >_ R-12 NA C404.12 Energy consumption of portable spas Indicate portable spa complies with Association of Pool and Spa Professionals APSP-14 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 2 of 2 Energy Recovery (ER) Systems - Service Water Heating and Pool Systems NA C404.10.4 (Section under C404.11) Pools and permanent spas exhaust systems (energy recovery) For buildings with pools or permanent spas with water surface area > 200 sf, indicate exhaust air ER method and use of waste heat (preheat ventilation air, pool water or service hot water); or exception taken Indicate ER system has the rated effectiveness and is configured to decrease the exhaust air temperature at design conditions by >_ 36°F NA C403.5.3 Energy recovery - cooler / freezer condensers For buildings with food service, meat or deli departments that have z 500,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate if condenser ER will be used to pre -heat service water For buildings with >_ 40,000 sf conditioned floor area and with >_ 1,000,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate if condenser ER will be used to pre -heat service water NA C403.5.4 Energy recovery - condenser systems For buildings with 24-hour operation and > 1,500,000 Btu/h of heat rejection capacity and design SWH load > 250,000 Btu/h, indicate condenser ER to pre -heat service water; or exception taken. Provide calculations showing the amount of recovered heat that is utilized (60% of peak heat rejection load or pre -heat service water to 85°F). NA C404.10 Drain water heat recovery units For systems incorporating drain water ER, indicate system design complies with CSA B55.2 (or CSA 55.1 for Group R); indicate potable waterside pressure loss at design flow is < 10 psi Service Water Heating Energy Use Metering NA C404.9 SWH energy usage in dwelling units For Group R-2 multi -family buildings with central SWH systems, provide metering of hot water energy usage per dwelling unit; indicate metering and data reporting method NA C409.3.2 SWH equipment energy use metering For new buildings > 50,000 sf and building additions > 25,000 sf, with total SWH equipment capacity >_ 50 kW (>_ 170,600 Btu/h), verfiy energy use metering of all SWH equipment will be provided per C409 Additional Efficiency Package Option, Reduced Energy Use In Service Water Heating - Must comply with both provisions to be eligible NA C406.7.1 Eligible building type To comply with additional efficiency package option, verify that a 90% of the conditioned floor area of the building is one or more of the occupancies identified in this section, OR; _. Provide whole building energy analysis per C407 that demonstrates the SWH load in the building is >_ 10% of total building energy loads NA C406.7.2 C403.5.4 Load fraction To comply with additional efficiency package option, provide documentation that verifies >_ 60% of building annual SWH energy is provided by high efficiency sources (heat pump water heater with COP >_ 3, waste heat recovery, solar water -heating system); For buildings with 24-hour operation and with > 1,500,000 Btu/h of heat rejection capacity and design service hot water load > 250,000 Btu/h (per C403.5.4); provide documentation that verifies z 100% of building annual SWH energy is provided by condenser energy recovery or other high efficiency source Documentation and Specific System Requirements to Supporting Commissioning NA C408.4 Scope of service water heating systems commissioning Indicate that all SWH equipment and controls for which the WSEC requires control functions and / or configuration to perform specific functions are required to be commissioned;+D7 ---- For buildings where the largest SWH system has ? 200,000 Btu/h total output capacity, indicate that all SWH systems regardless of individual capacity are required to be commissioned. NA C408.4.1.3 Scope of pool and permanent spa systems commissioning Indicate that all pool and permanent spa water heating systems regardless of individual capacity are required to be commissioned; Indicate that energy recovery equipment that heats pool water regardless of capacity is required to be commissioned; Identify all pool heating and energy recovery equipment and controls that the WSEC defines as being capable of and / or configured to perform specific functions. NA C404.13 C408.1.1 C408.1.2 C408.1.4.2 C103.6 Commissioning requirements in construction documents Indicate in plans and specifications that Cx per C408 is required for all applicable service water heating systems; Include general summary with at a minimum of Items 1 thru 4 of the Cx plan per C408.1.2 including: narrative description of activites, responsibilities of the Cx team, schedule of activities including verification of project close out documentation per C103.6, and conflict of interest plan (if required); Include in general summary that a Cx project report or Compliance Checklist (Figure C408.1.4.2) shall be completed by the Certified Cx Professional and provided to the owner prior to the final mechanical inspection. NA C408.4.1 Functional performance testing criteria Identify in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing -to -remain systems Project Close Out Documentation NA C103.6 Documentation and project close out submittal requirements Indicate in plans that project close out documentation and training of building operations personnel is required for all SWH components, equipment and systems governed by this code; indicate close out documentation shall include: record documents, O&M manuals, applicable WSEC compliance forms and calculations 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Economizer Exceptions MECH-ECONO 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: UWA5 Seattle Date 1/1/2015 All cooling systems shall be configured to provide air economizer operation, regardless of system capacity, for new construction and mechanical system alterations. Various exceptions to this requirement are available. Identify all systems that an economizer exception will be applied to and additional information as noted below. For Building Dept. Use Economizer Exception Summary Refer to Section C403.3 for descriptions of economizer provisions and exceptions. For alterations refer to Section C503.4 and Table C503.4. ECONOMIZER EXCEPTIONS - NEW CONSTRUCTION AND ADDITIONS Exp 1 Cooling equipment serving spaces that are provided with a dedicated outdoor air system (DOAS) per C403.6. Spaces served shall have year- round design cooling loads from lights and equipment less than 5 watts per square foot. System ID Lighting + Equipment Loads (WIsf) Exp 2 Single zone unitary or package systems with dehumidification that affect other systems such that air economizer would increase energy consumption. System ID Exp 3 High efficiency single zone unitary or packaged systems. Equipment cooling efficiency shall be better than the WSEC required minimum efficiency by at least 64% in Climate Zone 4C and 59% in Climate Zone 5B per Table C403.3. System ID Exp 4 Equipment that provides hydronic chilled water for chilled beams and chilled ceiling systems that is served by a water economizer system per C403.3.4 in lieu of air economizer. System ID Exp 5 Water -source heat pumps with heat recovery. Heat pump efficiency shall be 15% better than WSEC required minimum efficiency. Provide at minimum 60% air economizer, Energy recovery to preheat OSA shall have at least 50% effectiveness. Additional system requirements apply. System ID Exp 6 Cooling equipment serving Group R occupancies. Per unit limit is less than 20,000 Btulh cooling capacity for equipment installed outdoors or in a mech room adjacent to the outdoors. For cooling equipment installed in other locations the unit limit is less than 54,000 Btu/h. Efficiency shall be 15% better than WSEC required minimum efficiency. System ID Equipment Location Cooling Capacity (Btu/h) Exp 7 Variable refrigerant flow (VRF) systems with energy recovery. Outdoor unit shall be a reverse -cycle heat pump with variable speed compressor(s) and condenser fan(s). Outdoor unit cooling capacity shall be not less than 65,000 Btulh. Energy recovery to preheat outdoor air shall have at least 50% rated effectiveness. System shall be capable of providing simultaneous heating and cooling by tranferring recovered energy from zone(s) in cooling mode to other zone(s) that are in heating mode. Outdoor Unit System ID Cooling Capacity (Btulh) Exp 8 Cooling equipment serving Controlled Plant Growth Environments. Equipment cooling efficiency shall be better than WSEC required minimum efficiency by at least 20%. Not eligible: unitary and applied heat pumps. System ID SEER, EER, & IEER Exp 9 Cooling equipment with energy recovery. Spaces served shall have year-round design cooling loads from lights and equipment greater than 5 watts per square foot. Energy recovery system shall utilize recovered energy for on -site space heating or preheating of service hot water. Provide calculations to the code official that demonstrate the amount of recovered energy used for on -site heating purposes is equivalent to the annual energy that would be saved by the cooling system with air economizer per C403.3. System ID Lighting + Equipment Loads (Wlsf) 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Economizer Exceptions, cont. MECH-ECONO 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Date 1/1/2015 Economizer Exception Summary Refer to Section C403.3 for descriptions of economizer provisions and exceptions. For alterations refer to Section C503.4 and Table C503.4. ECONOMIZER EXCEPTIONS - NEW CONSTRUCTION AND ADDITIONS, CONTINUED Exp 10 Cooling equipment for dedicated server, electronic equipment or telecom switch rooms. Per building limit for this exception is 240,000 Btulh cooling capacity or 10% of required building air economizer capacity, whichever is greater. Part load control required over 85,000 Btu/h. Additional requirements apply. Option a - Cooling equipment efficiency shall be 15% better than the WSEC required minimum efficiency.. Option b - Waterside economizer required. Cooling equipment efficiency shall be 5% better than the WSEC required minimum efficiency. Option c - Waterside economizer required. All cooling equipment is subject to ASHARE Standard 127. System ID Compliance Option Cooling Capacity (Btulh) Total Claimed Exempt Capacity: Total building air economizer capacity (if claimed > 240 kBtu/h): Alternate Exp 10 Capacity Limit: ECONOMIZER EXCEPTIONS - MECHANICAL SYSTEM ALTERATIONS OR REPLACEMENT C503.4 Pre -approved design alternative to full compliance with air economizer Exp 1 requirement. An alternative for mechanical system alterations where existing building constraints make full compliance with air economizer requirement impractical. Provide calculations to the code official that demonstrate the proposed alternate design strategy provides similar energy savings to the annual energy that would be saved by the cooling system with air economizer per C403.3. System ID Alt. Strategy ECONOMIZER EXCEPTIONS - SIMPLE SYSTEMS C503.4 Exp 2 Qualifying small equipment. Per unit limit less than 33,000 Btu/h. Per building limit for this exception is 72,000 Btulh cooling capacity or 5% of required building air economizer capacity, whichever is greater. Cooling equipment efficiency shall be 15% better than WSEC required minimum efficiency. Not eligible: non -unitary equipment, unitary equipment installed outdoors or in mech room adjacent to outdoors, equipment installed during new construction, shell -and -core construction, or initial tenant improvement. System ID Cooling Capacity (Btulh) Total Claimed Exempt Capacity: Total building air economizer capacity (if claimed > 72,000 Btu/h): Alternate C503.4 Exp 2 Capacity Limit: C503.4 Equipment that provides hydronic chilled water for chilled water terminal Exp 3 units. Equipment part load cooling efficiency (IPLV) shall be better than WSEC required minimum efficiency by at least 25%. Per building limit for this exception is 480,000 Btu/h cooling capacity or 20% of required building air economizer capacity, whichever is greater. Chilled water terminal units serving Group R occupancies are not included in the building capacity total. System ID Cooling Capacity (Btu/h) Total Claimed Exempt Capacity: Total building air economizer capacity (if claimed > 480,000 Btulh): Alternate C503.4 Exp 3 Capacity Limit: Table Compliance Options for alteration or replacement of existing C503.4 mechanical cooling equipment per Table C503.4. Refer to table and all applicable table footnotes for full requirements. Applies to the following retrofit conditions: Option a - Any new or replacement equipment Option b - Replacement equipment of same type with same or smaller cooling output capacity. Option c - Replacement equipment of same type with large cooling output capacity. Option d - New equipment added to existing system or replacement equipment that is different than existing being replaced. System ID Equipment Type Compliance Path 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS-SUM 2015 Washington State Energy Code Compliance Forms for Commercial Buildings includingR2 & R3 over 3 stones and all R1 Revised January2017 Project Title: UWA5 Seattle Date 1/1/2015 For Building Dept. Use HVAC Air Distribution System Schedule List all HVAC systems that have the capability to provide heating and/or cooling to the spaces they serve. System or Primary Supply Fan ID Speed Control (Note 1) Description (Note 2) System Total Nameplate HP (Note 3) Fan Power Calculation Required (Note 4) RTU-1 CV Packaged Gas/Electric RTU w/Supply Fan 0.75 No RTU-3 TO 8 CV Packaged Gas/Electric RTU w/Supply Fan and Powered Exhaust Fan 3.625 No RTU-9, 10 CV Packaged Gas/Electric RTU w/Supply Fan 2.75 No RTU-11 CV Packaged Gas/Electric RTU w/Supply Fan 1 No Note 1 - Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1 Exception 1. Single zone VAV systems shall comply as CV. Note 2 - Describe system type and list all fans (or groups of fans) associated with the delivery and removal of conditioned air by the system. Include all supply, return/relief, exhaust and exhaust hoods (>1 hp), make-up air, dedicated outside air (DOAS), booster fans, and series fan -powered terminals. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. Note 3 - Enter the total nameplate hp of all fans associated with the delivery and removal of conditioned air by the system. Note 4 - This form automatically identifies whether a MECH-FANSYS form is required to demonstrate compliance with the fan power allowance (Yes), or this information is not required because the system has a combined total nameplate motor hp that is 5 hp or less (No) MECH-FANSYS Forms A MECH-FANSYS form shall be provided for each system with total nameplate hp greater than 5 hp. Select (Add Fan System Form) to generate an additional form. Added forms can be deleted with button in cell E32 of the added form. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: UWA5 Seattle Date 1/1/2015 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID System Supply Fan Y pp Y Speed Control Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Compliance Option p p Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply y pp y CFM Total In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals, booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule Fan ID and Location Fan Type Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: Total Allowance: Brake Horsepower Allowance Adjustments Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. (Note 7) Adjustment, A in bhp (Note 8) Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): n4.......... .. 4M.. f' .AAll :.. 4L............f.'h..........1.. C'L AA .....d .... L.......{ /`CAA :f /...IM ..... aM.... ... L. the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and return air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, return and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV), and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air, such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4-pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will autofill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write -protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stones and all R1 Fan Power Allowance Adjustment Factors 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 8. R3 over 3 stories and all R1 MECH-FANSYS-DOC Revised January 2017 TABLE C403.2.11.1(2) FAN POWER LIMITATION PRESSURE DROP ADJUSTMENT Device Adjustment Credits Fully ducted return and/or exhaust air systems 0.5 inch w.c. (2.15 inches w.c. for laboratory and vivarium systems) Return and/or exhaust air flow control devices 0.5 inch w.c. Exhaust filters, scrubbers, or other exhaust treatment The pressure drop of device calculated at fan system design condition Particulate filtration credit: MERV 9 - 12 0.5 inch w.c. Particulate filtration credit: MERV 13 - 15 0.9 inch w.c. Particulate filtration credit: MERV 16 and greater and electronically enhanced filters Pressure drop calculated at 2x clean filter pressure drop at fan system design condition Carbon and other gas -phase air cleaners Clean filter pressure drop at fan system design condition Biosafety cabinet Pressure drop of device at fan system design condition Energy recovery device, other than coil runaround loop (2,2 x energy recovery effectiveness) — 0.5 inch w,c. for each airstream Coil runaround loop 0.6 inch w.c, for each airstream Evaporative humidifier/cooler in series with another cooling coil Pressure drop of device at fan system design conditions Sound attenuation section (fans serving spaces with design background noise goals below NC35) 0.15 inch w.c. Exhaust system serving fume hoods 0.35 inch w.c. Laboratory and vivarium exhaust systems in high-rise buildings 0.25 inch w.c./100 feet of vertical duct exceeding 75 feet Deductions Systems without central cooling device -0,5 inch w.c. Systems without central heating device -0.3 inch w.c. Systems with central electric resistance heat -0.2 inch w.c. w.c..— water column, For SI: 1 inch w.c..= 249 Pa, 1 inch.= 25.4 mm. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Design Load Calculation Summary MEI14-1-LOAD-CALC 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all Rftevised January 2017 Project Title: UWA5 Seattle Date 1/1/2015 The following information shall be included in the load calculation program summary submitted with the permit documents. If a load calculation summary is not available, provide the required information below. For Building Dept, Use Equip. ID Area(s) Served Heating Design Load in Btu/h (Note 1) Cooling Design Load in Btu/h (Note 1) Calculation Method (Note 2) Notes RTU-1 OFFICE SPACE 71,000 46,280 TRANE TRACE RTU-3 TO 8 WAREHOUSE 609,000 537,297 TRANE TRACE RTU-9, 10 BULLPEN 202,000 135,037 TRANE TRACE RTU-11 TRANSFORMATION RM 31,000 13,968 TRANE TRACE Note 1 - Design load shall account for the building envelope, lighting, ventilation and occupancy loads of the space(s) served by the mechanical system. Heating and cooling loads shall be adjusted to account for load reduction achieved by an energy recovery system, if applicable. Note 2 - Computer load calculation program, worksheet (identify source), or equivalent computation procedure in accordance with ASHRAE Standard 183. 121 Key Mechanical 19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Company of Washington TEST, ADJUST & BALANCE SURVEY AND BALANCE REPORT Amazon — UWA5 18323 Andover Park West Tukwila, WA 98126 Project Completion: 10/21/2019 19. di 04 WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: R0C298672 RECEIVED CITY OF TUKWILA OCT 3 0 2010 PERMIT CENTER Amazon UWA5 — Tukwila, WA Page 1 of 13 alKey Mechanical 19430 68" Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 Summary: The mechanical design of this building was completed by Henderson Engineers of Lenexa, KS. The system was installed to the specifications set forth by the designers. WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 Indoor air quality is an important factor in building occupant health. A Test and Balance Report was conducted to verify that the ventilation of the building followed ASHRAE Standard 62.1 and the Washington Indoor Air Quality Act. This building is comprised of 55,445 sq./ft of warehouse space. Using ASHRAE equation 6.2.2.1 it was determined by Henderson Engineers that the minimum ventilation rate required during occupied hours was 3,225 CFM. Part of Key Mechanical's test and balance report was to verify this measurement. Field measurements were then taken to verify that the minimum ventilation rates were met. Measuring the return and supply air flow values the outside air ventilation rate was determined. The system was providing an adequate flow of outside air to the structure. The ventilation rate was determined to be 3,557 CFM which exceeds the minimum requirements. Amazon UWA5 — Tukwila, WA Page 2 of 13 ill19430 68'h Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 1 Manufacturer: Trane Model: YHC060F4RLA1TKB1A1A600B0B000C0000000000 SN: 193812367L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 14 MOPD: 20 Supply Air: 2000 CFM at 0.6" WC Blower: 1.0 HP direct drive blower -1076 rpm Refrigerant: R410A — 6.1 LBS Airflow Discharge/Return: Downflow System Pressure [PSIG1: Low 140 / High 337 WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 1 — Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM RTU1 Flowhood 10" 0 260 243 6" e 27 43 6" 0 71 84 10" 0 152 237 10" 0 179 261 10" 0 211 263 10" 0 137 210 Total 1,037 1,341 RTU 1— Return Air Readings 12" 0 873 803 12' e 730 795 Total 1,603 1,598 Notes: RTU 1 serves the lower level of the office space located on the east side of the building. This unit was a like for like rooftop replacement only. Closed multiple dampers that led to no diffusers. No dampers on Wye branches. Amazon UWA5 — Tukwila, WA Page 3 of 13 In19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 2 Manufacturer: Trane Model: YSC090A4RMA1B000000000000 SN: 351100114L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22.6 MOPD: 35 Supply Air: 3000 CFM at 0.6" WC Blower: 2.0 HP direct drive blower -1230 rpm Refrigerant: R22 — 11.9 LBS Airflow Discharge/Return: Horizontal System Pressure [PSIG]: Low 80 / High 234 WA: KEYMEW.240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: R0C298672 RTU 2— Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM RTU 2— Return Air Readings Notes: RTU 2 serves the upper level of the office space located on the east side of the building. This unit was not replaced. Existing. Amazon UWA5 — Tukwila, WA Page 4 of 13 UM19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 3 Manufacturer: Trane Model: YHC120F4RLAOPK7B1A1A6BOBOB000E0000000000 SN: 193813605L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 3600 CFM at 0.6" WC Blower: 2.75 HP direct drive blower -1407 rpm Refrigerant: R410A — 13 LBS Airflow Discharge/Return: Downflow System Pressure [MG]: Low 134 / High 410 WA: KEYMEW*240NZ OR: 0093479 CA 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 3— Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM Concentric Flowhood Concentric Diffuser 3,583 RTU 3— Return Air Readings Return Grille Flowhood Egg Crate 3,561 Notes: RTU 3 serves the northeast corner of the warehouse. Amazon UWA5 — Tukwila, WA Page 5 of 13 in19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 4 Manufacturer: Trane Model: YHC120F4RLAOPK7B1A I A6BOBOB000E0000000000 SN: 193813613L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 3600 CFM at 0.6" WC Blower: 2.750 HP direct drive blower -1410 rpm Refrigerant: R410A — 13 LBS Airflow Discharge/Return: Downflow System Pressure [PSIGI: Low 135 / High 409 WA: KEYMEW*240 NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 4— Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM Concentric Flowhood Concentric Diffuser 3,576 RTU 4 — Return Air Readings Return Grille Flowhood Egg Crate 3,583 Notes: RTU 4 serves the northeast corner of the warehouse. Amazon UWA5 — Tukwila, WA Page 6 of 13 In19430 68'h Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 5 Manufacturer: Trane Model: YHC120F4RLAOPK7B1A1A6BOBOB000E0000000000 SN: 193813607L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 3600 CFM at 0.6" WC Blower: 2.75 HP direct drive blower -1405 rpm Refrigerant: R410A — 13 LBS Airflow Discharge/Return: Downflow System Pressure [PSIG]: Low 140 / High 337 WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 5— Supply Air Readings System D Reading Outlet Type Initial CFM Final CFM Concentric Flowhood Concentric Diffuser 3,591 RTU 5— Return Air Readings Return Grille Flowhood Egg Crate 3,582 Notes: RTU 5 serves the north end of the warehouse. Amazon UWA5 — Tukwila, WA Page 7 of 13 Key Mechanical 19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 6 Manufacturer: Trane Model: YHC120F4RLAOPK7B1A1A6BOBOB000E0000000000 SN: 193813609L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 3600 CFM at 0.6" WC Blower: 2.75 HP direct drive blower 1407 rpm Refrigerant: R410A — 13 LBS Airflow Discharge/Return: Downflow System Pressure [PSIG]: Low 136 / High 408 WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 6— Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM Concentric Flowhood Concentric Diffuser 3,573 RTU 6— Return Air Readings Return Grille Flowhood Egg Crate 3,587 Notes: RTU 6 serves the central east side of the warehouse. Amazon UWA5 — Tukwila, WA Page 8 of 13 In19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 7 Manufacturer: Trane Model: YHC120F4RLAOPK7B1A1A6BOBOB000E0000000000 SN: 193813615L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 4000 CFM at 0.6" WC Blower: 2.75 HP direct drive blower -1076 Refrigerant: R410A — 13 LBS Airflow Discharge/Return: Downflow System Pressure IPSIGI: Low 140 / High 337 WA: KEYM EW.240 NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC29£3672 RTU 7— Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM S Flowhood 18"x10" Diffuser 803 694 SE Flowhood 24"x12" Diffuser 1,217 1,087 NE Flowhood 24"x12" Diffuser 1,062 1,072 N Flowhood 24"x12" Diffuser 908 1,093 Total 3990 3946 RTU 7 — Return Air Readings Return Grille Flowhood Egg Crate 3979 Notes: RTU 7 serves the east side of the warehouse. Amazon UWA5 — Tukwila, WA Page 9 of 13 IN19430 68th Ave South - Kent WA 98032 phone; 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 8 Manufacturer: Trane Model: YHC120F4RLAOPK7BIAIA6BOBOB000E0000000000 SN: 193813619L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 3600 CFM at 0.6" WC Blower: 2.75 HP direct drive blower -1076 Refrigerant: R410A — 13 LBS Airflow Discharge/Return: Downflow System Pressure [PSIG]: Low 140 / High 337 WA: KEYMEW•240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 8— Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM Concentric Flowhood Concentric Diffuser 3,590 RTU 8— Return Air Readings Return Grille Flowhood Egg Crage 3,587 Notes: RTU 8 serves the central west side of the warehouse. Amazon UWA5 — Tukwila, WA Page 10 of 13 MIKey Mechanical 19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 9 Manufacturer: Trane Model: YHC092F4RLAOPK7B1A1A6BOBOB000D0000000000 SN: 193813433L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 3000 CFM at 0.6" WC Blower: 2.75 HP direct drive blower -1220 Refrigerant: R410A — 10.5 LBS Airflow Discharge/Return: Downflow System Pressure [PSIG]: Low 140 / High 385 WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 9— Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM Concentric Flowhood Concentric Diffuser 2,984 RTU 9— Return Air Readings Return Grille Flowhood Egg Crate 2,986 Notes: RTU 9 serves the southeast corner of the warehouse Amazon UWA5 — Tukwila, WA Page 11 of 13 Ell19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 10 Manufacturer: Trane Model: YHC092F4RLAOPK7B1A1A6BOBOB000D0000000000 SN: 193813431L Voltage: 460/3/60 Voltage Range: 414v — 506v MCA: 22 MOPD: 25 Supply Air: 3000 CFM at 0.6" WC Blower: 2.75 HP direct drive blower -1219 Refrigerant: R410A — 10.5 LBS Airflow Discharge/Return: Downflow System Pressure [PSIGI: Low 140 / High 395 WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: R0C298672 RTU 10 — Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM SW Flowhood 14"x6" Diffuser 152 280 SE Flowhood 14 x6" Diffuser 210 265 Concentric Flowhood Concentric Diffuser 2,620 2,450 Total 2,982 2,995 RTU 10 — Return Air Readings Return Grille Flowhood Egg Crate 2,982 Notes: RTU 10 serves the southwest corner of the building Amazon UWA5 — Tukwila, WA Page 12 of 13 El19430 68th Ave South - Kent WA 98032 phone: 253.872.7392 fax: 253.872.7398 Key Mechanical Project: Amazon UWA5 Location: Tukwila, WA Job Number: 22511-01 System: RTU 11 Manufacturer: Trane Model: YHC036E4RLA1TKOB1A1A600B0B000B0000000000 SN: 193811766L Voltage: 460/3/60 Voltage Range: 414v 506v MCA: 12 MOPD: 15 Supply Air: 1200 CFM at 0.6" WC Blower: .75 HP direct drive blower — 992 rpm Refrigerant: R410A — 6.2 LBS Airflow Discharge/Return: Downflow System Pressure [PSIG]: Low 138 / High 385 WA: KEYMEW*240NZ OR: 0093479 CA: 813609 NV: 0065396 AK: 20901 AZ: ROC298672 RTU 11 — Supply Air Readings System ID Reading Outlet Type Initial CFM Final CFM Warehouse Flowhood 16"x10" Diffuser 574 580 Trans South Flowhood to"x10" Diffuser 281 289 Trans North Flowhood to"x10" Diffuser 304 294 Total 1,159 1,163 RTU 11 — Return Air Readings Trans Return Flowhood 10"x10" Return Grille 284 280 Return Grille Flowhood Egg Crate 880 Notes: RTU 11 serves the transformation room on the southeast wall of the warehouse Amazon UWA5 — Tukwila, WA Page 13 of 13 KN9fil!! 12,160',9 COPY PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M19-0104 PROJECT NAME: AMAZON SITE ADDRESS: 18323 ANDOVER PARK W Original Plan Submittal Response to Correction Letter # DATE: 09/30/2019 Revision # before Permit Issued X Revision # 1 after Permit Issued DEPARTMENTS: PR 10111 Building Division II Public Works Fire Prevention Structural Planning Division r Permit Coordinator 110 PRELIMINARY REVIEW: Not Applicable (no approval/review required) DATE: 10/01/19 Structural Review Required REVIEWER'S INITIALS: DATE: r APPROVALS OR CORRECTIONS: Approved Corrections Required (corrections entered in Reviews) DUE DATE: 10/29/2019 Approved with Conditions 1-1 Denied (ie: Zoning Issues Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg El Fire 0 ling 0 PW 0 Staff Initials: 12/18/2013 COORD COPY (I) PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M19-0104 PROJECT NAME: AMAZON SITE ADDRESS: 18323 ANDOVER PARK W X Original Plan Submittal Response to Correction Letter # DATE: 06/24/19 Revision # before Permit Issued Revision # after Permit Issued DEPARTMENTS: AT Al/VC (19 "")-(0 `httie- Building Division Fire Prevention 111 • Public Works Structural PRELIMINARY REVIEW: Not Applicable El (no approval/review required) Planning Division Permit Coordinator DATE: 06/25/19 • Structural Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: DUE DATE: 07/23/19 Approved Approved with Conditions n Corrections Required Denied (corrections entered in Reviews) (ie: Zoning Issues) Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ID Fire 0 Ping 0 PW 0 Staff Initials: 12/18/2013 CI) /11 PROJECT NAME: 4-0/4:7.-c-il PERMIT NO: 1U SITE ADDRESS: ic-3,3 3 44/d0 per Paritic) ORIGINAL ISSUE DATE: REVISION LOG REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Cci..p1arirj rs etz e__746t. re —es Received by: __\ i,ii, ,j- REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Web site: http://www.TukwilaWA.gov REVISION SUBNIITTAL Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: 09/30/2019 Plan Check/Permit Number: M19-0104 ❑ Response to Incomplete Letter # ❑ Response to Correction Letter # 2 Revision # 1 after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner ❑ Deferred Submittal # Project Name: Amazon -Prime Now Project Address: 18323 Andover Park West, Tukwila, WA 98118 Contact Person: April House Phone Number: 206-478-0844 Summary of Revision: Revision, capturing Coolers and Structurals RECEIVED CITY OF TUKWILA SEP 3 0 2019 PERMIT CENTER Sheet Number(s): See Summary "Cloud" or highlight all areas of revision including Received at the City of Tukwila Permit Center by: Entered in TRAKiT on /©_ 2'161 W:1Pennil Center%Templates\Form\\Revision Submittal Formdoc Revised: August 2015 110111C Espanol C011tna 'Search L&! 4!" Safety & Health Claims & Insurance 011/11111k Washington State Department of Labor & industries A-Z Index [fell) My 1,KI Workplace Rights Trades & Licensing KEY MECH CO OF WASHINGTON Owner or tradesperson Principals LEONARD, FRANK WILLIAM, PRESIDENT LEONARD, MARY HOLLAND, SECRETARY SANDAHL, LEE F, PRESIDENT (End: 02/28/2017) HEISLER, ROBERT L, VICE PRESIDENT (End: 02/28/2017) Doing business as KEY MECH CO OF WASHINGTON WA UBI No 600 196 154 19430 68TH AVE S STE B KENT, WA 98032 253-872-7392 KING County Business type Corporation Governing persons FRANK LEONARD MARY LEONARD, MATTHEW LEONARD, ROBERT LEONARD, Certifications & Endorsements License Verify the contractors active registration / license / certification (depending on trade) and any past violations. Construction Contractor Active. Meets current requirements. License specialties GENERAL License no, KEYMEW*240NZ Effective — expiration 08/09/1976— 03/27/2021 Bond LIBERTY MUTUAL INS CO Bond account no. 023011682 $12,000 00 Received by L&I Effective date 03/23/2009 04/01/2009 Expiration date Until Canceled Insurance ........ Hartford Fire Ins Co $1,000,000.00 Policy no. 52UENOE0154 Help us irnprove COOLER AS DRAWN - NO FLOORS NSF APPROVED AND UL LABELED FOR FLAME SPREAD AND SMOKE DEVELOPED THERMA-STRUCTURE (WOOD FRAME) SEISMIC TIE -DOWNS: IF REQUIRED AND NOT SHOWN AS SUPPLIED BY KPSG, THEY ARE TO BE SUPPLIED BY OTHERS INSULATION 3 1/2" POURED IN PLACE URETHANE FOAM GENERAL NOTES SCREED: 1-1/2" X 2-1/2" 18 GA. CONTINUOUS ANGLE NAME PLATE: KPS GLOBAL COVED BASE: WHERE REQUIRED AND NOT SHOWN IS BY OTHERS ROOF: N/A INSTALL: BY KPSG FINISH INTERIOR WALL: 26 GA. WHITE EMBOSSED GALVALUME INTERIOR TOP: 26 GA. WHITE EMBOSSED GALVALUME INTERIOR FLOOR: N/A EXTERIOR WALL: 26 GA. NATURAL EMBOSSED GALVALUME EXTERIOR TOP: 26 GA. NATURAL EMBOSSED GALVALUME EXTERIOR FLOOR: N/A DOORS/OPENING (2) C3070 (36" X 84") INSET COOLER DOOR WITH 36" HIGH DTA KICKPLATES INT. & EXT. ® (2) OPENING (72" x 96") FOR (1)ROLLSEALL RS200 NIGHT DOOR @ EXT. AND (1) HCR AIR CURTAIN @INT. (BY KPSG) 11160Oa •.2i LamI•, IOi (2) KASON 1095 DOOR CLOSER W/ ADJ HOOK SS (6) KASON 1261 HINGES (2) KASON 78V LATCH W/ 486C ISR JAMB GUARDS 18 GA. STAINLESS STEEL KPSG JAMB GUARDS (FACTORY INSTALLED) ELECTRICAL N/A 1 28 11/1 38 13/1 W-3 GOSECTION 3/4" PL YWIJUD FLAT TO LXT. UNDER vL TAL TRD-2 �G 8„ -16 1/8" RD-1 51 0 7 W-4 W-6 2X6 FLAT W-7 TO EXT, UNDER METAL (A)5 5 4, D �:o ELEVATION (CAUTION LABEL MFG. NOTE: TPLACE "CAUTION" LABEL ON THE ALL WOOD PRODUCTS INTERIOR OF THE FREEZER/COOLER; ARE TO BE FIRE EITHER ON DOOR OR NEXT TO THE AIMDOOR @ so" A.F.F. RESISTANCE LUMBER 111' - 9 LATTENTION 1. ALL WALK-INS ARE DESIGNED FOR INDOOR APPLICATION 8. FLOOR, CURB, AND PIT DETAILS ARE FOR GENERAL UNLESS NOTED OTHERWISE. REFERENCE ONLY. THESE DRAWINGS SHOULD NOT BE 2. PENETRATIONS AND SEALING OF PENETRATIONS - ARE USED OR INCORPORATED IN THE DESIGN OR PREPARATION THE RESPONSIBILITY OF OTHERS. OF THE INSULATED FLOOR, SUB -SLAB OR CURBS, WITHOUT 3. PROVIDE V MINIMUM CLEARANCE AROUND WALK-IN WITH HAVING THE DESIGN REVIEWED BY QUALIFIED ENGINEER. A MINIMUM AIR CIRCULATION OF 5 CFM FOR EVERY 100 S/F ALL FOOTINGS, FOUNDATION WALLS AND CONCRETE WEAR OF PANEL SURFACE. SLABS ARE THE RESPONSIBILITY OF THE BUILDING 4. PANEL LAYOUT MAY CHANGE BASED ON OPTIMAL ENGINEER OR ARCHITECT. MANUFACTURING STANDARDS. 9. THE FOAM PLASTIC USED IN THIS PRODUCT COMPLIES TO 5. WALK-IN TOP IS NOT DESIGNED FOR STORAGE UNLESS THE IBC SECTION 2603 AS FOLLOWS: FLAME SPREAD NOTED OTHERWISE - TOPS ARE DESIGNED FOR 10 PSF RATING: 20; SMOKE DEVELOPED RATING: 450 UNIFORMLY DISTRIBUTED. 10. REFER TO INSTALLATION INSTRUCTIONS FOR ASSURING 6. QUARRY TILE OR CONCRETE FLOOR APPLICATIONS: UNIT IS INSTALLED LEVEL AND PLUMB; DOOR OPENINGS METAL PANEL FACING MAY BE SUSCEPTIBLE TO STAINING ARE SQUARED; AND FOR LOCK -DOWN TOPS/FLOORS PANEL DUE TO EXCESSIVE MOISTURE CREATED BY THE ASSEMBLY DIRECTIONS, HYDRATION OF CONCRETE TYPE MATERIALS, IT IS I I. ANY UNITS RUNNING AT 32° AND BELOW REQUIRE BUTYL ABSOLUTELY NECESSARY THAT EACH ROOM BE PROPERLY AT ALL JOINTS - TOPS TO TOPS; WALLS TO WALLS; FLOORS VENTILATED. SPECIAL PRECAUTIONS MUST ALSO BETAKEN TO FLOORS; WALLS TO TOPS; WALLS TO FLOORS - AS WHEN USING MURIATIC ACID DUE TO EFFECTS PANELS ARE ASSEMBLED. BUTYL MUST NOT BE EXPOSED, HYDROCHLORIC FUMES HAVE ON METAL MATERIALS. 12. EXPOSED SILICONE EXCEPT FOR MINOR REPAIRS OR 7. IF CONDENSING UNIT IS LOCATED IN THE INTERIOR OF COSMETIC APPLICATIONS IS NOT NSF APPROVED - CAN NOT BUILDING A MINIMUM OF 24" OF CLEARANCE IS REQUIRED BE USED IN PLACE OF GASKETS. AROUND TOP AND SIDES. C-4 271 7.82 W--5 W-1 W-1 W-i 44'-1 W-t W-4 W--1 VY....I y✓....I W-1 W-1 w-1 11 W-1 vI-t I I IN I vW-1 W-1 W....1 W-t W-1 W-I W-1 W-.1 W...I W-t w✓-1 7 xS� 23 4➢ 47 47 47 47 47 47 47 47 47 47 41 47 47 V 47 47 47 47 47 V 47 47 47 47 47 AY 47 x35 WALLS LAYOUT 11� DESIGN CRITERIA BASIC DESIGN LOADS: CEILING DL = 5 PSF CEILING LL = 10 PSF MINIMUM INDOOR LATERAL LOAD = 5 PSF SEISMIC DESIGN DATA: — SS=1.424 g S1=0,531 g SDS= 0.949 g SDC = D SITE CLASS = D RISK CATEGORY =11 IMPORTANCE FACTOR, I =1.0 REVIEWED FOR RESPONSE MODIFICATION FACTOR, CODE COMPLIANCE APPROVE[ R = 2.5 (SHEAR WALL) S OCT 10 2014,AJ *ANY FUTURE ROOF/CEILING LID MOUNTED EQUIPMENT NOT CURRENTLY SHOWN ON THE City of Tukwila APPROVED SHOP DRAWINGS SHALL BE BUILDING DIVIION COORDINATED WITH THE FOR PRIOR TO ANY INSTALLATION,TYP. REVISIONS FILE .0 6'®10 F PC=it IN No cr =�.:,es shall be made to the scope Plan review approval is suorw to errors and Of wc:, wNnOWo� o: aooroval or Inc, 0RHSRdna, Approval of Construction documents does TUH•W,la Budding D,,UHon. not authorae the vmiahon of any adopted code or ' TE' Revisions will rectuire a new plan Ordinance_ Receipt of approved Field Copy and subm.u,,. ao<: may include additional plan review. corMihons Is acsnwrletlged: ire 8Y: 'Try 6f TukwBe BUILDING DIVISION TRD-2 W-4 W-7 W-3 W-6 RMIT NOTE: ELEVATION SHOWN FROM INTERIOR REOR: -- -- SEPAjmtping []ic ��� ;3E;:EIVEO ol — _— - CI`rY OF TUKWILA .�ng �ping SEP 3 0 2019 ila 1 rt�YIS�O��N,�BUIISION PERMIT CENTER I. SIF„L p WASpN, 43621 O ¢ o T6RV' SS20NALL'NG ExPIREs: snsr24s.� 09/25/19 812 S. La Cassia Drive Boise, ID 83705 (208)345-8941 (208)345-8946 www.tamarackgrove.com 603490470 ELECTRICAL SYMBOL IS '.,. 03=3-WAYSWITCH Q = 71 S' ELEC. BOX WI W CONDUIT '., (S)=SIVITCH 0T THERMOMETER 0 -TS27HERMOMETER = HEATED VENT(#I=) =HEATER WIRE JUNCTION © =LIGHT =NOWHEATEDVENT(CM) 0 -ALARM OD = DIGITAL THERMOMETER '.. QF -FAN CUT-OFFSWRCH (D=HEATEDVENT(R1845) QV HEATED VENT(4t825) n 710ELECTBOXW1WCONDUIT NOTE 1 REFERENCELAYOUT(S)FOR LOCATIONS AND FOR SPECIFICATIONS REFER TO GENERAL NOTES, COLOR CODE BLACK NOW UWA5 Andover Park PLAN VIEW SHEET r DESCRIPTION COOLER AS DRAWN - NO FLOORS NSF APPROVED AND UL LABELED FOR FLAME SPREAD AND SMOKE DEVELOPED THERMA-STRUCTURE (WOOD FRAME) SEISMIC TIE -DOWNS: IF REQUIRED AND NOT SHOWN AS SUPPLIED BY KPSG, THEY ARE TO BE SUPPLIED BY OTHERS INSULATION 3 1/2" POURED IN PLACE URETHANE FOAM GENERAL NOTES SCREED:1-112" X 2-1/2" 18 GA. CONTINUOUS ANGLE NAME PLATE: KPS GLOBAL COVED BASE: WHERE REQUIRED AND NOT SHOWN IS BY OTHERS ROOF: N/A INSTALL: BY KPSG FINISH INTERIOR WALL: 26 GA. WHITE EMBOSSED GALVALUME INTERIOR TOP: 26 GA. WHITE EMBOSSED GALVALUME INTERIOR FLOOR: N/A EXTERIOR WALL: 26 GA. NATURAL EMBOSSED GALVALUME EXTERIOR TOP: 26 GA. NATURAL EMBOSSED GALVALUME EXTERIOR FLOOR: N/A DOORS/OPENING (2) C3070 (36" X 84") INSET COOLER DOOR WITH 36" HIGH DTA KICKPLATES INT. & EXT. ® (2) OPENING (72" x 96") FOR (1)ROLLSEALL RS200 NIGHT DOOR @ EXT. AND (1) HCR AIR CURTAIN @INT. (BY KPSG) • • A 4 0 110 Lei M 1 • I1 j (2) KASON 1095 DOOR CLOSER W/ ADJ HOOK SS (6) KASON 1261 HINGES (2) KASON 78V LATCH W/ 486C ISR JAMB GUARDS 18 GA. STAINLESS STEEL KPSG JAMB GUARDS (FACTORY INSTALLED) ELECTRICAL NIA OA SECTI.ON D/4" P1YWOUD F1...AI 1'0 EXT, UNDER ME'f A� 6' 174 TRD-2 G 28 11 /16"u _ 38 13/16" 6 1 /8„ TRD 1__ �_5W-3W-4 W-6 W-7 TO EXT. UNDER METAL (A) 5 5 -- L E V ..I. 0 N m I CAUTION LABEL MFG. NOTE: PLACE "CAUTION' LABEL ON THE ALL WOOD PRODUCTS INTERIOR OF THE FREEZER/COOLER; EITHER ON DOOR OR NEXT TO THE ARE TO BE FIRE Ai DOOR @ 60" A.F.F. RESISTANCE LUMBER 118'-9 ///ATTENTION 1. ALL WALK-INS ARE DESIGNED FOR INDOOR APPLICATION 8. FLOOR, CURB, AND PIT DETAILS ARE FOR GENERAL UNLESS NOTED OTHERWISE. REFERENCE ONLY. THESE DRAWINGS SHOULD NOT BE 2. PENETRATIONS AND SEALING OF PENETRATIONS - ARE USED OR INCORPORATED IN THE DESIGN OR PREPARATION THE RESPONSIBILITY OF OTHERS. OF THE INSULATED FLOOR, SUB -SLAB OR CURBS, WITHOUT 3. PROVIDE V MINIMUM CLEARANCE AROUND WALK-IN WITH HAVING THE DESIGN REVIEWED BY A QUALIFIED ENGINEER. A MINIMUM AIR CIRCULATION OF 5 CFM FOR EVERY 100 S/F ALL FOOTINGS, FOUNDATION WALLS AND CONCRETE WEAR OF PANEL SURFACE. SLABS ARE THE RESPONSIBILITY OF THE BUILDING 4. PANEL LAYOUT MAY CHANGE BASED ON OPTIMAL ENGINEER OR ARCHITECT. MANUFACTURING STANDARDS. 9. THE FOAM PLASTIC USED IN THIS PRODUCT COMPLIES TO 5. WALK-IN TOP IS NOT DESIGNED FOR STORAGE UNLESS THE IBC SECTION 2603 AS FOLLOWS: FLAME SPREAD NOTED OTHERWISE - TOPS ARE DESIGNED FOR 10 PSF RATING: 20; SMOKE DEVELOPED RATING: 450 UNIFORMLY DISTRIBUTED. 10. REFER TO INSTALLATION INSTRUCTIONS FOR ASSURING 6. QUARRY TILE OR CONCRETE FLOOR APPLICATIONS: UNIT IS INSTALLED LEVEL AND PLUMB; DOOR OPENINGS METAL PANEL FACING MAY BE SUSCEPTIBLE TO STAINING ARE SQUARED; AND FOR LOCK -DOWN TOPS/FLOORS PANEL DUE TO EXCESSIVE MOISTURE CREATED BY THE ASSEMBLY DIRECTIONS. HYDRATION OF CONCRETE TYPE MATERIALS. IT IS 11. ANY UNITS RUNNING AT 32° AND BELOW REQUIRE BUTYL ABSOLUTELY NECESSARY THAT EACH ROOM BE PROPERLY AT ALL JOINTS - TOPS TO TOPS; WALLS TO WALLS; FLOORS VENTILATED. SPECIAL PRECAUTIONS MUST ALSO BE TAKEN TO FLOORS; WALLS TO TOPS; WALLS TO FLOORS - AS WHEN USING MURIATIC ACID DUE TO EFFECTS PANELS ARE ASSEMBLED. BUTYL MUST NOT BE EXPOSED. HYDROCHLORIC FUMES HAVE ON METAL MATERIALS. 12. EXPOSED SILICONE EXCEPT FOR MINOR REPAIRS OR 7. IF CONDENSING UNIT IS LOCATED IN THE INTERIOR OF COSMETIC APPLICATIONS IS NOT NSF APPROVED - CAN NOT BUILDING A MINIMUM OF 24" OF CLEARANCE IS REQUIRED BE USED IN PLACE OF GASKETS. AROUND TOP AND SIDES. C-4 12 2 W-5 W-i N%-1 W-1 W-i W-i 'k-i W-1 W-1 W-i YI-i W-1 w-1 aFl w-I w-1 w-1 W-i w-1 w-1 1r-i !k-1 W-i W-t N-i w-i W-i i"i-1 W-1 x> . 23 47 47 47 4'/ 47 47 47 4/ 4'/ 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 4/ 47 47 3$ W-4 W-7 DESIGN CRITERIA BASIC DESIGN LOADS: CEILING DL = 5 PSF CEILING LL =10 PSF MINIMUM INDOOR LATERAL LOAD = 5 PSF SEISMIC DESIGN DATA: SS=1.424 g S1= 0.531 g SDS= 0.949 g SDC=D SITE CLASS = D RISK CATEGORY = II IMPORTANCE FACTOR, I =1.0 RESPONSE MODIFICATION FACTOR, R = 2.5 (SHEAR WALL) *ANY FUTURE ROOF/CEILING LID MOUNTED EQUIPMENT NOT CURRENTLY SHOWN ON THE APPROVED SHOP DRAWINGS SHALL BE COORDINATED WITH THE FOR PRIOR TO ANY INSTALLATION, TYP. REVIEWED FOR CODE COMPLIANCE APPROVED OCT 10 2019 City of Tukwila TRD-2 BUILDING DIVISION W-3 W-6 NOTE: ELEVATION SHOWN FROM INTERIOR 3 k_CEIVED CITY OF TUKW?LaA SEP 3 0 2019 REVISION N , PERMIT CENTER 09/25/19 [" 812 S. La Cassia Drive Boise, ID 83705 (208)345-8941 (208)345-8946 www.tamarackgrove.com 603490470 ELECTRICAL SYMBOLS O 3WAY SWITCH (J) = 7 x T ELEC. BOX ON IDO CONDUIT n SWITCH OT =THERMOMETER (t� = TSR THERMOMETER (� =HEATED VENT(#1832) ® = HEATERWIRE JUNCTION 0 =LIGHT (B) =NON HEATED VENT(#18M) -AARM @ = DIGITAL THERMOMETER O =FAN CUT-0FF SWITCH i© =HEATED VENT(#1845) HEATED VENT(#1825) Yf =Z 14"ELECT BOX VO W CONDUIT NOTE REFERENCE LAYOUT(S) FOR LOCATIONS AND FOR SPECIFICATIONS REFER TO GENERAL NOTES. NOW UWA5 Andover Park PLAN VIEW SHEET INTERIOR JOINT GASKET PLUG BUTTON I" X 6-1/2" FIELD Z'N I—— - v" GROOVE PLUG INSTALLED TOP TRIM W/#8 X 1" HEX HD. TEK CAM-LOCK SCREWS (STAGGERED) FASTENER @ 12" D.C. CAM -LOCK PIN -A)l d Ly — BUTYL ALL JOINTS IN BUTYL FREEZERS NOTE: BUTYL BETWEEN JOINTS AS PANELS EXTERIOR ARE ASSEMBLED & NOT AFTER. BUTYL MUST NOT BE EXPOSED. DETAIL - TYP. PANEL JOINT SCALE: NTS 3/4 " PLYWOOD FLAT TO INT. (FULL FACE) DOOR SECTION' 2 X 6 FLAT TO EXT WOOD FRAME AT, OPENING PERIMETER #10 X 3/4" PAN HEAD TEK SCREWS AT 12" O.0 I FACTORY INSTALLED rJAMB GUARD '#10 X 3/4" PAN HEAD TEK SCREWS AT 12" O.0 DETAIL - JAMB GUARD 5 SCALE: NTS INSTALL NOTE: LOCK TOP PANELS STARTING AT CENTER AND WORKING OUT TO ENDS. STARTING FASTENING TO OVER -HEAD AT ONE END COULD CAUSE A FAN EFFECT STRUCTURE IS THE AT OPPOSITE END. RESPONSIBILITY OF KPSG 3/8" ALL (2) 3/8" NUTS & (1) THREAD ROD? WASHER ABOVE & BELOW HANGER BRACKET G.C. STRUCTURE CAPABLE OF HANGER BRACKET, RESISTING SPECIFIED LOADS. SPACING PER PLAN ATTACH HANGER TO GROOVE SIDE OF JOINTS 8d COATED NAILS, TYP. OF 4 TOP PANEL :)DETAIL - HANGER BRACKET SCALE: NTS 10'-0" MAX., G.C. TO VERIFY 2" SAMMY T' SAMMY 2 SAMMY 12" SAMMY (AS REQ'D) (AS REQ'D) ol, HANGER `ALL -THREAD TOP PANELS,, I/BRACKET ROD (TYP.) NOTE: PROVIDE A SAMMY EA. SIDE OF JOIST, TYP. DETAIL - UNISTRUT, 7 SCALE: NTS c?)! DETAIL -WALL TO TOP SCALE: SCALE: NTS 1-1/2" x 2-1/2" CONTINUOUS 18 GA. STEEL TIE -DOWN ANGLE #14 x 1-1/2" HEX HD. TEK SCREWS @ 12" D.C. 1/4" NSF COVED BASE W/ #8 x I" HEX HEAD TEK SCREWS @ 12" D.C. Kam DETAIL- WALL TO FLOOR SCALE. NTS 3/8" LAG BOLTS '@ 24" D.C. MAX. 26 GA. 1-1/2" x 1-1/2" CONT. ANGLE W/HEMMED EDGES W/#14 x 1-1/2" HEX HD. TEK SCREWS @ 12" D.C. MAX. 1/41' NSF COVED BASE W/ #8 x I" HEX HEAD TEK SCREWS @ 12" D.C. 1/4" X 1-7/8" HILTI KH-EZ @ 24" D.C. MAX & 6" FRO EACH END (1-5/8" EMB.) (2) #14 X 1-1/2" HEX HEAD SCREWS 2" x 2" x 5-1/2" 16 GA. GALV. ANGLE (2) 1/4" X 1-1/2" DRIVE PINS INSIDE OF INSULATED FLOOR: DOOR OPENING (2) #14 X 1-1/2" HEX HEAD SCREWS 450 NSF BEVEL INSTALL1STABILLZERONEACH SIDE OF OPENING AT INTERIOR OF BOX 3 DNE.."k I. WAs 3m, NAL EXPIRES: VIOL 09/25/19 CODE COMPLIANCE APPROVED "kwil' REVISION NO, I B�UILD01"__ING DIVISION 812 S. La Cassia Drive Boise, ID 83705 (208) 345-8941 fax (208) 345-8946 web www.tamarackgrove,com hmI 603490470 EId D cfl"Y OF -I UKW!LA SEP 3 0 2019 ELECTRICAL SYMBOLS BOXMIU-CONDUIT swacH OT =THERMOMETER TS-2 THERMOMETER HEATER WIRE JUNCTION Q =LIGHT ON =N0G EATED OGRTELM) (D =ALARM 01 =DIIITALTIERMOMI OF CUT." E.,:l 2'. NOTE REFERENCE LAYOUT(S) FOR LOCATIONS AND FOR SPECIFICATIONS REFER TO GENERAL NOTES, COLOR CODE BLACK : NOW UWA5 Andover Park DETAIL SHEET 1 40 • FREEZER AS DRAWN - W/ FLOORS NSF APPROVED FOR PACKAGED PRODUCT ONLY AND UL LABELED FOR FLAME SPREAD AND SMOKE DEVELOPED THERMA-STRUCTURE (WOOD FRAME) SEISMIC TIE -DOWNS: IF REQUIRED AND NOT SHOWN AS SUPPLIED BY KPSG, THEY ARE TO BE SUPPLIED BY OTHERS INSULATION 5" POURED IN PLACE URETHANE FOAM GENERAL NOTES SCREED: N/A NAME PLATE: KPS GLOBAL COVED BASE: WHERE REQUIRED AND NOT SHOWN IS BY OTHERS ROOF: N/A INSTALL: BY KPSG FINISH INTERIOR WALL: 26 GA. WHITE EMBOSSED GALVALUME INTERIOR TOP: 26 GA. WHITE EMBOSSED GALVALUME INTERIOR FLOOR: .050"NATURAL SMOOTH ALUMINUM EXTERIOR WALL: 26 GA. NATURAL EMBOSSED GALVALUME EXTERIOR TOP: 26 GA. NATURAL EMBOSSED GALVALUME EXTERIOR FLOOR: 26 GA. NATURAL EMBOSSED GALVALUME DOORS/OPENING (1) F3070C (36" X 84") INSET FREEZER DOOR WITH 36" HIGH DTA KICKPLATES INT. & EXT. (1) OPENING (72" x 96") FOR (1) JAMISON BI-PART DOOR @ EXT. & HCR AIR DOOR @ INT. (BY KPSG) DOORS/OPENING HARDWARE (3) KASON 1261 HINGES (1) KASON 78V ASSEMBLY W/K486C ISR (1) KASON 1095 DOOR CLOSER W/ WIDE ADJ HOOK SS JAMB GUARDS 18 GA. STAINLESS STEEL JAMB GUARDS @ SLIDE DOOR 18 GA. STAINLESS STEEL KPSG JAMB GUARDS @ MAN DOOR (FACTORY INSTALLED) ELECTRICAL (2) HEATED VENT (#1845) O r� I�Iw o � o N C o "o RICO C7 m C>SECTION 79'-3' c-3 W-3 W-1 W'-1 I W-i V1 'N-I W-`- W-1 W-1 W 1 W 1 W-1 11 W-1 W-1 W-1 W-1 W--i NI_; .3'a 23 41 47 47 47 47 47 41 41 41 47 47 47 47 47 47 47 47 41 47 x53 26'-01'-7NOTE: 8 4 3,, _ CKHOLES TO c.s IQ 14 @ C-5 D C-5 i M1ll 14� •-- b 2-F01 J,7 c) INDOOR FREEZER W/ FLOOR 12'-10" O.A. D 26'-01" 1' 74° L.O.F. =144" C-s c-5 C...S C-5 14 IQ x4 4g C-S MI(XJ 14,J 14 0 Fi W-I W-1 W-1 W-i W-1 W-1 W-1 W-I IV IV W-1 W-1 W-1 W-1 W-1 W-1 W-1 W-1 W-2 29j 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 32� 3 8 74'- /" !01111511 1 • _ 79' 3" I 38 x 05 6x84 F0. CW-1 50 3070CR-1 () i 123s T-2 41 1 T-1. T-2 47 1 47 i-2 47 T-2 47 T-2 T-2 T-2 47 47 4Y I T-2 T-2 T-A T-2 - 47 47 41 4Y 1 T-2 T-2 47 !-2 ( T-2 1'-2 47 1 47 17 T-2 47 T-2 47 7-3 31" IGT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GTPI I G G GI G G G g G G G G I G G G G G G11 GI GIl GI G IT T TI T T T T T T T TI T T T T T T T T T T, (..4 7.3 47 T47 T...5 T-5 47 47 T4 5 h7 T-5 47 T...5 • T....5 T-5 47 47 47 T-5 15 T-F T..s 47 47 47 ( 47 '-5 T-5 47 47 l'-9 1'-5 1-5 47 47 47 T-5 47 T-5 47 3ti ( 4 i IP IGT GT GIT GT GT GT GT GT GT GT GT GT GT GT GT GT GIT GT GT GT i I I G G G G G_ G G G G G G G_ G G G G G G I G G i G 1 IT T T T T -T T T I T T T T.. T I T T i T T T T T T I 7 T-8 x G Z T-fl � Q 7-8 T..g [.. 8 9 T-8 I� 47 T-A I T-8 T-9 T-9 T-A T-8 7-8 T-8 7-8 7'-8 1-8 T-8 I T-9 23 47 47 C� 1 47 47 47 47 47 47 47 47 47 47 47 4747 47 47 314 !PG 9 Try I D, IGT 1 GT GTT-5GT 47 G GT 0 GT GT GT GT GT GT GT GT GT GT GT GT GT GT I 1 LI — — _ _ —.L ��_ 1, •_, MFG. NOTE: ALL WOOD PRODUCTS ARE TO BE FIRE RESISTANCE LUMBER DESIGN CRITERIA_ BASIC DESIGN LOADS: CEILING DL = 5 PSF CEILING LL =10 PSF MINIMUM INDOOR LATERAL LOAD = 5 PSF SEISMIC DESIGN DATA: SS=1.424 g S1= 0.531 g SDS= 0.949 g SDC=D SITE CLASS = D RISK CATEGORY = II IMPORTANCE FACTOR, I =1.0 RESPONSE MODIFICATION FACTOR, R = 2.5 (SHEAR WALL) *ANY FUTURE ROOFICEILING LID MOUNTED EQUIPMENT NOT CURRENTLY SHOWN ON THE APPROVED SHOP DRAWINGS SHALL BE COORDINATED WITH THE FOR PRIOR TO ANY INSTALLATION, TYP. -- TRD-2 28-11 /16" 59 1 16 TRD-1 W-5 W-6. ( 2X61FLAT W-5 TO EXT. UNDER METAL OA ELEVATG N NOTE: ELEVATION SHOWN FROM INTERIOR C iELEVAT�O . /!ATTENTION 1. ALL WALK-INS ARE DESIGNED FOR INDOOR APPLICATION UNLESS NOTED OTHERWISE. 2. PENETRATIONS AND SEALING OF PENETRATIONS - ARE THE RESPONSIBILITY OF OTHERS. 3. PROVIDE 1" MINIMUM CLEARANCE AROUND WALK-IN WITH A MINIMUM AIR CIRCULATION OF 5 CFM FOR EVERY 100 S/F OF PANEL SURFACE. 4. PANEL LAYOUT MAY CHANGE BASED ON OPTIMAL MANUFACTURING STANDARDS. 5. WALK-IN TOP IS NOT DESIGNED FOR STORAGE UNLESS NOTED OTHERWISE - TOPS ARE DESIGNED FOR 10 PSF UNIFORMLY DISTRIBUTED. 6. QUARRY TILE OR CONCRETE FLOOR APPLICATIONS: METAL PANEL FACING MAY BE SUSCEPTIBLE TO STAINING DUE TO EXCESSIVE MOISTURE CREATED BY THE HYDRATION OF CONCRETE TYPE MATERIALS. IT IS ABSOLUTELY NECESSARY THAT EACH ROOM BE PROPERLY VENTILATED. SPECIAL PRECAUTIONS MUST ALSO BE TAKEN WHEN USING MURIATIC ACID DUE TO EFFECTS HYDROCHLORIC FUMES HAVE ON METAL MATERIALS. 7. IF CONDENSING UNIT IS LOCATED IN THE INTERIOR OF BUILDING A MINIMUM OF 24" OF CLEARANCE IS REQUIRED AROUND TOP AND SIDES. 8. FLOOR, CURB, AND PIT DETAILS ARE FOR GENERAL REFERENCE ONLY. THESE DRAWINGS SHOULD NOT BE USED OR INCORPORATED IN THE DESIGN OR PREPARATION OF THE INSULATED FLOOR, SUB -SLAB OR CURBS, WITHOUT HAVING THE DESIGN REVIEWED BY A QUALIFIED ENGINEER. ALL FOOTINGS, FOUNDATION WALLS AND CONCRETE WEAR SLABS ARE THE RESPONSIBILITY OF THE BUILDING ENGINEER OR ARCHITECT. 9. THE FOAM PLASTIC USED IN THIS PRODUCT COMPLIES TO THE IBC SECTION 2603 AS FOLLOWS: FLAME SPREAD RATING: 20; SMOKE DEVELOPED RATING: 450 10. REFER TO INSTALLATION INSTRUCTIONS FOR ASSURING UNIT IS INSTALLED LEVEL AND PLUMB; DOOR OPENINGS ARE SQUARED; AND FOR LOCK -DOWN TOPSIFLOORS PANEL ASSEMBLY DIRECTIONS. 11. ANY UNITS RUNNING AT 32" AND BELOW REQUIRE BUTYL AT ALL JOINTS - TOPS TO TOPS; WALLS TO WALLS; FLOORS TO FLOORS; WALLS TO TOPS; WALLS TO FLOORS - AS PANELS ARE ASSEMBLED. BUTYL MUST NOT BE EXPOSED. 12. EXPOSED SILICONE EXCEPT FOR MINOR REPAIRS OR COSMETIC APPLICATIONS IS NOT NSF APPROVED - CAN NOT BE IN PLACE OF GASKETS. MINIMUM DESIGN LOAD UNIFORMLY DISTRIBUTED TOPS (PSF): 10 WALLS (PSF): 5 FLOORS (PSF): 500 *NOT FOR FORKLIFT W-6 i EVISION NOr 1- 09/25/19 REVIEWED FOR CODE COMPLIANCE APPROVED OCT 10 2019 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA SEP 3 0 2019 PEF;MIT CENTER 812 S. La Cassia Drive Boise, ID 83705 1, (208)345-8941 Eax (208)345-8946 www.tamarackgrove.com 603490470 ELECTRICAL SYMBOLS (D 1WAY SWITCH Q •Yx8"ELEC. BOX W1-CONDUIT ® =SWITCH �T =THERMOMETER t� =T THERMOMETER QH=HEATED.HT(@1832) V�J = HEATER WIRE JUNCTION © =LIGHT QN = NON HEATED VENT RNW) O =ALARM Q =DIGTALTHERMOMETER O =FAN CUT-0FF SWITCH a = HEATED VENT SM-) U = HEATED VENT(91826) R =T'4CELECTBOX W1 Yf CONDUIT NOTE REFERENCE LAYOUT(S) FOR LOCATIONS AND FOR SPECIFICATIONS REFER TO GENERAL NOTES. COLOR CODE RED PRIME NOW UWA5 18323 Andover Park PLAN VIEW SHEET r7 79' 3, MFG. NOTE: FLOOR PLATE FINISH IS DIRECTIONAL AND REQUIRES SPECIAL HANDLING - LTA 1 Oi1-1 DTA-1 D7A-1 DTA-i DIA-1 OTA -1 DTA-t L-1131 9t I x 1 1 t i4 2 F-2 F 2 I-2 F 2 A 2 F-2 F 7 F-2 142 F-2 - --- 8 8 x 5 x F 1 2 F-2 F-2 M jF IO A Ag '23 GTGTGT ql GT q7 GT ql GT q7 GT 4/ GAT 47 GT 4/ GT q7 GT 47 GT 4/ GT 4y GT ql GT 47 GT 47 GT n7 GT ql GT 47 GT 47 GT 3tq gx $�x r-2 F 2 F 2 F tt�� 8 ' x 0 11i1 S9� 718 59 118' x 69 11A 59 118- x 59` 118 9, 7tA 59 PG Ip h DrA-2 Apo DTA-1 OTA I DTA-i OTA-1 DTA-1 DIA-t UTA-'. m 1 t 1 L1 1 1 1131 59Y1, 11A$ z 59G 118� x 591 I 1786 x 59� 118$ x 590 1 188 x 59�4 1I89 x V9�q 1188 x 59=� 8 x ._ L. T T T T T T... T T T T T T T T T T T T T T T— _.-.___.._........ --._ .__ _ ..__._ _ _....... F-8 ) IAh 2 D7A-? 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DTA-I UTA t DFA 1 DIR I DTn t DTA I DTA-1 N m x ix ix xG 0 $ 4 F-5 F-9 F S F-5 `-5 f-5 F-5 F-5 F-5 F-5 Y-5 F--o F-5 1 F-5 F-5 F-`o F-9 F-9 T-o 113� x 59 178- 99� lttf- 59 178- 5 118 x 59' 11881 x 59t 118 59 -10 2S''r 47 47 h/ 4'7 47 47 Ai 47 47 47 41 4'i 47 4l 47 47 h7 47 47 F-6 Nl NI 8 ' A H A A 8 Y€ G R x t8 7 P6 GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT G�T GT GT GT 314 cT 0 ip DTA-1 Dra...I DTA-t DI'A-1 UrA-1 DTn 1 nra-1 1 DTA-2 i " 11A 59 178 59 ilA 59 118- x 59 118 6 x x G x tl 6 g 59 1188 x 59Yo 118� z 59} 173 x 59 G G G( G G G G G G G- G G G G G G G G G G G — .... .-.-.-- .._-.._ _.....__ T T T T T T T T T T T T T T T T T T T T T DTn 2 Olhl D7A-�1 D7A-1 UlA i UTA-1 DTA-i DTA 1 _1a 7131 59� 1 i t 1 1 1 1 F-5 F-5 F-5 F-5 f-5 F S F-5 F-S F-5 ( F-5 F 5 5 F 5 ( F--S e ^ 8 x 118A z 59,} 1188 x 59Y15 118 59G 718 59' 118 59 118, 5.. 1189E F 5 F4 5 F 71 F S F-r `4 I 8 x B x r0 $" t� B x �� $ x t F"3 G T 47 a7 47 47 h7 a7 47 47 a7 47 47 47 47 47 a7 47 47 47 47 i.-6 _ 23 311 _ n — _ OlA .8 DTA....8 D A 8 D7A-8 c7A-©...__ _.. 0 A 8—_ DiA-8 C7A-9 pD GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT GT D ( 1P '= 118� x 41 1188 x ,1('A 118� x 0.1 118� x 41i4` 1I8fl x 4.j 1 8A 41 �'s ( 118� x Al 113� z 411g G G G G G G G G G G G G G G G( G G G G G G y _.__ti9.y.�1t_ L..._._.._....6... I DtAx�e8..........—_ _ 1 A 118j x 71 118$,,,,_ 71 J.' i 1 l8 2] 1 - _ _ _ 2U7i - -- T T T T T T T T T T T T T T T 7 T T T T T i VTA-2 DlA-i DTA t DTA 1 D7A-t DIA 1 DTA-1 D7A-1 f-7 F-8 F-8 FB F-A F-B F-A F-8 F-8 F-8 F-8 F-B FB FB 1-8 F-8 F-8 F-8 FA F-8 F_y '� 713 x 5915 718I6 x 59 1181 x 59,E 118I x 59 7 t 1 23 G 1, 47 47 4Y 41 47 47 47 47 47 47 47 47 47 47 M17 ( 47 47 47 47 31 A g 1188 x 59R 1188 x 59tk 118$ x 59,} 118$ x 59 pG ' ....._DTA-t-7iA-rtl...—.__ A-1 DTA 10 )iA-(0— --F7 A -I DTA....11 GT GiT GT GIT GT GT GT GIT GT GT GT GT GT GT GiT GT GT JT GT ip o 118� x 291'y 1181 x 79 118� x 29 118fi x 29�g 118� z 29,0 118�j x 29�9 1T881 x 29F°q 17 6 x 29Ts ( D1A 12 D7A-13 OTA-I3 DTA-13 DTA 13 DTA 13 j DTA-13 DTA-13 M 113 x 30' 1786 x,,,30 „_,_,,,, _,___,_ 1181 x 3G 118� x 3V 1181 x 30t118/ x 3D 118q x 30 118' x 3Gt _ _...._...... _ __ _. 6 �s..-7s 6 t2s is � 's � � � 8 tt8 " tt8 IiAt" D 940" �tWO { I + I 09/25/19 SSE #la X 1-112" TRUSS HD. CREWS 1a 12' O.0 PERIMETER ND 24' a.C. INTERMEDIATE PRE-DRII._L HOLES PRIOR 10 HIPPING) 7 t 21 nTA-114- TA RAMP PLATE LAYOUT -7 , 21 REVISION NO. I REVIEWED FOR CODE CO(v1PLIANCE APPROVED OCT 10 2019 .i 1, City of Tukwila BUILDING DIVISION ;L CEIVED C37Y 0 i UKVUILA SEP 3 0 2019 I'Ea OIT CENTER E N G I N E E R I N G 812 S. La Cassia Drive Boise, ID 83705 (208)345-8941 fax (208) 345-8946 w www.tamarackgrove.com 6 603490470 1 601 ELECTRICAL SYMBOLS 09 =—AY SWITCH Q • 2"x T ELEC. BOX Wr VT CONDUIT 05 -HER N U -TTHERMOMETER ® -T52 THERMOMETER DH -HEATEDVENT (di632) = HEATER WIRE JUNCTION U =LIGHT 0 =NON -HEATED VENT(M836) 0A =AIARM OF =FAN CUT-OFF SWITCH ®=HEATEDVENT (k1045) 0v = HEATED VENT(91825 _ R -Yx4-ELECT BOX III 3l4"CONODR NOTE REFERENCE LAYOUT(S) FOR LOCATIONS AND FOR SPECIFICATIONS REFER TO GENERAL NOTES. COLOR CODE RED PRIME NOW UWA5 18323 Andover Park West I PLAN VIEW SHEET [CUSTOMER JOBjB6X NUMBER AMAZON UWA5 FT07679-02 0�Panel Panel -mok Panel w0ji INTERIOR EXTERIOR 72 23 5 WGIVI GLIVI Panel Designation Panel TYPE OF CONDUIT RD-2 Quantity L14-WAY 03-WAY XjJ-BOX L I OX VENT LJSWITCH _jTHERMOH p EXTERIOR VIEW JAMEIGUARD EXTENDS 1/4" BELOW DOOR SECTION INSET DOOR LEGS @ NSF FLOOR 12 GA. S.S. WRAPPED WOOD STUD THRESHOLD (EQUAL TO THICKNESS (PRE -DRILL HOLES) OF FLOOR & WIDTH OF DOOR SECTION) INSULATED (2) 3/8" X 4" LAG PANEL BOLT @ END OFF " WRAPPED STUD #14 x 1-1/2" TRUSS HD. SCREWS (�8-ETAIL - THRESHOLD SCALE. _NTS_ INTERIOR SKINS (.050 NAT. SMOOTH ALUM.) 3/16" "RICE" PATTERN /ALUM. TREADPLATE 0 DETAIL - HEAVY DUTY FLOORS 4 SCALE:NTS SINGLE LAYER 14" PLYWOOD \FOAM FILLED PVC PIPE @ 12" O.C. EXTERIOR SKINS FRAME FIELD CUT THERMAL BREAK 10'-0" MAX., G.C. TO VERIFY IN TOPS @ CENTER OF COLUMN WRAP PANELS FIELD CUT - -\n- _ --TOP @ F TOP PANEL—-- COLUMN 1" SAMMY I" SAMMY 2" SAMMY 1-1/2" x 1-1/2 (AS REQ'D) (AS REQ'D) INSIDE CORNER TRIM W/ #14 x 11/2" HEX COLUMN HD. TEK SCREWS — ------- --WRAP C. 7 @ 12" O.C. '-,,,EXISTING 1-1/2" x 1-1 COLUMN GALV. ANGLE W/ #14 x 1-1/2" ---------- �UNISTRUT L/2" 18 GA. TEK HEX HE). SCREWS\ 2" MIN. INSULATED AIR SPACE ALL -THREAD LATED TOP PANELS --,-/HANGER \ I BRACKET ROD (TYP.) #14x1,'TEK --t— HEX HD SCREWS CDETAIL - COLUMN WRAP CALE:NTS 0-all LOCK TOP PANELS STARTING AT CENTER AND WORKING OUT TO ENDS. STARTING FASTENING TO OVER -HEAD AT ONE END COULD CAUSE A FAN EFFECT STRUCTURE IS THE AT OPPOSITE END, RESPONSIBILITY OF KPSG 3/8" ALL THREAD ROD (2) 3/8" NUTS & (1) WASHER ABOVE & BELOW DL - 137 UBF HANGER BRACKET LL = 274 LEE G.C. TO VERIFY EXISTING GALV. STEEL TOP STRUCTURE IS CAPABLE OF RESISTING SPECIFIED HANGER BRACKET LOADS. - — SPACING PER PLAT ATTACH HANGER TO GROOVE SIDE OF JOINTS Bd COATED NAILS, TYP, OF 4 FIELD DRILL I" DIA. HOLE REFER TO INSULATED TOP PANEL DETAIL CONDUIT INSULATED WALL PANEL DETAIL.CTRICAL PROTRUSION SCALE: TS I" X 6-1/2" FIELD INSTALLED TOP TRIM W/#8 X 1" HEX HD. TEK SCREWS (STAGGERED) @ 12" O.C. BUTYL ALL JOINTS IN FREEZERS NOTE: BUTYL BETWEEN joiNit A7sPANELS ARE ASSEMBLED & NOT AFTER. BUTYL MUST NOT BE EXPOSED. 3/8" LAG BOLTS `0 24" D.C. MAX. 26 GA. 1-1/2" x 1-1/2" CONT. ANGLE W/HEMMED EDGES W/#14 x 1-1/2" HEX HD. TEK SCREWS @ 12" D.C. MAX. DETAIL - WALL TO TOP SCALE: NITS WALK-IN WALL PANEL 16D NAILS @ 8" D.C. & V FROM EACH END 1-1/2" X 2-1/2" CONTINUOUS OF TIE -DOWN ANGLE 18 GA GALV. STEEL TIE -DOWN #14 x 1-1/2" HEX BUTYL ANGLE HD TEK SCREWS #14 X 1-1/2" HEX HD. O.C. MAX. TEK SCREWS @7" D.C. & @ EACH END OF SEGMENTS 1-1/2" x 6" 18 GA. GALV. .118 ELVAL GRAIN CONT. ANGLE TIE DOWN (FIELD INSTALLED) INSULATED FLOOR PANEL 1/4" x 1-7/8" HILTT KH-EZ @ 24" D.C. MAX & G" FORM EACH END WITH 3/,V'OSB t� CONCRETE SLAB` (BY OTHERS) NOTE: PROVIDE A SAMMY EA. SIDE OF JOIST, TYP. r*DETA'L DETAIL - WALLS TO FLOORS .. LE. I SCALE: INTS - UNISTRUT ",?)P " NTS SCALE: 3/4" OSB FLAT TO ENT. (FULL FACTORY (2) FACE) INSTALLED HEX HEAD SCREW BLOCKING FOR XJAMB GUARD FASTENING DOORFRAME #10 x 3/4" TRUSS 2" x 2" x 5-1/2" EAD SCREWS '16 GA. GALV. ANGLE @ 12" O.C. SILICONE— UTYL CONCRETE: SHS DOOR FRAME BY 2" METAL SET BACK (2) 1/4" X 1-1/2" DRIVE PINS DOOR MANUFACTURER FOR THERMAL BREAK INSIDE OF INSULATED FLOOR: FASTENERS BY DOOR OPENING (2) #14 X 1-1/2" HEX HEAD DOOR MFG. SCREWS 450 NSF BEVEL INSTALL (1) ON EACH -SIDE OF OPENING AT INTERIOR OF BOX TOP PANEL tIVII13 GUARD @ SLIDE DOOR ��DETAILT S 12 GA. S.S. THRESHOLD STAY BRACKET (PRE -DRILL HOLES) USE W/ #14 x 1-1/2" TRUSS HD, PORCH PANEL W/ SCREWS 8" X SINGLE LAYER 3/4" PLYWOOD BACKING 0 �0 0, EXTERIOR RAMP W/ SHOP APPLIED .118" "GRAIN" 3" x 3" x 3" 18 GA. GALV. ANGLE W/ PATTERN ALUM. #14 x 1-1/2" TRUSS HD. SCREWS TREADPLATE AND MASONRY ANCHORS EPIOR RAMP WITH PORCH 7 )DETAIL_� EXTERIOR SCALE: ALE.: NS T N I. Slily.q 43621 NAL QNO !0 09/25/19 NNA REVIEWED FOR 'ODEC'Gf4PLIAN( APPROVED OCT 10 2019 City of Tukwila BUILDING DIVISION G I N E E R I 812 S. La Cassia Drive Boise, ID 83705 %,. (208) 345-8941 fax (208) 345-8946 web www.tamarackgrove.com ft- 603490470 cz ,I y O T LI KN 1 L f, SEP 3 0 2019 --- - I ELECTRICAL SYMBOLS QQ MAY SWITCH 7 1 T ELEC. BOX W1 UZ CONDUIT QS mrTCH (D -THERMOMETER f@-TS2THERMOMETOR -H_EGVENT(#1M2) 'MM WIREJUNCTION LIGHT NOWHEATEDYENT(MM) AILARM (0) = DIGITAL THERMOMETER @ = FAN CUT-OFF SWITCH 1825) -T x4-MCT B0X W1W CONDUff NOTE REFERENCE LAYOUT(SQ) F]OR LOCATIONS AND FOR : NOW UWA5 Andover Park DETAIL SHEET MECHANICAL SYMBOLS GENERAL NEW NOTES: 1, PRIOR TO SUBMITTING BID, VISIT THE JOB SITE AND BECOME FULLY ACQUAINTED WITH THE EXISTING THIS IS A MASTER LEGEND AND NOT ALL SYMBOLS OR ABBREVIATIONS ARE USED. CONDITIONS OF THE PROJECT. REVIEW THE GENERAL NOTES, SPECIFICATIONS AND OTHER DRAWINGS FOR ADDITIONAL REQUIREMENTS WHICH MAY NOT BE SPECIFICALLY CALLED OUT IN THIS PORTION OF THE STANDARD„ MOUNTING HEIGHTS , THERMOSTATS (USER ADJUSTABLE)(TOP CONTROLS (TOP OF DEVICE) OF DEVICE) 48" 48" CONSTRUCTION DOCUMENTS. NOTIFY ARCHITECT, ENGINEER AND/OR OWNER OF CONFLICTS OR DISCREPANCIES PRIOR TO SUBMISSION OF BID. 2. EXISTING CONDITIONS WERE TAKEN FROM ORIGINAL DRAWINGS AND SITE VISITS AND MAY NOT REFLECT EXACTAS -BUILT" CONDITIONS. FIELD VERIFY EXISTING CONDITIONS PRIOR TO SUBMITTING FINAL BIDS. COORDINATE NEW WORK AND DEMOLITION WITH OTHER DISCIPLINES AND EXISTING CONDITIONS PRIOR TO USETHEDEFAULT MOUNTING HEIGHTS SHOWN ABOVE UNLESS NOTED OTHERWISE CONSTRUCTION. IN THE SPECIFICATIONS OR ELSEWHERE. MOUNTING HEIGHTS LITopSTED ARE ABOVE 3. COORDINATE THE INSTALLATION OF THE MECHANICAL SYSTEMS WITH OTHER TRADES TO ENSURE A NEAT FINISHED HALLSLOOR INSTALLED WITH TADAAOF DLOCALL LED IN COMPLIANCE DEVICES SHALL BE INSTALLED IN COMPLIANCE W ITH CURRENT ADAAND LOCAL CURREEG) TONT ORDERLY INSTALLATION. ALL TIGHT STRUCTURE ISLE. TOO REQUIREMENTS. ICTS.ND NATE TOAV ID CONFLICTS. DI COORDINATE INSTALLATION COO TRADES INS DUCTWORK DUCTWORK AND PIPING PIPING OAVOI COTHERTWITH ELECTRICAL AN LS,L MODIFICATIONS PANELS,FIXTURES, ETC. ANYNOANNOTATION AVOID CLACKO COOR INATIO WLL BE TH,LIGHTING REQUIRED DUE TO LACK OF COORDINATION WILL BE THE RESPONSIBILITY OF THE CONTRACTOR AT NO E O MECHANICAL OR FIRE PROTECTION PLAN NOTE CALLOUT EXTRACOST TO THE OWNER. 4. WHERE SHUTDOWN OF EXISTING SYSTEMS IS REQUIRED DURING NEW WORK, COORDINATE SHUTDOWN DU TIME AND DURATION WITH THE OWNER TO MINIMIZE DOWNTIME, NOTIFY OWNER SEVEN (7) DAYS PRIOR TO INTERRUPTION OF SERVICE. MECHANICAL EQUIPMENT 1 PROVIDED ONO) DESIGNATION(CONTRACTOR 5, DURING INSTALLATION OF NEW WORK, AVOID DAMAGING EXISTING SURFACES AND EQUIPMENT TO REMAIN. ® CONNECTION POINT OF NEW WORK TO EXISTING REPAIR DAMAGE CAUSED DURING CONSTRUCTION AT NO EXTRA COST TO THE OWNER. 1 6. PRO VIDE TEMPORARY BARRIERS TO CONTAIN DUST AND DEBRIS RESULTING FROM THE PERFORMANCE OF M1 DETAIL REFERENCE UPPER NUMBER INDICATES DETAIL NUMBER THE WORK TO THE AREA WHERE WORK IS BEING PERFORMED. LOWER NUMBER INDICATES SHEET NUMBER '!. SHOWN ON THE MECHANICAL PLANS SHALL BE PROVIDED BY DIVISION 23 M1 SECTION CUT DESIGNATION UALL NLESS OTHERWISE NOTE. UNLESS OTHERWISE NOTED. R NEW MECHANICAL EQUIPMENT, DUCTWORK AND PIPING ARE SHOWN AT APPROXIMATE LOCATIONS. FIELD ABBREVIATIONS MEASURE FINAL DUCTWORK AND PIPING LOCATIONS PRIOR TO FABRICATION AND MAKE ADJUSTMENTS AS AIC AIR CONDITIONING HOA HAND -OFF -AUTOMATIC REQUIRED TO FIT THE DUCTWORK AND PIPING WITHIN THE AVAILABLE SPACE. VERIFY THAT FINAL EQUIPMENT LOCATIONS MEET MANUFACTURER'S RECOMMENDATIONS REGARDING SERVICE CLEARANCE ACC AIR COOLED CHILLER HE HORSEPOWER AND PROPER AIRFLOW CLEARANCE AROUND EQUIPMENT. ACC U AIR COOLED CONDENSING UND HTG HEATING 9. REFER TO ARCHITECTURAL DRAWINGS FOR RELATED CONSTRUCTION DETAILS AS APPLICABLE TO THE AFC AFF ABOVE FINISHED CEILING ABOVE FINISHED FLOOR HWP HWSIR HEATING HOT WATER PUMP HEATING HOT WATER SUPPLY/ HVAC SYSTEM. VERIFY CHASES AND PENETRATIONS SHOWN ON ARCHITECTURAL DRAWINGS THAT ARE AFG ABOVE FINISHED GRADE RETURN INTENDED FOR DUCTWORK AND PIPING MEET REQUIREMENTS, ARE AUTHORITY HAVING IN WC INCHES OF WATER COLUMN 10. COORDINATE LOCATION OF ROOF MOUNTED HVAC EQUIPMENT AND ROOF PENETRATIONS WITH THE JURISDICTION L LOUVER ARCHITECTURAL AND STRUCTURAL DRAWINGS, AHU AIR HANDLING UNIT LAT LEAVING AIR TEMPERATURE 11. INDOOR AIR QUALITY MEASURES: PROTECT INSIDE OF (INSTALLED AND DELIVERED) DUCTWORK AND HVAC Al AO ANALOG INPUT ANALOG OUTPUT LOB LP LEAVING DRY BULB LOW PRESSURE UNITS FROM EXPOSURE TO DUST,DIRT, PAINTAND MOISTURE. REPLACE INSULATION THAT HAS BECOME AP ACCESS PANEL LWB LEAVING WET BULB WETAT ANY TIME DURING CONSTRUCTION, DRYING THE INSULATION IS NOT ACCEPTABLE. SEALANYTEARS APD AIR PRESSURE DROP LWT LEAVING WATER OR JOINTS OF INTERNAL FIBERGLASS INSULATION. REMOVE DEBRIS FROM CEILING/RETURN AIR PLENUM AWG AMERICAN WIRE GAUGE TEMPERATURE INCLUDING DUST. AN INDEPENDENT, PROFESSIONAL DUCT CLEANING COMPANY SHALL VACUUM CLEAN B BOILER MAU MAKE-UP AIR UNIT ANY DUCTWORK CONNECTED TO HVAC UNITS THAT WERE OPERATED DURING THE CONSTRUCTION PERIOD SAS BUILDING AUTOMATION MAX MAXIMUM AFTER NEW FILTERS ARE INSTALLED AND PRIOR TO TURNING SYSTEM OVER TO THE OWNER THE INTERNAL SYSTEM ME H 1000 BTU PER HOUR SURFACES AND ASSOCIATED COILS OF ANY HVAC UNITS THAT WERE OPERATED SHALL ALSO BE CLEANED. BB BACKBONE MD MOTORIZED DAMPER 12, INSTALL DUCTWORK AND PIPING PARALLEL TO BUILDING COLUMN LINES UNLESS OTHERWISE SHOWN OR BD BACKDRAFT DAMPER MFR MANUFACTURER NOTED. BD BFC SLOWDOWN. BE LOW FINISHED CEILING MIN N/A MINIMUM NOT APPLICABLE 13.OVERHEAD HANGERS AND SUPPORTS FOR EQUIPMENT, DUCTWORK AND PIPING SHALL BE FASTENED TO BFF BELOW FINISHED FLOOR N/C NORMALLYCLOSED BUILDING JOISTS OR BEAMS. DO NOT ATTACH HANGERS AND SUPPORTS TO THE ABOVE FLOOR SLAB OR BFG BELOW FINISHED GRADE N/0 NORMALLY OPEN ROOF EXCEPT WHERE CONCRETE INSERTS IN CONCRETE SLABS ARE ALLOWED BY THE SPECIFICATIONS. BFP BOILER FEED PUMP NOM NOMINAL 14. COORDINATE LOCATION OF EQUIPMENT SUPPORTS WITH LOCATION OF EQUIPMENT ACCESS BHP BI BRAKE HORSEPOWER BINARY INPUT NC NF NOISE CRITERIA NON -FUSED PANELSIDOORS TO ENABLE SERVICE OF EQUIPMENT ANDIOR FILTER REPLACEMENT. SO BINARY OUTPUT NIC NOT IN CONTRACT 15.SEAL PENETRATIONS THROUGH THE BUILDING COMPONENTS IN ACCORDANCE WITH THE CONTRACT SOD BOTTOM OF DUCT CA OUTSIDEAIR SPECIFICATIONS. FIREPROOF PENETRATIONS THROUGH FIRE RATED COMPONENTS IN ACCORDANCE WITH BOH BACK OF HOUSE PICV PRESSUREINDEPENDENT U.L. REQUIREMENTS. BOS BOTTOM OF STRUCTURE CONTROL VALVE 16.COORDINATE THE EXACT MOUNTING SEE AND FRAMETYPE OF DIFFUSERS, REGISTERS AND GRILLES WITH BTU CFM BRITISH THERMAL UNIT CUBIC FEET PER MINUTE PROVIDE CITY FURNISH AND INSTALL QUANTITY THE SUPPLIER TO MEET THE CEILING, WALL AND DUCT INSTALLATION REQUIREMENTS. CH CHILLER RA RETURN AIR 17. ADJUST LOCATION OF CEILING DIFFUSERS, REGISTERS AND GRILLES AS REQUIRED TO ACCOMMODATE CHWS/R CHILLED WATER RC ROOM CRITERIA FINAL CEILING GRID AND LIGHTING LOCATIONS. SUPPLY/RETURN OLD COOUNG RD REA RETURN DUCT RELIEFAIR 18. PAINT PORTIONS OF DUCTWORK AND INSULATION THATARE EXPOSED TO VIEW BY THE INSTALLATION OF CP CONDENSATE PUMP RE RETURN FAN DIFFUSERS, REGISTERS, AND GRILLES IN CEILINGS OR WALLS FLAT BLACK, PORTIONS INCLUDE BOTH THE CPT CONTROL POWER RFR REFRIGERANT INTERIOR OF UNLINED DUCTWORK AND THE EXTERIOR OF DUCTWORK AND INSULATION. TRANSFORMER RH RELATIVE HUMIDITY VFDUCTWORK CROSSING FIRE RATED WALLS OROTHER FIRE RATED ASSEMBLIES SHALL BE MINIMUM 26 DEAD COMPUTERROOMAIR CONDITIONING UNIT RH RPM ROOFHOOD REVOLUTIONSPERMINUTE GAUGE SHEET METAL CRU COMPUTER ROOM UNIT RTU ROOFTOP UNIT 20. PROVIDE FIRE OR FIRE7SMOKE DAMPERS, AS APPLICABLE, IN DUCTWORK AT CEILINGS AND WALLS AT CT COOLING TOWER SA SUPPLY AIR LOCATIONS SHOWN ON THE PLANS. FIRE AND RREISMOKE DAMPERS SHALL CONFORM TO NFPA AS CV CONTROL VALVE a STEAM CONDENSATE PUMP APPLICABLE. COORDINATE SLEEVE LENGTH WITH REQUIREMENTS OF INSTALLED LOCATION. CWP CONDENSER WATER PUMP SO SMOKE DUCT DETECTOR 21.PROVIDE WALL OR DUCTACCESS PANELS OR DOORS FOR ACCESS TO FIRE AND FIREISMOKE DAMPERS. CWS/R CONDENSER WATER SUPPLY/ RETURN SD SF SUPPLY DUCT SUPPLY FAN ACCESS PANEL OR DOOR SHALL BE MINIMUM SIZE OF IT BY 10"AND SHALL BE INSTALLED WITHIN ITOF CU CONDENSING UNIT SH SENSIBLE HEAT CAPACITY DAMPER. PROVIDE A REMOVABLE DUCT SECTION WHERE DUCT SIZE IS TOO SMALL FOR A IT BY IWACCESS CHWP CHILLED WATER PUMP SOW SCOPEOFWORK DOOR. DO DECIBELS SP STATIC PRESSURE 22. LOCATE AND SETTHEWOSTATS AND HUMIDISTATS AT LOCATIONS SHOWN ON PLANS. VERIFY EXACT DBA A -WEIGHTED DECIBELS ST STEAM TRAP LOCATIONS WITH ARCHITECT PRIOR TO INSTALLATION, INSTALL DEVICES WITH TOP OF DEVICE AT MAXIMUM DDC DIRECT DIGITAL CONTROL SIM STEAM 4WAFF TO MEET ADA REQUIREMENTS UNLESS NOTED OTHERWISE ON PLANS, PROVIDE INSULATED DI DIGITALINPUTTSD TOME DETERMINED BACKING FOR THERMOSTATS MOUNTED ON EXTERIOR BUILDING WALLS. INSTALL WIRING IN CONDUIT DISC DISCONNECT TC/C TEMPERATURE CONTROLS PROVIDED BY DIVISION 26. AT MINIMUM, PROVIDE CONDUIT IN THE WALL FROM THE JUNCTION BOX TO 61 ON DOWN CONTRACTOR ABOVE THE CEILING. US DX DU CT SILENCER DIRECT EXPANSION TOP PANEL TEMPERATURE CONTROL 23.COORDINATE THE LOCATION AND ELEVATION OFWALL-MOUNTED DEVICES WITH PRESENTATIONBOARDS, (E) EXISTING TF TRANSFER FAN DI SPLAY CABINETS, SHELVES OR OTHER COMPONENTS SHOWN ON THE ARCHITECTURAL DRAWINGS THAT EA EXIT USTAIR TEA TO FLOOR ABOVE ARE TO BE INSTALLED UNDER OTHER DIVISIONS. CONTRACTOR WILL NOT BE REIMBURSED FOR EAT ENTERING AIR TEMPERATURE TFB TO FLOOR BELOW RELOCATION OF WALL -MOUNTED DEVICES CAUSED BY A LACK OF COORDINATION. ED EXHAUST DUCT TH TOTAL HEAT CAPACITY 24. PROVIDE A MANUAL BALANCING DAMPER IN EACH DUCT TAKEOFF FROM SUPPLY, RETURN, OUTDOOR AND EDB EF ENTERING DRY BULB EXHAUSTFAN TSP TT TOTAL STATIC PRESSURE TEMPERATURE TRANSMITTER EXHAUST AIR DUCTS. EFF EFFICIENCY TYP TYPICAL 25. PROVIDE A PREFABRICATED 45 DEGREE, HIGH EFFICIENCY,RECTANGULAR/ROUND BRANCH DUCT TAKEOFF EMS ENERGY MANAGEMENT OF UNDERFLOOR FITTING FOR BRANCH DUCT CONNECTIONS AND TAKEOFFS TO INDIVIDUAL DIFFUSERS, REGISTERS AND SYSTEM JIG UNDERGROUND GRILLES. PROVIDE WITH INTEGRAL MANUAL BALANCING DAMPER AND LOCKING QUADRANT WHERE ESP EXTERNAL STATIC PRESSURE U/S UNDERSLAB INDICATED ON PLANS. ETR EXISTING TO REMAIN UH UNIT HEATER 26.BRANCIT DUCTWORK TO AIR OUTLETS SHALL BE SAME SIZE AS OUTLET NECK SIZE UNLESS OTHERWISE EWB EWT ENTERINGWET BULB ENTERINGWATER LINO VAV UNLESS NOTED OTHERWISE VARIABLEAIRVOLUME NOTED. TEMPERATURE VEL VELOCITY 27.REFER TO SPECIFICATIONS FOR DUCTWORKAND PIPING INSULATION REQUIREMENTS. DUCTSIZES ON FCU FAN COL UNIT VFD VARIABLE FREQUENCY DRIVE MECHANICAL PLANS INDICATE CLEAR INSIDE AIRFLOW DIMENSIONS, INCREASE SHEET METAL SIZES FFA FROM FLOOR ABOVE VISE VARIABLE REFRIGERANT FL04 ACCORDINGLY TO ACCOUNT FOR THICKNESS OF DUCT LINER, FEE FF FROMFLOOR R FINISHED FINISHED FLOOR W/ W70 WITH WITHOUT 28. FLEXIBLE DUCTWORK SHALL NOT EXCEED 5'-V IN LENGTH AND SHALL BE INSTALLED ANDSUPPORTED TO FOH FRONT OF HOUSE WE WETBUIB AVOID SHARP BENDS AND SAGGING. REFER TO SPECIFICATIONS FORADDITIONAL REQUIREMENTS. FPI FINS PER INCH WC WATER COLUMN 29.PROVICE EQUIPMENT VENTS AND FLUES PER EQUIPMENT MANUFACTURERS RECOMMENDATIONS AND FPM GC FEET PERMINUTE GENERAL CONTRACTOR WE XP WATER PRESSURE DROP EXPLOSION -PROOF EQUIPMENT SPECIFICATIONS. KEEP PENETRATIONS THROUGH ROOF A MINIMUM OF 1T-W FROM HVAC GEA GREASEEXRAUSTAIR EQUIPMENT FRESH AIR INLETS AND 2'-0"FROM ROOF PARAPETS. GPM GALLONS PER MINUTE 31,P ROVIDE A NEW SET OF AIR FILTERS IN UNITS PRIOR TO TESTING, ADJUSTING AND BALANCING AND BEFORE TURNING SYSTEM(S) OVER TO OWNER. 31. FIELD VERIFY THAT THE EXISTING EQUIPMENT INCLUDING ACCESSORIES BEING REUSED FOR THIS PROJECT ARE NOT DAMAGED AND ARE IN GOOD WORKING ORDER, REPORT ANY DEFICIENCIES TO THE OWNER OR ARCHITECT. SUBMIT TO THE OWNER AND ARCHITECT A WRITTEN REPORT DESCRIBING TESTS PERFORMED TO VERIFY OPERATION AND RESULTS OF THE TESTS. 32. CLEAN EXISTING EQUIPMENT AND EQUIPMENT COMPONENTS BEING REUSED FOR THIS PROJECT, PROVIDE NEW FILTERS FOR EXISTING AIR HANDLING EQUIPMENT PRIOR TO STARTUP OF EQUIPMENT. NEW FILTERS SHALL BE COMPATIBLE WITH THE EXISTING EQUIPMENT AND EQUAL IN PERFORMANCE TO THE EXISTING FILTERS AT NEW CONDITION UNLESS OTHERWISE NOTED. CLEAN STRAINERS IN PIPING SYSTEMS PRIOR TO STARTING PUMPS. 33. LUBRICATE EXISTING EQUIPMENT BEING REUSED FOR THIS PROJECT IN ACCORDANCE WITH MANUFACTURER'S WRITTEN INSTRUCTIONS. OBTAIN INSTRUCTIONS FROM MANUFACTURER IF THEY ARE NOT AVAILABLE AT THE SITE. 34. FULLY CHARGE EXISTING REFRIGERANT SYSTEMS BEING REUSED FOR THIS PROJECT IN ACCORDANCE WITH MANUFACTURER'S WRITTEN INSTRUCTIONS. CHARGE SYSTEMS WITH NEW REFRIGERANT MATCHING EXISTING. GENERAL DEMOLITION NOTES: I. COORDINATE ALL DEMOLITION WITH WHAT IS SHOWN ON ARCHITECTURAL PLANS. NOTIFY ARCHITECT OF ANY DISCREPANCIES. 2. OWN ER RETAINS RIGHTS OF SALVAGE FOR EQUIPMENT AND FIXTURES TO BE REMOVED. COORDINATE WITH OWNER THE EQUIPMENT AND FIXTURES TO BE SALVAGED AND THE LOCATION FOR STORAGE. AVOID DAMAGE TO SALVAGED EQUIPMENT, FIXTURES AND DEVICES DURING DEMOLITION WORK AND DURING TRANSPORT TO OWNER'S DESIGNATED STORAGE LOCATION. 3, REMOVE ITEMS SHOWN HEAVY -LINED DASHED,AND/OR NOTED TO BE REMOVED. 4. AVOID DAMAGING EXISTING SURFACES AND EQUIPMENT TO REMAIN FOR NEW INSTALLATION. REPAIR DAMAGE CAUSED DURING WORK AT NO EXTRA COST TO THE OWNER. 5. SEAL PENETRATIONS THROUGH FLOORS, WALLS, CEILINGS AND ROOFS WHERE MECHANICAL COMPONENTS ARE REMOVED AND WHERE THE EXISTING PENETRATION IS NOT USED FOR THE NEW INSTALLATION. REPAIR DAMAGED SURFACES TO MATCH ADJACENTAREAS OR AS INDICATED ON THE ARCHITECTURAL DRAWINGS. 6. REMOVE HANGERS AND SUPPORTS WHERE DUCTWORK, PIPING ANDIOR EQUIPMENT ARE REMOVED AND THE EXISTING HANGERS AND SUPPORTS ARE NOT USED FOR THE NEW INSTALLATION. 7. INSTALL PERMANENT CAPS WHERE DUCTWORK AND PIPING IS REMOVED AND THE EXISTING TAPS ARE NOT USED FOR THE NEW INSTALLATIONWHERE DUCTWORK AND PIPING ARE REMOVED AND THE EXISTING TAPS WILL BE USED FOR THE NEW INSTALLATION, INSTALL TEMPORARY CAPS TO PROTECT THE INTERIOR SURFACES UNTIL NEW DUCTWORK AND PIPING ARE INSTALLED. S. INSPECT EXISTING EQUIPMENT TO REMAIN TO VERIFY THAT EQUIPMENT IS OPERATING PROPERLY. NOTIFY OWNER OF DAMAGED AND/Oft MALFUNCTIONING COMPONENTS. 9. WHERE SHUTDOWN OF EXISTING SYSTEMS IS REQUIRED DURING DEMOLITION, COORDINATE SHUTDOWN TIME AND DURATION WITH OWNER TO MINIMIZE DOWNTIME. NOTIFY OWNER SEVEN (7) DAYS PRIOR TO INTERRUPTION OF SERVICE. IO. CEASE WORK AND IMMEDIATELY NOTIFY THE OWNER SHOULD ANY HAZARDOUS MATERIALS BE ENCOUNTERED DURING THE PERFORMANCE OF THE WORK. 11.REMOVAL, RECOVERY, RECYCLING, AND DISPOSAL OF REFRIGERANT, CONTAINED IN ANY EQUIPMENT TO BE REMOVED, SHALL BE PERFORMED IN STRICT ACCORDANCE WITH CURRENT EPA GUIDELINES. 1 DUCTWORK/EQUIPMENT TO BE REMOVED OR RELOCATED EXISTING DUCTWORK(EQUIPMENT TO REMAIN LINEAR SLOT DIFFUSER INSULATED FLEXIBLE DUCT (MAX. 5'-0" LONG) BRANCH DUCT WITH 45°RECTANGLE-ROUND BRANCH FITTING AND MANUAL VOLUME DAMPER IT']�, ELBOW WITH TURNING VANES ® BRANCH DCONTROL DAMPER WITH MA TH BELL -MOUTH FITTING &NUAL VOLUME R EXHAUST, GREASE EXHAUST, OR SPECIAL EXHAUST AIR DUCT UP EXHAUST, GREASE EXHAUST, OR SPECIAL EXHAUST AIR DUCT DOWN RETURN AIR DUCT UP RETURN AIR DUCT DOWN SUPPLY AIR OR OUTSIDE AIR DUCT UP SUPPLY AIR OR OUTSIDE AIR DUCT DOWN IKi I>t EQUIPMENT WITH FLEXIBLE DUCT CONNECTION IT (NECK SIZE) CSD-1 (TYPE) 6_�F+'�J1•-G7lI) 300CFM(CFM OF SUPPLY DIFFUSER OR REGISTER) 24x24 (SIZE) CEG-1 (TYPE) JL�"I CFM (CFM OF EXHAUST GRILLE) MANUAL VOLUME DAMPER SQUARE TO ROUND TRANSITION DUCT MOUNTED SMOKE DETECTOR(SD=SUPPLY/RD=RETURN) RD 0 RISER DESIGNATION FIRE DAMPER FD FIRE SMOKE DAMPER FSD SMOKE DAMPER SD VOLUME DAMPER MOTORIZED DAMPER MD BACKDRAFT DAMPER BD ALL DUCT DIMENSIONS SHOWN ON DRAWINGS ARE INSIDE DIMENSIONS. REFERTO DUCTWORK SPECIFICATIONS FOR DUCTWORK INSULATION AND LINER INFORMATION. ARCHITECT OF RECORD: BRR ARCHITECTURE INC 6700 ANOQO(nl PLAZA MERR3AM, K6 66204 62-8086 833-262-9044 CONSULTANT . ..................... CONSULTANT LOGO HENDERSON ENGINEERS 8345 LENEXA DRIVE, SUITE 300 '.. LENEXA, KS 66214 TEL 913.7424000 FAX913.742.5001 WWW.HENDERSONENGINEERS.COM '.. 1950002714 '.. WA. CORPORATE NUMBER: 1754 '.. 06130120 COPYRIGHT NOTICE Tbisaaw,n9 wasmpo ea�eosiy we M1girs tlate ana�irein oensuitable for use ona ' ue tlNifFetlrent 1"fir, site ar at a alter time. use of ng hreference or example un anoMer proleG regalres the services of nsetl ii cs anegmena. of U1. arnwin9 M for reuse on aMomM and may be ISSUES & REVISIONS PR03EU NAME UWAS SEATTLE OHUMIDISTAT PRO?IFADDRESS O THERMOSTAT 18323 ANDOVER PARK WEST TUKWILA, WA 98188 © CARBON MONOXIDE SENSOR CO2 CARBON DIOXIDE SENSOR DIFFERENTIAL PRESSURE SENSOR FS FLOW SWITCH HS HUMIDITY SENSOR p$ PULL STATION SP STATIC PRESSURE ISSUED FOR N TEMPERATURE SENSOR PERMIT LINETYPE LEGEND THROUGHOUT THE DRAWINGS DIFFERENT LINE -TYPES ARE USED IN COMBINATION WITHTHE SYMBOLS TO INDICATE THE STATUS OF ITEMSAS EXISTING, TOBE PROTECT DEMOLISHED, TO BE INCLUDED AS PART OF NEW WORK AND/OR ITEMS WHICH ARE ANTICIPATED TO BE PROVIDED IN THE FUTURE. THE STATUS OF ITEMS USING MANAGER: 1pMES MCCARTY THESEUNETYPES ARERELATWETOTHEVIEW IN WHICH THEY APPEAR. PHASING CHEcR OY: SHOWN IN DRAWINGS IS NOT INTENDED TO FULLY DESCRIBE ALL NECESSARY SIDE CONSTRUCTION PHASING, WHICH IS DETERMINED BY THE CONTRACTOR AS PART DRAWN BY: OF THEIR RESPONSIBILITIES. ANY SUCH PHASES DESCRIBED IN THE CONSTRUCTION DOCUMENTS ARE GENERAL AND ONLY INTENDED TO INDICATE A iTW BROAD ORDER FOR THE SAKE OF DESCRIBING THE PROJECT. THE FOLLOWING DOCUMENT DAre: LINETYPES MAY BE USED ON ANY DEVICE, EQUIPMENT, NOTE, LINE, SHAPE, ETC. 06/ 14/ 19 PRO]ECr NO. EXISTING NEW 1950002714 DEMOLISH -""""""'--"'----- FUTURE -SEAL PROJECT DESIGN CONDITIONS TUKWIL.A, WA OUTSIDE MR (06) - SUMMER °F 85 OUTSIDE AIR (WB)-SUMMER °F 55 OUTSIDE AIR(DB)- WINTER °F 30 DEHUMIDIFICATION SETPOINT-DEWPOINT °F 53 COOLING- OCCUPIED SETPOINT °F 75 COOLING- UNOCCUPIED SETPOINT °F 80 DEAD BAND- MINIMUM HEATINGAND COOLING TEMPERATURE SETPOINT DIFFERENCE °F 7 HEATING- OCCUPIED SETPOINT °F 68 HEATING- UNOCCUPIED SETPOINT °F 63 DEHUMIDIFICATION SETPOINT (INTERIOR) (HI LIMIT)- HUMIDITY SENSOR FEEDBACK °F 53 DEHUMIDIFICATION SETPOINT (INTERIOR)(LOWLIMIT)- HUMIDITY SENSOR FEEDBACK °F 49 COMMISSIONING PROJECT COMMISSIONING REQUIREMENTS SHALL CONFORM TO SECTION C408 OF THE 2015 WASHINGTON STATE NON-RESIDENTIAL ENERGY CODE, THESE REQUIREMENTS INCLUDE, BUT ARE NOT LIMITED TO A COMMISSIONING PLAN, PRELIMINARY COMMISSIONING REPORT, FINAL COMMISSIONING REPORT, AND ACCEPTANCE AND SUPPORTING DOCUMENTS. IN ADDITION, PROVIDE SYSTEM OPERATIONAL TRAINING, 08:M MANUALS, AND RECORD DRAWINGS TO THE OWNER PER THE 2015WASHINGTON STATE NON-RESIDENTIAL ENERGY CODE. AIR FLOW RATES SHALL BE TESTED AND BALANCED WITHIN THE TOLERANCES DEFINED IN THE SPECIFICATIONS, SYSTEM SHALL BE BALANCED IN A MANNER TO FIRST MINIMIZE THROTTLING LOSSES, THEN ADJUSTED TO MEET DESIGN FLOW CONDITIONS. F"ILVOPY �11 - Permit No. �� - i`li tJ`i Plan review approval is subject to errors and ornissions Aoproval of construction documents does 101 autn:'nZe the violation of any adopted code Of omrnance Receipt of approved Field Copy and conditions is acKnomedgetc Date: YN2bI1G City of IT, BUILDING DIVISION _----- -. - SEPARATE PERMIT REQUIRED FOR: REVISIONS ❑ Medfamcai No c',araes snarl be maas to ine scope Electrical Df work wrnour pnor aPolo vaI of the T Plumbing Tukwila Bluidinq Division Gas Piping NOTE: Revisions wN requite a new plan Cdy of Tukwila submRtat and may include adaitionai plan 2fHetC. BUILDING DIVISION C 70 CITY 0 i UW,"PL:A Jun 20 2019 PROJECT NAME: UWAS (SEATTLE) BUnnING ADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 aLENA- MECHANICAL SYMBOLS AND G�EN�E`"R�A�'L°NN�OTES 2019 YEAa. I TO DAYS DATE: I DRAWN BY. 6/13/2019 HEI FLOOR. DRAWN DATc: 1 06/14/19 BUILDING TYPE: PROVED BY: UWAS DIVISION 23: HEATING, VENTILATING, AND AIR CONDITIONING 1. GENERAL INSTRUCTIONS A. GENERAL REQUIREMENTS ALL REQUIREMENTS UNDER DIVISION 01 AND THE GENERAL AND SUPPLEMENTARY CONDMONS OF THESE 8 ECIFICATIONS APPLY TO THIS SECTION AND DIVISION. WHERE THE REQUIREMENTS OF THIS SECTION AND DIVISION EXCEED THOSE OF DIVISION 01, THIS SECTION AND DIVISION TAKE PRECEDENCE. BECOME THOROUGHLY FAMILIAR WITH ALL IT$ CONTENTS AS TO REQUIREMENTS THAT AFFECT THIS DIVISION SECTION, OR BOTH. WORK REQUIRED UNDER THIS DIVISION INCLUDES ALL MATERIAL, EQUIPMENT. APPLIANCES, TRANSPORTATION, SERVICES, AND LABOR REQUIRED TO COMPLETE THE ENTIRE SYSTEM AS REQUIRED BY THE DRAWINGS AND SPECIFICATIONS, OR REASONABLY INFERRED TO BE NECESSARY TO FACILITATE THE FUNCTION OF EACH SYSTEM AS IMPLIED BY THE DESIGN AND THE EQUIPMENT SPECIFIED. THE SPECIFICATIONS AND DRAWINGS FOR THE PROJECT ARE COMPLEMENTARY, AND MY PORTION OF WORK DES RIBED IN ONE $HALL BE PROVIDED AS IF DESCRIBED IN BOTH. IN THE EVENT OF DISCREPANCIES, NOTI� THE ENGINEER AND REQUEST CLARIFICATION PRIOR TO PROCEEDING WITH THE WOW INVOLVED, DRAM GS ARE GRAPHIC REPRESENTATION$ OF THE WORK UPON WHICH THE CONTRACT IS BASED. THEY SH W THE MATERIALS AND THEIR RELATIONSHIP TO ONE ANOTHER, INCLUDING SIZES, SHAPES, LOCATIONS AN CONNECTIONS. THEY CONVEY THE SCOPE OF WORK, INDICATING THE INTENDED GENERAL ARRANGEMiNT 0 THE SYSTEMS WITHOUT SHOWING ALL OF THE EXACT DETAILS AS TO ELEVATIONS, OFFSETS, CONTROL LINES, AND OTHER INSTALLATION REQUIREMENTS. USE THE DRAWINGS AS A GUIDE WHEN I-AYING OUT THE WO K AND TO VERIFY THAT MATERIALS AND EQUIPMENT WILL FIT INTO THE DESIGNATED SPACES, AND WHICH WHEN INSTA LED PER MANUFACTURERS! REQUIREMENTS, WILL ENSURE A COMPLETE, COORDINATED, SATISFACTORY, AND PROPERLY OPERATING SYSTEM. B. DEFINITIONS D VISION: REFERENCES CONTAINED IN THIS SPECIFICATION FOLLOW THE NUMBERING SYSTEM DEFINED IN THE CONS RUCTION SPECIFICATIONS INSTITUTE (CSI) MASTERFORMAT 2XA EDIT ON. SPECIFICATION DIVISIONS 01 THROUGH 13 PROVIDED WITH THIS PROJECT MAY REFERENCE THE CSI MASTERFOWAT 1996 EDITION. THE CORRESPONDING DIVISION REFERENCES BETWEEN THE 2004 EDITION AND 1995 EDITION ARE As FOLLOWS 2004 EDITION 1995 EDITION 1. D�V $[ON 21 - FIRE SUPPRESSION DIVISION 15 2 D VISION 22 - PLUMBING DIVISION 15 3 DIVISION 23 - BYRD DIVISION 15 4 DIVISION 23R - REFRIGERATION DIVISION 15 5 DIVISION 26 - ELECTRICAL DIVISION 16 6 DIVISION 27 - COMMUNICATIONS DIVISION 16 7. DIVISION 28 - ELECTRONIC SAFETY AND SECURITYEHVISION 16 FURNISR� SUPPLY AND DELIVER TO THE PROJECT SITE, READY FOR UNLOADING, UNPACKING, ASSEMBLY, INSTALLATION AND SIMILAR OPERATIONS.' INSTAUL:'rOP RFORM ALL OPERATIONS AT THE PROJECT SITE INCLUDING, BUT NOT LIMITED TO, THE ACTUAL UNLOADING, UNPACKING, ASSEMBLING, ERECTING. PLACING, ANCHORING, APPLYING, WORKING TO DIMENSION, FINISHING, CURING, PROTECTING, CLEANING, TESTING, COMMISSIONING, STARTING UP AND SIMILAR OPERATIONS, COMPLETE, AND READY FOR THE INTENDED USE. - PROVIDE 'TO FURNISH AND INSTALL.' FURNISHED BY OWNER (OR OWNER -FURNISHED) OR FURNISHED BY OTHERS: AN ITEM FURNISHED BY THE OWNER OR UNDER OTHER DIVISIONS OR CONTRACTS, AND INSTALLED UNDER THE REQUIREMENTS OF THIS DIVISION , COMPLETE AND READY FOR INTENDED USE, INCLUDING ALL ITEMS AND SERVICES INCIDENTAL TO THE WORK NECESSARY FOR P OPER INSTALLATION AND OPERATION. INCLUDE THE INSTALLATION UNDER THE WARRANTY REQUIRED BY THIS DIVISION.' E GINEM WHERE REFERENCED IN THIS DIVISION,'ENGINEEFV IS THE ENGINEER OF RECORD AND THE DESIGN PROF SSIONAL FOR THE WORK UNDER THIS DIVISION, AND IS A CONSULTANT TO, AND AN AUTHORIZED REPRESENTATIVE OF THE ARCHITECT, AS DEFINED IN E GENERAL AND/OR SUPPLEMENTARY CONDITIONS. WHEN USED IN THIS DIVISION, ENGINEER MEANS INCREASED INVOLVEMENT BY AND OBLIGATIONS TO THE ENGINEER , IN ADDITION TO INVOLVEMENT BY AND OBLIGATIONS TO THE ARCHITECT. AHJ: THE LOCAL CODE ANDIOR INSPECTION AGENCY (AUTHORITY) HAVING JURISDICTION OVER THE WORK, CARTY: CERTIFIED ACCEPTANCE MECHANICAL TEST TECHNICIAN. A PROFESSIONAL CERTIFIED To PERFORM ACCEPTANCE T STS AND COMPLETE THE DOCUMENTATION REQUIRED FOR NONRESIDENTIAL ADDER NCE TESTS AS REQUIRED BY THE CALIFORNIA BUILDING ENERGY EFFICIENCY STANDARDS. TECH ICIAN $HAUL BE CERTIFIED BY AN AUTHORIZED MECHANICAL ACCEPTANCE TEST TECHNICIAN CERTIFICATION PROVIDER. NRT : NATIONALLY RECOGNIZED TESTING LABORATORY, AS DEFINED AND LISTED BY OSHA IN 29 CFR 1910.7 E.G., UL, ETL, CSIU, AND ACCEPTABLE TO THE AHJ OVER THIS PROJECT. NATIONALLY RECOGNIZED TESTING LABORATO IES AND STANDARDS LISTED ARE USED ONLY TO REPRESENT THE CHARACTERISTICS REQUIRED ANDARENO INTENDED TO RESTRICT THE USE OF OTHER NRTUS THAT ARE ACCEPTABLE TO THE AHJ AND STANDARDS THAT MEET THE SPECIFIED CRITERIA. SUBSTI LITTON: CHANGES IN PRODUCTS, MAMMALS, EQUIPMENT, AND METHODS OF CONSTRUCTION FROM THOSE REQUIRED BYTHE CONTRACT DOCUMENTS AND PROPOSED BY CONTRACTOR, SUBSTITUTIONS INCLUDE VA UE ENGINEERING PROPOSALS. 1, SUBSTITUTIONS FOR CAUSE: CHANGES PROPOSED BY CONTRACTOR THATARE REQUIRED DUE TO CHANGED PROJECT CONDITIONS, SUCH AS UNAVAILABILITY OF PRODUCT, REGULATORY CHANGES, OR UNAVAILABI ITY OF REQUIRED WARRANTY TERMS. 2 STITUTIONS FOR CONVENIENCE: CHANGES PROPOSED BY CONTRACTOR OR OWNER THAT ARE NOT �EQJRUD IN ORDER TO MEET OTHER PROJECT REQUIREMENTS BUT MY OFFER ADVANTAGE TO CONTRACTOR OR OWNER. THE TERMSAPPROVED EQUAV, 'EOURVALENT. OR'EQUAL� ARE USED SYNONYMOUSLY AND SHALL MEAN 'ACCEPTED Sy OR ACCEPTABLE TO THE ENGINEER AS EQUIVALENT TO THE ITEM OR MANUFACTURER SPECIFIED". THE TERM 'APPROVED' SHALL MEAN LABELED, LISTED, OR BOTH, BY AN NRTL, AND ACCEPTABLE TO THE AHJ OVER THIS PROJECT, C. PREBID SITE VISIT PRIOR TO SUBMITTING BID, VISIT THE S TE OF THE PROPOSED WORK AND BECOME FULLY INFORMED As TO THE CON ITIONS UNDER WHICH THE WORK IS TO BE DONE. FAILURE TO COMPLY WITH THIS REQUIREMENT SHALL NOT BE CONSIDERED SUFFICIENT JUSTIFICATION TO REQUEST OR OBTAIN EXTRA COMPENSATION OVER AND ABOVE THE CONTRACT PRICE. D. MATERIAL AND WORKMANSHIP PROV :DE NEW MATERIAL, EQUIPMENT, AND APPARATUS UNDER THIS CONTRACT UNLESS OTHERWISE STATED HERE N, OF BEST QUALITY NORMALLY USED FOR THE PURPOSE IN GOOD COMMERCIAL PRAC "CE. AND FREE FROM DEFECTS, INSTALL MATERIAL AND EQUIPMENT IN ACCORDANCE WITH THE MANUFACTURERD INSTALLATION INSTRUCTIONS, MODEL NUMBERS LISTED IN THE SPECIFICATIONS OR SHOWN ON THE DRAWINGS ARE NOT NECESSARILY INTENDED TO DESIGNATE THE REQUIRED TRIM, WRITTEN DESCRIPTIONS OF THE TRIM GOVERN MODEL NUMBERS. PIPE, PIPE FITUNGS, PIPE SPECIALTIES AND VALVES SHALL BE MANUFACTURED IN PLANTS LOCATED IN THE UNITED STATES OR CERTIFIED TO MEET THE SPECIFIED ASTM AND ANSI STANDARDS. WORK PER ORMED UNDER THIS CONTRACT S�U. PROVIDE A NEAT AND �WORKMANUKE� APPEARANCE WHEN COMPLETED, TO THE SATISFACTION OF THE ARCHITECT AND ENGINEER. WORKMANSHIP SHALL BE THE FINEST POSSIBLE BY EXPERIENCED MECHANICS. INSTALLATIONS S�U_ COMPLY WITH APPLICABLE CODES AND LAWS. THE COMP ETE INSTALLATION SHALL FUNCTION AS DESIGNED AND INTENDED WITH RESPECT TO EFFICIENCY, CAPACITY, NOISE LEVEL, ETC. ABNORMAL NOISE CAUSED BY EARTHING EQUIPMENT, PIPING, DUCTS, AIR DEVICES, AND SQUEAKS IN ROTATING COMPONENTS SHALL NOT BE ACCEPTABLE. MATERIALS AND EQUIPMENT SHALL BE OF COMMERCIAL SPECIFICATION GRADE IN QUALITY� LIGHT OUTY AND RESIDENTIAL CRADE EQUIPMENT SHALL NOT BE ACCEPTED UNLESS OTHERWISE INDICATED. A R ALL EQUIPMENT AND ACCESSORIES HAVE BEEN INSTALLED, BUT PRIOR TO TESTING AND BALANCING, ALL EQUIPMENT, PIPING AND DUCTWORK. ETC. SHALL BE THOROUGHLY CLEANED INSIDE ANDOUPFA�ER CLEANING, ALL FILTERS SHAUL BE REPLACED AND THE SYSTEMS SHALL BE TESTED AND BALANCED. AFTER TESTING AND BALANCING, AND PRIOR TO OWNER REVIEW, ALL SYSTEMS SHALL RECEIVE FINAL CLEANING AND LEFT READY TO USE. R MOVE FROM THE PREMISES WASTE MATERIAL PRESENT ASA RESULT OF WORK, INCLUDING CARTONS, CRATING PAPER, STICKERS, ANDIOR EXCAVATION MATERIAL NOT USED IN BACKFILLING, ETC. CLEAN EQUIPME'NT INSTALLED UNDER THIS CONTRACT TO PRESENT A NEAT AND CLEAN INSTALLATION AT THE TERMINATION OF THE WORK. REPAIR OR REPLACE PUBLIC AND PRIVATE PROPERTY DAMAGED AS A RESULT OF WORK PERFORMED UNDER THIS CO CT TO THE SATISFACTION OF AUTHORITIES AND REGULATIONS HAVING JURISDICTION. PROVIDE ALL SAFETY LIGHTS, GUARDS , AND WARNING SIGNS REQUIRED FOR THE PERFORMANCE OF THE WORK AND FOR THE SAFETY OF THE PUBLIC. E. MANUFACTURERS IN OTHER ARTIC ES WHERE LISTS OF MANUFACTURERS ARE INTRODUCED, SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE PRODUCTS BY ONE OF THE MANUFACTURERS SPECIFIED. WHERE A LIST IS PROVIDED, MANUFACTURERS ARE LISTED ALPHABETICALLY AND NOT IN ACCORDANCE WITH ANY BANKING OR PREFERENCE. WHER MANUFACTURERS ARE NOT LISTED, PROVIDE PRODUCTS SUBJECT TO COMPLIANCE WITH R UIREMENTS FROM MANUFACTURERS THAT HAVE BEEN ACT ELY INVOLVED IN MANUFACTURING THE SPECIFIED PRODUCT FOR NO LESS THAN 5 YEARS, UNLESS WRITTEN APPROVAL Is PROVIDED BY AMAZON, F. COORDINATION COORDINATE WORK WITH THAT OF OTHER TRADES SO THAT THE VARIOUS COMPONENTS OF THE SYSTEMS ARE INSTALLED AT THE PROPER TIME, WILL FIT THE AVAILABLE SPACE, AND WILL ALLOW PROPER SERVICE ACCESS TO THOSE ITEMS REQUIRING MAIWENANCE. COMPONENTS WHICH ARE INSTALLED WITHOUT REGARD TO THE ABOVE SHALL BE RELOCATED AT NO ADDrrIOML COST TO THE OWNER. UNLESS OTHERWISE INDICATED, TH GENERAL CONTRACTOR SHALL PROVIDE CHASES AND OPENINGS IN B ILDING CONSTRUCTION REQUIRED FOR INSTALLATION OF THE SYSTEMS SPECIFIED HEREIN. CONTRACTOR S LL FURNISH THE GENERAL CONTRACTOR WITH INFORMATION WHERE CHASES AND OPENINGS ARE R UIRED. CONTRACTOR SHALL KEEP INFORMED AS TO THE WORK OF OTHER TRA MENGAGEDINTHE C NSTRUCTION OF THE PROJECT AND SHALL EXECUTE WORK INA MANNER AS TO NOT INTERFERE WITH OR DELAY THE WORK OF OTHER TRADES. FIGURED DIMENSIONS SH L BETAKEN IN PREFERENCE TO SCALE DIMENSIONS. CONTRACTOR SHALL TAKE HIS OWN MEASUREMENTS AT THE BUILDING, AS VARIATIONS MAY OCCUR. CONTRACTOR SHALL BE HELD RESPONSIBLE FOR ERRORS THAT COULD HAVE BEEN AVOIDED BY PROPER CHECKING AND INSPECTION. PROVIDE MATERIALS WITH TRIM THAT WILL PROPERLY FIT THE TYPES OF CEILING, WALL. OR FLOOR FINISHES ACTUAL INSTALLED. MODEL NUMBERS LISTED IN THE SPECIFICATIONS OR SHOWN ON THE DRAWINGS ARE NOT INTENDED TO DESIGNATE THE REQUIRED TRIM. G. ORDINANCES AND CODES WORKPER RMED UNDER THIS CONTRACT $HALL, ATA MINIMUM, BE IN CO FORMANCE WITH APPLICABLE NATIONAL, STATE AND LOCAL CODES HAVING JURISDICTION. EQUIPMENT FURNISHED AND ASSOCIATED INSTALLATI N WORK PERFORMED UNDER THIS CONTRACT SHALL BE IN STRICT COMPLIANCE WITH CURRENT AP LICABLE CODES ADOPTED BYTHE LOCAL AHJ, INCLUDING ANY AMENDMENTS AND STANDARDS ASSET ED TH BY THE FOLLOWING 1. NATIONAL ELECTRICAL CODE (NEC) 2. IWERNAT'ONAL CODE COUNCIL (ICC) 3 N TIONAL FIRE PROMOTION ASSOCIATION WFPA) 4. UNDERWRITERS LABORATORIES (UL) 5 OCC PATIONAL SAFETY AND HEALTH ADMINISTRATION (OSHA) 6 A ERICAN SOCIETY OF MECHANICAL ENGINEERS (ASME) T AMER:CAN SOCIETY OF HEATING, REFRIGERATION, AND AIR CONDITIONING ENGINEERS PSHRAE) 8. AMER CAN NATIONAL STANDARDS INSTITUTE (ANSI) 9� AMERICAN SOCIETY OF TESTING MATERIALS ASTM) 10. OTHER NATIONAL STANDARDS AND CODES WHERE APPLICABLE. WHERE THE CONTRACT DOCUMENTS EXCEED THE REQUIREMENTS OF THE REFERENCED CODES, STANDARDS, ETC., THE CONTRACT DOCUMENTS SHALL TAKE PRECEDENCE. WHERE CONFLICTS BETWEEN VARIOUS CODES, ORDINANCES, RULES, AND REGULATIONS EXIST, COMPLY WITH THE MOST STRINGENT. ALL EQUIPMENT SHALL BEAR THE INSPECTION LABEL AND CERTIFICATION OF THE UNDERWRITERS LABORATORIES (UL). PH MPTLY BRING ALL CONFLICTS OBSERVED BETWEEN CODES, ORDINANCES, RULES, REGULATIONS, RE ERENCED STANDARDS, AND THESE DOCUMENTS TO THE ATTEWION OF THE ARCHITECT AND ENGINEER FOR FIN& RESOLUTION. CONTRACTOR WILL BE HELD RESPONSIBLE FOR ANY VIOLATION OF THE LAW. PROCURE AND PAY FOR PERMITS AND LICENSES REQUIRED FOR THE ACCOMPLISHMENT OF THE WORK HE N DESCRIBED. WHERE REQUIRED, OBTAIN, PAY FOR, AND FURNISH CERTIFICATES OF INSPECTION TO OMJER71 H. PROTECTION OF EQUIPMENT AND MATERIALS STORE AND PROTECT FROM DAMAGE EQUIPMENT AND MATERIALS DELIVERED TO JOB SITE. FOR MATERIALS AND EQUIPMENT SUSCEPTIBLE TO CHANGING WEATHER CONDITIONS, DAMPNESS, OR TEMPE�TURE VARIATIONS, STORE INSIDE IN CONDITIONED SPACES. FOR MATERIALS AND EQUIPMENT NOT SUSCEPTIBLE TO THESE CONDITIONS, COVER WITH WATERPR F,TEAR-RESISTANT.H�WT�PORPOLY�WL�EP�STIC AS REQUIRED TO PROTECT MOM PLASTER, MST, PAIW, WATER, OR PHYSICAL DAMAGE. EQUIPMENT AND MATERIAL DAMAGED BYGONSTR CTION ACTIVITIES SHALL BE REJECTED AND CONTRACTOR SHALL FURNISH NEW EQUIPMENTAND MATERIAL OF A LIKE KIND AT HIS OWN EXPENSE. KEEP PREMISES BROOM CLEAN OF FOREIGN MATERIAL CREATED DURING WORK PERFORMED UNDER THIS CONTRACT, PIPING, EQUIPMENT, ETC. SHALL HAVE A NEXT AND CLEAN APPEARANCE AT THE TERMINATION OF THEWORK PLUG OR CAP OPEN ENDS OF DUCTWORK AND PIPING SYSTEMS MILE STORM AND INSTALLED DURING CONSTRUCTION MEN NOT IN USE TO PREVENT THE ENTRANCE OF DEBRIS INTO THE SYSTEMS. 0 SUBSTITUTIONS MATERIALS PRODUCTS, EQUIPMENT, AND SYSTEMS DESCRIBED IN THE BIDDING DOCUMENTS ESTABLISH A STANDARDoF REQUIRED FUNCTION, DIMENSION, APPEARANCE AND QUALITY TO BE MET BY THE PROPOSED S BSTFTUTION. THE BASE BID SHALL INCLUDE ONLY THE PRODUCTS FROM MANUFACTURERS SPECIFICALLY NAMED IN THE DRAWINGS AND SPECIFICATIONS. TO REQUEST A SUBSTITUTION, REQUEST THE SUBSTITUTION REQUEST FORM FROM THE ARCHITECT OR ENGINEER. COMPLETE AND SEND THE SUBSTITUTION REQUEST FORM FOR EACH MATERIAL, PRODUCT, EQUIPMENT, OR SYSTEM THAT IS PROPOSED TO BE SUBSTITUTED. THE BURDEN OF PROOF OF THE MERIT OF THE PROPOSED SUBSTITUTION IS UPON THE PROPOSER. UNLESS STATED OTHERWISE IN WRITiNG TO THE ENGINEER BY THE CONTRACTOR, CONTRACTOR WARRANTS TO THE ENGINEER, ARCHITECT, AND OWNER THE FOLLOWING 1 . PROPOSED SUBSTITUTION HAS BEEN FULLY INVESTIGATED AND DETERMINED TO MEET OR EXCEED THE SPECIFIED WORK IN ALL RESPECTS UNLESS STATED OTHERWISE IN THE SUBSTITUTION REQUEST. 2. PROPOSED SUBSTITUTION IS CONSISTENT WITH THE CONTRACT DOCUMENTS AND WILL PRODUCE INDICATED RESULTS, INCLUDING FUNCTIONAL CLEARANCES, MAINTENANCE SERVICE, AND SOURCING OF REPLACEMENT PARTS 3. PROPOSED SUBSTITUTION HAS RECEIVED NECESSARY APPROVALS OF AUTHORITIES HAVING JURISDICTION. 4. SAME WARRANTY WILL BE FURNISHED FOR PROPOSED SUBSTITUTION As FOR SPECIFIED WORK. 5. IF ACCEPTED SUBSTITUTION FALLS TO PERFORM AS REQUIRED, CONTRACTOR SHALL REPLACE SUBSTITUTE MATERIAL OR SYSTEM WITH THAT ORIGINALLY SPECIFIED AND BEAR COSTS INCURRED THEREBY. 6, COORDINATION, INSTALLATION AND CHANGES IN THE WORK AS NECESSARY FOR ACCEPTED SUBSTITUTION WILL BE COMPLETE IN ALL RESPECTS. NO SUBSTITUTIONS WILL BE CONSIDERED UNLESS THE SUBSTITUTION REQUEST FORM IS COMPLETED AND ATTACHED WITH THE APPROPRIATE SUBSTITUTION DOCUMENTATION. NO SUBSTITUTION WILL BE CONSIDERED PRIOR TO RECEIPT OF BIDS UNLESS WRITTEN REQUEST FOR APPROVAL TO BID HAS BEEN RECEIVED BY THE ENGINEER AT LEAST TEN (10) CALENDAR DAYS PRIOR TO THE DATE FOR RECEIPT OF BIDS. IF THE PROPOSED SUBSTITUTION IS APPROVED PRIOR TO RECEIPT OF BIDS, SUCH APPROVAL WILL BE STATED IN AN ADDENDUM, BIDDERS SHALL NOT RELY UPON APPROVALS MADE IN ANY OTHER WAY. VERBAL APPROVAL WILL NOT BE GIVEN. NO SUBSTITUTIONS WILL BE CONSIDERED AFTER THE CONTRACT IS AWARDED UNLESS SPECIFICALLY PROVIDED IN THE CONTRACT DOCUMENTS. J. SUBMITTALS ASSEMBLE AND SUBMIT FOR REVIEW SHOP DRAWINGS, MATERIAL LISTS, MANUFACTURER PRODUCT LITERATURE FOR EQUIPMENT TO BE FURNISHED, AND ITEMS REQUIRING COORDINATION BETWEEN CONTRACTORS UNDER THIS CONTRACT. PROVIDE SUBMITTALS IN SUFFICIENT DETAIL SO AS TO DEMONSTRATE COMPLIANCE WITH THESE CONTRACT DOCUMENTS AND THE DESIGN CONCEPT. PRIOR TO TRANSMITnNG SUBMITTALS, VERIFY THAT THE EQUIPMENT SUBMITTED IS MUTUALLY COMPATIBLE AND SUITABLE FOR THE INTENDED USE, WILL FIT THE AVAILABLE SPACE, AND MAIWAIN MANUFACTURER RECOMMENDED SERVICE C EARANCES. IF THE SIZE OF EQUIPMENT FURNISHED MAKES NECESSARY ANY CHANGE IN LOCATION OR CONFIGURATION, SUBMIT A SHOP DRAWING SHOWING THE PROPOSED LAYOUT. TRANSMIT SUBMITTALS AS EARLY AS REQUIRED TO SUPPORT THE PROJECT SCHEDULE. ALLOW FOR 3 DAYS ENGINEER REVIEW TIME, PLUS TOIFROM MAILING TIME VIA THE ARCHITECT, PLUS A DUPLICATION OF THIS TIME FOR RESUBMITIAL, IF REQUIRED. ONLY RESUBMIT THOSE SECTIONS REQUESTED FOR RESUBMffTAL. SUBMITTALS SHALL CONTAIN THE PROJECT NAME, APPLICABLE SPECIFICATION SECTION. SUBMITTAL DATE, EQUIPMENT IDENTIFICATION ACRONYM AS USED ON THE DRAWINGS, AND THE COW�CTOFVS STAMP. THE STAMP SHALL CERTIFY THAT THE SUBMITTAL HAS BEEN CHECKED BY THE CONTRACTOR, COMPLIES WITH THE DRAWINGS AND SPECIFICATIONS, AND IS COORDINATED WITH OTHER TRADES. MANUFACTURER PRODUCT LITERATURE $HALL INCLUDE SHOP DRAPRNGS, PRODUCT DATA, PERFORMANCE SHEETS, SAMPLES AND OTHER SUBMITTALS REQUIRED BY THIS DIVISION, HIGHLIGHT, MARK, LIST, OR INDICATE THE MATERIALS, PERFORMANCE CRITERIA, AND ACCESSORIES THAT ARE BEING PROPOSED. GENERAL PRODUCT CATALOG DATA NOT SPECIFICALLY NOTED TO BE PART OF THE SPECIFIED PRODUCT WILL BE REJECTED AND RETURNED WITHOUT REVIEW. SUBMITTALS AND SHOP DRAWINGS SHALL NOT CONTAIN THE FIRM NAME, LOGO, SEAL, OR SIGNATURE OF THE E GINEER. THEY SHALL NOT BE COPIES OF THE WORK PRODUCT OF THE ENGINEER. IF THE COWRACTOR DESIRES TO USE ELEMENTS OF SUCH PRODUCT, REFER TO PARAGRAPH 'ELECTRONIC DRAWING FILES' FOR PROCEDURES TO BE USED. 8 PARATE SUBMITTALS ACCORDING TO INDIVIDUAL SPECIFICATION SECTIONS. ILLEGIBLE SUBMITTALS WILL BE REJECTED AND RETURNED WITHOUT REVIEW. CATALOG DATA SHALL BE PROPERLY BOUND, IDENTIFIED, INDEXED AND TABBED IN A 3-RING St DER. EACH ITEM OR MODEL NUMBER SHALL BE CLEARLY MARKED AND AD ESSORIES INDICATED. LABEL THE CATALOG DATA WITH THE EQUIPMENT IDENTIFICATION ACRONYM OR NUMBER AS USED ON THE DRAWINGS AND INCLUDE PERFORMANCE CURVES, CAPACITIES, SIZES, WEIGHTS, MATERIALS, FINISHES, WIRING DIAGRAMS, ELECTRICAL REQUIREMENTS AND DEVIATIONS FROM SPECIFIED EQUIPMENT OR MATERIALS, FOR EQUIPMENT WITH MOTOR STARTERS OR VFDS, INCLUDE SHORT CIRCUIT CURREW RATINGS. MARK OUT INAPPLICABLE ITEMS, SHOP DRAWINGS WILL BE RETURNED WITHOUT REVIEW IF THE ABOVE MENTIONED REQUIREMENTS ARE NOT MET, PROVIDE THE QUANTITY OF SUBMITTALS REQUIRED By TWISION 01 � IF NOT INDICATED AND HARD -COPY SETS ARE PROVIDED, SUBMIT A MINIMUM OF THREE (3) COPIES. REFER TO DIVISION 01 FOR ACCEPTANCE OF ELECTRONIC SUBMITTALS FOR THIS PROJECT. FOR ELECTRONIC SUBMITTALS, CONTRACTOR SHALL SUBMIT THE DOCUMENTS IN ACCORDANCE WITH THE PROCEDURES SPECIFIED IN DIVISION 01. CONTRACTOR SHALL NOTIFY THE ARCHITECT AND ENGINEER THAT THE SUBMITTALS HAVE BEEN POSTED. IF ELECTRONIC SUBMITTAL PROCEDURES: ARE NOT DEFINED IN DIVISION 01, CONTRACTOR SHALL INCLUDE THE WEBSITE, USER NAME, AND PASSWORD INFORMATION NEEDED TO ACCESS THE SUBMrrrALS. FOR SUBMITTALS SENT By E�MAIL, CONTRACTOR SHALL COPY THE DESIGNATED REPRESENTATIVES OF THE ARCHITECT AND ENGINEER. CONTRACTOR SHALL ALLOW FOR THE ENGINEER REVIEW TIME AS SPECIFIED ABOVE IN THE CONSTRUCTION SCHEDULE. CONTRACTOR SHALL SUBMIT ONLY THE DOCUMENTS REQUIRED TO PURSHASE THE MATERIALS AND/OR EQUIPMENT IN THE ELECTRONIC SUBMITTAL. THE CHECKING AND SUBSEQUENTACCEPTAINCE OF SUBMITTALS BY THE ENGINEER ANEVOR ARCHITECT SHALL NOT RELIEVE THE CONT�CTOR FROM RESPONSIBILITY FOR DEVIATIONS FROM THE DRAWINGS AND SPECIFICATIONS, ERRORS IN DIMENSIONS, DETAILS, SIZE OF MEMBERS, OR QUANTITIES, OMISSIONS OF COMPONENTS OR FITTINGS; COORDINATION OF ELECTRICAL REQUIREMENTS; AND NOT COORDINATING ITEMS WITH ACTUAL BUILDING CO DITIONS AND ADJACENT WORK. PROCEED WITH THE PROCUREMENT AND INSTALLATION OF EQUIPMENT ONLY AFTER RECEIVING APPROVED SHOP DRAWINGS RELATIVE TO EACH ITEM, K. ELECTRONIC DRAWING FILES IN PREPARATION OF SHOP DRAWINGS OR RECORD DRAWINGS, CONTRACTOR MAY, AT HIS OPTION, OBTAIN EMAILED ELECTRONIC DRAWING FILES IN AUTOCAD. CONTACT THE ARCHITECT FOR WRITTEN AUTHORIZATION AND ENGINEER FOR THE NECESSARY RELEASE AGRE MEW FORM AND TO SPECIFY SHIPPING METHOD AND DRAW No FORMAT. THE WRITTEN AUTHORIZATION FROM THE ARCHITECT AND RELEASE AGREEMENT FORM FROM THE ENGINEER MUST BE RECEIVED BEFORE ELECTRONIC DRAWING FILES WILL BE SEW. L. RECORD DRAWINGS (AS -BUILT DRAWINGS) DURING PROGRESS OF THE WORK IN THIS DIVISION, CONTRACTOR SHALL MAINTAIN AN ACCURATE RECORD OF ALL CHANGES MADE DURING THE INSTALLATION OF THE SYSTEM. UPON COMPLETION OF THE WORK, ACC=LY TRANSFER ALL RECORD INFORMATION TO THREE IDENTICAL SETS OF THE APPROVED SHOP DNA INSERT ONE SET INTO EACH COPY OF THE MANUAL DESCRIBED BELOW, SEE DIVISION 01 AND GENERAL CONDITIONS FOR ADDITIONAL INFORMATION. M. OPERATION AND MAINTENANCE INSTRUCTIONS DURING THE COURSE OF CONSTRUCTION, COLLECT AND COMPILE A COMPLETE BROCHURE OF EQUIPMENT FURNISHED AND INSTALLED ON THIS PROJECT. INCLUDE OPERATIONAL AND MAJWENANCE INSTRUCTIONS, MANUFACTURERS CATALOG SHEETS, WIRING DIAGRAMS, PARTS LISTS , APPROVED SUBMITTALS AND SHOP DRAWINGS,WAFRA ES, AND DESCRIPTIVE LITERATURE AS FURNISHED BY THE EQUIPMENT MANUFACTURER. INCLUDE AN I SIDE COVER SHEET THAT LISTS THE PROJECT NAME, DATE, OWNER� ARCHITECT, ENGINEER, GENERAL CONTRACTOR, SUB�CONTRACTOR, AND AN INDEX OF CONTENTS. SUBMIT ONE copy or LITERATURE BOUND IN APPROVED BINDERS WITH INDEX AND TABS SEPARATING EQUIPMENT TYPES TO THE OWNER, AT THE TERMINATION OF THE WORK� PAPER CLIPS, STAPLES, RUBBER BANDS, LOOSE-LEAF BINDING, AND MAILING ENVELOPES ARE NOT CONSIDERED APPROVED BINDERS. FINAL AP ROVAL OF SYSTEMS INSTALLED UNDER THIS CONTRACT SHALL BE WITHHELD UNTIL THIS EQUIPMENT BROCHURE IS RECEIVED AND DEEMED COMPLETE BY THE OWNER. INSTRUCT WORKMEN TO SAVE REQUIRED LITERATURE SHIPPED WITH THE EQUIPMENT ITSELF FOR INCLUSION IN THIS BROCHURE. INCLUDE RECORD DRAWINGS AS DESCRIBED ABOVE REFER TO D VISION 01 FOR ACCEPTANCE OF ELECTRONIC MANUALS FOR THIS PROJECT. FOR ELECTRONIC MANUALS, REFER TO PARAGRAPH 'SUBMITTAUS'FOR REQUIREMENTS. N. SPARE PARTS FURNISH TO OWNER, WITH RECEIPT, THE FOLLOWING SPARE PARTS FOR THE EQUIPMENT FURNISHED FOR TRIS PROJECT. 1 . ONE SET OF SPARE FILTERS 0 EACH TYPE REQUIRED FOR EACH UNIT. IN ADDITION TO THE SPARE SET OF FILTERS, INSTALL NEW FILTERS PRIOR TO TESTING, ADJUSTING, AND BALANCING WORK AND BEFORE TO NING SYSTEM OVER TO OWNER. 2 FURNISH ONE COMPLETE SET OF BELTS FOR EACH FAN. 3. FURNISH THREE OPERATING KEYS FOR EACH TYPE OF AIR OUTUETAND INLET THAT REQUIRE THEM. 0. TRAINING AT A TIME MUTUALLY AGREED UPON BETWEEN THE OWNER AND CONTRACTOR, PROVIDE THE SERVICES OF A FACTORY TRAINED AND AUTHORIZED REPRESENTATIVE TO TRAIN OWNERS DESIGNATED PERSONNE1,CURT PUNCOCRAR (CPUNCOCH@AMAZON.COM), ON THE OPERATION AND MAINTENANCE OF THE EQUIPMEN PROVIDED FOR THIS PROJECT. PROVIDE TRAINING TO INCLUDE, BUT NOT BE LIMITED TO, AN OVERVIEW OF THE SYSTEM ANDIOR EQUIPMENT AS IT RELATES TO THE FACILITY AS A WHOLE; OPERATION AND MAINTENANCE PROCEDURES AND SCHEDULES RE D TO STARTUP AND SHUTDOWN, TROUBLESHOOTING, SERVICING, PREVENTIVE MAINTENANCE AND APPROPRIATE OPERATOR INTERVENTION; AND REVIEW OF DATA INCLUDED IN THE OPERATION AND MAINTENANCE MANUALS. SUBMIT A CERTIFICATION LETTER TO THE ARCHITECT STATING THAT THE OWNERS DESIGNATED REPRESENTATIVE HAS BEEN TRAINED AS SPECIFIED HEREIN. LETTER SHALL INCLUDE DATE, TIME, ATTENDEES AND SUBJECT OF TRAINING. THE CONTRACTOR AND THE OWNERS REPRESENTATIVE SHALL SIGN THE CERTIFICATION LETTER INDICATING AGREEMENT THAT THE TRAINING HAS BEEN PROVIDED. SCHEDULE TRAINING WITH OWNER WITH AT LEAST 7 DAYS ADVANCE NOTICE. P. WARRANTIES WARRANT EACH SYSTEM AND EACH ELEMENT THEREOF AGAINST ALL DEFECTS DUE TO FAULTY WORKMANSHIP, DESIGN, OR MATERIAL. THE INSTALLATION SHALL CARRY A WARRANTY FOR 30 DAYS AND EQUIPMENT FOR 12 MONTHS FROM OWNERSI FIRST INBOUND SHIPMENT, UNLESS SPECIFIC ITEMS ARE NOTED TO CARRY A LONGER WARRANTY IN THE CONSTRUCTION DOCUMENTS OR MANUFACTUREM STANDARD WARFANTY EXCEEDS 12 MONTHS. REMEDY ALL DEFECTS, OCCURRING WITHIN THE WARRANTY PERIOD(S), AS STATED IN THE GENERAL CONDITIONS AND DIVISION 01. WARRANTIES SHALL INCLUDE LABOR AND MATERIAL, INCLUDING TRAVEL EXPENSES. MAKE REPAIRS OR REPIACEME TS WITHOUT ANY ADDITIONAL COSTS TO THE OWNER, AND TO THE SATISFACTION OF THE OWNER, ARCHITECT, AND ENGINEER. PERFORM THE REMEDIAL WORK PROMPTLY, UPON WRITTEN NOTICE FROM THE ENGINEER OR OWNER. AT THE TIME OF SUBSTANTIAL COMPLETION, DELIVER TO THE OWNER ALL WARRANTIES, IN WRITING AND PROPERLY EXECUTED, INCLUDING TERM LIMITS FOR WARRANTIES EXTENDING BEYOND THE ONE YEAR PERIOD AND My ACTIONS THE OWNER MUST TAKE IN ORDER TO MAINTAIN WARRANTY STATUS. EACH WARRANTY INSTRUMENT SHALL BE ADDRESSED TO THE OMER AND STATE THE COMMENCEMENT DATE AND TERM. 2. GENERAL MATERIALS AND INSTALLATION A. BUILDING OPERATION COORDINATE IWERRUPTION OFIBUILDING OPERATIONWITH THE OWNERANEVOR TENANT A MINIMUM OF (7) DAYS IN ADVANCE OF THE WORK. IF THERE IS A CHANGE FROM THE ORIGINAL PLAN, LANDLORD APPROVAL BAY BE NEEDED. THIS APPROVAL MY TAKE UP TO (20) DAYS. B. EXISTING EQUIPMENT REUSE AND REMOVAL REMOVE ALL UNUSED EQUIPMENT, DUCTWORK, PIPING, AND ASSOCIATED SUPPORTS. CAP DUCTWORK AND PIPING AT MAINS AND SEAL AIR AND WATER TIGHT. PROM E ITEMS OF HVAC SYSTEMS MODIFICATION REQUIRED BECAUSE OF BUILDING REMODELING, As NOTED ON THE DRAWINGS OR NECESSARY FOR PROPER OPERATION. MATCH EXISTING MATERIALS AND CONSTRUCTION TECHNIQUES WHEN MODIFYING EXISTING SYSTEMS UNLESS SPECIFIED OTHERWISE. COORDINATE ADDITIONAL REQUIREMENTS WITH GENERAL CONTRACTOR AND ARCHITECT. SEAL AIRTIGHT EXISTING DUCTWORK REQUIRED TO BE ABANDONED IN PLACE OR NOT IN USE AT THE TERMINATION OF THE WORK. CAP AND SEAL WEATHERTIGHT EXISTING ROOF CURBS AND ROOF OPENINGS TO BE ABANDONED IN PLACE AS A RESULT OF EQUIPMENT REMOVAL. CLEAN AND REBALANCE EXISTING DUCTWORK, DIFFUSERS, REGISTERS, AND GRILLES INTENDED FOR REUSE AS REQUIRED OR AS INDICATED ON DRAWINGS. CLEAN AND REFURBISH EXISTING HVAC EQUIPMENT INTENDED FOR REUSE AS REQUIRED FOR PROPER OPERATION INCLUDING REPLACEMENT OF FILTERS, BELTS, MOTORS, REMOTE CONTROLS, AND SAFETY INTERLOCKS. C. COINCIDENTAL DAMAGE REPAIR STREETS, SIDEWALKS. DRIVES, NG. VAULS, FINISHES, AND EITHER .,LM. DAMAGE. IN THE C.URSEO,THE WORK. REPAIR MATERIALS $FALL MATCH EXISTING CONSTRUCTION. REPAIR WORK SHALL MEET ALL REQUIREMENTS OF THE OWNER, LOCAL AUTHORITIES HAVING JURISDICTION. AND MEET THE SATISFACTION OF THE ARCHITECT. D. CUTTING AND PATCHING CONFORM TO THE REQUIREMENTS IN DIVISION 01. CUT WALLS, FLOORS, CEILINGS, AND OTHER PORTIONS OF THE FACILITY AS REQUIRED TO INSTALL WORK UNDER THIS DIVISION. OBTAIN PERMISSION FROM THE ARCHITECT PRIOR TO CUTTING. DO NOT CUT OR DISTURB STRUCTURAL MEMBERS WITHOUT PRIOR APPROVAL FROMTH ARCHITECT. CUT HOLES AS SMAU-AS POSSIBLE. PATCH WALLS, FLOORS, AND OTHER PORTIONS OF THE FACILITY AS REQUIRED BY WORK UNDER THIS DIVISION. PATCHING SHALL MATCH THE ORIGINAL MATERIAL ANDCONSTRU TION INCLUDING FIRE RATINGS, IF APPLICABLE. REPAIR AND REFINISH AREAS DISTURBED By WORK TO THE CONDITION OF ADJOINING SURFACES IN A WNNER SATISFACTORY TO THE ARCHITECT. E. ROUGH -IN COORDI E WITHOUT DELAY ALL ROUGHING -IN WITH OTHER DIVISIONS. CONCEAL PIPING, CONDUIT, AND ROUGH -IN EXCEPT IN UNFINISHED AREAS AND WHERE OTHERWISE SHOWN. F. SUPPORT SYSTEMS STRUCTURAL STEEL USED FOR SUPPORT OF EQUIPMENT, DUCTWORK AND PIPING SHALL BE NEW, CLEAN, AND CONFORM TO ASTM DESIGNATION A-36. SUPPORTMEC ANICAL COMPONENTS FROM THE BUILDING STRUCTURE. 00 NOT SUPPORT MECHANICAL COMPONENTS FROM CEILINGS, OTHER MECHANICAL OR ELECTRICAL COMPONENTS, AND OTHER NON-STRUCTURAL ELEMENTS. G. ACCESS DOORS PROVIDE HINGED, GASKETED AND LATCHED ACCESS DOORS FOR EACH FIRE AND SMOKE DAMPER, DUCT MOUNTED SMOKE DETECTOR, VALVE OR BALANCING DAMPER OR OTHER CONCEALED EQUIPMEW OR DUCT AND PIPING ACCESSORIES THAT REQUIRE SERVICE WHERE INDICATED OR AS REQUIRED, EXCEPT WHERE ABOVE LAY�IN CEILINGS. ACCESS DOORS SHALL BE ADEQUATELY SIZED FOR THE DEVICES SERVED WITH A MINIMUM SIZE OF 18 INCHES X 18 INCHES. ACCESS DOORS MUST BE OF THE PROPER CONSTRUCTION FOR TYPE OF CONSTRUCTION IN WHICH IT IS INSTALLED. OBTAIN ARCHITECTS APPROVAL OF TYPE, SIZE, LOCATION AND COLOR BEFORE ORDERING. PROVIDE FACTORY -FABRICATED AND ASSEMBLED UNITS, COMPLETE WITH ATTACHMENT DEVICES AND FASTENERS READY FOR INSTALLATION, CONCEALED HINGES, FLUSH SCREWDRIVER -OPERATED CAM LOCK, AND ANCHOR STRAPS. APPROVED ACCESS DOOR MANUFACTURERS: MILCOR TITUS ZURN APPROVED EQUAL H. PENETRATIONS SEAL ELEVATED FLOOR, �ERIOR WALL AND ROOF PENETRATIONS WATERTIGHT AND WEATHERTIGHT WITH NON�SHRINK, NON -HARDENING COMMERCIAL SEAANT. PACK WITH MINERAL WOOL AND SEAL BOTH ENDS WITH MINIMUM OF 112 INCH DEEP BED OF SEALANT. PIPE PENETRATION$ THROUGH EXTERIOR WALLS SHALL BE SEALED WEATHER -TIGHT WITH EXPANDABLE LINK. PIPES PENETRATING THE ROOF SHALL BE FLASHED WENTHERTIGHT. APPROVED EXPANDABLE LINK SEAL MANUFACTURERS: THUNDERLINE LINKSENL APPROVED EQUAL EXTEND PIPE INSULATION FOR INSULATED PIPE THROUGH FLOOR, WALL AND ROOF PENETRATIONS, INCLUDING FIRE RATED WALLS AND FLOORS. THE VAPOR BARRIER SHALL BE MAINTAINED. SIZE SLEEVE FOR A MINIMUM OF 1 INCH ANNULAR CLEAR SPACE BETWEEN INSIDE OF SLEEVE AND OUTSIDE OF INSULATION. PROVIDE PREFABRICATED ROOF CURB. PROVIDE ROOF CURB WITH FACTORY INSTALLED WOOD NAILERS; WELDED, 18 GAUGE GALVANIZED STEEL SHELL, BASE PLATE AND F�SHING; 1-112 INCH THICK, 3 POUND RIGID INSULATt N: FULLY MITERED 3-INCH RAISED CANT, COVER OFWEATHER-RESISTANT, WEATHER-PROOF MATERIAL AND PIPE COLI-AR OF W�THER-RESISTANT MATERIAL WITH STAINLESS STEEL PIPE CLAMPS. ATTACH CURB TO ROOF STRUCTURE. APPROVED ROOF CURB MANUFACTURERS CUSTOM CURB, INC. PATE COMPANY THYCURS DUCPNORKPENETRATI G WALLS OR FLOORS OF ANY MATERIAL SHA� BE INSTALLED WITH CLOSURE PLATE$ ON BOTH SIDES OF THE PENETRATION, 1. MOTORS AND STARTERS PROVIDE HIGH EFFICIENCY MOTORS AND STARTING EQUIPMENT WHERE NOT FURNISHED WITH THE EQUIPMENT PACKAGE. MOTORS SHALL HAVE COPPER WINDINGS, CLASS B INSULATION, AND STANDARD SQUIRREL CAGE WITH STARTING TORQUE CHARACTERISTICS SUITABLE FOR THE EQUIPMENT SERVED. MOTORS SHALL BE SELECTED WITH A MINIMUM 15% SAFETY FACTOR GREATER THAN THE FAN BRAKEIHORSEPOWER. MOTOR SERVICE FACTOR SHALL NOT BE USED AS PART OF THE SAFETY FACTOR. MOTORS SHALL MEET TABLE MG-1-1 2C OF EPACT ID02. MOTORS CONTROLLED BY VARIABLE FREQUENCY DRIVES SHALL BE RATED FOR INVERTER DUTY AND BE RATED Vo E PEAKS AND MINIMUM RISE TIMES IN ACCORDANCE WITH NEMA MGI, PART 31 � MOTORS CONTROLLED BY VARIABLE FREQUENCY DRIVES SHALL BE PROVIDED WITH A SHA17 GROUNDING SYSTEM EQUAL TO AEGIS SGR BEARING PROTECTION RING, INPROEEAL CURRENT DIVERTER RING (CDR) OR APPROVED EQUAL. MOTORS FOR AIR HANDLING EQUIPMENT SHALL BE SELECTED FOR QUIET OPERATION. EACH MOTOR SHALL BE C ECKED FOR PROPER ROTATION AFTER ELECTRICAL CONNECTION HAS BEEN COMPLETED. PROVIDE DRIP�PROOF ENCLOSURE FOR LOCATIONS PROTECTED FROM WEATHER AND NOT IN AIR STREAM OF FAN; AND TOTALLY ENCLOSED FAN COOLED ENCLOSURE FOR MOTORS EXPOSED TO WEATHER, APPROVED MOTOR MANUFACTURERS: CENTURY GENERAL ELECTRIC LOUIS ALLIS WESTINGHOUSE APPROVED EQUAL MOTOR CONTROLS SHALL BE EITHER HAND -OFF -AUTO SWITCHES OR ON -OFF PUSH BUTTON WITH ONE INDICATING UGHT. PROVIDE RAND-OFFAUTO SWITCHES FOR AUTOMATICALLY CONTROLLED APPARATUS. PROVIDE EVERY MOTOR, EXCEPT FRACTIONAL HORSEPOWER SINGLE PHASE MOTORS WITH AN APPROVED TYPE OF MUILT-IN" THERMAL OVERLOAD PROTECTION, WITH A MOTOR STARTER. EACH STARTER SHALL BE PROVIDED WITH OVERLOAD HEATERS SIZED TO THE MOTOR RATING, AND EVERY THREE PHASE MOTOR STARTER $FALL HAVE OVERLOAD HEATERS IN EACH PHASE. AMBIENT COMPENSATED HEATERS SHALL BE INSTALLED WHEREVER NECESSARY. STARTERS FOR 1KIHP AND SMALLER SHALL BE MANUAL TYPE, AND FOR 112HP AND LARGER, SHALL BE MAGNETIC TYPE. STARTERS SHALL BE MINIMUM SIZE 0, COMBINA TION TYPE WITH DISCONNECT AND LOCKABLE HA DLE. STARTERS FOR MOTORS WITH REMOTE OR AUTOMATIC CONTROL SHALL BE MAGNETIC. PROVIDE RELAYS, LOCKS, AND AUX LARY CONTACTS AS SPECIFIED AND REQUIRED. ALL STARTERS SHALL BE LABELED ON THE FACE OF THE STARTER WITH SEMI -RIGID PLASTIC LAMINATE NAMEPLATE WITH 1"HIGH MITE LETTERS ON BLACK BACKGROUND. LABEL SHALL INDICATE EQUIPMENT SERVED BY STARTER. UNLESS NOTED OTHERWISE, MOTOR STARTERS SHAUL BE FURNISHED BY THE DIVISION 23 CONTRACTOR FOR INSTALLATION AND CONNECTION BY THE DIVISION 26 CONTRACTOR, A�IPROVE STARTER MANUFACTURERS ALLEN BRADLEY CLARK FURNAS So RE D APPROVED EQUAL J. ELECTRICAL WIRING HIGH VOLTA E WIRING IS DEFINED AS 50 VOLTS OR HIGHER. LOW VOLTAGE WIRING IS DEFINED AS LESS THAN 50 VOLTS. LINE VOLTAGE WIRING SHALL BE PROVIDED BY DIVISION 26. LINE VOLTAGE CONTROL AND INTERLOCK WIRINGFORME HANICAL SYSTEMS SHALL ALSO BE PROVIDED BY DIVISION 26. LOW VOLTAGE CONTROL MIRING SHALL BE PROVIDED BY DIVISION 23. FURNISH WIRING DIAGRAMS TO DIVISION 26 AS REQUIRED FOR PROPER E UIPMENT HOOKUP. COORDINATE WITH DIVISION 26 THE ACTUAL WIRE SIZING AMPS FOR MECHANICAL EQUIPMENT (FROM THE EQUIPMENT NAMEPLATE) TO ENSURE PROPER INSTALLATION. PROVI E POWER AND COMMUNICATION WIRING WITH TRANSIENT PROTECTION IN ACCORDANCE WITH IEEE C .41.2. ALL CONTROL AND INTERLOCK WIRING SHALL COMPLY WITH THE NEC, CONTROL WIRING SHALL BE SEED TO ACCOMMODATE THE VOLTAGE DROP ASSOCIATED WITH THE DISTANCE BETWEEN THE CONTROL DEVICE A D THE CONTROLLER. CONTROL WIRING NOT INSTALLED IN CONDUIT SHALL BE UL RATED FOR PLENUM �NSTALLATION, ALL NEC CLASS I (LINE VOLTAGE) WIRING SHALL BE UL LISTED IN APPROVED RACEWAY ACCORD No TO THE NEC AND DIVISION 26 REQUIREMENTS. MAXIMUM ALLOWABLE VOLTAGE FOR CONTROL WIRING SHAUL BE 120 V. ALL LOWNOLTAGE W RING SHPLL MEET NEC CLASS 2 REQUIREMENTS. LOINNOLTAGE POWER CIRCUITS SHAU- BE SUB�FUSED WHEN REQUIRED TO MEET CLASS 2 CURRENT LWrr. CONDUFT FOR CONTROL WIRING AND IWERLOCK WIRING WIRING 120VMD LESS SHALL BE RUN IN CONDUIT IN ACCORDANCE MH MATERIALS AND INSTALLATION REQUIREMENTS OF DIVISION 26, ELECTRICAL. INST&LWIRING PARALLELTO BUILDING LINES WHEREVER POSSIBLE. CONCEAL ALL CONTROL WIRING IN FINISHED ROOMS. DO NOT INSTALL CLASS 2 WIRING IN RACEWAY CONTAINING CLASS I WIRING. BOXES AND PAN S CONTAINING HIGH VOLTAGE WIRING AND EQUIPMENT MAY NOT BE USED FOR LOW -VOLTAGE WIRING EXCEPT FOR THE PURPOSE OF IWERFACING THE TWO WIRES E.G., RELAYS AND TRANSFORMERS). ALL WIRE -TO DEVICE AND WIRE40-WIRE CONNECTIONS SHALL BE MADE AT A TERMINAL BLOCK OR TERMINAL STRI . ALL RUNS OF COMMUNICATION WIRING SHALL BE UNSITUCED LENGTH WHEN THAT LENGTH IS COMMERCI LLY AVAILABLE. VERIFY THE INTEGRITY OF THE ENTIRE NETWORK FOLLOWING THE CABLE INSTALLATION. US APPROPRIATE TEST MEASURES FOR EACH PARTICULAR CABLE. LABEL ALL WIRING AND CABLINGAT CH END WITHIN 2 INCHES OF TERMINATION WITH THE CONTROLLER TERMINATION NUMBER. LABEL CONTROL DEV DES USED IN THE SYSTEM VATH PERMANENT _ABELS USING THE IDENTIFIERS THAT MATCH THE RECORD DOCUMENTS. INSTALL B CNET MSITP COMMUNICATION WIRING IN ACCORDANCE WITH ASI-RAEANS! STANDARD 135. MAXIMUM LENGTH OF MSfTP COMMUNICATION WIRING SHALL BE 4000 FT WITH AWG 22 OR 24 CABLE. SPLICES IN SHIELDED CABLES S�LL CONSIST OF TERMINATIONS AND THE USE OF SHIELDED CABLE COUPLERS THAT MAINTAIN THE INTEGRITY OF THE SHIELDING. K. EQUIPMENT FURNISHED BY OTHERS PROVIDE NECESSARY EQUIPMENT AND ACCESSORIES THAT ARE NOT PROVIDED BY THE EQUIPMENT SUPPLIER 0 OWNER TO COMPLETE INSTALLATION OF EQUIPMENT FURNISHED BY OTHERS IN LOCATIONS AS INDICATED ON THE DRAWINGS, SPECIFIED HEREIN, OR BOTH, EQUIPMENT AND ACCESSORIES NOT PROVIDED BY THE EQUIPMENT SUPPLIER MAY INCLUDE, BUT NOT BE LIMITED TO FLUES, VENTS, INTAKES, ASSOCIATED ROOF JACKS AND CAPS TO OUTDOORS, DAMPERS, IN -LINE FAN' ' , ROOF FANS, AND CONTROL INTERLOCKS, ETC. AS REQUIRED FOR PROPER OPERATION OF THE COMPLETE SYSTEM IN ACCORDANCE WITH THE MANUFACTURERS INSTRUCTIONS. CONTRACTOR SHALL BE RESPONSIBLE FOR CORRECT ROUGH -IN DIMENSIONS AND SHALL VERIFY THEM WITH ARCHITECT ANDIOR EQUIPMENT SUPPLIER PRIOR TO SERVICE INSTALLATIONS. L. SYSTEM TESTING AND ADJUSTING U ON COMPLETION OF EACH PHASE OF THE INSTALLATION, TEST EACH SYSTEM IN CONFORMANCE WITH LOCAL CODE RED IREMENTS AND AS NOTED BELOW. FURNISH LABOR AND EQUIPMENT REQUIRED TO MST EACH SYSTEMI STALLED UNDER THIS CONTRACT. ASSUME ALL COSTS INVOLVED IN MAKING THE TESTS AND REPAIRING AND/OR REPLACING ANY DAMAGES RESULTING THEREFROM. FINAL SYSTEM TESTING, BALANCING AND ADJUSTMENTS (TAB) SHALL BE PERFORMED BY A CONTRACTOR CERTIF ED BY THE NATIONAL ENVIRONMENTAL B&ANCING BUREAU (NEBB), ASSOCIATED AIR BALANCE COUNCIL AABC), OR TESTING. ADJUSTING AND BALANCING BUREAU (TABB). TAB COW�CTOR TO HAVE BEEN IN BUS NESS FOR AT LEAST 5 YEARS, AND MUST BE FREE OF DISCIPLINARY ACTION BY EITHER THE AABC AND NESS DURING THAT TIME. TAB SHALL BE PERFORMED IN ACCORDANCE WITH THE MOST CURRENT EDITION OF THE CERTIFIED AG NCIES PROCEDURAL STANDARD FOR TESTING, ADJUSTING AND BALANCING AND SHALL C Co MPLY WITH THE STRICTEST INTERPRETATION OF THAT STANDARD FOR EXECLFRON AND REPORTING OF ALL TAB WORK. THE BASIC INSTRUMENTATION SHALL BE CALIBRATED TO ACCURACY REQUIREMENTS SET BY ITS MANUFACTURER, AABC OR NEBB PROCEDURAL STANDARDS FOR TESTING, ADJUSTING, AND B�ANCING OF ENVIRONMENTAL SYSTEMS. PROVIDE CALIBRATION HISTORY OF THE INSTRUMENTS TO BE USED FOR TEST AND BALANCE PURPOSES, WORK SHALL INCLUDE BUT NOT BE LIMITED TO: PERFORM TEST READINGS ON FANS, UNITS, COILS, PUMPS, ETO AND ADJUST EQUIPMENT TO DELIVER SPECIFIED AMOUWS OF AIR OR WATER. PREPARE TESTING AND BALANCING REPORT LOG SHOWING AIR SUPPLY QUANTITIES, AIR ENTERING AND LEAVING TEMPERATURES AND PRESSURES AT DESIGN FLOW, FAN AND UNIT TEST READINGS, FAN AND PUMP ROTATION, MOTOR/PUMP VOLTAGE AND AMP DRAWS, EQUIPMENT VIBRATION, ETC., AND SUBMIT SIX COPIES OF THE FINAL COMPILATION OF DATA TO THE ARCHITECT FOR EVALUATION AND APPROVAL BEFORE FINAL INSPECTION OF THE PROJECT. MI-ANCEAIR YSTEMS TO WITHIN PLUS OR MINUS 10 PERCENT FOR TERMINAL DEVICES AND BRANCH LINES AND PLUS OR MINUS 5 PERCENT FOR MAIN DUCTS AND AIR HANDLING EQUIPMENT OF THE AMOUNT OF AIR SHOWN ON THE DRAWINGS, TAB CONTRACTOR SHALL RECORD SPACE TEMPERATURES AND MAKE ADJUSTMENTS IN AIRFLOW TO EACH DIFFUSER TO OBTAIN UNIFORM TEMPERATURE (NO GREATER THAN -1. 3 F) IN SPACES. TABCONTR CTOR SHALL BE RESPONSIBLE TO FURNISH INSTRUMENTS AND PERFORM VIBRATION MEASUREMEN S FOR ALL ROTATING HVAC EQUIPMENT OF 1/2HP OR LARGER. RECORD INITIAL MEASUREMENTS AND INCLUDE MEASUREMENTS IN INSPECTION NARRATIVE TO Go, OWNERAND END NEER. WHERE TOLERANCES ARE EXCEEDED, HVAC CONTRACTOR SHALL MAKE ANY NECESSARY CORRECTIONS. TAB CONTRACTOR SHALL PERFORM AND RECORD REQUIRED SOUND LEVEL MEASUREMENTS IN APPROXIMATELY 15% OF ALL ROOMS. TAKE MEASUREMENTS WITH CALIBRATED SOUND METER AND OCTAVE BAND ANALYZER OF THE ACCURACY REQUIRED BY AABC OR NEBB. TAB CONTRACTOR SHALL BE RESPONSIBLE TO CAIJB�M, SET, AND ADJUST AUTOMATIC TEMPERATURE CONTROL SENSORS, ACTUATORS AND CONTROL DEVICES. CHECK PROPER SEQUENCING OF INTERLOCK SYSTEMS ' AND OPERATION OF SAFETY CONTROLS, ADJUST THERMOSTATS, AND CONTROL SETPOINTS, LIMITS AND nME-BASED ADJUSTMENT TO OPERATE IN ACCORDANCE WITH THE PERFORMANCE REQUIREMENTS OF THE CON TRUCTION DOCUMENTS. ADJUST PUMPS, FANS, ETC. FOR PROPER AND EFFICIENT OPERATION. CERTIFY TO ARCHITECT THAT ADJUSTMENTS HAVE BEEN MADE AND THAT SYSTEM IS OPERATING SATISFACTORILY. CALIBRATE, SET, AND ADJUST AUTOMATIC TEMPERATURE CONTROLS. CHECK PROPER SEQUENCING OF INTERLOCK SYSTEMS, AND OPERATION OF SAFETY COWROLS. ALL EQUIPMENT SHALL BE IN FULL OPERATION DURING TESTING AND B�ANCING. PROVIDE SYSTEM INSPECTION NARRATIVE ON iNSTALLATION AND CONFORMANCE WITH DESIGN, DUCT LEAKAGE REPORT , SYSTEM READINESS REPORT, TAB REPORT COVERING FLOW BALANCE AND ADJUSTMENTS, PERFORMANCE TEST RESULTS, AN VIBRATION TESTS. IN THE REPORT INCLUDE THE LOCATION OF EACH AIR INLET AND OUTLET, TYPE AND MANUFACTURER OF DIFFUSER, GRILLE OR REGISTER, DESIGN AKFLOW AND ACTUAL AIRFLOW. FOLLOW NG THE APPROVAL OF THE TAB REPORT, THE SETTING OF ALL HVAC ADJUSTMENT DEVICES INCLUDING V�V S. SPUTTERS, AND DAMPERS SHALL BE PERMANENTLY MARKED BY THE TAB SPECIALIST SO THAT THE MUUSTMEWS CAN BE RESTORED IN DISTURBED AT ANY TIME. DIVISION 23 CONTRACTOR SHALL ALIGN BEARINGS AND REPLACE BEARINGS THAT HAVE DIRT OR FOREIGN MATERIAL IN THEM WITH NEW BEARINGS WITHOUT ADDITIONAL COST TO THE OWNER. M. SEISMIC CONTROLS FOR MEPF SYSTEMS SEISMIC PROTECTION CRITERIA: RISYJORCCUPANCY CATEGORY: 1, 11 OR III SITE SOIL CATEGORY� CONTRACTORS SEISMIC ENGINEER TO DETERMINE. SEISMIC DESIGN CATEGORY: CONTRACTOITS SEISMIC ENGINEER TO DETERMINE. COMPONENT IMPORTANCE FACTOR: DETERMINED FROM ASCE 7-201 O� THE CONTRACTOR SHALL BE RESPONSIBLE FOR DETERMINING THE REQUIREMENTS FOR SEISMIC BIRACING OF MECHANICAL, ELECTRICAL, REFRIGERATION AND PLUMBING SYSTEMS. SEISMIC PROTECTION CRITERIA USED TO DETERMINE SEISMIC BRACING REQUIREMENTS OF ALL MECHANICAL, EUECTRIC�, REFRIGERATION AND PLUMBING SYSTEMS $HALL BE DETERMINED BY THE APPLICABLE CODE ADOPTED IN THE PROJECT JURISDICTION. WHERE NOT ALREADY DETERMINED WITHIN THE CONTRACT DOCUMENTS, THE CONTRACTOR SHALL BE RESPONSIBLE FOR CONTRACTING A LICENSED PROFESSIONAL ENGINEER TO ESTABLISH BUILDING SITE CLASS, SEISMIC DESIGN CATEGORY, SEISMIC ZONE, OR ANY OTHER CRITERIA NECESSARY TO DETERMINE THE REQUIREMENTS FOR SEISMIC BRACING ON MECHANICAL, ELECTRICAL, REFRIGERATION ANDIOR PLUMBING SYSTEMS. THE CONTRACTOR S�U_ DETERMINE THE TYPE AND LOCATION OF SEISMIC BRACING REQUIRED FOR THE MECHANICAL, ELECTRICAL, REFRIGERATION AND PLUMBING ELEMENTS SHOWN ON THE DRAWINGS BASED ON THE ESTABLISHED SEISMIC CRITERIA, THE SIZE AND WEIGHT OF THE SUPPORTED ELEMENT, AND THE DISTANCE FROM STRUCTURE OF THE SUPPORTED ELEMENT. T E CONTRACTOR SHAUL SUBMIT THE FOLLOWING SHOP DRAWING INFORMATION TO THE AHU AND THE EN WEER FOR REVIEW AND APPROVAL: BE SMIC ANALYSIS LISTING ALL APPLICABLE SEISMIC DESIGN CRITERIA. B D SCRIPTIVE CATALOG DATA OF SEISMIC BRACING MATERIALS. 3. SHOP DRAWINGS SHOWING BRACING TYPE AND LOCATION. 4. INSTALLATION DETAILS OF ALL BRACING USED. S. C LCULATIONS SHOWING THAT THE SEISMIC RESTRAINTS MEET THE SEISMIC REQUIREMENTS. SHOP D INGS AND CALCULATIONS S�U_ BE SIGNED AND SEAI-ED BY A REGISTERED PROFESSIONAL ENGINEER, LICENSED IN THE STATE OF THE PROJECT AND EMPLOYED BY THE MANUFACTURER OF THE SEISMIC BRAG NG PRODUCTS. CALCULATIONS $HALL INCLUDE DEAD LOADS, STATIC SEISMIC LOADS, AND CAPACITY OF MATERIALS UTILIZED FOR CONNECTIONS. SEISMIC BIRACING, RE TRAINTS, ISOLATORS, AND ISOLATION MATERIALS SHALL BE OF THE SAME MAN FACTURER AND SHALL BE CERTIFIED BY THE MANUFACTURER. APPROVED MANUFACTURERS ARE: AMBEPJ800TH COMPANY, INC., 84JNEPTOLCO, ISAT, KINETICS NOISE CONTROL, INC , LOCS & COMPANY, INC., MASON INDUSTRIES, INC., UNI-STRUT, OR ABRO-ACOUSTICS, EACH DEVICE SHALL HAVE A PRE -APPROVAL NUMBERFROMCALIF RNIA OSHPD OR OTHER RECOGNIZED GOVERNMENTAGENCY SHOWING MAXIMUM RESTRAINT RATINGS. SEISMIC BRACING MEASURES TO BE APPLIED TO MECHANICAL, ELECTRICAL, REFRIGERATION AND PLUMBING EQ IPMENTISYSTEMS SHALL BE INSTALLED IN STRICT ACCORDANCE WITH ALL APPLICABLE LOCAL, STATE, AND/O FEDERAL CODES AS WELL AS MANUFACTURERS REQUIREMENTS, THE MOST STRINGENT CRITERIA SHALL APPLY. ALL ANCHOR CONNECTIONS TO STRUCTURE FOR SUPPORT OF MECHANICAL AND ELECTRICAL EQUIPMENT, REGARDLESS OF THE NEED FOR SEISMIC RESTRAINTS, SHALL BE SHOWN ON SHOP DRAWINGS. N. AIR FILTERS PROVIDE FARR 30130, PLEATED, T ROWAWAY TYPE FILTERS, OR SIMILAR, UNLESS OTHERWISE INDICATED. AIR UNITS SHALL HAVE NEW FILTERS INSTALLED WHEN THEY ARE OPERATED BEFORE FINAL ACCEPTANCE. APPROV D AIR FILTER MANUFACTURERS: AIR FILTER, INC. AMERI AN AIR FILTER FLANDERS APPROVED EQUAL IFHVACEOUI MENT IS USED DURING THE CONSTRUCTION PERIOD, CONTRACTOR SHALL PROVIDE ONE SET OF FILTERS WHEN THE UNIT IS STARTED AND REPLACE FILTERS MEN NEEDED, BUT NOT LESS THAN EVERY MONTRONTH DAY OF SUBSTANTIAL COMPLETION, THE CONTRACTOR SHALL CLEAN THE UNIT AND PROVIDE A NEW SET OF FILTERS IN THE UNIT. 0. REFRIGERANT AND OIL PROVIDE FULL REFRIGERANTAND OIL CHARGE IN NEW AIR CONDITIONING REFRIGERADON SYSTEMS AND MAINTAIN IT FOR FULL TERM OF THE GUARANTEE. P. IDENTIFICATION PROVIDE MANUFACTURER78 STANDARD PRE-PRINTED, SEMI -RIGID SNAP -ON OR PERMANENT ADHESIVE, PRESSURE-SSNSITIVE VINYL PIPE MARKERS. COLOR CODE PIPE MARKERS TO COMPLY WITH ANSI A13.1. INSTALL P PE MARKERS ON EACH HVAC PIPING SYSTEM AND INCLUDE ARROWS TO SHOW NORMAL DIRECTION OF FLOW. LOCATE PIPE MARKERS AND COLOR BANDS WHEREVER PIPING IS 1EXPOSED TO VIEW IN OCCUPIED SPACES' MACHINE ROOMS, ACCESSIBLE MAINTENANCE SPACES (SHAFTS, TUNNELS, PLENUMS) AND EXTERIOR NON�CONC�UED LOCATIONS. PROVIDE PLASTIC LAMINATE OR BRASS VALVE TAG ON EVERY VALVE, COCKAND CONTROL DEVICE IN EACH HVAC PIPING SYSTEM; EXCLUDE CHECK VALVES, VALVES WITHIN FACTORY-FABRfCATED EQUIPMENT UNITS, AND SHUT-OFF VALVES AT HVAC TERMINAL DEVICES AND SIMILAR ROUGH -IN CONNECTIONS OF END -USE MIXTURES AND UNITS. PROVIDE MANUFACTURERS STANDARD LAMINATED PLASTIC, COLOR CODED EQUIPMENT MARKERS. CONFORM TO THE FOLLOWING COLOR CODE GREEN FOR COOLING; YELLOW FOR HEATING; YELLOWIGREEN FOR COMBINATION COOLING AND HEATING� BLUE FOR OTHER EQUIPMENT TYPES. CONFORM TO ANSI A13.1 FOR HAZARDOUS EQUIPMENT. PROVIDE ENGRAVED PLASTIC IDENTIFICATION TAGS ON HVAC EQUIPMENT. FOR ROOF MOUWED EQUIPMENT, TAG SHALL BE READABLE FROM ROOF ACCESS. PROVIDE DUCT MARKERS OR PROVIDE STENCILED SIGNS AND ARROWS INDICATING DUCTWORK SERVICE AND FLOW DIRECTION IN BLACK OR WHITE LETTERING FOR BEST CONTRAST WITH DUCT OR INSULATION COLOR. LOCATE MARKERS MAXIMUM 50 FEET ALONG EACH DUCT SIDE AND WITHIN 5 FEET OF ALL CONTROL AND BALANCING DAMPERS OR BRANCH DUCTS MORE THAN 25 FEET LENGTH AND WITHIN 5 FEET ON EACH SIDE OF WALL. FLOOR, AND CEILING PENETRATIONS. PROVIDE ADDITIONAL MARKERS IN CONGESTED AREAS OR AT MULTIPLE DUCT RUNS AS REQUIRED FOR CLARDY. 3. DUCT INSULATION, DUCTWORK, ACCESSORIES, FLUES AND FANS A. DUCT INSULATION PROVIDE FIBERGLASS DUCT LINER WITH FIBERS FIRMLY BONDED TOGETHER WITH A THERMOSETTING RESIN. LINER SURFACE SHALL SERVE AS A BARRIER AGAINST INFILTRATION OF DUST AND DIRT, $FALL MEET ASTM C1 338 FOR FUNGI RESISTANCE, AND SHALL BE CLEANABLE USING DUCT CLEANING METHODS AND EQUIPMENT OUTLINED BY NORTH AMERICAN INSULATION MANUFACTURERS ASSOCIATION (NAIMA) DUCT CLEANING �UIDE. INSTALL WITH LINER ADHESIVE AND MECHANICAL FASTENERS IN ACCORDANCE WITH MANUFACTURERS INSTRUCTIONS AND RECOMMENDATIONS. DUCTWORK SIZES SHOWN ON DRAWINGS ARE INSIDE CL R DIMENSIONS. INCREASE SHEU METAL BY LINER THICKNESS IN BOTH DIRECTIONS WHERE LINER IS INSTALLED. PROVIDE RECTANGULAR LINER CONFORMING TO ASTM C1071� TYPE I OR It THAT IS I INCH THICK, 1-1/2 POUND DENSITY, MINIMUM R4.2 CERTAINTEED CORP. -TOUGHGARW OR EQUIVALENT, JOHNS MANVILLE, ORAIENS�CORNING, OR KNALF. PROVIDE ROUND LINER THAT IS I INCH THICK, 4 POUND DENSITY, MINIMUM R-4.2 JOHNS MANVILLE 'SPIRACOUSTIC PLUS'OR EQUIVALENT. CERTAINTEED OR OWENS-CORNING. PROVIDE LINER ON THE FOLLOWING INTERIOR AIR DUCTS AND WHERE SPECIFIED ON THE DRAWINGS: 1 . EXPOSED ROUND AND RECTANGULAR SUPPLY DUC1WORK AND THE FIRST 15 FEET OF DUCT DOWNSTREAM OF EQUIPMENT OUTLETS OR 5 FEET PAST FIRST ELBOW, WHICHEVER IS GREATER E. EXPOSED ROUND AND RECTANGULAR RETURN DUCTWORK AND THE FIRST 16 FEET OF DUCT UPSTREAM OF EQUIPMENT OUTLETS, WHICHEVER IS GREATER AT INTERFACE OF LINED AND WRAPPED DUCTWORK, OVERLAP LINED DUCTWORK AT LEAST 2 FEET BEYOND WRAPPED INSULATION. COVER CONCEALED, RIGID DUCTWORK WITH ASTM C553, TYPE 11 FLEXIBLE FIBERGLASS INSULATION. INSTALLED INSULATION SHALL BE 1AE INCH THICK, 314 POUND DENSITY, MINIMUM R4.2 DUCT WRAP, CERTAINTEED OR EQUIVALENT JOHNS MANVILLE, OWENS�ORNING, OR KNAUF WITH HEAVY-DUTY FOIL-SCRIM-KRAFT FACING, AND WITH JOINTS TAPED WITH 3 INCH WIDE FOIL TAPE AS FOLLOWS I . UNLINED ROUND AND RECTANGULAR SUPPLY AND RETURN AIR DUCTWORK. 2 UNLINED ROUND AND RECTANGULAR OUTSIDE AIR DUCTWORK. 3. ROUND AND RECTANGULAR EXHAUST AND RELIEF AIR DUCTWORK WITHIN 10 FEET OF �TERIOR DISCHARGE, COVER OUTDOOR AIR, EXHAUST AIR AND RELIEF AIR PLENUMS CONNECTED TO �TERIOR LOUVERS WITH 1-1/2 INCH THICK, 1.6 POUND DENSITY, RIGID FIBERGLASS INSULATION CONFORMING TO ASTM C612, CLASS 2. INSULATING MATERIALS, ADHESIVES, COATINGS, ETC., SHALL NOT EXCEED FLAME SPREAD RATING OF 25 AND SMOKE DEVELOPED RATING OF ED PER ASTM M4. CONTAINERS FOR MASTICS AND ADHESIVES SHALL HAVE U.L. LABEL� FORS PPLY AND RETURN DUCTWORK LOCATED EXTERIOR TO THE BUILDING, INSULATION SHALL BE MINIMUM R�.D. PROVIDE INSULATION AND JACKET IN ACCORDANCE WITH ONE OF THE FOLLOWING THREE OPTIONS: I . EXTERIOR INSULATION AND JACKET CONSISTING OF 2 INCH THICKNESS OF ARMATUFF FLEXIBLE ELASTOMERIC INSU ION OR EQUIVALENT MEETING ASTM C534 WITH INTEGRAL 12 MILS THICK W RESISTANT CLADDING LAMIMTED AT FACTORY. COVER ALL SEAMS WITH ARMATUFF SEAL TAPE 2� EXTERIOR INSULATION CONSISTING OF 2 INCH THICKNESS OF FLEXIBLE ELASTOMERIC INSULATION ME No ASTIM C534 OR 3 LB. DENSITY RIGID FIBERGLASS MEETING ASTM C612, AND JACKET CONSISTING OF 20 GAUGE CORRUGATED ALU INUM JACKET WITH ALUMINUM FITrING COVERS AND MINIMUM THREE ALUMINUM AT7LA HMENT BANDS PER SECTION. I EXTERIOR INSULA71ON CONSISTING OF 2 INCH THICKNESS OF FLEXIBLE ELASTOMERIC INSULATION MEE ING ASTM C5M OR 3 LEL DENSITY RIGID FIBERGLASS MEETING ASTM C612, AND JACKET CONSISTING or 15Z MILS THICK VENTURECI-AD PLUS LA/ RESISTANT CLADDING. INSTALL EXTERIOR DUCTWORK WITH SUFFICIENT SLOPE TO ENSURE THAT WATER CANNOT POND ANYWHERE ON THE DUCT. DRAINAGE MUST BE ACHIEVED BY SLOPING DUCTWORK - NOT BY VARYING THE INSULATION THICKNESS.LOCAT LONGITUDINAL SEAMS OF OUTER SHELL (ALUMINUM, FLEXIBLE EI-ASTOMERIC, OR CLADDING AS APPLICABLE) AT BOTTOM OF DUCT. INSTALL CLADDING IN STRICT CONFORMANCE WITH CLADDING MANUFACTURER!S INSTRUCTIONS, B. DUCTWORK PROVIDE GALVANIZED STEEL DUCTWORK AND HOUSINGS AS SHOWN ON DRAWINGS. CONSTRUCT DUCTNORK INCLU ING FITTINGS AND TRANSITIONS IN CONFORMANCE WITH CURRENT SMAGNA STANDARDS RELATIVE TO UGE. BRACING, JOISTS, ETC. MINIMUM THICKNESS OF DUCT SHALL BE 26�UGE SHEET METAL. REINFORCE HOUSINGS AND DUCTWORK OVER 30 INCHES WITH 1.114 INCH ANGLES NOT LESS THAN S'-Y ON CENTERS AND CLOSER IF REQUIRED FOR SUFFICIENT RIGIDITY TO PREVENT VIBRATION. SUPPORT HORIZONTAL RUNS 6F DUCT FROM STRAP IRON HANGERS ON CENTERS NOT TO EXCEED �D'. DO NOT SUPPORT CEILING GRI 'D� CONDUITS, PIPES, EQUIPMENT, ETC. FROM DUCMORK. COORDINATE ROUTING OF DUCTWORK WITH C HER CONTRACTORS SUCH THAT PIPING, ELECTRICAL CONDUIT, AND ASSOCIATED SUPPORTS ARE NOT ROUTED THROUGH THE DUCTWORK. CONSTRUCT NON-VAV SUPPLY DUCTS TO MEET SMACNA POSITIVE PRESSURE OF 2 INCHES W.G. CONSTRUCT RETURN, OUTDOOR AND EXHAUST DUCTWORK UPSTREAM OF FANS TO MEET SMACNA NEGATIVE PRESSURE OF I INC W.G. CONSTRUCT EXHAUST DUCTWORK DOWNSTREAM OF FANS TO MEET SMACNA POSITIVE PRESSURE OF 1 INCH W.G. P VIDE MILL PHOSPHAMED OR GALVANEALED FINISH FOR EXPOSED DUC7NORKTO BE FIELD PAINTED. SHOP TREATED SHEET METAL SITAI-L HAVE GALVANIZED METAL PRIMER APPLIED IN THE SHOP AFTER FABRICATION AND PRIOR TO SHIPPING. SEAL DUCTWORK WITH HEAVY LIQUID SEALAW APPLIED ACCORDING TO SEALANT MANUFACTURERS INSTRUCTIO S. SEAL ALL LONGITUDINAL AND TRANSVERSE DUCTWORK JOINTS AIRTIGHT TO MEET SMAGNA SEAL CLASS A_ TAPES AND MASTICS SHALL BE LISTED AND LABELED IN ACCORDANCE WITH UL 181A. APPROVED LIQUID DUCTS LER MANUFACTURERS: HARDCAST IRONGRIP 601 DESIGN POLYMER DP10I0 UNITED MCGILL APPROVED EQUAL PROVIDE RADIUS ELBOWS, TURNS, AND OFFSETS WITH A MINIMUM CENTERLINE RADIUS OF 1-1/2 TIMES THE DUCT WIDTH. WHERE SPACE DOES NOT PERMIT FULL RADIUS ELBOWS, PROVIDE SHORT RADIUS ELBOWS WITH A MINIMUM OF TWO CONTINUOUS SPUTTER VANES. VANES SHALL BE THE ENTIRE LENGTH OF THE BEND. PROVIDE MITERED ELBOWS WHERE SPACE DOES NOT PERMIT RADIUS ELBOWS, WHERE SHOWN ON THE DRAWINGS, OR AT THE OPTION OF THE CONTRACTOR WITH THE ENGINEERS APPROVAL. MITERED ELBOWS LESST N 45 DEGREES SHALL NOT REQUIRE TURNING VANES. MITERED ELBOWS 45 DEGREES AND GREATER SHALL HAVE SINGLE THICKNE S TURNING VANES OF SAME GAUGE AS DUCTWORK, RIGIDLY FASTENED WITH GUIDE STRIPS IN DUCTINORK. VANES FOR MITERED ELBOWS SHALL BE PROVIDED IN ALL SUPPLY AND EXHAUST D CTWORKAND IN RETURN AND OUTSIDE AIR DUCTWORK THAT HAS AN AIR VELOCITY EXCEEDING 1000 FPM. DO NOT INSTALL VANES IN GREASE DUCTWORK. DUCTS SHALL BE CONNECTED TO FANS, FAN CASINGS AND FAN PLENUMS BY MEANS OF FLEXIBLE CONNECTORS. PROVIDE FLEXIBLE CONNECTORS AT BUILDING EXPANSION JOINTS. FLEXIBLE CONNECTOR$ SHALL BE NEOPRENE COATED GLASS CLOTH CANVAS CONNECTIONS. FLEXIBLE CONNECTORS SHALL HAVE A JOI FLAME SPREAD OF 25 OR LESS AND SMOKE DEVELOPED RATING NOT HIGHER THAN 50. MAKE AIRTIGHT W. AND INSTALL WITH MINIMUM 1-1/2 INCHES SLACK. A�PROVED FLEXIBLE CONNECTOR MANUFACTURERS DURC-DYNE ELDEN VE TFABRIC APPROVED EQUAL PROVIDE BALANC NG DAMPERS MERE SHOWN ON DRAWINGS AND WHEREVER NECESSARY FOR COMPLETE CO TROL OFAfR FLOW. SPUTTER DAMPERS SHALL BE CONTROLLED BY LOCKING QUADRANTS; PR VICE YOUNG REGULATOR OR VENTLOK END B�INGS FOR THE DAMPER ROD. RECTANGULAR VOLUME DAMPERS $HALL BE OPPOSED SLADE INTERLOCKING TYPE. ROUND VOLUME DAMPERS SMUL BE SINGLE -BLADE TY E CONSISTING OF CIRCULAR BLADE MOUNTED TO A SHAFT. PROVIDE FLEXMASTER MODEL STO 45 DEG EE RECTANGULAFUROUND SIDE TAKEOFF FITTING WITH MODEL B03 DAMPER WITH LOC INGOUADFtANTAND INSULATION BUILD OUT FOR ROUND DUCTWORK BRANCH TAKEOFFS TO INDIVIDUAL AIR DEVICES, OMIT DAMPER AT TAKEOFF FITTING WHEN DAMPER IS LOCATED DOWNSTREAM OF TAKEOFF. DAMPERS SHALL CLEARLY BE LABELED ON THE OUTSIDE OF THE DUCTWORK. A�PROVED LANCING DAMPER MANUFACTURERS: C SOO GREENHECK NAILOR RUSKIN APPROVED EQUAL WHERE ACCESS TO DAMPERS THROUGH A HARD CEILING IS REQUIRED, PROVIDE A METROPOLITAN AIR T CHNOLOGY MODEL RT-250 BY YOUNG'S REGULATOR, CONCEALED, CABLE OPERATED VOLUME DAMPER WITH REMOTE OPERATOR DAMPER SHALL BE ADJUSTABLE THROUGH THE DIFFUSER FACE OR FRAME WITH STANDARD 114 INCH NUT DRIVER OR FLAT SCREWDRIVER. CABLE ASSEMBLY SHALL ATTACH TO DAMPER AS ONE PIECE NTH NO LINKAGE ADJUSTMENT. POSITIVE, DIRECT, TWO-WAY DAMPER CONTROL SHALL BE PROVIDED WITH NO SLEEVES, SPRINGS OR SCREW ADJUSTMENTS TO COME LOOSE AFTER INSTALLATION. SUPPORT CABLE ASSEMBLY TO AVOID BENDS AND KINKS IN CABLE. ROUND OR OVAL DUCTWORK SHALL SHEETMETAL, WITH SMOOTH INTERIOR SURFACE, WITH LOW PRESSURE (DUCT PRESSURE CLASS UP TO AND INCLUDING 2 INCHES W.G.) ROUND DUCTWORK GAUGES PER THE FOLLOWING TABLE (REFERENCE SMACNA HVAC DUCT CONSTRUCTION STANDARDS FOR GAUGES WHEN PRESSURES EXCEED 2 INCHES MS.): SIZE DUCTGAUGE SITTING GAUGE W & UNDER 26 24 15'THRU 26" 2' 22 2F THRU W 22 20 38'THRL1 50' 20 20 57 THIRD W 18 18 A�PROVED ROUND AND OVAL DUCTWORK MANUFACTURERS: FI-AWG UPSEMCO U ITED HE CUUM INDUSTRIES APPROVED EQUAL FACTORY-MANUFACT RED ROUND DUCTWORK AND FMINGS MAYBE SUBSTIMTED FOR SPECIFIED ROUND BRANCH DUCTWOrK, AT CONTRACTORS OPTION. HEAVY LIQUID JOINT SEALANT MAY BE OMITTED ON FACTORY4ANUFACTURED ROUND DUCTWORK. APPROVED FACTORY MANUFACTURED ROUND DUCTWORK AND FITTINGS MANUFACTURERS: LEWIS& LAMBERT INDUSTRIES UNDI-AB SAFE APPROVED EQUAL LOW PRESSURE (DUCT PRESSURE CLASS UP TO AND;NCLUDING 2 INCHES A.G.) FITTINGS 24 INCHES IN DIAMETER No LESS SHALL BE PREFABRICATED, SPOT-WELDED AND IWERN�UY SEAUm. CONTINUOUSLY WELD FITTINGS LARGER T14AN 24 INCHES IN DIAMETER. FITTING GAUGE $HALL BE 22 GAUGE FOR 36 INCH FITTINGS AND UNDER, 20 GAUGE FOR LARGER SIZES. ED DEGREE TEES SHALL BE CONICAL TYPE, SEAL LONGULU iNAL AND TRANSVERSE DUCMORK JOINTS AIRTIGHT WITH HEAVY LIQUID SEALANT APPLIED ACCORDINGTOMAN FACTURERS INSTRUCTIONS. PROVIDE GAUGE THICKNESS IN MEDIUM PRESSURE (DUCT PRESSURE CLASS 3 INCHES TO 6 INCHES W.G.) DUCTWORK AS RECOMMENDED BY SMACIRA. AT CONTRACTORS OPTION, PROVIDE DUCTMATE, GRiPPLE, OR APPROVED EQUAL WIRE ROPE DUCT HANGING SYSTEM. PRO IDE DUCTMATE WRIO THROUGH WR40 OR GRIPPLE NO. 1 THROUGH NO, 5 WIRE ROPE USING 7XT OR 7XI 9 AIRCRAFT QUALITY ZINC COATED CABLE OR GALVANIZED STEEL WIRE ROPE. SECURE WIFE ROPETO D CT USING DUCTMATE CLUTCHER OR GRIPPLE HANG FAST ADJUSTABLE ROPE ATTACHMENT. FOR SEISMIC APPLICATIONS , WIRE ROPE SYSTEMS SHALL BE SEISMIC TESTED, CONFORMING TO GR 63, LEVEL 4 SEISMIC� WHEREAPPLI ABLE FOR UPPER ATTACHMENT, PROVIDE DUCTMATE EZ�UOCK WIRE ROPE B�M CLAMP WITH I-OCKING NUTADJUSTMENT OR GRIPPLE CEILING, BEAM, OR PURLIN CLIPS. WIRE ROPE, ADJUSTABLE DUCT ATTAC MENT. AND UPPER ATTACHMENT TO STRUCTURE SHALL EACH HAVE MINIMUM 5 TO I LOAD SAFETY FACTOR. C. FLEXIBLE DUCT LOW PRESSURE (DUCT PRESS RE CLASS UP TO AND INCLUDING 2 INCHES W.G.) AND MEDIUM PRESSURE (DUCT PRES ORE CLASS 2A INCH TO 6 INCHES W.G.) FLEXIBLE DUCT SHALL BE FLEXMASTER TYPE 8B, THERMARJEX TYPE G-104. M-KE, JPL TYPE SILVER JACKET, OR ENGINEER APPROVED EQUAL (FIRE RETARDANT POLYETHYLENE) PROTECTIVE VAPOR BARRIER, U.L. 181 CLASS 1, ACOUSTICAL INSULATED DUCT, R-4.2 FIBERGLASS INSULATION. PROVIDE OPP LINER WITH STEEL WIRE HELIX MECHANICALLY LOCKED OR PERMANENTLY BONDED TO THE LINER. APPROVED LOW PRESSURE FLEXIBLE DUCT MANUFACTURERS: FLEXMASTER TYPE 85 T ERMFLEK TYPE F-KM THERMAF EXTYPEWKE JPL TYPE ILVER JACKET APPROVED EQUAL FLEXIBLE DUCT RUNS $HALL NOT EXCEED 5 FEET IN LENGTH AND SHALL BE INSTALLED FULLY EXTENDED AND STRA GHT AS POSSIBLE AVOIDING TIGHT TURNS. PROVIDE FLE ELBOW SUPPORTS BY THERMAFLEX X T�INSTAUL FLEXIBL DUCT IN ACCORDANCE WITH MANUFACTURERS INSTRUCTIONS. SUPPORT FLEXIBLE DUC MAXIMUM 5 FEET ON CENTER AND WITHIN 6 INCHES OF BENDS. BENDS SHALL NOT EXCEED A CENTERLINE RADIUS OF ONE DUCT DIAMETER, DUCT SAG SHALL NOT EXCEED I Q INCH. SUPPORTING MATERIAL IN DIRECT CONTACT WITH THE DUCT SHALL NOT BE LESS THAN 1-112 INCHES IN WIDTH. CONNECT FLEXIBLE DUCT TO RIGID METAL DUCT OR AIR DEVICES AS RECOMMENDED BY TIRE MANUFACTURER, AT A MINIMUM, INSTALL TWO MAPS OF DUCT TAPE AROUND THE INNER CORE CONNECTION AND A METALLIC ORNON- ETALLIC CLAMP OVER THE TAPE AND TWO WRAPS OF DUCT TAPE ORA CLAMP OVER THE DUMB JACK DUCT CI -AMPS SHALL BE LABELED IN ACCORDANCE WITH UL481B AND MARKED 18TEFC. DUCT TAPE SHALL BE LABELED IN ACCORDANCE WITH UL 181B AND MARKED I$IB-FX. D. CONDENSING GAS FURNACE AND APPLIANCE VENT VENTS AND COMBUSTION AIR DUCTS FOR CONDENSING TYPE APPLIANCES $HALL BE SCHEDULE 40 PVC, DM, MEETING ASTM D17M GRADE 1, TYPE I � WITH DIMENSIONS MEETING ASTM D2665. FITTINGS SHALL BE DWV, PVC MEETIN ASTM D2665 WITH SOLVEW CEMENT SOCKET JOINM. SOLVENT USED FOR JOINTS SHALL MEET ASTM DEEM. E. AIR DEVICES P WIDE AIR DEVICES AS SCHEDULED ON DRAWINGS. SELECTAIR DEVICES TO LIMIT ROOM NOISE LEVEL TO NO H GLEN THAN NC,30 UNLESS OTHERWISE SHOWN. PROVIDE DEVICES WITH A SOFT PLASTIC GASKET TO MAKE ANAI TIGHT SEAL AGAINST THE MOUNTING SURFACE. COORDINATE FINAL LOCATION, FRAME, AND MOUNTING TYPE OF AIR DEVICES WITH ARCHITECTURAL REFLECTED CEILING PLAINS. APPROVED RDSVICE MANUFACTURERS: CAR ED KR EGER N ILOR INDUSTRIES PRICE APPROVED EQUAL SUBMIT COMPLETE SHOP DRAWINGS INCLUDING INFORMATION ON NOISE LEVEL, PRESSURE DROP, THROW, CFM FOR EACH AIR DEVICE, STYLES, BORDER$, ETC. CLEARLY MARKED WIT SPECIFIED EQUIPMENT NUMBER. SUBMIT SAMPLES OF EACH AIR DEVICE AS REQUESTED BY THE ENGINEER. PROV TON BI-ADES AND OPPOSED BLADE DAMPERS. PROV�DE WALL SU PLY AIR REGISTERS WITH DOUBLE DEFLEC DE WALL RETURN AIR GRILLES AND EXHAUST AIR REGISTERS WITH HORIZONTAL 35 OR 45 DEGREE ANGLE VISION -PROOF BARS. PROVIDE CONCEALED FASTENERS FOR WALL MOUNTED REGISTERS AND GRILLES. PROVIDE OPPOSED BI-ADE DAMPERS FOR SUPPLY AIR REGISTERS AND EXHAUST AIR REGISTERS UNLESS INDICATED OTHERWISE. PROVIDE CEPUNG MOUNTED AIR DEVICES OF LNf-IN OR SURFACE MOUNTED TYPE AS REQUIRED TO BE CO PATBLE WITH CEILING CONSTRUCTION. PROVIDE CEILING DIFFUSERS AND GRILLES WITH WHITE ENAMEL FINISH UNLESS NOTED OTHERWISE. PROVIDE ROP BOX DIFFUSERS WITH MINIMUM 22 GAUGE GALVANIZED STEEL CONSTRUCTION, FACTORY ASSEMBLED AND WELDED, AND PROVIDED WITH STANDARD DUCT CONNECTIONS AND MOUNTING BRACKETS FORRELDINSTAL TION. DIFFUSERS SHALL HAVE DOUBLE DEFLECTION GRILLES OR DRUM LOWERS THAT ARE INDIVIDU LLY ADJUSTABLE TO CUSTOMIZE HORIZONTALAND VERTICAL THROWS AND FACTORY INSTALLED AIR DIVERTERS OR TURNING VANES. INSULATE DIFFUSERS WITH I INCH THICK. 1.5 UB. DUCT LINER INSULATION. A�PROVED ROOF CURB MANUFACTURERS RES INDUSTRIES CA NES EPCUSTO CURBS PLENUMS INC. F. SCREENS PROVIDE SCREENS ON LOUVERS, DUCTS, HOODS, FANS, AND OPENINGS TO THE OUTDOORS AS SCHEDULED ANDIOR NOTED ON THE DRAWINGS. INSECT SCREENS S�U_ BE 0.012-INCH THICKNESS, 114 INCH MESH ALUMINUM WIRE. PROVIDE MOTORIZED CONTROL DAMPERS OR BACKDRAFT DAMPERS WHERE SHOWN ON THE DRAWINGS. G. EXHAUST AIR SYSTEMS P OVIDE ROOF MOUNTED EXHAUST FANS AS SCHEDULED ON THE DRAWINGS COMPLETE WITH ALUMINUM HOUSING, ALUMINUM CENTRIFUGAL WHEEL, MOTOR WITH INTEGRAL THERMAL OVERLOAD PROTECTION, DISCONNECT SWITCH MOUNTED INSIDE THE HOUSING, BIRD SCREEN, SACKDRA� DAMPER, AND PATE PREFABRICATED ROOF CURB. THREE PHASE FANS SHAUL BE FURNISHED WITH MAGNETIC STARTERS WITH PUSH BUTTON STATION. APPROVED DOWN B�ST EXHAUST FAN MANUFACTURERS� AD E CARNES DO K GREENHECK APPROVED EQUAL PROVIDE CEILING MOUNTED EXHAUST FANS AS SCHEDULED ON THE DRAWINGS COMPLETE WITH ISOLATED BLOW R UNIT AND CEILING GRILLE. PROVIDE DISCONNECT SWITCH, BACKDRA� DAMPER, DISCHARGE DUCT, ROOF JACK, AND NEOPRENE VIBRATION ISOLATORS WITH ALL -THREAD HANGING RODS. APPROVED CEILING MOUNTED EXHAUST SAN MANUFACTURERS: ACME CARNES COOK GREENHECK APPROVED EQUAL 4. HVAC EQUIPMENT A. ROOFTOP UNITS (GAS FIRED HEAT) 3.25 TONS PROVIDE ELECTRIC COOLING, GAS KEATING ROOFTOP UNITS AS SCHEDULED ON THE DRAWINGS COMPLETE WITH FACTORY INSTALLED DIRECT -DRIVE HERMETIC COMPRESSORS WITH INTERNAL SPRING VIBRATION ISOLATION, BUILT-IN MOTOR THERMAL OVERLOAD PROTECTION, CRANKCASE HEATER, AND LOW PRESSURE SWITCHES; DIRECT EXPANSION CO LING AND CONDENSING DO LS, MINIMUM SEER OR PER RATING (COOLING) A REQUIRED BY THE APPLICABLE ENERGY CODE OR GREATER IF SCHEDULED ON THE DRAWINGS, CEW IFUGAL EVAPORATOR BLOWER; AIR FILTER RACK WITH 2 INCH THICK THROWAWAY FILTERS, PROPELLER TYPE CONDENSER FAN; ALUMINIZED STEEL HEAT EXCHANGER, MINIMUM ABLE RATING (HEATING) AS REQUIRED BY THE APPLICABLE ENERGY CODE OR GREATER IF SCHEDULED ON THE DRAWINGS, FORCED COMBUSTION AIR BLOWER; COMPLETE FACTORY INSTALLED MICRO -PROCESSOR CONTROLS INCLUDING ANTI -SHORT CYCLE TIMERS, TIME DELAY RELAYS AND MINIMUM 'ON' TIME CONTROLS, 100 PERCENT SAFETY GAS SHUTOFF, DIRECT WARK IGNITION SYSTEM; BUILT-IN THERMAL OVERLOAD PROTECTION ON MOTORS AND COMPRESSORS; OUTDOOR AIR DAMPER; BAROMETRIC RELIEF DAMPER OR POWER RELIEF FAN: WEATHERTIGHT HOUSING CONSTRUCTED OF ZINC COATED, HEAVY GAUGE, GALVANIZED STEEL WITH WENTHER-RES START BAKED ENAMEL FINISH; MINIMUM INSULATED DOWNFLOW SEISMIC ROOF CURB WITH MINIMUM HEIGHT OF 12 INCHES FOR RO S WITH No INSULATION, 14 INCHES FOR ROOFS WITH INSULATION OR As SCHEDULED ON THE DRAPRN�F S I SINGLE POIW ELECTRICAL POWER CONNECTION. FACTORY INSTALLED DAMPERS SHALL BE CLASS MOTORIZED DAMPERS WITH MAXIMUM LEAKAGE KATE OF 4 CFWFT2 PER 2015 WSEC C403.2A.3. PROVIDE S RED ROOF CURB AS REQUIRED TO MATCH SLOPE OF ROOF STRUCTURE SOTRAT UNIT IS INSTALLED LEVEL. PROV�D GUARDS OR LOWERED PANELS TO PROTECT THE CONDENSER COIL FROM HAIL OR OTHER DAMAGE. FEW DE A 125 LAC, 20 AMP DUPLEX CONVENIENCE RECEPTACLE MOUNTED TO UNIT BRADY FOR FIELD WIRING WITH ACOVERULLISTEDIDO WETAND DAMP LOCATIONS WHEN IN USE, PROVIDE Doc CONTROL CONTROLLER CAPABLE OF COMMUNICATE OVER OWNERS BUILDING AUTOMATION SYSTEM. BROODS UNIT COMPLETE WITH MANUFACTURERS ONE YEAR GUARANTEE APPROVED ESUGAS HEAT RTU MANUFACTURERS! ON CARRIER LENNOX TRANS APPROVED EQUAL 5. TEMPERATURE CONTROLS A. GENERAL REQUIREMENTS PROVIDE A COMPLETE SYSTEM OF TEMPERATURE CONTROLS INCLUDING CONTROLLERS, CONTROL PANELS, CONTROL POWER TRANSFORMERS, THERMOSTATS, SENSORS, TIME SWITCHES, OVERRIDE TIMERS, ACTUATORS, RELAYS, AND WIRING REQUIRED TO PROVIDE THE DESIRED CONTROL SYSTEMS SPECIFIED ON THE DRAWINGS. SUBMIT SHOP DRAWINGS OF EQUIPMENT PROVIDED FOR TEMPERATURE CONTROL. SUBMIT OPERATION AND MAINTENANCE DATA, INCLUDING TROUBUE�HOOTING MAINTENANCE GUIDE, STEP-SY�STEP PROCEDURES INDEXED FOR EACH CONTROLLER AND THERMOSTAT FUNCTION, INSPECTION PERIOD, CLEANING METHODS AND MATERIALS. AND CALIBRATION TOLERANCES. PROVIDE INTEGRATED WIRING DIAGRAMS SHOWING INTERCONNECTIONS BETWEEN FIELD INSTALLED E UIPMENT AND PACKAGE WIRING FURNISHED WITH THE HVAC EQUIPMENT. CONTROL WfRfNG SHALL BE SIZED TO ACCOMMODATE THE VOLTAGE DROP ASSOCIATED WITH THE DISTANCE BETWEEN THE CONTROL DEVICE AND THE CONTROLLER. PROVIDE SUPERVISION AND ON40B CHECKOUT SERVICE AS REQUIRED TO ENSURE THAT INSTALLATION AND OPERATION OF THE TEMPERATURE CONTROL SYSTEM MEEM REQUIREMENTS OF THE DRAWINGS, SPECIFICATIONS, AND SEQUENCES OF OPERATION. THE SYSTEM SHALL BE GUARANTEED FOR A PERIOD OF ONE YEAR FOLLOWING THE ACCEPTANCE OF THE SYSTEM BY THE ARCHITECTIENGINEER. CORRECT DEFECTS OCCURRING DURING THIS PERIOD AT NO ADDITIONAL COST TO THE OWNER. INSTALL CONTROL DEVICES WITH TOP OF DEVICE AT a INCHES AFF TO MEET ADA REQUIREMENTS UNLESS OTHERWISE NOTED ON THE PLANS. B. BUILDING AUTOMATION CONTROL EQUIPMENT BUILDING AUTOMATION SYSTEM (BAS) MANUFACTURERS AND MODEL NUMBERS ARE LISTED FOR REFERENCE AS TO QUALITY AND FEATURES REQUIRED FOR THE CONTROL DEVICES. PROVIDE CONTROLLERS By AMAZONS PREFERRED CONTROLS VENDOR WITH QUALITY AND FEATURES AS INDICATED. CONTROL DEVICES OTHER THAN CONTROLLERS NEED NOT BE MANUFACTURED BY THE MANUFACTURERS LISTED ABOVE. CONTROLLERS SHALL HAVE THE FOLLOWING FEATURES: MICROPROCESSOR WITH SUFFICIENT MEMORY TO SUPPORT THE CONTROLLERS OPERATING SYSTEM, DATABASE, AND PROGRAMMING REQUIREMENTS; REAL-TIME CLOCK FOR SCHEDULING; SELF -DIAGNOSTICS; CAPABILITY OF STANDALONE OPERATION IF NETWORK COMMUNICATION IS LOSLT�, LOGGING CAPABILITY, SERVICE COMMUNICATION PORT FOR LOCAL CONNECTION TO A PORTABLE OPERATORS TERMINAL:, LOCAL KEYPAD AND DISPLAY FOR INTERROGATING AND EDITING CONTROLLER DATA; DIAGNOSTIC UEDS FOR POWER, COMMUNICATION AND PROCESSOR; NON-VOLATILE MEMORY WHICH IS CAPABLE OF MAINTAINING ALL BIOS AND PROGRAMMING INFORMATION FOR A MINIMUM OF 72 HOURS� POWER AND NOISE IMMUNITY, AND SURGE AND TRANSIENT PROTECTION. CONTROLLER SOFTWARE SHALL SUPPORT THE FOLLOWING APPLICATIONS: SYSTEM SECURITY RESTRICTING MODIFICATION WITHOUT PASSWORD; OBJECT SCHEDULING WITH DAILY, WEEKLY, ANNUAL, HOLIDAY, AND EXCEPTION EVENTS; ALARM REPOWNG VA TEXT MESSAGE OR EMAIL AND LOGGING: MAINTENANCE MANAGEMENT; SEQUENCING; PRO CONTROL CHARACTERISTICS; STAGGERED STARTING OF EQUIPMENT; ANTI -SHORT CYCLING; OWOFF CONTROL WITH DIFFERENTIAL, TRENDING; RUN-TIME, PULSE, AND EVENT TOTALIZ,kTION; NETWORK ALL HVAC CONTROLLERS TOGETHER, INCLUDING CONTROLLERS FURNISHED WITH PACKAGED EQUIPMENT, USING A COMMON COMMUNICATION BACKBONE THAT IS CAPABLE OF CENTRAL ACCESS. NETWORK COMMUNICATION PROTOCOL SHALL BE BASED UPON BACNET PROTOCOL COMPLYING WITH ASHME STANDARD 135. PHYSICAUDATA LINK COMMUNICATION BUS BETWEEN CONTROLLERS $HALL BE EIA 485 TWISTED CABLE PAIR ACCORDING TO MASTER S�VEOPOKEN PASSING (MSHLP) PROTOCOL OR ETHERNET ACCORDING TO ISO 8802-2 PROTOCOL. PROVIDE PASSWORD PROTECTED WEB -BASED OR WEB -ACCESSIBLE INTERFACE TO THE NETWORK OVER THE INTERNET VIATHE OWNERS LOCAL AREA NETWORK (LAN) CONNECTION. INTERFACE SHALL INCLUDE SYSTEM GRAPHICS, TEXT -BASED PARPMEMR DISPLAY, AND BE COMPATIBLE WITH STANDARD WEB BROWSERS. INTERFACE SHALL GRANT THE USER ACCESS TO ALL SYSTEM DATA AND THE ABILITY TO VIEW ALARMS, ADJUST SETPOIWS. MONITOR EQUIPMENT STATUS, ADJUST SCHEDULES, AND TREND DATA POINTS. PROVIDE CONTROL PANELS LISTED ACCORDING TO UL 508A AND NEMA RATED ACCORDING TO ITS INSTALLATION LOCATION. PROVIDE COMMON KEYING FOR ALL PANELS. C. THERMOSTAT CONTROL EQUIPMENT PROVIDE THERMOSTAT CONTROL EQUIPMENT WITH SUFFICIENT COMMUNICATION, PROGRAMMING, INPUT AND OUTPUT CONNECTIONS, AND MODULATING OR STAGING CAPABILITY TO MEET THE SEQUENCE OF OPERATIONS. PROVIDE THERMOSTATS WITH THE FEATURES AS INDICATED: 1 . LCDOR EDDISPI-AYSCREEN. 2� BUTTON OR TOUCHSCREEN INTERFACE. 1 DISPLAY TEMPERATURE. 4. DISPLAY TEMPERATURE SE7POINT. S. ADJUST TEMPERATURE SETPOINT 6. LIMIT TEMPERATURE SETPOINT ADJUSTMENT WITHIN PLUS OR MINUS 3 DEGREES F. 7� DISPLAY OPERATING MODE. 8 SECURITY LOCKOUT OR SECURITY COVER. 9. INSULATED BACKING FOR EXTERIOR WALL MOUNTING. 10, AT CONTRACTORS OPTION WHERE MULTIPLE SENSORS ARE SHOWN, THE SENSORS MAY BE PROVIDED WITH THE THERMOSTAT IN A SINGLE DEVICE. PROVIDE THERMOSTAT CONTROL EQUIPMENT THAT SHALL INTERFACE WITH A BAS BY AMAZONS PREFERRED CONTROLS VENDOR WITH QUALITY AND FEATURES AS INDICATED. D. SENSORS AND RELAYS MANUFACTURERS AND MODEL NUMBERS ARE LISTED FOR REFERENCE AS TO QUALITY AND FEATURES REQUIRED FOR THE SENSORS AND RELAYS, PROVIDE GENERAL-PURPOSE TYPE SENSING ELEMENTS FOR USE IN INPUT AND OUTPUT SENSORS. PROVIDE T�NSMIFFPERS OR TRANSDUCERS WITH SENSORAS REQUIRED, COMPA11 LE WITH THE CONTROLLERS USED, WITH RANGE SUITABLE FOR THE SYSTEMS ENCOUNTERED. TRANSMITTERS AND TRANS UCERS SHALL HAVE OFFSETAND SPAN ADJUSTMENTS, TEMPERATURE COMPE SATION, SHOCKAND VIBRATION IMMUNITY, AND ZEROING CAPABILITY. ACCURACY REQUIREMENTS SHALL INCLUDE THE COMBINED EFFECTS OF LINEARITY, HYSTERESIS, REPEATABILITY, AND THE TRANSMITTER. PROVIDE SENSORS THAT MEET THE FOLLOWING MINIMUM PERFORMANCE I , DRY-BULB TEMPERATURE SENSORS AT A MINIMUM SHALL BE ACCURATE TO -1- 2 DEGREES FAHRENHEIT OVER THE RANGE OF 40 TO 80 DEGREES FAHRENHEIT. 2L WET -BULB TEMPERATURE SHALL BE CALCULATED USING DRY�BULB TEMPERATURE AND HUMIDITY AND SHALL BE ACCURATE TO 11� 2 DEGREES FAHRENHEIT. ACCUENTHALPYSRALL E CALCULATED USING DRY-BULB TEMPERATURE AND HUMIDITY AND SHALL BE = TO 1- 3 BTUILB OVER THE RANGE OF 20 TO 36 BTUUUB. 4 SENSORS AT A MINIMUM SHALL BE ACCURATE WITHIN P- 3 PERCENT FULL RANGE BETWEEN 20 AND 95 PERDGIENT, WITH DRIFT LESS THAN I PERCENT FULL SCALE PER YEAR. 5. PRES UBE TRANSMITTERS AT A MINIMUM SHAUL BE ACCURATE TO +/- I PERCENT FULL SCALE WITH DRIFT LESS THAN I PERCEW FULL SCALE PER YEAR. PROVIDEREM TE SENSORS WHERE INDICATED ON THE DRAWINGS AND INTEGRATE THEM WITH THE THERMOSTAT CONTROL EQ IPMENT. REMOTE SENSORS SHALL HAVE THE FOLLOWING FEATURES: 1. WIRED CONNECTIO 2. BI-ANK FACEPLATE. 3. AT CONTRACTORS OPTION WHERE MULTIPLE REMOTE SENSORS ARE SHOWN FORA SINGLE UNIT, THE SENSORS MAY BE PROVIDED IN A SINGLE DEVICE. SMOKE DETECTORS FURNISHED AND INSTALLED AS INDICATED IN THIS SECTION OR AS SCHEDULED ON THE PLANS (OR HEAT DETECTORS, IF PERMITTED BY CODE) SHALL SHUT DOWN EACH ASSOCIATED UNIT SUPPLY FAN UP N ACTIVATION WHERE REQUIRED BY CODE. PROVIDE REMOTE VISUAL AND AUDIBLE ALARM DEVICE IN AN AP ROVED LOCATION IF SMOKE DETECTORS ARE NOT CONNECTED TO AFIRE ALARM PANEL AND LABEL DEVICE ASAIR DUCT DETECTOR TROUBLE'. PROV DE RELAYS WITH CONTACT RATING, CONFIGURATION, AND COIL VOLTAGE THAT IS SUITABLE FOR THE APPLICATION. RELAY SHALL BE GENERAL PURPOSE, ENCLOSED PLUG-IN TYPE AN PROTECTED BY A HEAT AND SHOCK RESISTANT DUCT COVER. NUMBER OF CONTACTS AND OPERATIONAL FUNCTION S�U_ BE AS REQUIRED. TRANSIENT SUPPRESSION $FALL BE PROVIDED AS AN INTEGRAL PART OF THE RELAY. CONTACTORS SHALL BE SINGLE COIL, ELECTRICALLY OPERATED, MECHANICALLY HELD, DOUBLE -BREAK, SILVER -TO -SILVER TYPE PROTECTED BY ARCING CONTACTS. POSITIVE LOCKING SHALL BE OBTAINED WITHOUT THE USE OF HOOKS, LATCHES, OR SEMI-PERNIANENT MAGNETS. OPERATING AND RELEASE nMES SHALL BE 100 MILLISECONDS OR LESS� E. WIRING PROVIDE ELECTRICAL AND CONTROL WIRING AS SPECIFIED UNDER THE SECTION 'ELECTRICAL WIRING.' F. ROOFTOP UNIT CONTROL (DX DEHUMIDIFICATION UNM U IT SHALL RUN IN PREPROGRAMMED TEMPERATURE PRIORIFYSEr"NG. UNIT SHALL STAGE COOLING, HEATING, AND DEHUMIDIFICATION AS REQUIRED TO MAINTAIN SPACE SETPOINTS, AS SHOWN ON THE PLANS. (DEHUMIDIFICATION CONTROL) CONTROL UNIT WITH ZONE T ERMOSTAT AND RELATIVE HUMIDITY SENSOR, IF T E INTERIOR RELATIVE HUMIDITY EXCEEDS THE Ht LIMIT INDICATED IN ROOFTOP UNIT CONTROL MATRIXON TH SCHEDULES SHEET THEN THE UNIT SHALL CONTROL DEHUMIDIFICATION BASED ON THE INTERIOR RELATIVE HUMIDITY. ONCE THEWTERIOR RELATIVE HUMIDITY IS BELOW THE LOW LIMIT SETPOINT THE UNIT SHALL RETURN TO COOLING MODE AS REQUIRED BY THE THERMOSTAT. DURING OCCUPIED HOURS UNIT SHALL OPEN OUTSIDE AIR DAMPER TO MINIMUM POSITION AND RUN CONTINUOUSLY. UNIT SHALL SEND ALL ALARMS TO EMS SYSTEM FOR REPORTING. DURING UNOCCUPIED HOURS UNIT SHALL CLOSE OUTSIDE AIR DAMPER AND SHALL CYCLE FANS, HEATING, COOLING, AND DEHUMIDIFICATION AS REQUIRED TO MAINTAIN TEMPERATURE AND HUMID" SETPOINTS AS I...-ED. 6. ALTERNATES A. DESCRIPTION REFER TO THE ARCHITECTURAL PORTION OF THE SPECIFICATION FOR LIST OF AUTERNATM. APPLICABLE SECTiONSOF HE BASE SPECIFICATIONS SHALL APPLY TO ALL WORK REQUIRED BY THE ALTERNATE UNLESS OTHERN E SPECIFIED. DETERMINE WHETHER OR NOTAND HOW EACH ALTERNATE AFFECTS WORK, INCLUDE LABOR, MATERIALS, EQUIPMENT, AND TRANSPORTATION SERVICES NECESSARY FOR AND INCIDENTAL To THE COMPLETION OF WORK UNDER EACH PARTICULAR ALTERNATE. FURNISH SEPARATE BID FOR EACH ALTERNATE APPLICABLE TO WORK, STATING THE AMOUNT TO BE ADDED OR DEDUCTED FROM THE BASE BID, 7. COMMISSIONING COMMISSIONING TO BE PERFORMED BY OWNERS THIRD PARTYVENDOR. CONTRACTOR TO PROVIDE ASSISTANCE, AS REQUIRED, TO FACILITATE THE COMMISSIONING PROCESS. OWNERS THIRD PARTY VENDOR IS RESPONSIBLE FOR THE FOLLOWING PROVIDE COMMISSIONING THAT VERIFIES AND DOCUMENTS THE COMMISSIONED BUILDING SYSTEMS HAVE BEEN DESIGNED, INSTALLED, AND FUNCTION ACCORDING TO THE OWNERS PROJECT REQUIREMENTS, CONSTRUCTION DOCUMENTS, AND TO MINIMUM CODE REQUIREMENTS. RETAIN THE SERIACES OF A THIRD�PARTY REGISTERED DESIGN PROFESSIONAL OR APPROVED AGENCY THAT IS REGULARLY ENGAGED IN CONDUCT No COMMISSIONING TO DEVELOP A COMMISSIONING PLAN, SUPPORTING DOCUMENTATION, AND REPORTS. REFER TO THE LATEST ADOPTED EDITION OF THE APPLICABLE ENERGY CODE FOR MORE INFORMATION. COMPLETE ALL RELATED COMMISSIONING REQUIREMENTS PRIOR TO FINAL INSPECTIONS. SUBMIT FINAL TAB REPORT AND FINAL COMMISSIONING REPORT TO THE ENGINEER AND OWNER WITHIN 90 DAYS OF THE DATE OF RECEIPT OF THE CERTIFICATE OF OCCUPANCY. END OF SECTION 23 REVIEWED FOR CODE COMPLIANCE AUG 08 2019 City Of Tukwila BUILDING DIVISION R E c E, 0 iT CEIB- 4-0- 010 + ER ARCHITECT OF RECORD: BRA ARCHLBECTURE INC AN- H PIDUA, 3- 913-2-9044 cCIBSULTANT CONSU-T LOGO GHENDERSON j ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA . KS 1 114 TEL 913.742.5GDO FAX 913.742,5001 WWW.HENDERSONENGINEERS,COM 1950002714 WA. CORPORATE NUMBER: 1754 06130120 C PYKGHHNOUCE Pd PY, 11 i� I.,- p P, y b� ISSUES REVISIONS P JECTRAME UWAS SEATTLE PROJECTA DRESS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ISSUED FOR] PERMIT P NANASER JAMES MCCARTY ,.E N 3M.E., DATE: 06/14/19 P OJECT NO. 1950002714 rR FESSIONAL SEAL Jun 20 2019 PROJECT NNII: UWAS (SEATTLE) BU-INGADDRE- 18323 ANDOVER PARK WEST TUKWILA, WA 98188 MECHANICAL SPECIFICATIONS PRCUECT 1- 2019 1 111Ay' DATE 1: ./.3120 1. HEI 06/14/19 ED.-N. TYPE: APPROVED BY: UWAS ',,,. Project Information Project Title: NNA5 Seattle Date 1/1/2015 ',. Applfcantlnformnion. Prow[ contactinf,rmatimT ,i,divfdualtMocanrespondto For Building Lapt. Use inquiries about complianceforminformationprovlded Company Nacre: Henderson Engineers ',. j Company Address: 8345 Lenexa Dr. Lenexa, INS Applicant Nave: Da rek Day Applicant Rhone: 913-7424000 Project Description ❑New Building ❑ Building Addition R)Tenant Immrovecnt ❑ SystemRetrofit ❑ No System Changes Brieffydeserebemechooke systemsm the textboxproNded ❑ Total Bldg Performance `� N ) This pethinowdee all mandatory pro uions per C401.2Opli Pit. MECH-SGR MECH-CHK,and C407 EnergyAnegars forms required ❑ L-d-lculationeumtnry 21 MECH-LOAD.CALC Form Design Load Calculations Providedesignloadcaiculationsforallmechaniwlsystemsandequipmentse,ingthebuitdinghating,cootingor ventitatingneeds.lfaeoadcaiculationsummaryisproWde Wththepermitdocumentsthatindudesallapplicable ompiianceinformationthenthe MECH-LOAD.C4LC formis notrequired Q Mechanical Rams ❑ MECH-EQ Foms(TIED) Mechanical Schedules fndlc,mlocatronofequpmentcompli n emformatrm /fprovidedmpfansthen MECNEQformsarenarequired, however,i,cfudeonplansallappiicabiecomp➢anceiM.,mdionliste i,MECHEQtables, ❑ DCAS isregWred per G036 effebbieJuy 1, 2017(office, retal education, library and firestatonoccuparoked) All occupied, corn itionedareas shalt beservedbya DOASnOteebvers mquiredvenGre6d, airing mannerthato.- notrequirespaceconditioning&nopereBon.Spa,e mditionngf,mcycbdoXvhe mheatingor cooling is required. Dedicated Outdoor Air ❑ Ventilation provided via natural ventlatop per 2015 IMC in(n of BOAS(G03.6 Exception l) System Requirements and ❑ Ventilation and spacecondtbri ng pre,ld,doy a PRIAV systemper C403.7 in lieu of DOAS (C403.6, Exception 2) High Efficiency VAV ❑ WAS included in project, although not required(occupancy not office,repo,dmmaaon, iibmry orfirestatbirp Alternate ❑ DOAS related altowaroeamcludedin project: ❑ Prescriptiveverticalfenestrationnexhnamareaalbw once immasdto40%per C402.4,1.4wdh1DO%of contlitionetl floor area in building served by DOAS. ❑ Exception to air economizer per C4033 Exception 1, include MECH-EGCNO form. 0 Project includes HVAC ail dstribution systems thatprovbe heating andl....ting lfyes, provide a MECH-FANSYS-SUM form. Fan Power ❑ Forone ormoresyateim,thetotal fanmotor nameplate hp ofali finsm HVACsysteme,P,,d,5hp. Ifyes, provide a separate MECH-FANSYS form/breach HVAC systemexcearmgme5h...apowarthrsshofd. ReferM Section C403.2.11 andMECH-FANSYS-DOCformquirementsandexcerebom. HVAC Hydronic Systems ❑ Hytltonb chilled water ❑ Water-loopheatpunp 2 No hydroobeyetems ❑ Hydrons heating water ❑ Geothermal ❑ C406.2 More efficient HVACequipmnt and fansystem Requires 90% ofheatingend coo7lngcapaakytobeeguipmentlistedin tables C403-2.3N)-H)or air -to wgwhwR pumps and heatrecoverychillers. Allegufpmentifeadin tables C403.23(f)-(7) mustbe 15%more eRfcient than C406AdditionalEfficiency Options -Mechanical mrequirements All standalonesuppiy, return, Andexhausthens over Mpmeette ve FEQ a 71 and mustbe sne�tedwemml0%oftmemumtotideretaticpressare. ❑ C40&6 Dedicated eutd,o I,system(WAS) Requires 90-1 ofcondetienroffl-ram¢.1me...dbya DOASper C403.6that delivers required ventilatfonanina nerthatdoes not requi,esp ceconditromngfanoperation. ❑ G06.7 Reduced energy m servpewatem heatng Requeres 90% offloorarea been oce.,renytypes fieftelm C406.7. 7.Cd that6O% of—.,] hot water energy ueebe provldedbyle at pump, waste heat nodVeryortelarwater-havengsystems. 2015 Washington State Energy Gtle Compliance Forms for Commeresl Buildings Inchdimg W & R3 over 3 stores and ail R1 Revised January 2017 Equipment Type (a) 0 Hot water healing Rnk(s) ❑ hstantane... ❑ NoC-licdaterryetems Service Water Heating Systems Heat exchange fronegace heatboller or ❑ �tlicTyp boiler ❑ centraihotwatehateam Dlsirlbuton Typa (s) 0 ane.lafion System ❑ On -demand Commissioning Cemene wig sregmred for: Q Nkach..e,ksystensper C,W&2 ❑Servee—Poheatingsysterwper G084 Ifrequired, commissoningshallbeperformed for all applfcabtesystemsregardtew ofindividualequipmenl,,panty Ex-fithretocomnssonng requirements: ❑ Total outputcap--,,fall mechanical space conditionng icy re th b Id' g do motexceea240,0008tWh cooing or3W,OW Dean heating. Mebrow aisysterne ctumba' n ng not requ red. Q Capacityoflargestservbewaterheatingsyswminbuieingdoesnotoxceetl2W,WOStwh.Servbewaterheafing systems conrmi,scIa ng not required. Low Energy and Semi -Heated Spaces (Note 6 and 7) P ak Space Heating Cooling C,nddioning Space Area Served, Capacity, Blw'h Capacity, Btu/h Capacity, Cc",,,a Type Location n Ran(s) So...is) Sewed square feet (Wt. 4) (Note 5) Btu/h-sf Check Notes Note4- Provide total installed heabngoutputcapabigele steme serving LowEnergy or Semf-Heatedspaces) fhb fish. Note 5 - Provide mtallnstalled cooling capacityofsystere serving LowEnergyspece(s) in Stuln. Nidellowed for semi-tretedspaces. Enter 0ife. cooling Note 6- Rater 11 Section Call, f.1 Low Energy Building. inushopeak space u-Skm log mpa ey, heafingor cooling, maynoteveavel 34 Bh+i Note,- Refer to S.C,.n C402.1.1.1 and Semf-HcatedSpacaderrninonin Chapter 2 Totot heatingoutpW oepacitymaymt exceed 8Btulh^ f, Onlyze ems without electric reques nee heanngaml he cooling —eligible for the wall maniatfen excepfd--Fusee(-heated. 2015 Washington State Energy Code Compliance Forms for com ercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project This: UWASS-flea, Wte 1/1/2015 The following information's necessary to check a permit applicatron for compliance yr ith the mechanical systems and equ pmant requ nments of the Washington State Energy CCuode, Cnmerclal povsions. Applbable Location in Building Department Code Section Cotle FTovsbn Information Required- Mustbeinparmitdocumen(s Lo,o=bI (yes,no,na) Notes ant Sizin Performance and T e Itlen Cqupment to be used n manufactur ng, Industrial or commrercis processes that do not ND CIBOI Exempt process equiptrent provide space condrflonrg; identify provisions applicable to this equipm ent per C403.1 exception Crowd. load cabulatbnr performed per.."Ads"I- or equivalent, using design MECH- Yes C403.2.1 Load calculations parameters per C302 and Appendix C; include bad adjustments to account for energy LOAD ,very CALCS Equipment and system hdwatethaloulput Capaerbs of heating and cooling equiprantantl systems are no greater MECF4 Yes C4032.2 CD than the smallest available equipment see that exceeds the calculated bads; note exceptions LCAD- taken CALCS CO3,23 Rovtle equpnent schedues on plans c complete MECFFEQ formm indicating type, capacity, HVAC equipment "B'd Yes G032.32 rated and WSEC mimes,,ffcbncies for all hashn dcooin nt; include su I pertormance requTerants gam gequ ene ppy G03 2 13 1 (efficiency) and CSA cons and hours for all aT systereffiency heating Intl equipment corresp that does not have a correspontlmg WSEC minirtpmefficiency (manufacturer rated} r rate List all raptors z 1112 hp (that are not integral to a rated piece of equipment) it the mechanical �1 GW'8 orelectrbai equipment schedules on ples; indicate hp, min number of poles and rated Ves G03.2.14 Electric rtplor efficiency effcency, or....PbnapplAd For frapt onai hp (rotors (1f12 - 7 hp), intlbate w Nether hrey are an ebctronically cormmtated NMI wed. , have rated eff t eney of at least 70 % or excepton taken For at HJAC fan systems that provide heating and/or cooing provide systemusal k�CFR am .tor, hp in NECHWANSYS-SUM form FANSYS- SUM Yes G03.2.11.1 Fan power fint him, - N4 For all applicable HVAC systems w Ih total fan motor hp> 5hp, verity fan system motor hp or bhp complies wth fan power diets per equations in Table C4032.11A(1), provide MECH- FANSYS formfor each system For all applicable HVAC systems w Ph total fee=to, no, 5hp, ndaote fan motors specified NA G032.11.2 Motor nameplate hp are the smallest available Teter hp size greater than fan bhp, note exceptions taken For all applicable HVAC systems w rti total fan raptor hp > 5hp, dentify in equipment schedule NA G03.2.11.3 Fan efficiency all fans required to comply with fan efficiency grade and indicate rated FEG is z 67,or x_of.n taken; ntlicate these fans are sized so total efficiency s within 15% of the fan imam totaleffid.o.yr Group Roccupancy For aq exhaust fans<4W cam in Group R occupancies, indicate In equipment schedule the NA G03.2.11.4 exhaust fan efficacy fan flow ate and efficacy(efrnw aft), or exception taken; refer to Table 0403.2,11.4(CE-57) Variable flow caac _ For fan=lors a 7.5hp, indicate method of variable flow control( VSD or equivalent method) p ity . NA C403.2.13 n equipment schedule, or exception taken; for equivalent method for an HVAC system refer fans to HVAC System Controls for.don nal regUeorChe NA C403.2.3 Mx imumar cooled chifr Forehi9ed w star plants and buildings w th, SW tors of cooing capacity, indicate air-eColed capacity chiller capacity Is s 1 W tons, or exception taken g pool, coo g For buildings wit' z 3W tons of coo rig capacity, indicate method of min mi-stage or variable Ira NA GW.4 capaciy control (VSD, muidple staged compressors, or hex capacity of any single unit, 66% systemw of the total) Non-standard water-cooled Re —ter -cooled centrifugal chillers not designed for operation at standard contldions, N4 G03.23.t centrifugal chillers Provide calcuktionmdocumenting maxi mum full load and part bad rated equipment performance require —his NA G03.2A3.I Centrifugal fan open -circuit For open-oucuit centrifugal fan cooling tow ere w ith> 1,100 spin peppery, intlsate cooling GIX3.4.3.2 cooing towers towers Comply with efficiency requirements for axial far.pan clrout cooling lowers For single exiles w IN> 500,000 Blum capacity, indicate nut! -stage or moduating bumer NA C40342 Large capacity boiler For boiler system(single or nulfipla}with>1,0g0,0008tuficapacty, indicate turndown ratio C403.42.5 systems per Table C403.42 5 and method (multiple angle input boilers, modulatng boilers, or combination) Varnbk lbw capacity- For Pump rotors z T5hp, indicate method of varable flow control(VSD or equivalent NA C4ll3213 pumps method)eer for is Syst Contreptionfakenoor equivalerespes od fora hytlronic (system refer to kydronb System Controls for adtlrpnak requirements N4 C403.2.3 Gas and of-firdd forced air Porforpedaifumcwdad wTh Capaeeyz225,W06tWh and all uric heater., irdleate In furnace and unr heaters equipment schedule intermttent igni ion or IID, Flue or draft damper, Intl atetl jacket loss NA CA032 4 8 COmbu.tbn heating For combustion heating equipment w rh output capacity > 225,000 BiWh, intlbate modulating equipment or staged combustion control NA G03.2.33 Pa°kaged electric heating! Verify all packaged electric equipmentwth>SQO0 BW/h coo Mg capaciy and any. -.of of cooing equpment heating sa heat pump; Include in equipmemadhedules NA CAO3.2A2 Heating outsde a buiitling hdicate systems providing heatng n non- Dwas d utdoor oc ped spaces are radiant systems refer to HVAC System Controls for addR i equrenew, NA CA03.2.7.1 Kitchen exhaust hoods hdicate on plans tore type, duty and exhaust air ate of each kitchen hood, refer to HVAC System Contras for additional requirements Indicate locations of OSA intake, and exhaust and ref f outlet dangers on plans; indicate SUEZ Yes C4W.2.4.3 Outdoor suppy air, exhaust whC, dampers are Class 1 motorized, or gravity and exception taken (include leakage omit relief dampers rating, cfrreB; mferto HVACSystemC rtme for addrionral requiremems for OSA dampers 'notate beat ons of return a r dampers that are tdegral to economiser operat on, verify N002, NMW1 Yes G03.2.43 Return air dangers donpe's are Talentad'nCcate whether dampers are Class l.rwitMnpackagedequpranl eligible for leakage rating exception (include leakage rating, cfmsf) NA GIX12 43 Stairway and shaft vent 'Indicate location of stairway and shaft vent dampers on plans verfy dopers are Class t dampers motorized refer to HVAC System Contros for additional requrenent, For systems serving areas > 25,000 sf or spanning more than one floor, that include areas NA C403.2A.4 Zone isolation dangers that are expected to be occupied non-ainulianeously; identify s."'on zone areas on plans and locations of associated !Rotation dampers in HVAC distribution system refer to HVAC system Coneds for Iddmonal requirements F.r printing systemw w rti humd batlon equipment that are aso required to have air NA G0323A Huredification ,indicate humdif,, ke atletefic(direct evaporative or fog atonizatbn),or xceptbn taken For buildings w th food sery ce meat o, deli departments that have a 5W,W0 Such of remote mfng.Gg,u capacity for coolers / t,ee< ,R, !htlbate condenser ER and use of captured e nergy (servbe water heating, space heating, or dehumidification reheating) NA CI03,53 Energy recovery- For bu ldings w dh z 4O W0 sf Contlrioned floor area and with 11,0W, WO Btu/h of remote cooler / freezer condensers refrigeration capacity for coolers /freez s, iMbate condenser ER and use of captured nergy for service water heating and also for space heating, or dehumidification reheating For bu il ngs w kh 24-hour operation and w In 1 1,500,000 BUR, of heat reject on capacty Ener - gy recovery Intl tle twater WO Stu/h ntlicate er ER to reheat ce ho load>250, contlens sign sery p NA GW.5.4 condenser systems service water or exceptron taken Rovide calculations showing the amount ofmcovered heat that's utilized (W% of peak heat reject on toad or pre heat servbe water to 85°F7 H Imnic System Controls For hytlronic system pun tutors z TS hp, indicate method of variable flow control (VSD or G032.13 Variable flow control- equivalent method that request z 30%design wattage at 50% design Fluid flow); note Maptiontsken G034.2.7 hydionic system punts Identify whether hytlronic coils have DEC centrols Intl associated manner of pump speed control Gliff edruffat pressure, zone hytlronic tlerantl, etc) Eor lookers that provide buiiding heating, intlbate contros that provide heatng water to erature setback based on outdoor p, eratiure ma p For heating and chlrad water systems? 300,000 Btu/h, Indicate systems are configured to ___ G032.5 Hydroni, systemsetbaIs aut t 4y sets ppy t rtemp N b due tl d;ore pt taken. NA IF s stem u note, h z 3 h also nit cafe controls automat call reduce flow b > 50% y p p p' y y G03.4.2.4 and part bad contros For ctWletl water systemw (z 3W,W0 eturh, pump rrotor hp z 3 hp) that serve water-cooled unitary air cordshoners, intlsate VSD or staged pumps in ChNed water systemand heat rejection bap that reduce pump flow so that one control valve s neary w itle open, or to "women a mnmumtlfferential pressure excepton taken NA C403.4.2 Boiler sequencing Indicate automatic contros that sequence operation of mruRple, boilers NA G034.6 Hot gas bypass Wnftation For cooling equipment with hot gas bypass, provide ether multiple step unloading or continuous capacity modulation; indicate bypass capaciy per Table G0346 NA G03.4.22 Two -pipe changeover ,ntlicate changeover d-dbantl(nin IYG, heating I cooling node scheduling and changeover systemw temperature range (tinny[ 30°F) NA G03.42.6 Chiller/boiler pknt pure Indicate controls are configured to aut.maticaly reduce overall plant flow and shut -oft flow s.term through individual chillers and looters when not in use For coin tow es with fan motors> 75 hp, Indicate VSD and method to adjust fan speed C4032.3.., (adjusted based on leaving fluid temperature or condenser temperature/ pressure of heat NA CIES, 1.1 Heat rejection equipment- rejection deal,) C403.4.3.1.2 v amiable flow control Porm ftiple-cell heat rejection equipment w Rh VSD, intlsate controls that ramp It fans in Heat reje.l'ion equipment- Indcate open-cmur cooling tow ere orth purhow pumps or VSD control are designed ao all NA G03.4.3.3 cooling tower flow cells can bemun'n parallel form—n Water bop heat pump- indicate capabilTyof central equiprrent[I provide minimom20°Fw,ter supply temperature N4 C4034.23.1 de slohnal deadbam between heat rejection Intl heat addition modes; or exception taken Water bop heat pump- heat Indicate type of coo5ng few er(open-or.bsekerour) in equipment s.hadule; lnd bate NA 040342321 rejection equipment, Zone 4 method used to line system heat loss when heat rejection s not needed Water loop heat pump -heat For open otclosed-circuit cooling towers, provide a heat exchanger that separates the NA GW,42.3.22 mimfiR n equipment, Zone 5 cooling tower Intl heat pwp bop Water loop heat pump- For hytlronic heat pump systems with total systempe, er> 10 hp, ndsate 2-way adeficn NA C403.4.2.33 rotation valves valves on each heat pump and variable flow system control Dedicated Outdoor Air Systems(DOAS)-O tional through 6/30/16, Prescriptive 7/1/2016 Por buildings tv rti office, retail, education, library and fire station spaces, identify these G036 Dedicated outdoor I!, spaces on plans; intlbate that ventilation air in each occupied space is provided vs a DOAS NA 0403.6.3 systems system or document comp! nce with G03.63 inpracticalky; or exception taken(buildings omplying w ih C402.4.1.4 or G06.6 hey not utlee exceptions) Energy recovery ventilation For III DOAS systens, intlbate exhaust ar ER method; or exception taken w Rh supporting NA C403.6.t w kh DOAS calculations. Indicate ER rated effectiveness that increases OSA enthalpy by>50%based on pas gn c delta between OSA and return ail anthai tdesi ditions. Indicate equipment associated w!in the delivery of zone level heating and cooling (fans, Heating/cooling system hytlronic pumps, primary air dampers, etc) ar configured to shut off, and central equipment NA G03.62 controls w Rh DOAS configured to turn down w hen there is no call for heating or cooling in the zone they serve X.rat ing Exception to heating f cooing fans used for air Truing in the space during tl..dband periods, include fan watts per cfm In equipment schedule ncreasedVerespripm/e G02,4.1.4 maximum nical C403,6 fenestration area with Indicate that all... d, condrioneds tlb BOAS C403.6 Pia paces are serve Ida per DOHS Additional Efficlen Packa e0 tion, Dedicated Outside Airs stems DOHS) Building provided w rti To coney with addkionalef BIPAcy package option, intlbate that 90%or rrore of atl NA GO66 DOHS ccupied, Conditioned spaces are served by a DOAS per C403.6 Multi le Zone AtrS stems Identify supply air systems servng mattple zones Intl the zones they serve on plans; NA G03.4.4 Air systems serving ro@itle intlbate whether system!. VAV ant method of primary ae control; or provde supporting nes documentation for applied exception to VAV Provide equipment schedules on plans or NECH-EO formthat list all VAV terinnega and types For each artermnai inclon,mazooneairttow rates for Primry suppy air during zone peak VAV systems serving N4 GW.4.4 heating and zone peak cooling; maximum airf ow tlunrg reheahmg, recoo8ng or mo ng; multiple zones m eirfknv rate to maimd, required ventilation, and the basis for these vanes; if TIC or ASHRAE 62.1 mudple zone equation s basis for minimum flow rates, provide Cllculatbn on plans Single duct VAV term s[ Indicate single duct termnal units are contoured to reduce primary supply air before NA G03AAA units reheating or meoding Dmai duct systems- termnal For systems w rti separate w arm ale and cool a itducts, intlbate termini units are configured NA G03442 inks to reduce the flow from one duct to minium before mixing w Rh air from the other duct Indicate locations of duct static press um sensors on plans hqude at least one sensor per major duct branch, verify controller setpo nt pressure at each sensor s s 1 2 nch w g VAV eyetemstatic For systems with zone level DDC, Indicate controls are confguretl to monitor zone damper NA G03.4.1.1 pressure sensors- positions and reset static pressure setp,int based on the zone requiring nest pressure; ',. G03.4.7.2 ...rs and DDC set points include control logic that autonaket-lily detects and generates an alarm r any zone ivory drives reset logs, and allows butdng operators to exckude zones from reset logic W d a Additional Effrcienry Package Option, More Efficient HVAC Equipment & Fan Performance - ovisi Must coin I with all 3 r ons to be ell ible C40621 To comply w rti addkbnal efficency package option, calculate the percentage of heating and NA HVACsystennewalion in the protect(baseden output capaciy) thatdo net have a corresponding G03.23 Ziligequprent (WSECrtedeficiency;Rhallbelessthanl0%/.comply C406.22 NLnusmequipment To comply with additional efficiency package option, intlbate that all tasted heating and cooling C403.2.3 efficiency equippent have a rated efficiency that exceeds MEG Rated efficiency by at least 15% To campy with pro once' efficiency package option, indicate rated FES of stand alone fans NA C406.2.1. NLn mum fan eft ciency > 71; indicate these fans are sized so the fan effcency at des of on. s won l0% of gn con Go3.2.i 1.3 the maximmmtoed or static efficiency HVAC S stem Controls hdicate locations of thermostatic and humidity control devices and the zones they serve on MIDI plans, including perimeter systemzones Where adjacent (neighborng) zones are controlled by separate thermostats (ncluding Nfi perimeter syslets used to offset heat gain or loss), and are connected by Permanent Thenosiabc controls openings>10% of either zone sf area, indicate controls configured to prevent adjacent Yes G032.4.1 (thermostats and zones from operating in confli ting nodes (ene in heat, other in cool); applies to adjacent humidipPRA) perimeter zones adjacent Penpermater zones, and adjacent perimeter and nonperketer e H a n Exce Yon 2 to non er meter z s ad cent to e ter zones 'ntlicate that pPo 9 P one ja p rrs NA setpo Ms Intl d tlbantl settings n these zones are coordinated so cooling in a nonperirreter a ne does not oc unfit the temperature in that zone is 5°F higher than the adjacent perimeter zone mopenatime in treating NA C4032411 Heat PC" supplementary hdicate staged heating.peratnnweh compressiion as the fststage of heating and heat supplemedal heating controlled with outdoor lock out temperature sot to 4O°F or less Yes G03.2.4.1.2 Deadeantl hdicate zonether—,I,Iccontros confguretl with 5°F minkrumtleadbamtl f,rsy,dmm that Nn01, control both heating Intl cooling all Isep,vez heating and cooing systems with,operate thermistatw control devices are used K4601 Yes G0124.t3 Sstpont overlap restriction (to serve a zone ntlicate locations of both thermostats: control deuces ant the zone they on plans thermostats ( ) Indicate a limit SW Ran mechanical sto or DOC control with ro n to revent P P 9ramtri 9 P N1501 rnultaneous heating and cooling G03.2.4.2 Automalb setbackard Indicate zone thermostats controls confguretl with required automats setbackandranuat N601 Yes CA03,2,42,1 amide functions setbeekterrperatures, and control Tethotl (automatic tine clock or G032422 shutdown preppermable controls); note exceptions taken Yes C403.2.42,3 Automatic(optimmum) start IntlbatesystemcontroIs that adjust equipment start furs required to bring each area served N601 up to design temperature just prior to scheduled occupancy Yes G0324.3 Outdoor suppy air dampers hdicate automatic contros configured to close OSA damper during unoccupied equipment M601 operation; mat Reading se...m aer cooling, night flush or MC required OSA f exhaust see. ay and shaft vent hdicate method of activation of stairway ant shaft vent dampers (f re alarm ornterruption of NA G032.4.3 dampers power) For systems serving areas > 25,000 sf or spanning mare than one fear, that include areas NA G03.2.4.4 Zone isolation controls that are expected to be occupied non-sionses eousiy; indicate controls that allow for independent space conditioning of isolation zones; or exception taken NA G012.12 Heating outside a building rdknde m,,paoy sensing or her sw itch controls configured to aulomaticaly shut off heating systemw hen area served re un c-iord Indicate automatic controls con figured to shut off system w hen pavement temiendaud NA G0324.5 Snow matt systems exceeds 50°Fand no precipitation 6 falling. and when outdoor air temperature exceeds 40°F NA G032AS Freeze protection system hdipateautomatk controls to shut off system re hen outdoor temperature exceeds 40°F, or contros contlitwns protect fiuitl fromfreszng Group R7 hotel f m otat For holes Intl motels w th over 50 guest rooms indicate automatic controls sere ng guest Nil G03 2.4.9 guest rts odes that are capabs of setback (heabrg) and set-up (cool ng) of temperature setpo m by at least SIP; indicate control method - activated by room entry or occupancy sensor Group R2 / R3 dw e1fC9 For primary space eontltionng system indicate 5-2 programmable thermostats capable of NA CA032410 units, Group R2 sleeping fwo setback periods per day; for all thermostats indicate purpose (heating only, cooling only, G032.4.1t units or both), required temperature range and at minimum a l0°F dead bald, or exception taken hdicate rtethod of ventilation a r delivery (natural or tr N.PiCaD for each zone NS01 k mechanically delivered, indicate that systems are confguretl to provde not more than 150% NEW Yes Cali 6 Ventilation of, but at least the minimum required volume of outdoor air to each zone per IMC, ASHRAE G03211 A 62,1 or other applicable code (WAC, OSHA, etc); or exception taken 0 deWered Va natural ventilation, nentky required elements per IW including mni um NA openable area to the outdoors or qualifying adjoining spaces Identify spaces > 5W sf with occupant load > 25 people11,0W sf per IMC; for each space Cema� controlled intlbate whether t s served by an HVACsystemwrh total tlesgn OSA>3,OWefm and/or NA G032.6.2 ventilation the system has ai,side dephenter or automatic modulating OSA Carper; indicate OSA controls are Configured to provide demand controlled ventbtbn or provide supporting documental on for applied except'.n For gyms, classrooms, auditor ums and conference rooms > 500 sf, intlbate occupancy - NA G03.2.6.3 Occupancy sensors based CSA control when space s unoccupied Intl method (closes OSA di nee, or shuts -off Pit poved; or aternate means provided to automatically reduce ORA when space is partially occupied G032.6.4 Enclosed leatlhg dock For enclosed dedirg docks, indicate ventillation l exhaust system method of activation(gas C403264.1 ventiawn detection systemfor CO and NO2, or occupancy sensors), and control method(staged or modulating) C403.2.6.4 Enthused Reknit garage For enclosed parking gaages,intlbatevemilahon/ exhaust system acWated by gas NA C403.2.6.4.2 venttation detection system for CO and NO2, and control method(staged or metlulefing) or exception aken Providea-latons that sh b I tl t g ftot l h lip st(nclude all I h.otlsj w Rh%of: supply air, transferor from add.cent spaces Intl makeup ar, iF 'applicable, indicate that direct take-up air to each hood does not exceed 10% of hood NA GW.2.7.1 Kitchen ex hausl hoods exhaust For kitchens with total hood exhaust exceeding 2,000 cfm htlbate exhaust air rate per Table C403.27,1 and compliance method OcV, energy recovery, or tmesfer air that would oth,,wise be exhausted) NA G03.2.7.2 Laboratory exhaust Refer to Systems Requiring Energy Recovery for requirements yclems Variable few capacity- For HVAC fan rotors z 7dhp, indicate method of variable flow central(VSD, or equivalent NA GO32.73 HVACsy.tem fans control method that,Comes design air volute by 50% at 1/3 static design pressure); note xception taken DX air handler variable (For ,!rh,wd1Dmwrhecom,zeramd coo ling capacity z 65,WO Bmh, indicate number of cooling stages ded and method compressors / Yes C403.3.1 o g con co fin hot prov (multiple and or variable speed compressors) hcate meremdsplacemsnt(capacity reduction) as%of full bad M601 (Under Integrated Ec.nomizerj hdicate control method Ih'--- (coo gcapacity controlletlmresponse to space tenperatur¢,space M707 tenperature Contefied by =on ating supply li flow, or both) Ell For DX air handling units with cooing capacity z 55,0W Such and evaporative ant Chime water air handling units with fan z 0.25 hp, indicate w Fairer system is single zone or Tradable and related control method (cooling capacity...Varlsd in response to space temperature, apace terrweature is controlled by modulating suppy akfbw, or both) All For mechanical cooling systems (kcldes OX and chilled water coils) that control cooing capaciy n response to space temperature - Rovide a roof two stages of fan control; ',. Yes G03.2.11.5 Fan aiRow corme ntlicate mnimumfan speed is 566% of full speed drawing 540°k of full speed fan pow er '.. during periods of low cooling or ventilation only M301 For other machanbal cooling systems (includes DX am chilled water coils) that control space ',. temperature by:dulatirg airflow (in lieu of, or in addition to, controlling capacity in response to space temperature)- Provide fan centrals for moduating supply airflow; indicate menvem fan speed is s 50 % of full speed draw ing s 30% of full speed fan power during periods of low coo ling or ventraton only or xception taken NA Mul[pie-zone VAV system For systemw wrhzoneleveI DDCco t s ptic t 1 ecom dt tome"' NA GW.4.4.3 vent lotion optimization reduce otttloorartlow mresponset h gas nsyst flat on eft y or exception controls taken VAV system supply air Indicate controls automatically reset supply ale temperature in response to building loads or NA G03 AA reset .pro-,ar temperature or exceptron liken Multi le Zone HVAC S tems, Hi h Eiflcien VAV - Re red for tems utiirzin C403.6 BOAS EXce tion 2, must Him I with all l6 rovisions NLA G03.1 Air economzer hdicate s stems confm ured for 100%a r...nomzor, eration and co y g P rip esw lh all reated kemi ec qurenents per G033 he[tout econorizer excepton) NA C403.7, Directtligtal controls (DOC) R Ce WC nt Is for ail components of system identify all DOC systemimut/output bent co tol its, indicate ca bl' for Demon tl hical diss eon pa ity gam grap p y For systemw w rh minimum OSA > 2,500 cfm hdicate outdoor airflow mank,li g station that NA G03.7, Rem3 Outdoor airflow asurem ent and reduction measures OSA intake under III load...dn,ne; indicate control sequence that increases or red...ssyse, OSA cfm based on VAV termnal feedback of venglation efficiency(per C403.4.43 without exceptions) or DCV (per C403.2.6.2) C403.7, suppy airtlow F.rsystenswrhmiNnum OSA>2,5W cfm indicate supply airtlow mankrnhgstation NA lam4 tent capable of treasuring supply ail delivered to VAV terminals under all load contldions Verif ma rvedb a in Ie HEVAVs stem is<50WO sf or one entire floor y xmumarer se y s g y GW.7. Zone isolat'ron and maxirmm whichever is greater; in addition ifasystem serves>25,W0sf, that includes areas that are rem5 are .served expected to be occulted non-orruambously, indicate zone Boston controls per C403.24.4 later!., / ext....... Verif termnasservh y g interior cooling driven loads are sized per design suppy air NA loan p' tem6 design suppy air aturVAV temperature chats 5°F higher than VAV [enemas servimg exterior zones temperature GW.7, Maxi mum air terminal inlet Identify ae terminas withmrapang primary airflow setG-re,>50% of maxi mum import in NA tem7 velocity MECH-EDfarm ntlicate air terninal Arst-be ity does not exceed 900 ompeantschetluleor pm NA GW.7, Sequence Indicate BUD system sequences of operation are designed and configured per ASHRAE GFG rem 8 of operation 36 G03.7, Maxinumallowabke system Verify fan systembhp is<--90% of the bhp limit per Option 2equaton in Table G03.2.11-Ill), NA a..9 brake lauespow er provide MECH-FANSYS form for sac h system Indicate ail series and pamllel terminal fans have electronically .—.led —ter.; ntlicate G03.T Fan -pow ered te-pol unt DEC control system is configured to vary air termnai fan speed as a function of the bad; NA Item 10 motor and control indicate fan speed during periods of low heating, low cooling, or venttafnn ony is s 66% of peak design air flow or provide supporting documentation far applied exception C403,7, Appfwation of .!ogle duet Indicate VAV termnal types on plans; verify fan -powered termnal inks Cray serve perimeter Rem 11 uebs an -powered terminal nes w kh envelope loads; verify ail other zones are served by single duct terminal not, htlbate DIC contros are configured to autortaticaly reset the primary suppy ar cfm seunmot GW.7, Fan -pow ered teminal unit of all fan -powered terminal units to the mnmurr equired to mairtain ventilation during Rem 12 porters Pit reset ccupied heating or deadeand, based upon the VAV air handling Unit CSA ventilation fraction For spaces > 150 sf w t h occuped density z 25 People / 1000 sf, intlbate space s served by GW.7, High occupancy space adedicatedterminal unit with GC`/ control that resets terminal unit ventilation setpoint; also NA dem13 controls indicate occupancy sensor control that a utomatically reduces minimum ventilation to zero and sets back room heating and cooling setponts by a 5°F For server, electronic equipment, teleco r sunder spaces wIh cooling loads > 5 W/af, NA G03.7, Detlbatetl HVAC systerts intlbate spaces are served by independent HVAC system that are separate from HP✓AV item 14 systems serving rest of buiitling; indicate tletlbated HVAC systems have air economizer controls or energy recovery per C403.3 Exception 9 Indicate whether systems are served by a hgh efficiency heating water plant, or hhigh efficiency chilled w star plant B ormlying via high efficiency heating water plant: I dicate all VAV temora a have hytlronic heating coils served by heating w star systemw rh ether gas -fired miler(s) with thermal GW.7, efficiency, 90%, air -to -water heat pumps, or heat recovery chillers dem15 Central plant efficiency If complying via high efficiency chilled w star plant Indicate all VAV air handlers have cooling coils served by chillers with rated IPLV efficiency that exceeds WSEC fsted IR-V by at least 25% per Table C103.23(7) (note water-cooled IFLV s max, all others arc inn); htlbate Tallest chiller or compressor in plant s S 20% of total plant capacity, or provide thermal storage sided for, 20% of total plant capacity Indicate DEC system Includes a fault detection and iiagroatteA(LED) system confguretl to G03.7, Fault detection ant tonror operation and provide fault reporting of required parameters for all VAV air handlers kem16 d tics gn,s ant VAV air ternmel units in the HWAV system HVAC E ui ment Ener Use Meterin For new buildings>50,000 sf and building addtions> 25,000 af, verify energy use metering NA C4W.3.1 FNACe ntener gy of all equipment used to prov itle space heating ant cooling, dehumidification and-wiatbi erng metering will be provided per G09; indicate equipment eligible for excepton Documentation and S stem S ec�c Re u ent TO Su ort Commissionin Indicate that all mechanical systems, equipment, and controls for w hbh the WSEC requires control functions and / or configuration to perform specific functions are required to be WOi, Scope of mechanical oned; .1 For buildings wkh?240,OW Nor, total output cooling capacity or z 300,OW Blurb total output Yes G082 systems pomnssioning heating capacity, indicate that all trechanics systems regardless of indiv!due capacity are required to be Commissioned; or provide buildng heatng/ cooling capacity caculation Ing , demonstrating eligh ity for exception Oil Indicate in plans andspecifications that Cx per C408 is req.Ted for.11 appdcable machan"sal WOt, systems; M601 CABS.2.10 Include general sumary wrh at a min m of lens 1 thru 4 of the a plan per Dead 1.2 C4OS7.7 C.—Pioning including: narrative description of activities, responsibilities of the Cx team, schedule of Yes G081,2 requirements in activities including verificeon of project close out docunentatbe per C1036, and conflict of ND01, G08.1.4.2 construction documents interest plan(if required); 1✓601 C103.6 Incid inn general su ry that a CX project report or Compliance Checklist(Figure C408.1.42) shall be completed by the Certified tit Professional and provided to the ow net MJ01, poor n the final mechanical inspection. N501 Air systemad hydronlc hdicate in plans that air and fluid flow rates shall be tested and balanced wrfhn the Yes CASE 2.2 systere aleneng tolerances defined in the specifications; intlbate systems shall be balanced I,, rrramar to first minimize throttling losses, then adjusted to meet design flow contldions NCO2 Yes G08.2.2.I Arsystembalancing nticate devices that proved the capablity to balance all suppy ail outlets, zone lermnas and deuces .I, handing equipment requring system balancing N002 Hydronesystembalancing Indcate device,that prov tle the capablity to solar¢, balance and nose,refbw across all NA G08222 devices hytlronic egtrlpmont requirng system RelencIng ioludng heatng and cooling coils and pumps Yes Ct08,23 Functional performance Identify in plans and specifications the intended opeation of allequipment and controls during M002, testing criteria all mxdes of operation, lncludng Interfacing between new and exstng-to-remain systems IU601 Project Close Out Documentation indicate In plans thatpe,ject close out documentation and training of bustling operations pr.jec Documentation and t personnels required for a0 mechanical components, equipment Intl systemw governed by Yes Ct W.6 a quirem subrrittaI the code; indicate close out documentation shall include: record documents, O&M manuals, requirements applicable WSEC Compliance forms and calculations M002 :;-w"'vA w'S.^xa *ai'v?x .. `:wM�4.vm k p.,....vy. Mechamdal Fan,S stem Power All r,V .wane¢ � MECH-FA � A ,.� w. �, � , � e.._.. � NSYS SUM: Project Title: tfWA5 Seattle ate 1/1/2015 For Building Dept. Use HVAC Air Distribution S stem h d I Y Sc e ixe Listall HVAC systems thathave the capabilityto provide heating and/or cooling to the spaces theyserim System or Primary suppy Fan kD Speed Control (Note 1) Description (Note 2} System Total Nameplate HP (Note 3) Fan Power Calculation ftequiretl (Note 4) RTU-1 CV Packaged Gar/Electrc RTU w/Supply Fan 0.75 No RTU3 TO8 CV Packaged GoiOlSectr c RTU w/Supply Fan and Powered Exhaust Fan 3.625 No RTo9, 10 CV Packaged Gas/F3ectrlc RTUw/Supply Fan 2.75 No FillI CV Packaged Gas/Fie at, is RTU wtSupply Fan 7 No Note[ Constant VOlume(CV) VariableAh, Volume(VAV), orHosptalsob CVsystemthatqu,lir,,for VAVbudgetper C403.2, 11. f Exception 1. Smglezone VAV systems shall op,pbYas CV Note 2- Describesystemirmandlisf all fans (orgr.ups off...) associated weth the dettveryand removal ofeandinoned airby the system, include all suppty, re urNrela", exhaust and exhausthoods (>7 hp), make-up air, dedicated outside air (DOAS), booster fans, andserles ten -powered terminals. VAVparelleffan-powered terminals and PC..., fzerrelfeffarre donotmedto beincludedifthemns do not operate at peak meadiNona. Note3 - Emorthe total nameplatehp of aft f os aea--fed with Mcdeliveryandremovat of conditioned budythe system. Note 4 - Thisformautomab'cailyide dfi.. whether aMECH-FANSYSfbrmis,eWiredfo demorstratepompiiance Wth fhefan pouter allowance (Yes), or lhls oc rmedon es notequfredb praise the system has a compered total nameplatemoter hp [hall, Shp or less(No) MECH-FANSYS Forms Add Fan System A MECH-FANSYS form. shall b eprovidedfor each system with rose nameplate no greater than 5 hp. Select(Add Fan Form System Form) to ipe eras, an additional form. Addedlerms can be doetedwimbuffen in cell E32 ofthe added form. { RovkI central and zone level DCC controls as required based on system application, NA G03.2.4.72 DCUsyslemcapabkdbs capaciy or size thresholds Intl other qualification per Table CA012.4.12.1 Identrfy all CDC system input/output control Deints indicate capability for trending and gaphbal display Ductin S tams C4W 28t hdicate on pt. sthatallduetworks peran.e.dand sealed per INlC FVW2 Yes C403283 Ductconstruction For OSA duies.11, aso lndsate on pkns that R.M.rk-.is air leakage requirements per C4o2.5 amd vapor retarder requirempnls per the IBG NA i Yes C4C3283 act pressure ( Identify location of low, medium and high pressure ductwork on plans All low class fx:ationa pressure NA C403.2.833 High pressure duct leakage Indicate high pressure duct leakage testing requirements on plans; provide test results to test jurisdiction w hen correlated For suppty and return ductwork located in uncond t oned space or outdoors and cate R-vane of insulation on ductwork on plans, identify cI mate zone; rote exceptions taken DOUG C403 2 81 For suppy ductw.n, located in contlitionetl space, itlentky if design suppy temperatures < Yes C403282 Duct insulation 55°For>105°Fand indicate R-value ofinsulation on this ductwork on plans; note exception taken -2 For OSA ductwork, shafts Intl plenums, Indicate R-value of insulation on these elements on plans per Table G02.1.3 for steel -(rated wals; note exception taken NA Pi in s stems NA C403.29 Pi in lotion p g nsu Indicate des gn temperature range of fluid conveyed n pip ng and thickness of insulation (in inches) on hytlronic piping plans; or exception taken Rpmtg insulation exposed to Indicate method of protection of pipe insulation fromdamage l dogrztlabon on hytlronic piping NA G032.9.t ¢other plans Economizers Identify in equipment schedules on plans or in MECFFEQ forms all cooing systems mquinng contros N%Oi Yes G033 Ai...no—.,required Rovtle NECH-EWNO mini fi ti g y t utf' g xceptions mci,ding thosewithwaterside ecomet I' f 'r ecouooson intlsate on plans eligible Iexception(s) taken aid Treasures to coney w ith....pI,n(s) YES Yes C403.3.1 Integrated so nomzer Ind'i—merand water -side ecorwnizers configured for partial cooling operation even operation -air and water wheneatltlilionalmeehansalcoolingisrequkedto meetthebatl wad Yes C40332 E.-curtzer heating system Verfy controlrrethod of HVACsysteme with econ.Cp— does hat increase building heating impact- ar and water nergy usage during nor al operation NMI Yes C403.3.3.1 Indicate m odulatirg OSA and return air dampers are con( ured to rovitle u to 100% OSA Air economizer Capacry g p p for cooling NMI Verify mechanical cooling contros ammorbevol with ar...munz controls so the outside C403 31 air Canter remains in 160 % open portion w hen machanini cooling s also required to meet Yes G03.3.3.2 Integrated air economizer the cooling load, until the leaving air temperature s <45°F NMI Fors tens with cool'uh Ids gcapacityz65,OW BtWh ve�fy thateo�t ofof ecorrotr¢er dangers is not based only on nixed a r tempeature' or exception taken N601 Yes G03.3.3.3 Air econeTrizer high limt indicate high lam shut-off Control method and required hgh limit per Table C403.3.33 controls y6gt For eligible systems w here water -side economizer ray be provided in lieu of air economizer, NA C40134.1 Water econonal aspactt, indicate system s capable of lW% design cooling capacity at 50°F tlb/45°Fwb OSA tenpen eum. Np NA C4.. Water ¢con omen m I-. Indicate pressure drop across precooliril coils and heatexcleggets in water,mran izer pressure drop syrtemtlo not exceed pressure drop ROD NA Yes C4033.1 DX air handling equipment For DX air handlers w ah economizer and cooling capacity 265,0DO SPIN, refer to HVAC N%)02, Control System Controls for requirements NMI DX I, uipn m-en o im, i For DX air handlers with ede ontzer and cooling capacity z 54,000 BNAL, provide a fault N601 Yes G03.2.4.7 fault detection and detection and diagnostics(FEE) systemic monitor economizer systemoperetion and report tlimgnostke faults S stems Re u n Ener Recover For systems with tlesgn CSA > 5COO,fin or design suppty air cfm and % OSA exceeding the values in Tables G03.5.1(1) or (2), indicate exhaust air ER method; or exception taken Energy recovery(EH)- withsuppon0ng-dulatmer NA G035.1 ventdatbn/exhaust Fo, ooms sec ed by nuitple systemw with aggregate tlesgn OSA> 5,000 cfm or aggregate systems tlesgn supply ar Ph,and% OSA exceeding the values in Tables C403.5.1(1) 0,(2), indicate exhaust air ER method' or exec tion taken with su ortin cabin p pp g a ons Indicate ER rated effectiveness that nc eases OSA enthalpy by z 50% based on delta bete,... OSA and return air enthalpiesnat design contldions Laboratory exhaust For buildings with total lab exhaust > 5,000 cfm hdicate method of energy recovery used tC NA C4032'7'2 systems (energy recovery) pre-condid n laboratory make-up air, ER effectiveness (min 25°F), or alternative method per xceptbn (VAV exhaust, rem-contlitionetl makeup, or CERM calculation) For buildings with pools or spas wflh water surface area > 2W sf, Intl bate exhaust air ER G0,110.4 Pons and a Penis s p rma pa rrethotl and use of waste heat(preheat vent0atbn air, pooiwater or service hotw ater); or NA (under exhaust systems xceptbn taken I C404.11) (energy recovery) Indicate ER system has the rated effectiveness and is configured to decrease the ex heist ale temperature at design Canadians by z 36°F -For bu ldings with on site steam heating system:, indicate condensate water ER Energy NA C403.5.2 recovery - steamcondene.te systems For buildings that use off-skegenerated steamwhem condensate is not Anurne.—Fe indicate on -site condom Bate water ER r�^'^e[swaw-amity,, Des,i e�x.,"`1 �„-sa Fa°r+vP*�'°.,n n�Load�Calculation�Summa " ua�4w 'OtEtin"Vi:- a'es.* `n,: � �,�MECHv-LOADnCALG .+ ,i T, �"T t a , �® m .. e®��®-- "� —mm I am �®�'�1�,-- 1■Iiaia�:rS����'1i—■ ARCHITECT OF RECORD: BRRARCHTTECfURE, INC 6700 ANTTOCH P[Aza EA3M0 MFRRI , KS 662s', warwinoserl,com TEL: pia-263-s-is FAX: are-262-e0A4 CONSULTANT CONSULTANT LOGO ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA, KS 66214 TEL 913.742.5000 FAX 913.742. 500" VARRYLHENDERSONENGINEERS.COM '.. 1950002714 '.. WA. CORPORATE NUMBER: 1754 '.. 06,30,20 COPYRIGH NOTICE me. Use or w neo- reference , Irv,ne on 9 v[horuea Ina may he ISSUES & REVISIONS PROJECI"NAME UWAS SEATTLE PROJECTADDREAS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ...................... ISSUED FOR PERMIT JAMES MCCARTY CHECKED TO SOE .....1 JTW DOCUMENT DATE: 06/14/19 PROJECT NO. 1950002714 PROFESSIONAL SEAL A s.a A.,q .@ . «r r rt�"yA W Jun 20 2019 OJECr NAME: UWA5 (SEATTLE) BUILDING ADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ENAME. MECHANICAL SPECIFICATIONS REVIEWED FOR CODE COMPLIANCE PRLDECr YEAR: 2019 my REGION: APPROVED '1p-�- `AUG 08 2019 1, ODAYS DATE: 6/13/2019 DRAwI BY: HEI City of Tukwila FLDDR. RAWN Di iE: BUILDING DIVISION 1� 06/14/19 E, UwAS APPROVED BY: i t:CEr c_? CIT`r�Ci ILIX,iiii— i STALE: PROVED DATE: ...� y ,-V PE v?IT CENTER MAZO SCWSMER amazon SHEET: M003 X / -- -- -- -- -- 7777 777 :7 77 COOLER 77 - — -- — - — - — - — - — - — - — --- - — - — I — - — - — - — - — - — -- -- -H --Iy iHT BULLPEN 3 1 RTUQ �IS RTU-7 M�5-01 M01 9 DB2 19x19 6 10 3 RTU 5—1�501 M501 3000 / --L- El 0 16X-I4— - — - — - — - — 32X18 1oX1Po 14xl0 )(12 SC' G —\ 0 SG 2) 700 f14Xt4lIX12 12XI2 11 t@o) 4 8 X14 2 ED l.SO4X1 2 24X12 3OX14 SO 6"XIC 75 5 --14X16 32X1 floo SO 1 1100 0 1E -=H Sol o T lollo D CD 12)(12 ED 75 TRANSFORMATION (Typ) ROOM — — — — — — — — — — — — — — -- — — — — — — — — — — — -- — — — — — — — — — — — -- — — — — — — — — — — — -- - — — — — — — — — — — — — — -- -- — — — — — — — — — — — — — — — --- — — — — — — — — — — — — — — — — -- — — — — — — — — — — — — — — — — -- REPLACE v RTU-1 EXISTING RTU-2 a7:q=— 7.5 TON BREAKROOM *me K-101- 1i PLAN SCALE: 3/32"=V-0" P45-01 Tj83'T FREEZER 07771MI'mmT i RTU 1 3 600 4 =X, 8 PLAN NOTES: 1. ROUTE THE RETURN DUCT JUST BELOW THE BOTTOM OF THE ROOF . STRUCTURE PROVIDE 22- X21 RETURN AIR OPENING IN TOP OF DUCT AN. COVER WITH 112* WELDED WIRE MESH. 2. PROVIDE DROP BOX DIFFUSER BELOW BOTTOM OF THE ROOF STRUCTURE. 3. INSTALL THERMOSTAT AT 48"A.F.F. 4. PROVIDE COMBINATION CONCENTRIC INTAKE VENT AND EXHAUST FLUE FROM WATER HEATER UP THROUGH ROOF AND TERMINATE WITH WATER HEATER MANUFACTURER'S CONCENTRIC TERMINATION KIT IN COMPLIANCE WITH LOCAL CODES. REFER TO SPECIFICATIONS AND MANUFACTURER REQUIREMENTS FOR APPROVED FLUE AND INTAKE MATERIALS AND SIZES. 5. PROVIDE I2X1 0 RETURN AIR OPENING WITH 1/2'WELDED WIRE MESH. BALANCE TO 520 CFM. 6. REPLACE EXISTING RTU. MOUNT NEW RTU ON EXISTING ROOF CURB UTILIZING A CURB ADAPTER. RE -USE ALL DUCT DROPS, DUCTWORK, AND ETIG AIR DEVICES IN SPACES SERVED 7. ROUTE 6" EXHAUST DUCT ABOVE CEILING OF RESTROOM AND OUT TO WAREHOUSE. ROUTE UP ALONG WALL TO ROOF PENETRATION. USE GREENHECK ROOF CAP. 8. MAINTAIN 10'-O'MINIMUM CLEARANCE FROM OTHER OUTSIDE AIR SOURCES AND/OR EDGE OF ROOF. 9. REMOVE GAS UNIT HEATERS. CAP FLUES AND INSULATE. I I ------ ------ ------ ------ IF- ARCHITECT OF RECORD: ERR ARCHITECTURE, INC 6 00 AN— PLAZA SUITE 300 mERRI—,--. --B, — TEU 913-262-9095 PAID CONSULTANT CONSULTANT LOGO HENDERSON ENGINEERS 8345 LENEXA DRIVE, SUITE 30D LENEXA, KS 66214 TEL 913.742,50 0 0 FAX 911742.5001 WWW.HENDERSONENGINEERS.COM 195000 714 WA CORPORATE NUMBER: 1754 0613OP20 COPYRIGHT NOTICE dj— p-d-=:.v=dBof - - —,Bg ., }ect inquires the services of h or ma dawm9 V I I'd - `B dZ� V P_., ro me law. ISSUES & REVISIONS A 3ECTNAME SEATTLE PROTECT ADDRESS . . ...... 18323 ANDOVER PARK WEST TUKWILA, WA 98188 o 4' 8! 1Z 16' SCALE: 3/32"=V-0" ISSUED FOR PERMIT PREDERTM NAGER: ]AMES MCCARTY CHECKED — SIDE RAwN ETY JITIN DOCUMENT DATE: 06/14/19 PROTECT IN 1950002714 PROFESSIONAL ....... REVIEWED FOR CODE COMPLIANCE APPROVED AUG 08 2019 CCity. Of Tukwila BUILDING DIVISION RE C: P —ER -`0 1 T C PROJECTIN ME: UWAS (SEATTLE) 1111-1111ADIRCEII ..ANDPOVER I WEST TUKWILA, WA 98188 .—ME: OVERALL i PLAN PRO— 1EAE: 2019 TO DAYS DATE; . /201 EI ILIG —11: IRIIN ./,. 4/19 BUILDIN—PE: UWAS APPROVED BY SCALE: APPROVED DATE: MAZON DISPI-AINER amazon cul l 20 INSTALL CONCENTRIC INTAKE AND EXHAUST VENT TERMINAL FURNISHED BY HEATER MANUFACTURER ABOVE LOCAL MAXIMUM SNOW DEPTH. PROVIDE ROOF PENETRATION SEALING PER SEPARATE DETAIL. IF ALLOWED BY CONDITIONS AND LOCAL AUTHORITIES, PROVIDE SCHEDULE 40 PVC PIPE AND FITTINGS WITH SOLVENT WELD JOINTS, PER SPECIFICATIONS, 3" OR 4" SIZE AS SHOWN ON PLANS. REFER TO SPECIFICATIONS FOR ALTERNATIVE INSTALLATION MATERIALS. CONDENSING WATER HEATER PER SPECIFICATIONS AND SEPARATE DETAIL. DETAIL SHOWS GENERAL SCHEMATIC REQUIREMENTS. ADJUST TO SUIT FIELD CONDITIONS. INSTALL THROUGH ROOF AS SHOWN ON PLANS. REFER TO MANUFACTURER'S INSTALLATION MANUAL FOR MORE INFORMATION: MAINTAIN PROPER DISTANCES FROM EACH OTHER, AND FROM OTHER CONSTRUCTION FEATURES; VERIFY PIPE SIZE FOR MAXIMUM LENGTH OF RUN AND QUANTITY OF FITTINGS. DO NOT INSTALL BARE PVC PIPE IN AIR PATH PLENUMS: WRAP PIPE WITH FIRE -BARRIER INSULATION IF ALLOWED BY LOCAL AUTHORITIES, OR PROVIDE STAINLESS STEEL VENT PIPE, PER SPECIFICATIONS. VERIFY WATER HEATERS PROVIDED WITH CONDENSATE NEUTRALIZATION KITS HAVE THEM PROVIDED. $ SEALED COMBUSTION WATER HEATER VENTS NO SCALE CONNECT TO SUPPORTING CONNECT TO SUPPORTING STRUCTURAL MEMBER STRUCTURAL MEMBER - — LONGITUDINAL /J DUCT SIZE CABLE BRACE LONGITUDINAL ai CABLE BRACE g TRANSVERSE m � 7 CABLE BRACE 7 A B TRANSVERSE BRACE j I 2 MAX 1 MIN I LONGITUDINAL 1 I BRAES PLATE SHEET METAL STRAP WASHER (MIN 2-1/2"x12 GA. STRAP) ij� 1/4" MAX 3" LONG ANCGLE PLATE WASHER TRANSVERSE HANGER LONGITUDINAL HANGER A�BRAING DETAIL B BRACING DETAILALE NO SCALE DOUBLE HANGER SEISMIC CABLE %1 BRACING FOR ROUND DUCTS UP TO 84" NO SCALE SEALING MATERIAL SECURE SEISMIC SHEET METAL FLASHING RECEIVER EXHAUST FAN BRACKET WITH WOOD NAILER - OMIT WHERE WOOD NOT WITH BIRDSCREEN S.S. SCREWS ROOFTOP UNIT ALLOWED BY LOCAL BUILDING CODE HIGH -DOMED, CAPPED, GASKETED _ _ FASTENERS (APPROX. 18" O.C. AND MINIMUM TWO FASTENERS PER SIDE) _ SEISMIC RESTRAINT BRACKET ROOOOFT P UNIITCBASE SECURE EXHAUST FAN R HASHING EXTEND DUCTWORK TO ROOF CURB OVER TOP OF CURB, o SECURE DUCTWORK LL TO CURB NAILER PREFABRICATED INSULATED CURB WITH TREATED w SECURE CURB TO WOOD NAILER. N DUCT ROOF WITH SCREWS, PINS, OR BOLTS ROOF INSULATION < F — '-SPECIFIED MEMBRANE BASE FLASHING APPROX. SPECIFIED ROOF MEMBRANE m COVERBOARD INSULATION THERMAL INSULATION ROOF DECK FASTEN ANGLE IRON SECURELY TO DUCT ROOF DECK REFER TO ARCHITECTURAL DRAWINGS \SECURE AND ROOF STRUCTURE DAMPER PER SCEHDULE, SECURE CURB TO ROOF STRUCTURE TO DUCT FROM ABOVE TO CAULK OPENING ALLOW SERVICE OR REMOVAL OF AROUND DUCT - DAMPER FROM ROOF EXHAUST DUCT UP THROUGH ROOF. SEE NOTES: PLANS FOR SIZE AND 1. CUT METAL DECKING TO ALLOW CURB INSTALLATION ON STEEL FRAMING. LOCATION. AFTER CURB IS SET IN PLACE, TRIM REMAINING METAL DECKING AND INSTALL WITHIN CURB. TACK WELD DECKING TO SUPPORT STEEL. DO NOT DOWNBLAST EXHAUST WELD INTERIOR DECKING TO ROOF CURB. PROVIDE ADDITIONAL CROSS 4 FAN DETAIL FRAMING TO SUPPORT INTERIOR DECKING AND FILL MATERIAL AS REQUIRED. SEISMIC ROOF CURB DETAIL NOT TO SCALE 3 NO SCALE RETURN AIR DUCT NOTES ROOFTOP HVAC UNIT SUPPLY AIR DUCT CANVAS CONNECTION (TYPICAL) RE: ROOF CURB DETAIL THIS SHEET 1. PROVIDE OPENING THROUGH ROOF AND ROOF DECK INSULATION NO LARGER THAN REQUIRED TO ALLOW DUCTS TO PASS THROUGH. REFER TO PLANS FOR DUCT SIZES. TRANSITION AS REQUIRED IN ROOF CURB TO RTU SUPPLY AND RETURN OPENINGS. 2. PROVIDE SLOPED ROOF CURB TO INSTALL ROOFTOP UNIT LEVEL TO ENSURE PROPER DRAINAGE. COORDINATE ROOF SLOPE WITH ARCHITECTURAL. FLASH AND COUNTER FLASH ROOF PENETRATIONS, ETC. TO ENSURE WEATHER TIGHT INSTALLATION. n1 ROOFTOP UNIT WITH DUCTWORK DETAIL i V NO SCALE a o� �w m� w� � N 0 a~ N o�w C ,'. ( CL BOLTS EQUAL DUCT SIZE OF ANGLES w-w w ? x w r.l vI 1" TYPICAL 4 SIDES 8 INSULATION WHERE REQUIRE NOTES: 1. CABLE BRACES MAY BE USED FOR SEISMIC RESTRAINT IN LIEU OF ANGLE BRACES. CENTER SEISMIC BRACING FOR RECTANGULAR DUCTS NO SCALE ROUND SUPPLY DUCT OVERSIZE DUCT COLLAR TO FIT REGISTER FLANGE. REFER TO DWG:S FOR REGISTER NECK SIZE. SADDLE TYPE DUCT WITH / NEOPRENE GASKET (TYPICAL) J SUPPLY GRILLE OR DIFFUSER SECURED TO DUCT COLLAR. REFER TO DRAWINGS FOR NECK SIZE, 6 REGISTER MOUNTING TO ROUND DUCT DETAIL NO SCALE CONNECT TO SUPPORTING STRUCTURAL MEMBER TRANSVERSE j -1 /2" CLEAR, NCR BRACE MAXIMUM \` 1 2 MAX 1 MIN VERTICAL HANGER j / \ LONGITUDINAL HANGER ONE EACH SIDE OF DI 1/2" CLEARANCE MAXIMUM -HORIZONTAL BRACE CONNECT TO SUPPORTING / STRUCTURAL MEMBER z / EXISTING SUPPLY AND RETURN DUCT CONNECTIONS TO EXISTING CURB TO RETURN AIR DUCT ROOFI OP NEWD__1 HVAC UNIT NEW INSULATED CURB ADAPTER EXISTING CURB TO REMAIN SUPPLY AIR DUCT NOTES: 1. CURB ADAPTER SHALL INCLUDE ALL REQUIRED SUPPLY AND RETURN DUCT TRANSITIONS TO ENABLE THE NEW ROOFTOP TO BE INSTALLED WITHOUT NECESSITATING DUCT MODIFICATIONS BELOW THE ROOF. 2. INSTALL ADAPTER CURB AND ROOFTOP UNIT IN A MANNER THAT ENSURES A WEATHER TIGHT INSTALLATION. ROOFTOP UNIT %n1 REPLACEMENT UTILIZING ADAPTER CURB a NO SCALE 45' HIGH EFFICIENCY FASTEN TO STRUCTURE TAKE -OFF WITH SQUARE TO ROUND FITTING SHEETMETAL DUCT FLEXIBLE DUCT (MAXIMUM 1" BAND CLAMP OF 5'-0" WITH ONE 90' CONNECT TO AIR ELBOW) DEVICE NECK. UNLESS OTHERWISE NOTED FLEX DUCT d IS SAME SIZE AS AIR DEVICE NECK PULL INNER LINER OVER TAKE -OFF COLLAR & BALANCING DAMPER TAPE SECURELY IN PLACE. PULL EXTERNAL WITH QUADRANT LOCK INSULATION SKIN OVER COLLAR AND LINER & (SEE NOTE SAND 4) TAPE SECURELY IN PLACE. SLICE EDGE OF TAPE AT 45' ANGLE TO PREVENT GAPPING AND LEAKAGE. APPLY MINIMUM 1/2" WIDTH STAINLESS STEEL BAND OVER DOUBLE -SIDED TAPE TO COMPRESS AND SEAL FLEX TO COLLAR. NOTES: 1. CUT OPENING IN SHEETMETAL DUCT ACCURATELY. INSTALL 45' LATERAL TO AVOID VISIBLE OPENINGS AND SECURE FITTING SUITABLY FOR PRESSURE CLASS. 2. INSTALL FLEXIBLE DUCT IN AS STRAIGHT A RUN AS POSSIBLE. USE LONG RADIUS BENDS WHERE POSSIBLE. PULL DUCT TIGHT AT BOTH ENDS AND SECURE BOTH INNER LINER & OUTER INSULATION SKIN WITH TAPE & METAL CLAMPS. 3. EXTEND DAMPER ROD TO ACCOMMODATE INSULATION IF APPLICABLE. PULL ROD END TO EDGE OF DUCTWORK AS REQUIRED AND SEAL TO MAINTAIN VAPOR BARRIER. 4. INSTALL LOCKING QUADRANT TO HANDLE ON BOTTOM OF DUCT FOR EASE OF SERVICE. 45' LATERAL FLEXIBLE rJ DUCT TAKE OFF DETAIL NOT TO SCALE TRANSITION WITH OFFSET TOWARD --- RETURN PLENUM SUPPLY AIR DUCT TRANSITION AND ROOFTOP UNIT RETURN AIR PLENUM WITH LINER INSTALL DROP BOX - ROOF CURB USING FURNISHED RETURN AIR DUCT (SEE f SUPPORT MATERIAL IN ACCORDANCE PLANS) WITH MANUFACTURER'S JOIST INSTALLATION INSTRUCTIONS. RETURN AIR PLENUM REF NOTES ABOVE BOTTOM OF JOISTS 6" BELOW -- JOISTS UNLESS NOTED OTHERWISE ALL -THREAD /I ON PLAN ROD FACTORY INSTALLED CONTRACTORTO MOUNTING TABS SET LOUVER POSITION: INSTALL DROP BOX 30'FOR RTU UNO DIFFUSER WITH RTU O FORAHU NUMBERS READABLE WHILE FASTEN DROP BOX FACING THE REAR OF THE STORE DIFFUSER TO SUPPLY AIR DUCT TRANSITION NOTES: 1. INSTALL DROP BOX SUPPORTS PARALLEL TO MOUNTING TABS ON DROP BOX. 2. SUPPORTS SHALL SPAN BETWEEN ADJACENT JOISTS. PROVIDE ADDITIONAL SUPPORT MATERIAL AS REQUIRED IF OBSTRUCTIONS PREVENT INSTALLATION SHOWN. 7 DROP BOX DETAIL NO SCALE .asp' IMF �I w F REVIEWED FOR CODE COMPLIANCE APPROVED `;AUG 08 2019 City of Tukwila BUILDING DIVISION Cz ffYO*T ','{SYiL I Pc°+1IT i, E N T E P,, ARCHITECT OF RECORD: ERR ARCHITECTURE, INC 6700 ANTEOCH PIMA SUITE MERNAM,AM, K6 66204 www.brrarcO.COm TEL: 913-262-9096 FAX: 913-262-9094 CONSULTANT . ....... ....... ....... CONSULTANT LOGO ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA, KS 66214 TEL913.742.5000 FAX913.742SO01 WWW.HENDERSONENGINEERS.COM 1950002714 WA. CORPORATE NUMBER: 1754 06130/20 COPYRIGHT NOTICE ae�iv w;rh;rs i:roe eiRerepn[dpro)ect s;te orhata la[ertime. Use of Nis tlrawlp9 for reference,A example no[herpro5ett requ;res the servirns o1 roperly licensed arMitectsaM engineers. eprgtluct'ion of Nis drewinq for reux on pother pro5ett Is not authorized ape may be b Ne law. ISSUES & REVISIONS PROJECT NAME U AS SEATTLE PR03ECTADDRESS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ISSUED FOR PERMIT ROIECT MANAGER: LAMES MCCARTY CHECKED BY: SOB DRAWN BY: ITW DOCUMENT DATE: 06/14/19 PROIEC`NO. 1950002714 PROFESSIONAL SEAL . ......... .... .. ...... Jun 20 2019 NAME: UWAS (SEATTLE) BUI TING ADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 w'ENANE' MECHANICAL DETAILS PROTECT YEAR ww REGION: 2019 TODAYS DATE: DRAWN BY: 6/13/2019 HEI BLDG FLOOR: DRAWN DATE: 1 06/14/19 DtNG ttPE: APPROVED BY: uwas SCA LE. APPROYEO BA 19 Z� __A MAZDN DiBCIAIMER amazon SHEET M501 ROOFTOP UNIT CONTROL MATRIX CONTROL FEATURE UNITS RTU-1 RTU-3-7 RTU-8-9 RTU-10 NOTES I SETPOIN SETPOIN SETPOIN SETPOIN OR YM OR YlN OR YfN OR Y/N SETPOINTS COOLING -OCCUPIED SETPOINT °F 75 75 75 75 COOLING- UNOCCUPIED SETPOINT °F 80 80 80 80 DEAD BAND -MINIMUM HEATING AND COOLING TEMPERATURE SETPOINTDIFFERENCE °F 7 7 7 7 HEATING -OCCUPIED SETPOINT °F 68 68 68 68 HEATING -UNOCCUPIED SETPOINT °F 49 49 49 49 DEHUMIDIFICATION SETPOINT-HUMIDITYSENSOR FEEDBACK %RH 46% 46% 4G% 46°!o B PROGRAMMED CONTROL FEATURES HVAC SYSTEM OCCUPIED/U ROCCO PIED MODE- PROGRAMMABLE THERMOSTAT Y N N N B EQUIPMENT ACCESSORIES AND CONTROL MODULES OUTSIDE AIR DAMPER - MOTOR OPERATED (2-POSITION) YRY N N K OUTSIDE AIR DAMPER- MOTOR OPERATED (MODULATING) N Y Y L INTEGRATED ECONOMIZER- DRYBULB TEMPERATURE ENABLE °F N 65 65 E ECONOMIZER FAULT DETECTION AND DIAGNOSTICS (FDD) SYSTEM Y Y Y F, G RELIEF -BAROMETRIC DAMPER Y Y Y RELIEF- CONSTANT VOLUME POWERED EXHAUST FAN N N N H COOLING COIL(DX-ON/OFF) Y N Y M COOLING C OIL (DX- STAGED) N Y N M DEHUMIDIFICATION - HOT GAS REH EAT N Y N O HEATING COIL (NATURAL GAS) T Y Y Y Y M SUPPLY FAN CONTROL METHODS ON DURING OCCUPIED HOURS Y I Y Y Y CYCLE WITH LOADS DURING UNOCCUPIED HOURS Y Y Y Y OPTIMUM STARTSEQUENCE Y Y Y Y CONSTANTVOLUME FAN CONTROL Y N N Y VARIABLE VOLUME -STAGED FAN CONTROL IN RESPONSE TO ACTIVE COOLING COIL STAGES N Y Y N I M,Q SAFETIES, INTERLOCKS, AND ALARMS RETURN FIR SMOKE DETECTOR - SAFETYSHUTDOWN N Y Y Y B,F JDIV, 23 CONTRACTOR SHALL PROVIDE CONTROL PANEL(S), WRING, THERMOSTAT(S), TEMPERATURE SENSOR(S), HUMIDISTAT(S), AND/OR CO2 SENSOR(S) WHERE SHOWN ON THE DRAWNGS AND AS REQUIRED TO FACILITATE THE SCHEDULED CONTROL MODULES AND SEQUENCES OF OPERATION. EACH UNIT SHALL CONTROL BASED ON ITS OWN INTERNAL SAFETIES,TIME DELAYS, AND SEQUENCES UNLESS NOTED OTHERWSE. COORDINATE WITH OWNER FINAL BUILDING AND EQUIPMENT SCHEDULES DURING STARTUP, REFERENCE DMSION SPECIFICATIONS FOR INDIVIDUAL DEVICE REQUIREMENTS. NOTES: A PROVIDE UNIT WTH TERMINAL STRIP TO RECEIVE CONTROL INPUTS) COMMUNICATED FROMACENTRAL DDC CONTROLLER. BAS SHALL PROVIDE REMOTE SETPOINT ADJUSTMENT,SCHEDULING, AND MONITORING OF THE POINTS LISTED IN THE SCHEDULE FOR EACH UNIT. S. DIVISION 23 CONTRACTOR SHALL PROVIDE DEVICE. E. IF SETPOINTVALUE IS LISTED, IT INDICATES ECONOMIZER HIGH-LIMITSHUTOFF. UNITSHALL BE IN ECONOMIZER IF CONDITIONS ARE LESS THAN SETPOINT. THE FOLLOWING SENSORS SHALL DETERMINE ECONOMIZER ON POINT. OUTSIDE AIR TEMPERATURE; DIVISION 23 PROVIDED AS PART OF ECONOMIZER CONTROL MODULE. OUTSIDE AR HUMIDITY; DIVISION 23 PROVIDED AS PART OF ECONOMIZER CONTROL MODULE. R DEVICE SHALL BE FACTORYMOUNTED AND PRE-WRED FOR OPERATION SUBJECT TO THE ONBOARD CONTROLLER. G. PROVIDE UNIT WTH AN FDD SYSTEM CONSISTING OF PERMANENTLY INSTALLED OUTSIDE AIR, SUPPLYAAR, AND RETURN AIR TEMPERATURE SENSORS. THE UNIT CONTROLLER SHALL AT A MINIMUM BE CAPABLE OF PROVIDING SYSTEM STATUS OF ECONOMIZER, COMPRESSOR, HEATING, MIXED AIR LOW LIMIT ALARM, AND SENSOR VALUES, EACH OPERATING MODE SHALL BE CAPABLE OF INDEPENDENTLY OPERATING FOR TESTING. THE SYSTEM SHALL REPORT FAULTS TO AN APPLICATION ACCESSIBLE BY SERVICE PERSONNEL. THE FOLLOWNG FAULTS SHALL BE DETECTED: AIR TEMPERATURE SENSOR FAILURE, ECONOMIZER ENABLEDIDISABLED WHEN ECONOMIZER SHOULD BE OFFION, RESPECTIVELY, DAMPER NOT MODULATING, AND EXCESS OUTSIDE AIR. H. POWERED EXHAUST FAN SHALL STAGE ON AND OFF ACCORDING TO DAMPER POSITION. K. DETERMINE MINIMUM DAMPER POSITION IN FIELD DURING BALANCING TO PROVIDE SCHEDULED OUTDOOR AJRFLOW DUR ING OCCUPIED HOURS. DAMPER SHALL BE CLOSED DURING UNOCCUPIED HOURS. L. EQUIPMENT MANUFACTURER SHALL PROVIDE MODULATING DAMPER AND CONTROLS CAPABLE OF ADJUSTING THE DAMPER POSITION TO MAINTAIN THE SCHEDULED OUTSIDE AIR ON THE DRAWNGS ACROSS ALL FAN SPEEDS. DIV 23 CONTRACTOR SHALL PROGRAM MULTIPLE DAMPER POSITION SETPOINTS IN THE FIELD DURING TESTING AND BALANCING TO MAINTAIN MINIMUM VENTILATION WHEN NOT IN ECONOMIZER. DAMPER SHALL BE CLOSED DURING UNOCCUPIED HOURS. M. UNITARY CONTROLLER SHALL MODULATE AND/OR CYCLE SUPPLYFAN SPEED SETTING AND COIL CAPACITYSTAGES SUBJECT TO THE INTERNAL SAFETIES AND SEQUENCES TO MAINTAIN SCHEDULED SETPOINTS. O. PROGRAMDEHUMIDIFICATION SEQUENCE BASED ON ZONE AIR HUMIDITY. Q, PROVIDE STAGED FAN CONTROL WITH MINIMUM FAN SPEEDS. LOW SPEED SHALL NOT EXCEED 66%OF FULL SPEED AND SHALL DRAWING MORE THAN 40% OF FAN POWER AT FULL SPEED. ROOFTOP UNIT SCHEDULE (DX COOLING, NATURAL GAS HEAT) MARK AREASERVED MANUFACTURER MODEL UNIT SUPPLYFAN COOLING COIL HEAT EXCHANGER MIN ELECTRICAL WEIGHT NOTES TYPE O/A (LBS) CFM ESP NOM VFD TH SH EAT LA7 REFR MIN EFF MIN NO MIN OUT ROM INPUT MIN EFF EAT LAT MIN NO VlPH MCA MOCP piSC (IN) HP (YIN) (MBH) (MBH) (°F DB) (°F WB) ('F DB) (°F W6) TYPE (EER) (LEER) SEER STAGES (MBH) MBH) (%) (°FOB) (`F DB) STAGES CFM TYPE RTU-1 OFFICES TRANE YHC060 CV 2,000 0.6 1.0 N 46.3 40.5 76.7 63A 58.0 55.3 R410-A 14.2 -- 14 1 48 60 80% 64.2 86.3 1 200 46013 14 20 NF 1000 A-E, G-K, WE RTU-3 WAREHOUSE TRANE YHC120 CV 3,600 66 2.75 N 97,6 93.1 76.0 67.7 535 51.43 R410-A 124 14.7 - 2 120 150 80% 64.6 95.3 2 320 460I3 22 25 W 1650 A-L,11-R RTU-4 WAREHOUSE TRANE YHC120 CV 3,600 0.6 275 N 97B 93A 76.0 61.7 53.5 51.43 R410-A 12.4 14.7 2 120 150 80% 64.6 95.3 2 320 460t3 22 26 NF 1650 XL, N-R RTU-5 WAREHOUSE TRANE YHC120 CV 3,600 0.6 97.6 93A 76.0 61.7 53.5 51.43 R410-A 12A 14.7 - 2 120 150 80% 64.6 95.3 2 320 46013 22 25 NF 1650 A-L, N-R RTU-6 WAREHOUSE TRADE YHC120 CV 3,600 0.6 97.6 93.1 76C 61.7 53.5 51.43 R410-A 12A 14T 2 120 150 80% 64.6 95.3 2 320 46013 22 25 NF 1 550 XL,N-R RTU-7 WAREHOUSE TRADE YHC120 CV 4,000 0.6 97.6 93.1 76.0 61.7 55.1 52.42 R410-A 124 14.7 - 2 120 150 80% 64.9 92.6 2 320 460P3 22 25 NF 1650 A-L, N-R RTU-8 WAREHOUSE TRANS YHC120 CV 3,600 0.1 12.71N 97.6 93.1 76.0 61.7 53.5 51.43 R410-A 12A 14.7 - 2 120 150 80% 64.8 95.5 2 300 460/3 22 25 NF 1650 A-L,N-R RTU-9 BULLPEN TRANS YHC092 CV 3,000 0.6 67.5 65.6 77.i6 61.91 57.0 53.9 ft410-A 12.6 14.5 - 2 120 150 80% 62.5 99.4 2 425 460IS 20 25 NF 1300 Al, N-R RTU-10 BULLPEN TRADE YHC092 CV 3,000 0.6 67.5 65.6 77.t6 61.91 57.0 53.9R410-A 12.6 145 - 2 t20 150 80% 62.5 99,4 2 42S 460t3 20 25 NF 1300 AL, N-R RTU-1t TRRNSF ROOM TRANS YHC036 CV t200 0.6 34.67 27.8 76.69 63A5 55.3 53.t R410-A 124 -- 14 1 48 60 80% 65.6 t025 1 75 46013 12 15 NF t000 MODEL NUMBERS SHALL NOT BE CONSIDERED COMPLETE AND MATERIAL SHALL NOT BE ORDERED BY MANUFACTURER AND MODEL NUMBERS ONLY REMEWTHE COMPLETE DESCRIPTION, NOTES AND SPECIFICATIONS TO DETERMINE THE EXACT MATERIAL AND ACCESSORIES TO BE ORDERED. THE MANUFACTURERS LISTED ARE THE BASIS FOR THE DESIGN. NOTES: A REFER TO SHEET M001 FOR ROOFTOP UNIT CONTROL MATRIX. B. EQUIPMENT SIZED FOR 95°F AMBIENT TEMPERATURE. C. PROVIDE 2 INCH MERV 8, EFFICIENT PLEATED THROWAWAYAIR FILTERS. D. PROVIDE FACTORY MOUNTED DISCONNECT INSTALLED ON SERVICE SIDE OF UNIT. E. STARTERS FOR ALL MOTORS SHALL BE FURNISHED INTEGRAL WTH UNIT. F. PROVIDE FACTORYMOUNTED VARIABLE FREQUENCYDRIVE OR 2-SPEED MOTOR TO FACILITATE STAGED FAN SPEED CONTROL, G. PROVIDE SINGLE POINT POVVtR CONNECTION, H. COORDINATE SIZE OF CONDUCTOR TERMINATION LUGS WTH CONDUCTOR SIZES SHOWN ON ELECTRICAL DRAWINGS. J. PROVIDE 125 VAC, 20 AMP DUPLEX CONVENIENCE RECEPTACLE MOUNTED TO UNIT READY FOR FIELD WIRING WTH ACOVER UL LISTED FOR WET AND DAMPER LOCATIONS WHEN IN USE, K. PROVIDE MOTOR HORSEPOWER TO OVERCOME INTERNAL UNIT STATIC PRESSURE DROP PLUS SPECIFIED EXTERNAL STATIC PRESSURE DROP. NOMINAL MOTOR HP SHALL BE NO LARGER THAN THE FIRSTAVAILABLE NOMINAL MOTOR SIZE GREATER THAN THE REQUIRED BHP, L. PROVIDE SEISMIC INSULATED ROOF CURB WTH MINIMUM HEIGHT OF 12 INCHES. PROVIDE SLOPED CURB IF NEEDED TO MATCH ROOF SLOPE. M, PROVIDE ADAPTER CURB SIZED TO FIT ON EXISTING YORK D6CG060 ROOFTOP UNIT FIELD VERTYEXACT CURB REQUIREMENTS PRIOR TO ORDERING. N. SCHEDULED WEIGHT IS THE MIAXIMUMALLOWABLE OPERATING WEIGHT OF THE EQUIPMENT O, COOLING COIL LAT IS LEAVING AIR TEMPERATURE OF UNIT. P. PROVIDE GUARDS TO PROTECT CONDENSER COIL FROM HAIL OR OTHER DAMAGE. Q. PROVIDE HEATER TO MEET OR EXCEED SCHEDULED MINIMUM MBH OUTPUT. NOMINAL INPUT IS BASED ON LISTED MANUFACTURER'S STANDARD PRODUCT. COORDINATE EQUIPMENT GAS LOAD WTH PLUMBING CONTRACTOR IF DIFFERENT FROMTHAT SCHEDULED. MEET MINIMUM EFFICIENCY SC HEDU LED. R. PROMDEBACNETCOMMUNICATIONSINTERFACE- GRILLE, REGISTER AND DIFFUSER SCHEDULE MARK MANUFACTURER SERVICE MODEL CONSTRUCTION FACE MOUNTING FACE SIZE MAX MAX PRESS. NOTES TYPE TYPE LOCATION (IN) NO DROP (IN. WC) DB1 AES SUPPLY ADB-1-10-4 STEEL DRUMLOUVERS DUCT 1OX20 40 CA1 AB,C,E D32 AES SUPPLY ADB-1-74 STEEL DRUMLOUVERS DUCT 6X18 40 OA1 ABO,E CD PRICE SUPPLY ASCD ALUMINUM SQUARECONE SURFACE 12X12 0.1 Au EG PRICE EXHAUST 530 STEEL LOUVERED SURFACE NECK+7/8" 0.08 B,C,D,E RG PRICE RETURN 80 ALUMINUM EGGCRATE SURFACE SEE PLAN ODB B-D SG PRICE SUPPLY 520D STEEL LOUVERED DUCT NECK+7/S" 0A B-D MODEL NUMBERS SHALL NOT BE CONSIDERED COMPLETE AND MATERIAL SHALL NOT BE ORDERED BY MANUFACTURER AND MODEL NUMBERS ONLY REVIEW THE COMPLETE DESCRIPTION, NOTES AND SPECIFICATIONS TO DETERMINE THE EXACT MATERIAL AND ACCESSORIES TO BE ORDERED, THE MANUFACTU NOTES: 0. 4-WAY THROWPATTERN UNLESS OTHERWISE INDICATED BYFLOWARROWS ON DRAWINGS, 6. NECK SIZE SHOWN ON DRAWNGS, PROVIDE BRANCH DUCT TO MATCH NECK SIZE UNLESS OTHERWSE SHOWN ON DRAWINGS, C. BAKED ENAMEL FINISH, NMITE TO MATCH CEILING COLOR. D. FRAME TYPE TO MATCH CEILING/WALL CONSTR UCTION,COORDINATE WTHARC HITECTURALREFLECTED CEILINGAWALLPLAN - (E. PROVIDE WTH MOUNTING ACCESSORIES FAN SCHEDULE MARK SERVICE MANUFACTURER MOUNTING MODEL CFM ESP NOM FAN DRIVE VFD ELECTRICAL WEIGHT NOTES DESCRIPTION (IN) HP RPM (BELT/DIRECT) (Y/N) (LBS) VfPH DISC TYPE STARTER TYPE EF-1 RESTROOM GREENHECK CEILING SP-A50-90-VG 70 0,23 t16 838 DIRECT N 11511 FACTORY-NF -- 12 C,F,G EF-2 RESTROOMS GREENHECK ROOF G-O60-VG i50 0.25 t16 1725 DIRECT N 11III FACTORY-NF 50 AB, D, E,G MODEL NUMBERS SHALL NOT BE CONSIDERED COMPLETE AND MATERIAL SHALL NOT BE ORDERED BY MANUFACTURER AND MODEL NUMBERS ONLY. REVIEW THE COMPLETE DESCRIPTION, NOTES AND SPECIFICATIONS TO DETERMINE THE EXACT MATER WAND ACCESSORIES TO BE ORDERED. THE MANUFACTURERS LISTED ARE THE BASIS FOR THE DESIGN. NOTES: A PROVIDE SEISMIC INSULATED ROOF CUR B WTH MINIMUM HEIGHT OF 12 INCHES. PROVIDE SLOPED C UR B IF NEEDED TO MATCH ROOF SLOPE. B. PROVIDE BIR DSCREEN AND GRAVITY BACKDRAFT DAMPER. C. PROVIDE R UBBER IN SHEAR ISOLATION AN D ALL-TH READ HANGING RODS. D. PROVIDE WTH MAN UFACTU RER'S ELECTRONICALLY COMMUTATED(EC)MOTOR. E. NOMINAL MOTOR HE SHALL BE NO LARGER THAN THE FIRST AVAILABLE NOMINAL MOTOR SIZE GREATER THAN THE BHP. F. PROVIDE WITH INTEGRAL (TO FAN) BACKDRAFT DAMPER AN D MANUFACTURERS ROOF CAP. G. INTERLOCK WITH TIMECLOCK FOR OCCUPIEDAJ NOCC UPIED OPERATION, CONFIRM HOURS OF OPERATION WTH OWNER PRIOR TO SETTING TIMECLOC K. BUILDING AIR BALANCE SUMMARY UNIT NO. SUPPLY (CFM) OUTDOOR (CFM) EXHAUST (CFM) Or OA/SA RTU-1 2,000 200 - 10% RTU-2 3,000 200 - 7°/P RTU-3 3,600 320 - 11% RTU-} 3,600 320 - 11% RTU-5 3,600 320 - 11% RTU-6 3,600 320 - 11% RTU-7 4,000 320 If - 13% RTU-8 3,600 300 - 11% RTU-9 3,000 425 - 14% RTU-10 3,000 425 - 14% RTU-11 EF-1 1,200 - 75 - - 70 8% EF-2 - - 150 EF-3 (ETR) - - 225 _ TOTALS 1 34,200 1 3,225 1 445 TOTAL AIRFLOW AVAILABLE FOR PRESSURIZATION (CFM) PERCENT POSITIVE PRESSURIZATION 2780 86.2% ARCHITECT OF RECORD: BRR ARCHITEC IRE, INC 6700 NTIOCH PLAZA ME RRYAM, KS 66M4 vrv,w.brrarcN.wm EL: 913-262-9095 VAX: 913-262-9044 CONSULTANT HENDERSON ENGINEERS 8345 LENEXA DRIVE,SUITE 300 '.. LENEXA, KS 66214 TEL913.742.5000 FAX913.742.5001 W W W.HENDERSONENGINEERS.COM 1950002714 WA. CORPORATE NUMBER: 1754 06130,120 COPYRIGHT NOTICE Parao roi use o,� ue unable for use n a amme'n peey nrcen1:11 ainrte2s ana engineers. utM1onzed anU may be ISSUES & REVISIONS PROJECT NAME UWAS SEATTLE PROJECT AD DRESS 18323 ANDOVER PARK WEST TUKWILA, WA 9S388 ILIA ISSUED LIT PERW JAMES MCCARTY CHECKED BY: SOE JTW BY. 06/14/19 e. PROJECT NO. 1950002714 PROFESSIONAL SEAL Jun 20 2019 PROJECTNAME: UWAS (SEATTLE) ILDING ADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 LENAME: MECHANICAL SCHEDULES PROJECTYEAR: WW REGION: 2019 DAYS DATE: DRVNN By: 6/13/2019 PEI G FLOOR: DRAWN DATE: 1 06/14/19 BUILDING'IYPE: APPROVED BY: UWA5 SCALE: APPROVED DATE 0 SC MER Jn....,.....m... ..°.... uuwc alii820n CH FFT• M REFRIGERATION SYMBOLS PIPING._..._........._.........-__.._,....... C ELBOW -TURNED DOWN d- I� ELBOW -TURNED UP ISOLATION VALVE A01- LOAD DESIGNATION EXAMPLE -TA- LOOP DESIGNATION EXAMPLE _ _ _ _ _ _ REFRIGERATION PIPE FLOOR, UNDERSLAB, OR ROOF LEVEL -CO CONDENSATE PIPING - - CONDENSATE PIPING ® WALK-IN EVAPORATOR ANNOTATION FA071 ABC CIRCUIT DESIGNATION AND MODEL NUMBER EXAMPLE O7 REFRIGERATION PLAN NOTE CALLOUT 1 DETAIL REFERENCE- UPPER NUMBER INDICATES DETAIL 3.0 NUMBER LOWER NUMBER INDICATES SHEET NUMBER CONTROLS MTA- REFRIGERATION CIRCUIT ODISCHARGE AIR I RETURN AIR TEMP SENSORS OC COIL OUT PROBE OCOMMON EVAP PRESSURE TRANSDUCER OD EVAP TEMP/ DEFROST TERMINATION TEMP SENSOR OP PRODUCT EMULATOR TEMP SENSOR T H TEMPERATURE AND HUMIDITY SENSOR CDS REFRIGERATION EEPR CONTROL VALVE DS DOOR SWITCH DTS DUAL -TEMP SWITCH E2 / SS REFRIGERATION RACK CONTROLLER LIGHT LEVEL SENSOR 16AI 16 ANALOG INPUT BOARD 8R0 8 RELAY OUTPUT BOARD 88 8 ANALOG INPUT/ 8 RELAY OUTPUT BOARD 1 88 16 ANALOG INPUT/ 8 RELAY OUTPUT BOARD ESR 8 ELECTRONIC EVAPORATOR REGULATOR BOARD 88A0 8ANALOG/DIGITAL INPUTS/8 RELAY OUTPUT/4 168A0 ANALOG OUTPUTS BOARD 16 ANALOGIDIGITAL INPUTS/ 8 RELAY OUTPUT 14 ANALOG OUTPUTS BOARD AUDIOVISUAL ALARM ® ZONE ALARM SILENCE PANEL © LEAK DETECTION SENSOR ------- FACTORY INSTALLED EQUIPMENT ABBREVIATIONS BV BALL VALVE••••• CD CONDENSATE CO CLEANOUT DT DUALTEMPERATURE EEPR ELECTRONICEVAPORATOR PRESSURE REGULATOR EEV ELECTRONIC EXPANSION VALVE FOR ENGINEER OF RECORD EPR EVAPORATOR PRESSURE REGULATOR ETR EXISTING TO REMAIN EX FOR EXAMPLE HR HEAT RECLAIM LLSV LIQUID LINE SOLENOID VALVE LSHX LIQUID TO SUCTION HEAT EXCHANGER LT LOW TEMPERATURE MFR MANUFACTURER MT MEDIUM TEMPERATURE OEM OWNER'S EQUIPMENTMANUFATURER REF REFERTO RCU REMOTE CONDENSING UNIT SIM SIMILAR TXV THERMAOSTATIC EXPANSION VALVE TYP TYPICAL WI WALK-IN REFRIGERATION CONTROLS GENERAL NOTES 1. PROVIDE CABLE ACCORDING TO FIELD WIRE LEGEND. NOD IATION FROM DRAWINGS WILL BE ACCEPTED. LABEL EACH END OF CONTROL CABLES WITH TERMINATION POINT OF THE OPPOSITE END OF THE CONTROL CABLE. 2. TERMINATE CONTROL CABLES IN ACCORDANCE WITH CONTROL SUPPLIER INSTALLATION INSTRUCTIONS. DO NOT EXPOSE MORE THAN 3" OF WIRE(S). COVER THE END OF THE INSULATING JACKET OF ALL CONTROL CABLES WITH HEAT SHRINK TUBING. DO NOT ALLOW EXPOSURE OF FOIL OR UNUSED WIRE(S) AFTER APPLICATION OF HEAT SHRINK TUBING. 3. MINOR CHANGES IN MATERIALS OR TERMINATIONS WILL, IN NO CASE, CAUSE AN INCREASE IN COST TO OWNER OR SERVE CAUSE TO GENERATE CHANGE ORDER PAPERWORK. 4. ROUTE CONTROL CABLES IN CONDUIT WHEN BELOW STRUCTURE OR IF EXPOSED TO VIEW FROM THE SALES AREA. CONTROL CABLES MAY BE STRUNG ALONG OR PERPENDICULAR TO STRUCTURE IF SUPPORTED AT LEAST EVERY 36" OR MINIMUM DISTANCE OF STRUCTURAL SUPPORT. S. CONCEAL SALES AREA CONTROL CONDUIT WHERE APPLICABLE. 6. INSTALL CODE APPROVED PENETRATIONS THROUGH FIRE WALLS. 7, PROVIDE CABLE ACCORDING TO DRAWINGS. NO DEVIATION FROM DRAWINGS WILL BE ACCEPTED. PROVIDE ASSISTANCE TO THE CONTROL SUPPLIER FOR CHECKING SENSOR ACCURACY. 8. BE PRESENT AND AVAILABLE AT REFRIGERATION START-UP TO RESOLVE ISSUES AND PROVIDE ASSISTANCE UNTIL RELEASED BY OWNER. 9. COMPLETE ALL UNRESOLVED REFRIGERATION WORK, DURING THE REFRIGERATION START-UP. 10. PERFORM ALL CHECKS AND TESTS TO ENSURE A FULLY FUNCTIONAL REFRIGERATION CONTROL SYSTEM. 11. ALL CONTROL CABLING SHALL BE BLACK IN COLOR NEW REFRIGERATION SYSTEM COMPONENT NOTES: 1. THE FOLLOWING EQUIPMENT AND COMPONENTS ARE TO BE FURNISHED BY OWNER, INSTALLED BY THE REFRIGERATION CONTRACTOR (EQUIPMENT FURNISHED BY OWNER AS A PART OF THE REFRIGERATION EQUIPMENT PACKAGE): CONDENSING UNITS EVAPORATOR COILS AND LSHX6 REFRIGERATION VALVES (EX: EEV, LLSV, COIL ISOLATION VALVES,ETC.) EVAPORATOR COIL TEMPERATURE SENSORS AND PRESSURE TRANSDUCERS, REFER TO ELECTRICALIREFRIGERATION CONTROLS DRAWINGS AND SPECIFICATIONS. 2. THE FOLLOWING EQUIPMENT AND COMPONENTS ARE TO BE FURNISHED AND INSTALLED BY THE REFRIGERATION CONTRACTOR (BUT NOT LIMITED TO): REFRIGERANT PIPING INSULATION HANGERS AND SUPPORTS REFRIGERANT CONDENSATE PIPING GENERAL REFRIGERATION NOTES: 1. PRIOR TO SUBMITTING THE BID, REVIEW THE COMPLETE SET OF PLANS AND SPECIFICATIONS AND OTHER DRAWINGS FOR ADDITIONAL REQUIREMENTS WHICH MAY NOT BE SPECIFICALLY CALLED OUT IN THIS PORTION OF THE CONSTRUCTION DOCUMENTS. NOTIFY ARCHITECT OF CONFLICTS OR DISCREPANCIES PRIOR TO SUBMISSION OF BID. 2. COORDINATE THE INSTALLATION OF THE REFRIGERATION SYSTEMS WITH OTHER TRADES TO ENSURE A NEAT AND ORDERLY INSTALLATION. INSTALL PIPING AS TIGHT TO STRUCTURE AS POSSIBLE, COORDINATE WITH OTHER TRADES TO AVOID CONFLICTS. COORDINATE INSTALLATION OF PIPING TO AVOID CONFLICTS WITH DUCTWORK, ELECTRICAL PANELS, LIGHTING FIXTURES, ETC. ANY MODIFICATIONS REQUIRED DUE TO LACK OF COORDINATION WILL BE THE RESPONSIBILITY OF THE CONTRACTOR AT NO EXTRA COST TO THE OWNER. 3. AVOID DAMAGING FINISHED SURFACES AND EQUIPMENT DURING CONSTRUCTION. REPAIR DAMAGE CAUSED DURING CONSTRUCTION AT NO ADDITIONAL COST TO OWNER. 4. ALL REFRIGERATION EQUIPMENT SHOWN ON THE MECHANICAL PLANS SHALL BE PROVIDED BY THE DIVISION 23 CONTRACTOR UNLESS OTHERWISE NOTED. 5. REFRIGERATION EQUIPMENTAND PIPING ARE SHOWN AT APPROXIMATE LOCATIONS. FIELD MEASURE FINAL PIPING LOCATIONS PRIOR TO FABRICATION AND MAKE ADJUSTMENTS AS REQUIRED TO FIT PIPING WITHIN AVAILABLE SPACE ALLOWED. VERIFY EQUIPMENT LOCATIONS MEET PROPER ELECTRICAL CLEARANCE AND MANUFACTURER'S RECOMMENDATIONS REGARDING SERVICE CLEARANCE WITH PROPER AIRFLOW CLEARANCE AROUND EQUIPMENT, 6. REFER TO ARCHITECTURAL DRAWINGS FOR RELATED CONSTRUCTION DETAILS AS APPLICABLE TO THE REFRIGERATION, VERIFY CHASES AND PENETRATIONS SHOWN ON ARCHITECTURAL DRAWINGS THAT ARE INTENDED FOR PIPING. 7. GENERAL CONTRACTOR TO PROVIDE FURRING AROUND REFRIGERATION PIPING FROM FLOOR TO CEILING WHERE EXPOSED TO CUSTOMER VIEW. 8. ROUTE ALL UTILITY SERVICE LINES (PIPES AND CONDUIT) WITHIN STUD WALLS WHEREVER POSSIBLE. ON COOLER/FREEZER PANELS IN FOOD PREP AREAS WHERE UTILITIES MUST BE EXPOSED, CONTRACTOR TO HAVE THE OPTION OF THE FOLLOWING: S.A. SURFACE MOUNT UTILITIES WITH NON -CORROSIVE ANCHORS; SEAL BOTH SIDES OF PIPE/CONDUIT TO PANEL CONTINUOUSLY WITH SEALANT. 83. INSTALL UTILITIES 1/2" OFF FACE OF PANEL TO ALLOW FOR CLEANING; USE ONLY NON -CORROSIVE MATERIALS FOR SPACERS AND ANCHORS, B.C. COVER UTILITIES WITH 20 GAUGE STAINLESS STEEL BENT PLATES MOUNTED TO WALL WITH NON -CORROSIVE ANCHORS; APPLY CONTINUOUS SEALANT ALONG EDGES AND JOINTS. 9. COORDINATE LOCATION OF ROOF MOUNTED REFRIGERATION EQUIPMENT WITH OTHER EQUIPMENT, ROOF PENETRATIONS, AND ARCHITECTURAL AND STRUCTURAL DRAWINGS. 10. INSTALL REFRIGERANT PIPING PARALLEL TO BUILDING COLUMN LINES UNLESS OTHERWISE SHOWN OR NOTED. 11. OVERHEAD HANGERS AND SUPPORTS FOR EQUIPMENT, ACCESSORIES, AND PIPING SHALL BE FASTENED TO BUILDING JOISTS OR BEAMS. DO NOT ATTACH HANGERS AND SUPPORTS TO THE ABOVE FLOOR SLAB OR ROOF. 12. COORDINATE LOCATION OF EQUIPMENT SUPPORTS WITH LOCATION OF EQUIPMENT ACCESS PANELS/DOORS TO ENABLE SERVICE OF EQUIPMENT AND/OR FILTER REPLACEMENT. 13. SEAL PENETRATIONS THROUGH THE BUILDING COMPONENTS IN ACCORDANCE WITH THE CONTRACT SPECIFICATIONS. FIREPROOF PENETRATIONS THROUGH FIRE RATED COMPONENTS IN ACCORDANCE WITH U.L. REQUIREMENTS. 14, PIPING CROSSING FIRE RATED WALLS OR OTHER FIRE RATED ASSEMBLIES SHALL BE ENCLOSED IN 26 GAUGE SHEET METAL MINIMUM. 15. PROVIDE ACCESS PANELS FOR REFRIGERANT VALVING OR ACCESSORIES IN WALLS OR CEILINGS AS REQUIRED. 16. REFRIGERANT SUCTION AND LIQUID LINES ARE SHOWN COMBINED AS A SINGLE LINE PER CIRCUIT. REFER TO REFRIGERATION PIPING SCHEDULES FOR SUCTION AND LIQUID SIZES. 17. SLOPE REFRIGERANT LINES DOWN TOWARD COMPRESSORS AT 1" PER 20 FT. LOCATE HIGHEST POINT OF REFRIGERANT LINES JUST BELOW ROOF DECK OVER EVAPORATOR SERVED. ROUTE PIPING THROUGH WEBS IN JOISTS AND GIRDERS, COORDINATE WITH HVAC, LIGHTING, AND FIRE PROTECTION. 18. ALL VERTICAL SUCTION LINES MUST HAVE ASHORT RADIUS SUCTION LINE TRAP AT THE BASE OF THE RISER. PROVIDE AN INVERTED P-TRAP AT THE TOP OF ALL RISERS. REFER TO REFRIGERATION PIPING SCHEDULES FOR SIZES ON ALL RISERS. 19. SUCTION BASE P-TRAPS TO BE SAME SIZE AS HORIZONTAL RUNS. REDUCE AT THE TOP SIDE OF BASE P-TRAP. INTERMEDIATE AND INVERTED P-TRAPS SHOULD BE SAME SIZE AS REDUCED RISER. 20. FOR RISERS OVER IS'-0" INSTALL AN INTERMEDIATE SUCTION TRAP OUT OF CUSTOMER VIEW NEAR MIDPOINT OF RISER. 21. INSULATE REFRIGERATION PIPING. REFER TO SPECIFICATIONS. 22. INSTALL A FULL PORT ISOLATION BALL VALVE UPSTREAM OF LIQUID LINE SOLENOID VALVE AND DOWNSTREAM OF EVAPORATOR PRESSURE REGULATOR FOR EACH REFRIGERATION CIRCUIT, AS REQUIRED, 23. LIQUID LINE SOLENOID, EVAPORATOR PRESSURE REGULATOR, AND FULL PORT ISOLATION BALL VALVES INSTALLED ON TOP OF WALK-IN SHALL BE INSULATED. 24. COORDINATE WALL ANDIOR ROOF OPENINGS FOR REFRIGERATION LINES WITH ARCHITECTURAL AND STRUCTURAL. 25, PROVIDE DRAIN LINE FROM EACH CASE DRAIN SAME SIZE AS CASE OUTLET TO VACUUM ACCUMULATOR. REFER TO PLUMBING PLANS FOR LOCATIONS. 26. INSTALL REFRIGERATION PIPING OVERHEAD WHERE POSSIBLE UNLESS OTHERWISE NOTED ON PLAN. 2T DO NOT INSTALL PIPING DIRECTLY UNDER SKYLIGHT WELLS, ABOVE ELECTRICAL PANELS, OR WITHIN COOLERIFREEZER PANELS. 28. REFRIGERATION CONTRACTOR TO SET ALL LOOSE REFRIGERATION EVAPORATOR COIL SENSORS. 29. REFRIGERATION CONTRACTOR TO PROVIDE AND INSTALL ALL EMS/CONTROL CONDUIT AND WIRING THAT IS NOT FACTORY INSTALLED. 30. REFRIGERATION CONTRACTOR SHALL SET ALL REFRIGERATION EVAPORATOR COIL SENSORS OR THERMOSTATS AT LOCATIONS ON PLANS. 31. REFRIGERATION CONTRACTOR RESPONSIBLE FOR FINAL RACK CONTROLLER LABELING AND PROGRAMMING PER PARAMETERS ON REFRIGERATION SCHEDULES. 32, PROVIDE AND INSTALL CIRCUIT IDENTIFICATION TAGS FOR ALL CASE AND WALK-IN CIRCUITS. REFER TO SPECIFICATIONS AND DETAILS FOR ADDITIONAL INFORMATION. 33. REFRIGERATION CONTRACTOR SHALL FURNISH AND INSTALL ALL CONDENSATE DRAINAGE PIPING FROM REFRIGERATION SYSTEM FREEZER AND COOLER EVAPORATOR UNITS TO VACUUM ACCUMULATOR SYSTEM WHERE INDICATED ON DRAWINGS. PROVIDE CLEANOUTS AT ALL MAJOR CHANGE OF DIRECTION IN PIPING SYSTEMS, PIPE HANGERS, AND FITTINGS AS REQUIRED FOR A COMPLETE DRAIN SYSTEM INSTALLATION. MINIMUM SIZE OF PIPING SHALL BE 3W COPPER OR PVC TUBING. CONNECTIONS MADE AT EVAPORATOR UNIT SHALL BE INCREASED AS MULTIPLE EVAPORATORS ARE ADDED TO CONDENSATE MAIN. INSTALL ALL DRAINAGE PIPING HIGH AS POSSIBLE, WHILE MAINTAINING A PROPER FALL OF 1/8° PER 1'-0" MINIMUM. INSTALL DRAIN PIPING DOWN EXTERIOR FACE OF COOLER BOX WALL TO VACUUM ACCUMULATOR. ALL FREEZER/COOLER CASE CONDENSATION PIPING SHALL HAVE PIPING INSULATION INSTALLED BY REFRIGERATION CONTRACTOR. ALL PIPE PENETRATIONS THROUGH REFRIGERATED PANEL WALLS SHALL BE SEALED AIRTIGHT, ANY EVAPORATOR DRAIN SYSTEM NOT MEETING THESE REQUIREMENTS UPON FINAL INSPECTION SHALL BE CORRECTED AT THE CONTRACTOR'S EXPENSE WITH NO EXTRA COST TO OWNER. 34. WALK-IN BOX FURNISHED AND INSTALLED BY WALK-IN BOX MANUFACTURER. REFRIGERATION CONTRACTOR TO PROVIDE SELF-REGULATING HEAT TAPE ON CONDENSATE PIPING IN COOLERS AND FREEZERS THAT MAINTAIN ATEMPERATURE AT OR BELOW 32 DEGREES FAHRENHEIT AS SHOWN. INSTALL HEAT TAPE ACCORDING TO MANUFACTURERS INSTRUCTIONS INCLUDING BUT NOT LIMITED TO LENGTH OF HEAT TAPE, ATTACHMENT OF HEAT TAPE TO CONDENSATE PIPING, AND POWER CONNECTIONS, 120V INPUT, 5 WATTS PER LINEAR FOOT @ 50°, SELF-REGULATING FACTOR OF AT LEAST 90%. HEAT TRACE SHALL BE UL LISTED. XL HEAT TRACE, COMPONENTS AND CONTROLS: MANUFACTURED BY RAYCHEM CORPORATION '.. REFERENCE SPECS FOR MORE INFORMATION. ARCHITECT OF RECORD: ERR ARCHITECTURE, INC 6700 ANROCH PLAZA SUITE 300 MERI-M, KS 66-1 www.brtarcb.com TEL: 913-262-909s FAX: 913-262-9046 CONSULTANT . .......... ........... j_W ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA, KS 66214 TEL913.7425000 FAX913.742.5001 WWW.HENDERSONENGINEERS.COM 1950002714 WA. CORPORATE NUMBER: 1754 06/30120 COPYRIGHT NOTICE This tlmwinq was prepares for use an a egasty wi sue antl it lsrcnoft u'i�tablPor use on eb� pre/ece sire R or of a iaeer ame. use ur n for rereraaa pr exampm an aenrprolecx regmr� Ne services of y J!"aea artnirenz aaa eg9igeea. �oof [his arzwinq for reuse on ene� ro rr� is eef aampnrea a�a mar ne ISSUES & REVISIONS PROJECTNAME UWAS SEATTLE PROJECT ADDRESS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 �� TAMES MCCARTY CHECKED BY: HEI DRAWN BY: HEI DOCUMENT DATE: 06/14/19 PROJECT NO. 1950002714 PROFESSIONAL SEAL Jun 20 2019 PROJECT NAME: UWAS (SEATTLE) BUILDINGADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 FILENAME: REFRIGERATION SYME AND GENERAL NOTE OR NCE OJECTYEAR: ww REGION, APPROVED 2019 A19 FBUILDING -0 DATE: DRAWN BY: 6/13/2019 HEI ila BLDG FLOOR: DRAwN DATE: SION 1 06/14/19 BUILDING TYPE: UWAS APPROVED BY: 'ECEIVFO NTS PROVED DATE: Ci yO T! � >;L� PEP,MIT C IT-R0+ ADV,CON D CIAI h•�WF~1 aRiaZOR QNFFT. (1(1'1 ARCHITECT OF RECORD: BRR ARCHITECTURE, INC 6700 ANTI CH PLAZA SUITE 300 MENS BIM, KS 66204 www.0rrarN.cpm EL: 9I3-262-9095 FAX: 9I3-262-9044 DIVISION 24: REFRIGERATION INSTALLATION 24 0101 COMMON WORK RESULTS FOR REFRIGERATION 1. GENERAL t.1 RELATED DOCUMENTS 12 REFERENCE STANDARDS 1,3 ACCURACY OF DATA AND CONTRACT DRAWING A DESIGNDRAWMGSAREDIAGRAMNATIGANDTHEYMAYNOTSH� WHICH Y BE REQUIRED FOR INSTALIATON OF VARIOUS MATERIAL CONTRACTOR SHALLEXAMINE THESE AND OTHERAVAILABLE DRAWII CONTRACTOR SHALL BE RESPONSIBLE FOR MAKING ANY MINOR CHAT DRAWINGS AND FOR ALL PHYSICAL DETAILS REQUIRED FOR INS- CONDITIONDS SIDEREDASBASISOFANEX MOOR PROCEEDINGIM HANGE. B. DED PMENTINDICATESONDSAWINGSARI INSTALLATIONS. M NOR CHANGES TO THESE ELEVATIONS MAY BE NE CONTRACTOR SHALL GETAPPROVALBEFOREPROCEEUINGWITHAR G INFORMATION PERTAINING TO NEWANCEXISTINGCONDITIONSTHAT ARE BASED ON AVAILABLE RECORDS. WHILE SUCH DATA HAS BEN( IMPUM GUARANTEE THATCONDITIONS AREAS INDICATED. SOH IN MVESTIGATION of CONDITIONS, D. THECONTMCTOR MUST EXAMINETHE DRAWINGS,SPECIFICATIONS. MATERIAL, EQUIPMENT, ETC. BEFORE STARTING WORK MiAW NGS SHALLNOTBE SCALED TO DETERMINE THE DIMENSIONS ( F. PRO PTAS OTHERWISE SPECIFIED HEREIN OR INDICATED ON THE DF SPECIALTIES. AND SUPPORTS TO CONNECT FIXTURESAND MUIPMEI M THE PROPER OPERATION OF THE SYSTEM. 1.a SUMMARY 1.5 DEFINITIONS A REFRIGERATION CONTRACTOR CONTRACTORWITH SPECIFIC SKIL MPETENTLY INSTALL A COM MRCIAL REFRIGERATION SYSTEM T 1.6 DELIVERY, STORAGE, AND HANDLING A. INSPECT EQUIPMENTAND MATERIALS. MATERIALSTHATAREFOUN F CONTRACTORTOFURNISHA MEANS TO PROTECTALLTOOLS.MAT DURATION OF THE PROJECT. CONTRACTORTO MAINTAIN COPIES OF MSOS SHEETS FOR ALL COP 1.7 COORDINATION PURCHASE MATERIAMAND SCHEDULE DELIVERIES INATIMELY MA SEQUENCE, SCHMATE AND CCORDINATEALL-OVINIS SO THAT C. CORDINATE WITH GENERAL CONTRACTOR FOR STORAGE SPACE, D. NOTIFY, AND COORDINATE WITH ALL LEGAL AUTHORHTES HAVING OCESS. E. CDORGIWEANOGONARMDAJGS WITH AMAZON SELECTED COMBO PRIOR M THE SQUIRED VISIT. 1.8 CODES AND REGULATIONS A ALLUODPSAND REGULATONSOFSTAMANDLOGWAUTHORTIES WHERE THEY EXCEED REQUIREMENTS AS SHOWN ON THE DRAwIN THE CONTRACT, 1,9 CONTINUITY OF EXISTING SERVICES A NPTORCHANGEEKSTINGUTLTYSERVOESWITHI O INTERRUPT NIS REQUIRED, COORDINATE LENGTH OF SERVICETF CENTER TO MINIMIZE DISRUPTION OF OCUPANTACTNITIES, t. SCHT,REMODELREEM PROJECTS: CORDNATEALLINTERT (AMOC) PHONE 460-2225381. 1,10 REFRIGERATION CONTRACTOR RESPONSIBILITIES ENTN PERMIMAND LICENSES PRORO THE STAI B. ASSIGN AN EXPERIENCED FOREMAN WITH AT LEAST FIVEYEXUS OI SYSTEMS. AND PIPING PRIOR TOTHESTARTOFTHEPROJECT. HIS UNLESS THERE IS A CHANGE IN EMPLOYMENT STATUS WITHOUTTF FRIGERATON SCOPE OF WORK INCLUDESTHE FOLLOWING : 1. ECENE,UNLOAD.UNPACK,ANOSETREFRIGERATEDCA.ESIN THI ALIGNED, PLUMB, AND LEVEL TO PREVENT SAW-TOOTHING OF A. SECURE. BOLT TOGETHER SEAL., AND TRIM REFRIGERATED CASES 3. INSTALL CASE CONDENEATE DRAINS WITH PROPER TRAPS AND SL( ACCUMULATOR a. RECEIVE. UNPACK, SET AND INSTALL AIR COOLED OR EVAPORATIVE BUILDING s. RECEIVE UNLOAD, SEL CONDENSING UNITS, AND COMPRESSOR 1.11 OPERATING AND MAINTENANCE INSTRUCTIONS 1.12 INSTALLATION WARRANTY A. NTFACTORTO PROVIDE COMPLETE ED DAY SERVICE, REPAIR, REMEDIATON AND MAINTENANCE CONTRACT ON THE REFRIGESATION SYSTEM, RERIGERATED-.A. AND REFRFCRATION COMPONENTS. WARRANTY PERIOD BEGINS ON SITE FIRST OUTBOUND SHIP DATE AND CONCLUDES AT END OF90TH DAY. PROGRAM INMDES: 1, RESOLUTONOFALLREFRIGERATIONREATEDTEMSINWMMISSONINGREPORT.(RESOLUTIONOFQXITEMSDOESNOTEXPIHE POST DAY WARRANTYPERIOD.) 24 HOUR PER DAY, 7 DAYS PER WEEK RESPONSE TOSERVICE REQUESTS. MAINTENANCE OF SYSTEM FOR 90 DAYS FROM SITE FIRST OUTBOUND PRODUCTSHIP DATE. 1, TRAVEL, P. AND TRUCKCHARGES ASOCIATED WITH SERVOE AND MAINTENANCEREOUESM, s. INTMANDE OF RERIGERATION SYSTEM FOR FIRST 9G DAYS FROM SITE FIRST OUTBOUND SHIP DATE IN TOLL AGE DANCE WITH THE MlN1UFAC URERS RECOMMENDED MAINTENANCE GUIDELINES, DIAGNOSIS AND CORRECTOR OF SYSTEM ISSUES IMPACTING DESIGN INTENT OF EQUIPMENT. DIUSTMENTS TO IMPROVE PERFORMANCE OR TO SATISFY CUSTOMER REQUESTS e. RERYWUEPI.ACEMENTOFDERCTIVESYSTEMCOMPONENTS.CONTRACTORSHALLPR DEALLMUIPMEN MDESTO COMPLETE THE REPAIR. (LIFTS, CRANE, OTHER TRADES, ETC) 1. DREAM OF REFRIGERANT LEAKS AND REPLACEMENT OF REFRIGERANT M COMPLETE THE REPAIR 11, DOGUMENTATION IN AMAZON'S REFRIGERANT TRACKING PROGRAM(TRAKREF) OF ALLSERVOE EVENTSAND RERIGERANT DURING THE RANT, PERIOD. TUPPIN. OFF OF SYSTEM 2. CONTROLSY3TEMAW STMENTUAMODIFICATIONS 9. COMPRESSORREPLACEMNT tn. WORKSHOULDSECOMPLETEDWITHIN A4TTHOURPERIODMLWWINGNMIFICATIONOFFAILURE(NOTSUREIF4 HOURS IS CORRECT YOU MAY WANT TO ASK FOR 2 HOURS) 11 WARRANTY EXCLUDES BREAKAGE OR DAMAGED GLASS DOORS. e, REFRIGERATION CONTRACTOR SHALL RESPOND TO ALL SERVICE REQUESTS WITHIN 2 HOURS TO THE AMAZON MAINTENANCE OPERATION CENTER(AMO AMA20 E38H c. LIFE, OR INVENTORY INCLUDING THE USE OF A HLYDWMACTOERG REPAIRS. WARRANTY CONTRACTOR SHALL PAY ALL COST ASSOCIATED WITH USE OF SECONDARY CONTRACTOR WITHIN WARRANTY PERIOD, D. TNWORKING DAYS PRIOR TO THE END OFTHEWARRANTY PERIOD, CONTRACTOR REPRESENTATIVE SHALL COORDINATE WITH AND ACCOMPANYAN AMAZON REPRESENTATIVE ON AHANDGVER WALK THROUGH INSPECTION OF ALL REFRIGERATION EQUIPMENT AND SYSTEMS. CONTRACTOR WILL COMPLETE ALL REQUIRED SERVICEAND REPAIRAGHWIES IDENTIFIED IN THE WALK-THROUGH AT NO 1,13REFRIGERATION EQUIPMENT VENDOR WARRANTY A NEQUIPMENTVNDORWARRAN MUIPMNTTOBEFREEFROMDERMINMATERIAL,ANNORW WMSHIPFORA PERIOD OF 1 YEAR FROM SITE FIRST OUTBOUND SHIP DATE. INCLUDING TRAVEL, DIAGNOSIS, AND REPAIR OF ISSUE, AND PROVIDE TECHNICAL SUPPORT WHERE NEEDED. VENDOR TO SUPPLY OR REIMBURSE REPAIR CONTRACTOR FOR PARTS AND COMPONENTS NEEDED DURING 1 YEAR WARRANTY PERIOD. 2, VENDORTOREIMBURSECONTRACTORFORDIAGNOSIS,RE-R,A.D TRAVEL-.P E.A-C-.W-DE-1C E COMPONENT DURING t-YEAR WARRANTY PERIOD. VENDOR RESPONSIBLE TO REIMBURSE CONTRACTOR FOR REFRIGERANT LOBS DUE TO DEFECTIVE PARTS OR WORKMANSHIP. a. VENUORSHALLCOV WITH PRODUCT RECALLS, CORRECTION OF DESIGN ERRORS, OR MISAPPUCATON OF CCR PNN 1.14SEISMIC CONTROLS FOR MEPF SYSTEMS A. SEISMIC M_"` HR EER' OCCUPANCYCATEGORY: IL II OR LI17pVj STESOILCATEORY: CONTRACTOR'S SEISMIC ENGINEERTO DETERMINE. SEISMIC DESIGN CATEGORY. CONT TORSSIS GINEER TO DETERMNE. COMEONEM IMPORTANCE FACTOR DETERMINED FROM ASCE 1-2010, a ECONTRACTOR SHALL BE RESPONSIBLE FOR DETERMININGTHE REQUIREMENTS FOR SEISMIC BRACING OFMECHANICAL, ELECTRICAL, PLUMBING SYSTEMS. SEISMIC PROTECTION CRTERIAUSED TO DETERMINE SEISMIC BRACING REQUIREMENTS OF ALL MECHANICAL ELECTRICAL. REFRIGERATION AND PLUMBING SYSTEMS SHALL BE DETERMNN BY THE APPLICABLE CODEADOPTED IN THE PROJECT JURISDICTION. WHERE NOTALREADY DETERMINED WITHN THE CONTRACT DOCUMENTS, THE CONTRACTOR SHALLBE RCONTRACTINGA LICENSED PROFESSIONAL ENGINEER TO ESTABLISH BUILDMG STE CLASS, SEISMIC DESIGN CATEGORY, LNE THE REQUIREMENTS FOR SEISMIC SAWN.ON MECHANICAL- ELECTRICAL.,RERIGERq ONANOlOft PLUMBNG SYSTEMS. DETER C. THE MNTRACTORSHALLDETERMINETHETYPEMDLOCATIMOFSEISMICBT IWREOUIREDFORTHEMECHANICALELECTRICAL, BEERIGERATONAHD PLUMBING ELEMENTS SHOWN ON THE DRAWINGS BASED ON THE ESTABLISHED SEISMIC CRITERIA. THE S¢EAND WEIGHT OFTHE SUPPORTED FIMENT. AND THE DISTANCE FROM STRUCTURE OF THE SUPPORTER ELEMENT. D. ME DOWOR SHALL SUBMITTHE FOLLOWING SHOP DRAWING INFORMATION TO THEAHJ AND THE ENGINEER FORREVEW AND AFPROVA�RAGT SEISMIC ALYSIS LISTING ALL APPLICABLE SEISMIC DESIGN CRITERIA. NEUGRFT SHOP a ON DETAILS OF ALL O BRACING USDLOCATION. a. CALCULATIONS SHOWING THAT THE SEISMIC RESTRAINTS MEET THE SEISMIC REQUIREMENTS. E SHOP UGAWIGGS ANDLATONS SHALL BE SIGNED AND SEALED BY A REGISTERED PROFESSIONAL ENGINEER, LICENSED IN THE STATE OF THE AND EMPLOYED BY THE MANUFACTURER OF THE SEISMIC BRACING PRODUCTS CALCUNTONS SHALL INCLUDE DEAD LOADS. STATIC SEISMIC LOADS, AND CAPACITY OF MATERIALS UNNIVED FOR CONNECTIONS. P MATERALS SHALL BE OFTI'IE SAME MANUFACNRERAND SHALL BE CERTIFIED BY THE MANUFACTURER. APPROVED MANUFACTURERS ARE: AMBERBOOTH COMPANY, INC., S-HNEAGWO, LSAT. KINETICS NOISE CONTROL, INDUSTRIES, STRUT, OR NISRO-ACOUSTICS. EACH DEVICE SHALL HAVE A PRE -APPROVAL NUMBER FROM CALIFORNIA OEHPD OROTHERRECOGNIZED GOVERNMENTAGENCY SHOWING MAXIMUM RESTRAINT RATINGS. u O MECHANICAL, ELECTRICAL. REFRIGERATION AND FULDWNG EWIPMENTISYSTEMS SHALL BE INSTALLEDFIN STRICT ACCORDANCE WITH ALL APPLICABLE -STARE. PNBOR FEDERALCODES AS WELLAS MANUFACTURERS REQUIREMENTAITHERUNTSTRINGENT CMERIASHALL APPLY. ALLMCHOR CONNECTIONS M STRUCTURE FOR SUPPORT OF MECHANICAL AL EQUIPMENT, REGARDLESS OFTHE NEED FOR SEISMIC RESTRAINTS. SHALL BE SHOWN ON SHOP DRAWINGS. 2. PRODUCTS (NOT USED) 3. EXECUTION 3.t REFRIGERATION EQUIPMENT & PIPING DEMOLITION EMOLISH, AND REMOVE REFRIGERATION SYSTEMS TO A DESIGNATED LIGATION, EQUIPMENT. PIPING. AND COMPONENTS INDICATED TO BE REMOVED. 9 RIGERATONUNITTHATWILLBEREMOVEDORSALVAGED. THECORTBACTORIS RESPONS BLE O REMOVE. RECOVER. AND RECYCLE ALL REFRIGERANT FROM EQUIPMNT BEFORE R LEAVES THE SITE. COMPLY WON THE LEANAIR ACTAND EPA REGULATIONS, P EAREPORTLISTINGTHE QUANTTYOF REFRIGERANT REMOVED, AND RECYCLE COMPLETION. T AND SALVAGE VALUESBE RE TURNED TOAMAZON. E ATO INAMAZON'S REFRIGEMNT WMGEMENTRO PGRAM. CORDINATEFOR INMATIONITHREGWIONALMANTENANCE�T AT MANAGER EU OF SECTION 2ANUD 2403001DENTIFICATION OF REFRIGERATION PIPING AND EQUIPMENT 1. GENERAL INSTRUCTIONS 1.1 SUMMARY 1,2 ACTION SUBMITTALS OTR COLORNICERER STYLE AND GRAPHIC REPRESENTATION REQUIRED t.3 EANIPMENTILINES-SCHEDOI-E AU-MICIPMENTTOEELASELEDPERCONsttzuDTC COORDINATION U NAMING CO- TO CORDINATEWOH AMAZON'S REFRIGERATION MONITORING AND CONTROL SYSTEM(RMCS)AND AMAZONS ENTERPRISE ASSET MANAGMENT SYSTM REAM). E. EACH EVAPORATOR COIL, CONDENSING UNIT. AND EACH INDEPENDENT REMIGHTNKTO RWIT SNALL BE LABELED. 2. PRODUCTS M EQUIPMENT LABELS APPROVED MANUFACTURERS: MARKING SERVICES INC (MST), PHONE 300.234-0135 EQUIPMENTLABEL TO INCLUDE NAME OF REFRIGERATED SPACE SERVED. EQUIPMENTTYPE, AND SYSTEM NUMBER REFER TO THE � SLOW FOR EQUIPMENT LABELING REQUIREMENTS D. EQUIPMENT TO BE LABELEO ON BIDE FACING MOST LOGICAL LINE OF SITE. MOUNT LABEL ON ELEVATION FACING ROUTE OF TRAVEL FROM ROOFACCESS, REFRIGERATION COMPRESSOR SYSTEM, OR ROUTE OFTRAVEL FROM ENTRANCED SPACE OR ROOM [. PLASTIC LABELS FOR EQUIPMENT: 1. ANDTHICKNESS: MULTIWYR,MULTICOLOR, PLASTIC LABELS FOR MECHANICAL ENGRAVING, AND HAVING PREDRILLEO FORATTACHMENT HARDWARE PROVIDE III6-THICKTABELS UPTO B' IN LENGTH, AND tI5'THICKLABELS FOR NRGER SIZES. LETTE BACKGROUND COLOR WHITE E ABLE TO WITHSTAND TEMPERATURES UP TO IES DEG F. MINIMUM IN MUM EFlBEt sDE LE OT LESSTHAN 2-1251 3Po INCH, 6. NSIZE. 114 INCH FOR P14MEUP UNITS IF VIEWING msiPNCEISLESsmM1N24MCIAGGIIINCHFORVIEJJNG 7. UP TO 10 FEET, AND IVEFOR DISTANCES GREATERTHAN t0', TUNS: STAINLESSSTEERMANES. , ADHESIVE TYPE PERMANENTADONDEN,COMPATIBLEALL ELABELED WITH SUBSTRATE. 9. ON EVAPORATORCOILS AND CONDENSING UNITS SHALL BE LABELED WITH REFRIGERATION SYSTEM NUMBER, AND EQUIPMENT O. MINIMUM LABEL VIEWING DISTANCESHALL BE GREATERTHAN 10 FEET. 1 RE COGNIZE PAREMI TOAAIELATIOONDESING UNICONDENSING UNITS AUEVAPORATOR WEDFFMULTPLE FOLLOWED BYCOHNNA, ARE CONNECTED TOGASINGLECONDENSING UHT, THE CAME SYSTEM NUMBER CONDENSING USEDFOR EACH, ANAB,CEEC. AS GUST N SHOWALLEVAPORATORS CONNECTEDTOAOMMON CONDENSINGUNIT. 1t. EACH REFRIGERATION CONDENSING UNITAND EACH PARALLEL COMPRESSOR RACK SHALL HAVER IABELTHATiNCLUDES: NAME,ADDRESS,AND PHONE NUMBER OF INSTALL NG RAC CONTTOR. REFRIGErT,WPE INTALREFRGEMNTCHASE SYSTEMP PATE I TYPEAND QUANTITYOF RERIGERANT OIL METHOD USED R TABULATING OUAMOY OF REFRIGERANT INCLUDED IN TOTAL CHARGE REQUIRED ANDSCONVENTION: ROOM NAMEH REFRIGERATION SYSTEM EVAPORATOR COIt(S) - SO SORAM E CHLD STOR Cw.M CHLDSTOREVP- 22 WARNING SIGNS AND LABELS A MATERIAL AND THICKNESS: MULTOAYER,MULTICOLOR, PLASTIC LABELS FOR MECHANICAL ENGRAVING, INS NCH THICK AND HAVING PREDFULUED HOLES FOR ATTACHMENT I EMASARE. E LETTER COLOR YELLOW UABLPERRES E TO WTHSTAND TEMATUUP TO 160 DEG F. MINIMUM LABEL SIZE: LENWH AND WIDTH VARY FOR REQUIRED LABEL CONTENT, BUT NOT LESS THAN 2-1rz BY I4INCH. F.MINIMUSILSTMUSIZE, 1MINCHFURNAME OF UNITS IF VIEWING DISTANCE IS LESS THAN 24INCHW V21NCH FOR VIEWING DISTANCES UP TOT2INCHES,ANDPROPORTIONATELY1-GERLETTERINGFORGREATERVIEVANGDISTANCES. INCLUDESECONDARYLETTERING TTH.SS TO RERPOURTHS THE SIZE OF PRINCIPAL LETMANC BUT NOT LESS THAN 19INCH, G. FASTENERS: STAINLESSSTEELRIEFFE, ATIBLE WITH ISELAND WTH SUBSTRATE. I. LABEL CONTENT. AINCWBE_ N AND WARNING INFORMATION, PLUS EMERGENCY NOTIFICATION INSTRUCTIONS. 23 PIPE LABELS A. GENERAL.GENATON SYSTEM NUMBEIRNAND IDREGTUFA OIONPOFFFLAOW. MARK EACH REFRIGERANT SUCTIONILINE ANDEACH IREFRGE ERANT LIQUID LI NE AT THE FOLLOWING LOATONS: ADJACENTTO REFRIGERATION SYSTEM ALL OR CEI LING PENETRAT W N 1. OFF HORIZONTAL PIPING RUNS EXCEEDING 20 FEET IN LENGTH. PRETESSION PIPE US B 1, INDOOR FURI�ISHEMSMWIWDPOLYE RPIPELABELSDE.IGNEDT MMRYWRHMMEA13.1-1996, WHORISTOSEBIACK LETTERING ON WHITE LABEL 2.COILED POLYESTER PIPE LABEL WITH CLEARM AR OVER LAMINATING AND-1-M SEALING STRIP OBESIG'EDTO COMPLY WITH ASMEAIXT-1956. COLORM BE BLACK CHARACTERS ON A WHRE BACKGROUND. C. SELF-ADHESIVE PIPE LABELS: PRINTED PLASTIC WITH CONTACT -TYPE. PERAANENTADHEBIVE BACKING. D. ELCONTEMS: INCLUDE IDENTRUATON OF PIPING SERVICE USING SAME DESIGNATIONS OR ABBREVIATONSAS USED ON DRAWINGS, PIER S2E, AND AN ARROW INDICATING FLOW DIRECTION. 1 SEPARATE NITONEACHPIPE LABEL.TOIINDICATEFLOWDIR.I.NE LETTERING TO ACCOMMODATE BOTH DIRECTIONS.ERAS 2, LETTERING SIZE ATLEAST 1ADINCHES HIGH, 2.4 WARNING TAGS A WARNING TAGS: PREPRINTEDORPANDA FINISH WRITING, SIZE' APPROXIMATELY4 SY 7INCHE FASTENERS: REINFORCED GROMME COLOR: YELLOW BACKGROUND WT 3. EXECUTION 3.1 PREPARATION A. CLEAN PIPING AND EQUIPSENTSURENCE GREASE, RELEASE AGENTS. AND NCOMP 32 EQUIPMENT LABEL INSTALLATION . LOCATE EOUIPMENTNIABELSWHEREACC 33 PIPE LABEL INSTALLATION 3.4 VALVE -TAG INSTALLATION 35 WARNING-TAGINSTALLATION A WRITE REQUIRED MESSAGE ON, ANOATTACH WARNINGTAGS TO, EQUIPMENTAND OTHER ITEMS WHERE REQUIRED. 3.6 FRAMED SCHEMATIC DRAWING A. LIP_""" EQUIPMEN lP SHOWINGPROPERL IDENTFTEDEOUIPMENT,MUIPMENTLOCATIM,MD PIPING RUNS. PLAN SHALLBE MOUNTED NEMTO RERIGERATION MONTORING AND CONTROLSYSTM CONTROL PANEL. PLANB ON ATLEASTA GSIZE SHEET, CONTRACTORTO USE LARGER SHEETS, ORADDITIONAL DRAWINGS TO CLEARLY SHOW IAYOUTOFFAC STY. 240500 COMMERCIAL REFRIGERATION SYSTEM COMMISSIONING 1. GENERAL I.1 SUMMARY A. ESCOMMIS..NINGPROCESSREQUIMME MRREFRIGE OW NERTOHREINMMDENT THIRD PART COMMISSIONING AGENT. 12DEFINITIONS 1.3 INFORMATIONAL SUBMITTALS EACH TES OF COMPLETION OF INSTALLATION, PRESTART, AND STARTUPA e FOR REFRIGERATION SYSTEM FILLED REFRIGERATION CONTRACTOR IS REARIGERAND TYPE. NT CHARGE VESSEL LEVEL, AMBIENT CONDT IA CXKS RESPONSIBILITIES 1.5 6OST DATA, INSPECTION REPORTS, AND CERTIFICATES IN SYSTEMS i NTRACTOR'S RESPONSIBILITIES i.6 COMMISSIONING DOCUMENTATION 2IN MAN FIR "IlEly"IDENTRCATION OF INSTALLED.1-1 DURING THE CONSTRUCTION PHASE. 3 PROCESS AND SCHEDULE FOR COMPL CHECKLISTS FOR REFRIGEFATION SYE 4, CERTIFICATE OF COMPLETION CERTIP s. AT OF READINESS CERROYII ARE READY MRTESTING. 6. TOSTANDINSPECRONSEMEMAN CORRECTIVEAGEON DOCUMENTS. 2. PRODUCTS (NOT USED) 3. EXECUTION 3.1 TESTING PREPARATION 3.2 GENERAL TESTING REQUIREMENTS A POWDETECHNICLIUS,INSTRUMENTATION,ANDTOOLSTOPERFORMOMMLSSIONINGTESTATTHEDIRECT RM B BE EBAT ON THROUGH DSTRNUTTON ST3TEM9 TO EACH CONDDIONED SPCE.FTESTNG AN-S LUDI EFFE . METALL OPFESRATNG MODES,INTERLOCKS CONTROL RESPONSES. AND RESPONSES TO ABNORMAL OR EMI TEMCONTRotLEARMUSERSORS. THE CRA IT TH DPROCEDURES, AND CNECKIISTS FOR REFRIGERATION SYSTEMS, SUEARGUMMSCONTROL TFND EQURMENTCTOR SHALL REPARE DE E TESTS WILL BE PERFORMED USING DESIGN CCONDITIONS--NEVERPOSSIBLE. P TDOCUMENTFlTON AND SCHEDULE SEEASONAlATESTSIOSTiNG, COMPLEIEAPPROPRATE INOTAL PERFORM) ALL REQUIRED REPORTS AND SURVEYS TO BE COMPLETED USING (AUDITOR. 33 REFRIGERATION SYSTEMS, SUBSYSTEMS, AND EQUIPMENT TESTING PROCEDURES 24 0700 COMMERCIAL REFRIGERATION MONITORING AND CONTROL SYSTEM (RMCS) 1. GENERAL 1.1 SUMMARY MAZON'S REFRIGERATION MONITORNGAND CONTROL SYSTEM (RMCS) REQUIRES CORDINATONACROS 12 REFRIGERATION CONTRACTOR RESPONSIBLE TO: A COORDINATE INSTATWION AND DESIGN OF SYSTEMWITH RMCS INTEGRATOR. RMCS VENUOR REFRIGER FRIGERATION MUIPMEMSUPPLIERS. SUPPORSUPPORTEROGRADMINGNGAND CHECKOUT PROESS OF RMCS C. NSTALLSHIELDED CABLE WRING. LEAK DETECTOR TUBNGAS DIRECTED ON DRAWINGS PROVIDED BYRN 1,3 RMCS INTEGRATOR: COORDINATED BY RMCS VENDOR EMERON RETAIL SOLUTIONS, DAVID BREDAWYER 937- IFIND9 DAVIDBREITMAYBEAEMERSON.COM 1.4 REFRIGERATION EQUIPMENT VENDORS B.SEEM LETOCORN SH'MSTALLS AND MKIFEOUIPMENT VENOR PROVIDED COMPONENTS PRIOR TO SHIPME SORS, MANDIDUCERS, CONTROL SCARDS, AND OTHER COMPONENTS AS IT C. SUPPORT REFRIGERATOR STARTUP,TROUBLESHOOTING. AND CONTROL SYSTEM CHECK OUT AS NEEDED. iS ACTION SUBMITTALS 1.6 CLOSEOUT SUBMITTALS A OPERATONAND MAINTENPNCEDATA: FOR RI ANCE UC MAINTENANCE INSTRTIONS ANDEISTSf 2. INTERCONNECTIONWIRINGDLAGRAM1I5V 1.7 QUALITYASSURANCE ER QUALIFICATIONS: AUTOMATE CFI APPROVED ELECTRICAL COPONENTS DEVICES AND AC B AGENCY ACCEPTABLE TO AUTHORTES HAVD 1.8 DELIVERY, STORAGE, AND HANDLING 1.9 COORDINATION COORDINATE LOCATION OF BEFORE TON. STROSERIANNUNCWTORS LEAK DETECTION, PRODUCT EMULATORS. AND RMCS WITH PLANS AND ROOM DETAIL. INSTALLATION 2. PRODUCTS 2.1 REFRIGERATION MONITORING AND CONTROL SYSTEM( RMCS) COMPONENTS A SWISS , EMERSON CLIMATE TECHNOLOGY E2 REFRIGERATION CONTROL( PROVIDED BY REFRIGERATION COMPRESSOR RACK MANUFACTURER) 2. C""RIIIEM EMERON ORS i, BOARD TI HEREON MULT SK A.0 SUBS RELAY OUTPUT BOARD a - ANALOG OUTPUT BID SUARJABLESECES SUCTION TRANOUCERS: 0 -- 20D PSIG (CPU PART NUMBER 500-2200) s11(CPC PART N UMBER -25GD7 t1, NEMAi RATED ENCLOSURES,NON.LUFKIN. 51M TO HOUSE NECESSARY SPECIFIED DMCESAND 20%SPARE CAPACITY 2. RMOTE AUDIBLEALARM B. REQUIRED SENSOW TEN DUCER ACCURACY TEMP SATURE 3. STATIC VREBSUREs0.1%RMG COLUMN PRESSURETRANOUCERS M.5%OF SPAN PSIG ZONE METAL OXIDE LEAK DETEMORTOft SENSITNitt. i RM .ENSITNIW 00PPM 9. MULTEZONE IS LEAK SRATURE ELECTORFOR: SEIFvS TNiEE tt IPEMER ENVIRONMENT C VOLTAGE SENSOR TO MATCH EQUIPMENT INCOMING VOLTAGE REOUIREMENT LOWVOLTAG RP.9D93%of T,Po Nr VOLTAGE UNBALANCES R PEDELAY TIME 0 RE STARTDELAYTMESING FAULTS 25ECOND5 ONO. D, FACTORY INSTALLED CONDENSINGUNTCOMPONEMS AND INPUTS: 1, CUB 11 OARRDDS 2. SUCTION SIG (CPC PART NUMBER 000.22G0) HIGH RESSUREDTRANSDUCERG PSDO PSIG (CPC PART NUMBER 800-2500J LIQUID TEMPE-He SENSORS SHALL BE PIPE MOUNT TYPE I TEMPERATURE SENSORS LL BE PIPE MOUNT TYPE AMBIEMAIR SENSOR APPROVED FOR OUTDOOR USE SUCTION RETURN GAS TEMPERATURE SENSOR 9. CONDENSER ft TEMPERATURE SENSOR CURRNT SENSING RETAYS OMPRES"R OIL LURE SAFETY 12, BEFECIAT PPMEFAILUBE NATION HIGH RHEATEROEONTROL 5, DIGTAL.CROLL COMPRESSOR MODULE IF SO EOUIPPEO) 11 LOUD LINE SOLENOID CONTROL E. A CTURY INSTALLED EVAPORATOWCASE CONTROL I MONITORING COMPONNTS SNAPORATORDISCHARGEAIRTMPERATURE "BI-TIR RAN ON""'1EWMPATOR RETURN AIR TEMPERATURE ELECTRON C EXPANSION VALVE CONTROL, AS REQUIRED ELECTRONIC EVAPORATOR PRESSURE REGUTATOR SEE ST HEATER CONTROL INCLUDING DEFROST TERMINATION LOUID LINE SOLENOID FAN MOTOR PROOF F. D INSTALLED COMPONENTS: 1. REFRIGERANT LEAK DERCTONU AN n EEMERSON MULT-ZONE INFRA -RED LEAK DETECTOR e. REFRIGERANT LEAK DETECTION SENSORS FOR EACH WALK-IN COOLEW FREEZER 2. EL AND SIGNALTO BE MOUNTED ON TIE EXTERIOR OF EACH WALK-N IMMEDIwTELT ABOVEOR ADJACENTTO EACH MAN DOOR. RETI-ASHING WE, OR TO BE BLUE o. AUDIBLE ALARM TO PRODUCE 74DB AT 10 FEET 3, LEAK ALARM PANEL AND SIGNAL FOR INTERIOR OF EACH WALK-IN COOLESPREFZER REI HE F RATE, COLOR TO BE BLUE e. AUDIBLEALARMTOPRODUCET4OBAT10FEET OF LOCAL HORN SILENCE BUTTITH PER VVlN a. STROBEWIMooNY UETOOPERAYETHEE IREDU ONOFLEAKALARM 4. UDDR OPEN RMONITORING COMPONENTS �RAMECOLORMUEAMBER a. ONE At ARM PANELOWITH LIGHTANO AUDIBLE PER ODOR =TPOUT FOR CSY CONTACT DOOR US WIREU TO RMCS ME.NMLY UPON DOOR OPEN s HORN TO SOUND IF DOOR CONTNOOUSLYLEFT OPEN FORAMUPITYCONFIGURABLETIME BETWEEN S. MIN SET IN S MIN INGREMBNTS PRODUCTEMULATORS E 0USTEINONTROLLER WLWIAR MODEM MISCELLANEOUS PANELSAND If0 BOARDS AS REQUIRED FOR COMPLETE INSTALLATION G. TMONNORING: REQUIRED POWERCYCl NG CONTROL TON MANIM DECTURN GAS TEMPERATURE SUCTION MAN IFOUD UCTION PRESSURE IDUALSUCTON BRANCH REBORN GAS TEMPERATURE ON PARALLEL RACKS RE ISCHARGFJ DISCHARGE MANIFOLD TEMPERATURE OR OIL FAILURE INPUT (ONE PER COMPRESSOR) COMPRESSOR OPERATION PROOF(ONE CURRENT SENSOR) AWER MA E LOGS OROPERATION STATUS ALARM L:QID PHASE LOSS LIgUtD MANIFOLD TEMPERATURE 13 AL SCROLL ONORMODULE (DSCM) IF EQUIPPED WITH DIGITAL SCROLLCOMPRESSOR H CONDENSERCON ORDENRING ONDENSERDROPLIEGGIQR DROP UIDRETURN PRESSURETURF. OREAMB ENT AIR TEAPERATURE(ONE PER PAN L11) IF M-RE 5, AIR DOLED CONDENSER OU'RET AIRTMPERATURE ONDNSER FAN MOTOR CONTROL, CONDN.ER FAN MOTOR PROOF 1, SENSOR CABLE- 224 SHIELDED. PLENUM RATED 3. EXECUTION 31 INSTALLATION CONNECT AND CONFIGURE EQUIPMENTAND SOFTWARE TO ACHIEVE SEQUENCE OF OPERATION SPECIFIED B. VERIFY LOCATION OF LEAK DETECTORS. LEAK INDICATORS, PRODUCT EMULATORS, AND DOOR ALARMS WITH DRAWINGS AND ROM DETAILS BE FORE INSTALLATION. 1. ICATORS: TO BE LOCATEDA-M ENT TOAND MOUNTEDABOVE THE INSIDE AND OUTSIDE OF EACH MAINACCESS DOORFOR EACH REFRIGERATED. CHILLED. AND FROZEN SPACE. AS REQUIRED BY APPLICABLE CODES. T 2. EFFECTORS: TO BE UWATES-THE REI-PRANTLEAANO KSAREUIELY-0001 COLLECT. ATAMIHMUM ONE UEL CTOR PERREFRIGE DSPACE.ASREQUIREDBYAPPLI a LECMM. 3, O BE LOCATBOOM THE WARMAND COLD SIDE OF EACH ENTRANCE TO A REFRIGERATED SPACEAND ON THE NTEROR ANO ENTER IOR TO A MACHINE ROOM, OORALARM TO BE LOCATED ADJACENT TO THE EXTERIOROF EACH MAN DOOR. 5PRODUCTENUFAIGRS:TO BE MOUNTED ATSONAN OFFSETSPACER BRACKETAND NOTN CONTACTWITH THE ROOM WALLEACIRIC ONADJACENTWALL MOUNTAT9 DEGREETOEVAPORATORANDEVAPORATORARTHROWTOREDUCEEVAPORATORARTHROW IMPANT 3.2 ELECTRICAL WIRING AND CONNECTION INSTALLATION A. MSTALLBHLDINGWIRE AND CABLEAC..ROINGOSECTION24G '10W-VOLTAGEREFRIGERATON CONTROL WIRING.' 3.3 FIELD QUALITY CONTROL MANUFACTURER'S FIELD SERVICE: A FALL-AUTHDRIZED SERVICE REPRE.NTATVETO INSPECT TEST, AND AOJUSTFIELD-ASSEMBLED COMPONENTS WRING CONNECTIONS. REPORT RESULTS IN WRITING, 6, ERFORMTHEFOLLOWINGFIELDiESTSA.NDI SPECTIONSANOPREPARETESTREPORTS: 1, OPERATIONAL TEST AFTER ELECTRICAL CIRCUITRY HAS BEEN ENERGIZED, START UNITS O CONFIRM PROPER UNIT OPERATION. REMOVE AND PLACE MALFUNCTIONING UNITS AND RETEST, 2, TEST EACH HOW THROUGH ITS FULL OPERATING RANGE TO VERIFY THAT SAFETY AND OPERATING CONTROL SET POINTS AREAS BTEEGUIFUACH SYSTEM FOR COMPLUNCE WITH SEQUENCE OF OPERATION. AREAND HARDWARE INTELOC RKS. 34 ADJUSTING oFTVT CPLIBRATINGANDADJUSTINO. AND ACCURACY FOR EACH ANALOG INSTRUMENT. 2. CALIBRATEEQUU MENTLAND PROEDURES USING LMAN�UFRACTVRER'S WRITTEN RECOMMNDATONS ANDIUTRUCTIONMPNUALS.USE TESTEWIPMENT WHEN AOURACYAT LEASTTWICETHAT OF INSTRUMENt BEING CALISRATN. 3, CONTROL SYSTEM INPUTS AND OTPUTS: CHECKINPUTS ATO. W. D f00 PERCNTOFSPAN. CHECKANALO OUTPUTS uSIN. MILLWMPERE METERATO. SD AND 100 PERCENT OUTPUT. E CHECK DIGITAL INPUTS USINGJUMPERWIRE. HECK DIGITAL OUTPUTS USING OHMMETER TO TEST FOR CONTACT MAKING OR BREAKING. � CHECKRECTSTANUE PUTS AT0. 50 AND SA PNCENT OF SPAN USING A PRECISION.RESLSTANT SOURCE. 1, PROVALE DIAGNOSTICA.NOTEST NSTRUMENFS FORCALIBWATIONAND ADJUSTMENT OFSYSTM. 5. PRODI URESANDEFUIPMENTFORCALIBRATINGEACHTYPE OF INSTRUMENT. SUBMIT PROCEDURES REVIEW AND APPROVAL BEFORE IN -DING STARTUP PROCEDURES. 3.5 AS -BUILT DOCUMENTATION FURNISH 2 SETS OF PAPER COPIES OFRMS DBAWINGSANO PRODUCT DATA SHEETS TFTHE PROJECTSITE. ELECTRONICtSH (PDF)FILES OF HEMS DRAWINGS AND PRODUCT DATA SHEETS TO MANOR CONSTRUCTION MANAGER. END OF SECTION 2a0700 240900 COMMERCIAL REFRIGERATION LOW -VOLTAGE REFRIGERATION CONTROL WIRING 1. GENERAL t.t SUMMARY A- ON INCLUDES: LOW VOLTAGE WIRING FOR REFRIGERATION SENSORS OUCH AS PRODUCT EMULATORS, LEAK DETECTORS, LEAK DETECTOR INDICATORS, AND DOOR SWITCHES. 1.2 ACTION SUBMITTALS A PRODUCT DATA FOR EACH TYPE OF PRODUCT. 1.3 COORDINATION A REFRIGERATION CONTRACTOR IS RESPONSIBLE FOR INSTALLING OR SUBCONTRACTING THE LOW VOLTAGE WIRING FOR THE REMSERAT[ON SYSTEM, REFERENCE THE REFRIGERATION SYSTEM CONTROLS DRAWINGS FOR SENSOR NUMBERS AND LOCATIONS. 2. PRODUCTS 2.1 CONDUCTORS AND CABLES A COP PERCONDUCTORS:COMPLYWTTHNEMAW-ACEASA M. B. CONOUCTORINSULATON: MMPLYWTHNEMAWC70ACEAS-95 BFORWPETHHWTiW . 2.2 CONNECTORS AND SPLICES A PTIO DESCRIN: FACTORY -FABRICATED CONNECTORS AND SPLICES RATING, OF SIZE, AMPACITY G, MATERIAL, TYPE, AND CLASS FOR APPLICATION AND SERVICE INDICATED. 2.3 SYSTEM DESCRIPTION A. ELECTRICAL COMPONENTS, DEVICES, AND ACCESSORIES: LISTED AND LABELED AS DEFINED IN NFPA 70. BY A QUALIFIED TESTING AGENCY, AND MARKED FOR INTENDED LOCATION AND APPLICATION. B. COMPLY WITH NFPA 70, 3. EXECUTION 3.1 CONDUCTOR MATERIAL APPLICATIONS A SENSORCONDUCTOR SENSOR CONDUCTOR WIRING TO BE SUPPLIED BY CONTROL SYSTEM MANUFACTURER- 3.2 CONDUCTOR INSULATION AND MULTICONDUCTOR CABLE APPLICATIONS AND WIRING METHODS A SENSORCONDUCTOR: TYPE THHNTTHWN-20R MANUFACTURER RECOMMENDED, SINGLE CONDUCTORS IN RACEWAY, 33 INSTALLATION OF CONDUCTORS AND CABLES A COMPLETE RACEWAY INSTALLATON BETWEEN CONDUCTORAND CABLE TERMINATION POINTS ACCORDING TO SECTION 260S33 'RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS' PRIORTO PULLING CONDUCTORS AND CABLES. B. USEMANUFACTURER-APPROVED PULLING COMPOUND OR LUBRICANTMAERE NECESSARY COMPOUND USED MUST NOT BETTEE RATE CONDUCTOR OR INSULATION, DO NOT EXCEED MANUFACTURER'S RECOMMENDED MAXIMUM PULLING TENSIONS AND SIDEWALLPRESSUREVALUES. C. USE PU NG MEANS, INCLUDING FISH WE. CENTS, ROPE, AND BASKET -WEAVE WIRUCABLE GRIPS, THAT WILL NOT DAMAGE CABLES OR RACEWAY. D. INSTALL EXPOSED CABLES PARALLEL AND PERPENDICULAR TO SURFACES OF EXPOSED STRUCTURAL MEMBERS, AND FOLLOW SURFACE CONTOURS WHERE POSSIBLE, E. SUPPORTCABLEB AOORONGTO SECTION =529 'HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS.- 3.4 ONNECTIONS TIGHTENELECTRICALCONNECTORSANDTERMIMA ACCORDINGTOWNUFACORER'SPUBUSHEDTORQUE-TGHTENINGVALUES. IF MANUFACTURER'S TORQUE VALUES ARE NOT INDICATED, USE THOSE SPECIFIED IN UL4SEMBEB. B. MAKE SPLICES, TERMINATIONS, -TAPS THATARE COMPATBLEWFFH CONDUCTOR MATERIALAND THATPOSSESS EQUIVALENT OR BETTER MECHANICAL STRENGTH AND INSULATION RATINGS THAN UNSPUCED CONDUCTORS. C. WIRINGATSENEORS: INSTALLCONDUCTORATEACHSNSORWITHATLEASTBINCHESOFSLACK. REVIEWED FOR CODE COMPLIANCE APPROVED ,. 'AUG 08 2019 1_ City of Tukwila BUILDING DIVISION FECEIVED Cz v;J TLIX'vV L PER.':'' vC t i TP CONSULTANT . ..................... HENDERSON ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA, KS 66214 TEL 913.T42.5000 FAX913.742.5001 WWW.HENDERSONENGINEERS.COM 1950002714 WA. CORPORATE NUMBER: 1754 06/30/20 COPYRIGHT NOTICE .I ........... ...... ThisM tlXawin.g was prepared for Vse Fa eclfc site -NA,wit1 Its Issue ate antl R Is not sul[abie hr use on a er p:oiecer-1-me IGHL iseaan perry I'VXH d arcNtecis and en9lpeers. pmd-Al of 1, drawing Por reuse o aeoUer pro)ect is not auNonzed aM may be _VNITY t0 the law. ISSUES & REVISIONS PROJEECTT UWAS U YY A5 SEATTLE PROJECT ADDRE55 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ISSUED FOR PERMIT P11ANA111" ]ANTES MCCARTY CHECKED BY: HEI Y HEINB USICUNHINT DATE: 06/14/19 1950002714 PROFESSIONAL SEAL Jun 20 2019 PROJECT NAME: UWAS (SEATTLE) BUILDING ADDRE55: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 FILENAME: REFRIGERATION SPECIFICATIONS 2019 TEAR. 11 REGION. TODAY' DA R BY 6/13/2019 HEI G FLOOR: DRAWN DATE: 1 06/14/19 BUILDING TYPE: APPROVED BY. UWAS SCALE PROVED DATE zo amaZOR CUPPT•^uv�vDnni 3.5 IDENTIFICATION A. IDENTIFY AND COLORLODE CONDUCTORS AND CABLES ACCORDING TO SECTION RROG IDENTIFICATION FOR ELECTRICAL SYSTEMS" B DENTIEY EACH SPARE CONDUCTORAT EACH ENDWRH IDENTITY NUMBERAND LOCATION OF OTHER END OF CONDUCTOR,AND IDENTIFY AS SPARE CONDUCTOR. 3.6 SLEEVE AND SLEEVE -SEAL INSTALLATION FOR ELECTRICAL PENETRATIONS A. INSTALL SLEEVES AND SLEEVE SEALS AT PENETRATIONS OF EXTERIOR FLOORAND WALLASSEMBLIES. 37 FIRESTOPPING A. FIRESTOPPING SY FIRESTOPPING CONTRACTOR, REFERENCE SECTION 07B400'FIRESTOENW FOR AD.HIONAL INFORMATION. END OF SECTION GREIN 24 0900 COMMERCUL REFRIGERATION LOW -VOLTAGE REFRIGERATION CONTROL WIRING 1. GENERAL 1.1 SUMMARY A. SECTION INCLUDES: LOW VOLTAGE WIRING FOR REFRIGERATION SENSORS SUCH AS PRODUCT EMULATORS, LEAK DETECTORS, LEAK DETECTOR INDICATORS, AND DOOR SWITCHES. 1.2 ACTION SUBMITTALS A. PRODUCT DATA: FOR EACH TYPE OF PRODUCT. 13 COORDINATION A REFRIGERATION CONTRACTOR IS RESPONSIBLE FOR INSTALLING OR SUBCONTRACTING THE LOW VOLTAGE WIRING FOR THE REFRIGERATION SYSTEM. REFERENCE THE REFRIGERATION SYSTEM CONTROLS DRAWINGS FOR SENSOR NUMBERS AND LOCATIONS. 2. PRODUCTS 2.1 CONDUCTORS AND CABLES A COPPER CONDUCTORS: COMPLY WITH NEMA WC MASSA S-95.65& S, GONG CTORINSULWION: COMPLY WITH NEMA WC 70110EA S-95b58 FOR TYPE MHWHWN-2. 2.2 CONNECTORS AND SPLICES A DESCRIPTION: FACTORY -FABRICATED CONNECTORS AND SPLICES OF SIZE, AMPACITY RATING, MATERIAL, TYPE, AND CLASS FOR APPLICATION AND SERVICE INDICATED. 2.3 SYSTEM DESCRIPTION A. ELECTRICALCOMPONENTS,DEVICES, AND ACCESSORIES: LISTED AND LABELED AS DEFINED IN NFPA 70, BY A QUALIFIED TESTING AGENCY, AND MARKED FOR INTENDED LOCATION AND APPLICATION. B. COMPLYWITH NFPAM. 3. EXECUTION 3.1 CONDUCTOR MATERIAL APPLICATIONS A. SENEORCONDUCTOR: SENSOR CONDUCTOR WIRING TO BE SUPPLIED BY CONTROL SYSTEM MANUFACTURER. 3.2 CONDUCTOR INSULATION AND MULTICONDUCTOR CABLE APPLICATIONS AND WIRING METHODS A SENSOR CONDUCTOR: TYPE MHNRHWN-2 OR MANUFACTURER RECOMMENDED, SINGLE CONDUCTORS IN RACEWAY. 3,3 INSTALLATION OF CONDUCTORS AND CABLES A. COMPLETERACEWAYINSTALLATION BETWEEN CONDUCTOR AND CABLE TERMINATION POINTS ACCORDING TO SECTION 260533 "RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS" PRIOR TO PULLING CONDUCTORS AND CABLES. e. USEMANUFACNRER-APPROVED PULLING COMPOUND OR LUBRICANTWHERE NECESSARY; COMPOUND USED MUST NOT DETERIORATE CONDUCTOR OR INSULATION. DO NOT EXCEED MANUFACTURER'S RECOMMENDED MAXIMUM PULLING TENSIONS AND SIDEWALL PRESSURE VALUES. C. USE PULLING MEANS, INCLUDING FISH TAPE,CABLE,ROPE, AND BASKET -WEAVE WIREICABLE GRIPS, THAT WILL NOT DAMAGE CABLES OR RACEWAY. D. INSTALL EXPOSED CABLES PARALLEL AND PERPENDICULAR TO SURFACES OF EXPOSED STRUCTURAL MEMBERS, AND FOLLOW SURFACE CONTOURS WHERE POSSIBLE. E, SUPPORT CABLES ACCORDING TO SECTION 260529"HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS.- 3ACONNECTIONS X TIGHTEN ELECTRICALCONNECTOHS AND TERMINALS ACCORDING TO MANUFACTURER'S PUBLISHED TORQUE-TIGUMMING VALUES, IF MANUFACTURER'S TORQUE VALUES ARE NOT INDICATED,USE THOSE SPECIFIED IN UL 48MAEGO e. MAKE SPLICES,TERMINATIONS, AND TAPS THAT ARE COMPATIBLE WITH CONDUCTOR WTERIALAND THAT POSSESS EQUIVALENT OR BETTER MECHANICAL STRENGTH AND INSULATION RATINGS THAN UNSPLICED CONDUCTORS. C, WIRING AT SENSORS: INSTALL CONDUCTOR AT EACH SENSOR, WITH AT LEAST 6 INCHES OF SLACK. 3.5 IDENTIFICATION A. IDENTIFY AND COLOR -CODE CONDUCTORS AND CABLES ACCORDING TO SECTION 260553 "IDENTIFICATION FOR ELECTRICAL SYSTEMS.° P IDENTIFYEACHSPARE CONDUCTOR AT EACH END WITH IDENTITY NUMBER AND LOCATION OF OTHER END OF CONDUCTOR AND IDENTIFYAS SPARE CONDUCTOR. 3.6 SLEEVE AND SLEEVESEAL INSTALLATION FOR ELECTRICAL PENETRATIONS A. INSTALL SLEEVES AND SLEEVE SEALS AT PENETRATIONS OF EXTERIOR FLOORAND WALL ASSEMBLIES. 3.7FIRESTOPPING A. FIRESTOPPING BY FIRESTOPPING CONTRACTOR, REFERENCE SECTION 07MM TIRESTOPPING" FOR ADDITIONAL INFORMATION, END OF SECTION 240900 241100 COMMERCIAL REFRIGERATION HANGERS AND SUPPORTS FOR REFRIGERATION PIPING AND EQUIPMENT 1. GENERAL 1.1 SUMMARY A. SECTION INCLUDES: i. METAL PIPE HANGERS AND SUPPORTS, 2. TRAPEZE PIPE HANGERS. 3. METAL FRAMING SYSTEMS. THERMAL -HANGER SHIELD INSERTS. FASTENERSYSTEMS. 6. PIPE STANDS. T. EQUIPMENTSUPPOSTE. t.2 PERFORMANCE REQUIREMENTS A. DELEGATED DESIGN: DESIGN TRAPEZE PIPE HANGERS AND EQUIPMENT SUPPORTS, INCLUDING COMPREHENSIVE ENGINEER NGANALYSIS BYA QUALIFIED PROFESSIONAL ENGINEER, USING PERFORMANCE REQUIREMENTS AND DESIGN CRITERIA INDICATED BY CONSTRUCTION DRAWINGS. 1.3 QUALITY ASSURANCE A. PROVIDE HANGER ASSEMBLIES AS REQUIRED, CONSISTING OF PRE -MANUFACTURED COMPONENTS THAT COMPLIANT WITH MSS SPS9, SP-M, SFS9 AND BEES OR ARE UL APPROVED B. SEISMIC: MEET SPECIFIC SEISMIC REQUIREMENTS FOR PROJECT. C. COMPLY WITH MSS-S- FOR HANGER SELECTIONS AND APPLICATIONS THATARE NOTSHOWN IN DRAWINGS GRIN THIS SECTION, D. INSTALL HANGERS, SUPPORTS, ATTACHMENTS, AND CLAMPS AS REQUIRED TO SUPPORT PIPE FROM BUILDING STRUCTURES. 1.4 COORDINATION A COORDINATE LOCATION AND SIZES OF EQUIPMEWAND PIPING SUPPORTS WITH GENERAL CONTRACTOR. 2. PRODUCTS 2.1 MATERIALS A NOMANDSOLTS: ASMEB ISIS ORASTMA183 STEEL, HECHEAD, TRACK BOLTGAND SELF-LOCKING NUTS. B, WASHERS: ASTM F 844 STEEL, PLAIN, FLAT G ASTM A 36 HOT ROLLED WITH CUT COARSE THREADS HANGER RODS. D. BOLTED METAL FRAMING SYSTEMS (COOPER STIN OR UNISTRUT0) CONSISTING OF CHANNELS, FITTINGS, AND HARDWARE AS PER THE METAL FRAMING MANUFACTURER'S ASSOCIATION STANDARD MFMA.I. 1. CHANNELS ARE TO BE COLD -FORMED, 12 GAGE, ASMTA 570 GRADE 33 STEEL, PAINTED WITH ELECTRODEPOSRED EPDXY BASED PAINT. 2. ASTMA 635 STEELCHANNELACCESSORIES PAINTED WITH ELECTRODE SITED EPDXY BASE PAINT. E. STRUCTURAL STEEL ANGLES, BARS, PLATES, AND CHANNES-AS PER ASTM A B6 F. STRUT MOUNTED CUSHION CLAMP ASSEMBLIES AS MANUFACTURED BY HYDRA-ZORS OR COOPER B-LINE& GALVANIZED POWDER COATED 10067-1110 CARBON STEEL CLAMPS WITH PROJECTION WELDED STUD, DUPONT- HYTREUD CUSHIONS AND NYLON INSERT LOCKNUT. G. ROOFTOP PIPE SO PORS AS PER DRAWINGS AND AS NEEDED TO SUPPORT PIPING SYSTEM. H. WOOD BLOCKING: 1. FIRETREATED E. MEET CRITERIAAS OUTLINED IN [CC EVALUATION SERVICES INC. NER-577 OFLAME SPREAD RATING OF 25OR LESS WHEN SUBJECTED TO ASTM &M BURN TEST FOR 30 MINUTES 1, INSULATED PIPING SUPPORTS: INSUGUARD OR COOPER B-LINE SNAP SHIELD I2"PIPE SUPPORTS TO BE USED IN CONJUNCTION WITH THREADED ROD AND STRUT SUPPORT SYSTEM, 3. EXECUTION 3.1 INSTALLATION: A INSTALLHANGERB AND SUPPORTS SO THAT ENE AND DEAD LOADS, OR MOVEMENT, ARE NOT TRANSMITTED TO EQUIPMENT. S. INSTALL HANGERS AND SUPPORTS COMPLETE WITH NECESSARY BOLTS, NUTS, INSERTS, RODS, WASHERS, AND OTHER ACCESSORIES. C ATTACH HANGERS AND SUPPORTS TG BUILDING STRUCTURE AND MASONARY. C COORDINATE LOCATION OF HANGERS BETWEEN TRADES SOTHATAMAXIMUMAUL BLE LOADOF 100 LBSTOASINGLE JOIST PANEL POINT IS NOT EXCEEDED. E. INSTALL MECHANICAL ANCHORS OR FASTENERS IN CONCRETEAFTER IT HAS COMPLETELY CURED, F. INSTALL HANGERS AND SUPPORTS AS NEEDED TO ALLOW CONTROLLED MOVEMENT OF PIPING SYSTEM. MOVEMENT 8 EEN ANCHORS, AND TO ACCOMMODATE NORMAL EXPANSION AND CONTRACTION. G. SPACE HANGERS FOR THE SMALLES PIPE SIZE OR INSTALL INTERMEDIATE SUPPORTS FOR 6MALLER DIAMETER PINES AS SPECIFIED. H. GOORDINATE LOCATION OF ROOFTOP PIPING WITH BUILDING STRUCTURE, I. INSTALL HANGERS FOR INSULATED PIPE SIZED TO ENCOMPASS INSULATION AND SUPPORT SHIELD. J. LOCATE HANGERS: K. ADJACENT TO JOINTS, COUPLINGS, AND FITTINGS. L. AT EACH OFFSET OR CHANGE IN DIRECTION M. AT BASE OF RISERS N. IN THE VICINITY OF VALVES AND OTHER RELATIVELY HEAVY SYSTEM COMPONENTS ORACCESSORIES. o. ASNEEDEDTOPREVENT BENDS OR VIBRATION. 3.2 ADJUSTING AND CLEANING A. ADJUST HANGER SYSTEM TO DISTRIBUTE LOADS EQUALLY AND TO ACHIEVE REQUIRED SLOPE OF PIPING. e. RE MOVE SHARP BURRS AND SHARP EDGES FROM HANGERS AND SUPPORTS. c. REMOVESIGNS OF CORROSION AND TOUCH UP OR RESTORE FINISHES WITH GALVANIZING REPAIR PAINT. 3.3 SPACING REQUIREMENTS A SPACE HANGERS AS PER THE TABLE SHOWN BELOW. SPACE HANGERS TO MEET THE REQUIREMENTS OF THE SMALLEST DIAMETER PIPE IN A GROUP. ERRO ER(INCH) M MSPM1GIN. END OF SECTION 241100 irz' to 0 24 2100 COMMERCIAL REFRIGERANT PIPING 1. GENERAL 11 SUMMARY THIS SECTION INCLUDES REFRIGERANT PIPING USED FOR COMMERCIAL REMIGEMTIONAPPLICATIONS, 1,2 PERFORMANCE REQUIREMENTS 1,3 ACTION SUBMITTALS A PRODUCTUATq FOR EA CHWPEOFVALVEAN.REERIGEMMPIPINGSPECIALTYINDICATED, INCLUDE PRESSURE DROP, BASED ON MANUFACTURER'S TEST DATA, FOR THE FOLLOWING: THERMOSTATIC EXPANSION VALVES, SOLENOIDVALVES. RYERS, STRAINERS. 1. PRESSUROREGUUMING VALVES. e. REQUIREDDRAWINGS: SHOW LAYOUT OF REFRIGERANT PIPINGAND SPECIALTIES, INCLUDING PIPE, TUBE, AND FULUNG ES, FLOWC4P lC M.VALVEARRANGEMENTSANDLOCATIONS,SLOPESOFHOR2MMLRUNS,OILT-..DOUBLERISERS,WALL AND FLOOR PENETRATIONS, AND EQUIPMENT CONNECTION DETAILS. SHOW INTERFACE AND SPATIAL REATIONSHIPS BETWEEN PING AND EQUIPMENT. 1. REFRIGERANT PIPING INDICATED ON DRAWINGS IS SCHEMATIC ONLY, SIMPIPINGANUDESIGNACTUALPIPIN.LAYOUT, INCLUDING OILTRAPS, DOUBLE RISERS, SPECIALTIES, AND PIPE AND TUBE SEES TO ACCOMMODATE, AE AMINIMUM, EQUIPMENT PROVIDED, ELEVATION DIFFERENCE BETWEEN COMPRESSOR AND EVAPORATOR, AND LENGTH OF PIPING TO ENSURE PROPER OPERATION AND COMPLIANCE WITH WARRANTIES OF CONNECTED EQUIPMENT. 1.4 INFORMATIONAL SUBMITTALS ELDOUAU-CONTROLTESTREPORTS. I.5 CLOSEOUT SUBMITTALS A. ERATIOR AND MAINTENANCE DATA: FOR REFRIGERANT VALVES AND PIPING SPECIALTIES TO INCLUDE IN MAINTENANCE MANU W 1.6 QUALITY ASSURANCE A MATERIALSSRALLBENEWANDWITHOUTDEEM-IF REQUESTED, REFRIGERATION CONTRACTOR WILL BE REQUIREDTO SUPPLY MATERIAL TEST RE FORT S. MATERIAL DATA SHEETS, EMPLOYEE QUALIFICATIONS, AND TRAINING RECORDS. COMPLY WITH ASHRAE 15, "SAFETY CODE FOR REFRIGERATION SYSTEMS' COMPLY WITH ASME 831,5, REFRIGERATION PIPING AND HEAT TRANSFER COMPONENTS - D. NAME CODE SYMBOL STAMPS FURNISH SAFETY (PRESSURE RELIEF) VALVES COMPLYING WITH ASME CODE AND STAMPED WITH APPROPRIATE CODE SYMBOLS. E. REFRIGERATION CONTRACTOR AN. MANUFACTURER. ARE RESPONSIBLE FOR THE DUALITY OF BRAZING PERFORMED BY THEIR CSOMIZATTON. 11 PRODUCT STORAGE AND HANDLING A, STOREPIPINGIN ACLEA.N AND PROTECTED AREAWITN END CAPS IN PLACETO ENSURE (MAT PIPING INTERIOR AND EXTERIOR ARECLEANWHENINSTALLED. STORE PIPING A MINIMUM OF U2')AB0VE SURROUNDING FLOOR OR GRADE. s. RECEIVE FITTINGS AND MORE IN CLOSED CONTAINERS OR CARTONS, AND STORE COPPER TUBING WITH RUBBER PLUGS AND CAPS IN PLACE. UO NOT INSTALL COPPER TUBING THAT HAS BEEN LEFT UNCAPPED FOR MORE THAN ONE DAY AS REFRIGERANT PIPING. C. MAINTAIN MSDS SHEET FOR MATERIALS, COMPMNDS, AND CHEMICALS STORED ATJOB SITE. 1.6 COORDINATION COORDINATE SIZE AND LOCATION OF NODE CURBS EQUIPMENTSUPPORTE, AND ROOF PENETRATIONS, 2. COPPER PIPING SYSTEMS 21 COPPER TUBE AND FITTINGS I IN GENERAL, COPPERTUBING IS TO BE USED FOR HFC,HCFC, AND HFO REFRIGERAN(SYSTEMS WITH SUCTION LINES SMALLER To 4'DIAMEIER. B COPPER TUBE: ASTM BON. TYPE ACT AND ASTM B 42,TYPE L: SEAMLESS TUBING WITH CAPS, DEHYDRATED. AND WITH DRY NITROGEN CHARGE. USE K COPPER IF REQUIRED BY LOCAL GOVERNING CODES. ACCEPTABLE MANUFACTURERS: MUELLER INDUSTRIES C. DEHYDRATEQHARDURAWNAM TYPE L SEAMLESS TUBING,DEHYCRATED, WITH DRY NITROGEN CHARGE, MANUFACTURED IN ACCORDANCEWITHASTMBMMDCLEANEDINACCORDIIITHASTMB2W ACCEPTABLEMANUFACTURERS: 1. MUELLERINDUSTRIES CMS HOWELL METAL CERES FLOWPRODUCTS,INC, SOFT COPPER IS NOTALLOWED. P EVAPORATORCOILCMDENSATE DRAIN PIPING: 1, INROOM SWITHEVAPORATORDISCHARGENRMMPER WRESATORBELOW32"F(MEATCOOLER,STORAGEFREEZERS)- TYPE L SEAMLESS COPPER TUBING MANUFACTURED IN ACCORDANCE WITH ASTM B M. ACCEPTABLE MANUFACTURERSOW 2 cS IN ROOMSWITHEVgPOMTOR DISCMRGEAIRTEMPEMTORESABOVE35•USEASTM D-1765SCHEDULE40 PVC PIPING MADE OF COMPOUNDS CONFORMING TO ASTM D-1784 PVC FHTNGS: SCHEDULE 40, SGCKETTYPE ASTM D-2466 F. WROUGHT -COPPER FITTINGS: ASME B1622 STREAMLINED PATTERN OR FORGED BRASS. LONG RADIUS ELBOWS ONLY, SHORT RADIUS ELBOWSAREPRONIBIMID 46-FITTINGSAREPROHIBITED.ACCEPTABLEMANUFACTURERS: ERINDUSTRIES NOL INDUSTRIES, INC. G. HANGESINDIREQUON: USECIPPERFUTO-FORALLCHANGESINDIRECTION. FOR PIPING SIB' DIAMETER OR LESS, ACHANOE IRECTIONMAYBEMADE USING A TUBE BENDER ON HARD COPPER TUBING, SOFT COPPER IS NOTA-MED EORCHAN.ES IN DIRECTION. R. PIPING TRANSITIONS: USE FACTORY FABRICATED FITTINGS (NO CRIMPING. SWAGING, OR STAB-M CONNECTIONS) BRANCH CONNECTIONS: MAKE WITH EITHER FITTINGS OR WITH ATEE PULLER, BRAZING FILLER METALS: AWS AS e. CLASSIFICATION BAR-1 (SILVER) CASE CONDENSATE PIPING:ASTM D-1785 SCHEDULE40 PVC PIPING MADE FROM COMPOUNDS CONFORMING M ASTM D-17M C FITTINGS: SCHEDULE 4O SOCKETTYPEAS PERASTM 0-2466 3. EXECUTION 3.1 PIPING SYSTEM INSTALLATION -COPPER PIPING SYSTEMS A LINE SUING REQUIREMENTS: SUCTION LINES: 1. HORIZONTAL PIPING: MINIMUM VELOCITY OF 500 FEET(MINUTE. PRESSURE DROP NOT TO EXCEED A CHANGE IN SATURATED SUWION TEMPERATURE O-F O. VERTICAL SUCTION LINES: MINIMUM VELOCITY OF I,000 FEETONNUTE, PRESSURE DROP NOT TO EXCEED A CHANGE IN SATURATED SUCTION TEMPERATURE OF TF e. LINE SWING: LIQUID LINE DENS G.O1R 11EETPARTt UF11mcu5. 1. HORIZONTAL LIQUID LINES: LIQUID VELOCITY LESS THAN NO FEETIMINUTEAND A CHANGE IN SATURATED LIQUID TEMPERATURE OF NO MORE THAN 2•F C. LINE SIZING- CONDENSER RETURN LINES: SIZING CONDENSER RETURN LINES WITH A VELOCITY OF 80 TO 150 F-MINUTE AND A CHANGE IN SATURATED LIQUID MPERATURE DF NO MORE THAN 2•F D. LINE SIZING: DISCHARGE LINES: 1. SIZE DISCHARGE LINES WITH A CHANGE IN SATURATED TEMPERATURE NO GREATER THAN TF MU A VELOCITY OF 1,000 FEETIMINUTETOONS FECUMINUTE. E INSTALL PIPING INA NEAT, WORKMANLIKE MANNERVOIH HORIZONTAL RUNS SLOPED TOWARD THECOMPRESSORATA RATE OF F, ACCURATELY MEASURE, AND CUT REFRIGERANT PIPING TO LENGTH USING A TUBING CUTTER. USEOFANABRASIVEWHEELTYPE CONTENDS HACKSAW ON COPPER TUBING IS PROHIBITED, REAM CUT ENDS TO FULL DIAMETER AND REMOVE BURS CREATED DURING THE CUTTING PROCESS, E RE MOVE SURFACE SOILAND OXIDES FROM SURFACE OF COPPERTUBING AND FROM INSIDE CUP OF FlTTINGSWITHANABMSNE CLOTH, ABRASIVE PADS, OR FRYING BRUSH. E M JOINTS BEFORE BRAZING, ENSURING THAT COPPER TUBING HAD BEEN INSERTED FULLY INTO FITTING CUP. J. ENSURE TMATPIPNNG SYSTEM HAS MEANS TO EXPAND AND CONTRACT DUE TO TEMPERATURE FLUCTUATIONS INHERENT IN THE OPERATION OF THESE SYSTEMS. K. KEEP REFRIGERANT PIPING CLEAN AND DRY DURING INSTALLATION. PIPEISWBESEALEDWHENNOTWORWNGOIREMT ONA SPECIFIC LOCATION ORJOINT. VISIBLY INSPECT PIPE AND FU DIGS PRIORTO ASSEMBLY, AND DO NOT LEAVE OPEN ENDS UNATTENDED DURING THE INSTALLATION PROCESS. SWAB TUSINGAS NEEDED WITH ALCOHOL SOAKED CLOTH TO REMOVE DIRT, FILINGS. OR MOISTURE. L PURGING: CONTINUOUSLY PURGE PIPING SYSTEM WITH DRY NITROGEN DURING THE BRAZING PROCESS. BRAMALLJOINTS PHIL A HIGH TEMPERATURE SILVER SOLDERALLOY CONTAINING NOT LESS THAN 15%SILVER FORCOPPER TO COPPER CONNECTIONS, AND 4574SILVER FOR COPPER TO STEEL, BRASS TO STEEL OR STEEL TO STEEL JOINTS. M. INSPECTION: AMAZON MAY REQUIRE INSTALLING CONTRACTOR TO REMOVE UPTOTHREE ETTINGS FROM EACH REFRIGERATION SYSTEM AFTER THE BRAZING PROCESS HAS BEEN COMPLETED TO ENSURE THAT SYSTEM IS CLEAN, IF FIRST FITTING IS FOUND TOHAVESCALEASECONDFILMNGSHALLBEREMMED, IFTHESECONDFIWINGHASSCALE,ATHIRDFITTINGSHALLBE REMOVED, IF SCALE IS FOUND IN THE THIRD FITTING, ALL FITTINGS SHALL BE REMOVED FROM THE PIPING SYSTEM AND NEW FITTINGS INSTALLED AT SOMRAGTOR'S EXPENSE, N REMOVEHEAT SENSITIVE PARTS AND OTHERWISE PROTECTVALVES AND REFRIGERATION CONTROLS DURING THE BRAZING PROCESS. INSTALL PIPING SO AS TO MINIMIZE UNDUE STRAIN ON PIPE AND FIRINGS, AND TO MINIMIZE VIBRATION. INSTALL CUSHIONED PIPE CLAMPS FOR VERTICAL RISERS OVER WIN LENGTH, HORIZONTAL PIPE RUNS, IN GENERAL DO NOT REQUIRE CLAMPING REFER TO STRUCTURAL REQUIREMENTS. SUPPORT PIPING WITHIN T P OF EACH CHANGE IN DI RECTION. CONTINUOUSLY SLOPE HORIZONTAL RUNS TOWARD THE COMPRESSORATA RATE OF i INCH PERM FEET, T. OIL TRAPS ARE REQUIRED AT THE BASE OF EACH SUCTION RISER EXCEEDING WIN LENGTH. INTERMEDIATE TRAPSARE REQUIRED AT EVERY IF OF VERTICAL RISER. U. FIRESTOP PENETRATIONS THROUGH BUILDING WALLS AS REQUIRED. 32 FIELD QUALITY CONTROL A PRIOR TO CHARGING A REFRIGERATION SYSTEM PRESSURIZE SYSTEM AND LEAK CHECK WITH DRY NITROGEN AS PER SECTION 240550 SYSTEM STARTUP LEAKCHECKING AND CHARGING. 3.3 PRESSURE TESTING& EVACUATION- COPPER PIPING SYSTEMS A PRIOR TO CHARGING ANY REFRIGERATION SYSTEM PERFORM A COMPLETE SYSTEM PRESSURE AND LEAK TEST AS HER ASME SF.5 ANDTHE FOLLOWING PROCESS: ISOLATE ALL ELECTRONIC PRESSURE TRANSDUCERS AND RELIEF VALVES. C SYSTEMATIC.4LI-Y PRESSURIZE EACH SECTION OF PIPING WIT( SUCTION AND LIQUID VALVES CLOSED INCREASE PRESSURE TO 15 PSIG WITH AN APPROVED TRACER GAS. USE DRY NITROGEN TO INCREASE PRESSURE ON SYSTEM TO 1M PSIG FOR LOW SIDE. AND300 PSIG HIGH SIDE -INCLUDING LIQUID LINES. INSPECTALACCOMMI E JOINTS WITH AN APPROVED LEAK DETECTION DEVICES. 3. PRESSURIZE EACH REERIGERATION SYSTEM COMPONENT TO 15 PSIG WITH AN APPROVED TRACER GAS. AND THEN MISS THEPRESSURETO 150PSIGUSINGDRYNITROGEN.CHECKEACHJOINTWH MAPPROVEDLEAKDETECTIONDEVICE. IF LEAKS ARE FOUND, DEPRESSURIZE SYSTEM, REPAIR MAK,AND PREMURIZETO LEVELS NOTED IN 3,W, AND A3.- ENTIRE SYSTEM MUST HOLD NO PSIG FORA MINIMUM OF 24 HOURS BEFORE PURGING, UPON SUCCESSFUL COMPLETION OF TEST, REDUCE PRESSURE TOO PSIG USING LEGAL METHODS. e. SYSTEM EVACUATION REQUIREMENTS- COPPER PIPING SYSTEMS 1, EVACUATE ENTIRE SYSTEM WITH PUMP SPECIII-1 DESIGNED FOR VACUUM DUTY, WITH A CAPACITY OF NO LESS THANE CFM. CONNECT PUMP TO HIGH AND LOW SIDE OF REFRIGERATION SYSTEM USING NP COPPER TUBING. OPEN VALVES UNLESS SYSTEM UNLESS SYSTEM CONTAINS A FACTORY REFRIGERANT CHARGE. EVACUATE SYSTEM TO ANABSOLUTE PRESSURE NOT EXCEEDING IUM MM HG. 1. INCREASE PRESSURE ON SYSTEM TO PSIG WIT DRY NITROGEN, COMPLETE STEPS LISTED IN SECTION M100 SS B 1, CA B 5 FOR A TOTAL OF THREE TIMES. ON FINAL VACUUM, EVACUATE SYSTEM TO DED MM HG AND HOLD FOR 24 HOURS. BREAK FINAL VACUUM WITH REFRIGERANT TO BE USED IN SYSTEM, 3.4 CLEAN-UP MAINTAIN A CLEAN AND ORDERLY WORK AREA REMOVE J08SHE SCRAP, WASTE, AND DEBRIS RESULTING FROM REFRIGERATION INSTALLATION. C, PERFORM TESTS AND INSPECTIONS AND PREPARE TEST REPORTS PER SECTIONS SWEAR AND ZVXNL ENDOFSECTION242t00 242300 COMMERCIAL REFRIGERANT PIPING INSULATION 1. GENERAL INSTRUCTIONS 1.1 SUMMARY 1.2 ACTION SUBMITTALS 0. FRQDUZTDATA FOREACHTYF JACKEFS (BOTH FACTORY AND I e. SAMPLES: PROVIDEMGCK-UPC 1.3 .QUALITY ASSURANCE IA DELIVERY, STORAGE, AND HANDLING 1.5 COORDINATION 1.6 SCHEDULING CHEDULEINSUTATONAYNACATIONAPTERPRESSURE TRACING. INSULATIONAPPLICATIONMAYBEGINONSEG B. MPLETE INSTALIATION AND CONCEALMENTOF EAST 2.PRODUCTS 2.1 INSULATION MATERIALS MPLY WITH REQUIREMENTS IN •PIPING INSULATION SC ABOVEGROUND PIPING INSULATION SCHEDULE"ARR.. PRODUCTS SHAIL NOT CONTAIN ASBESTOS, LEAD. MON . PRODUCTS THAT COME IN CONTACT WITH STAINLESS ST TESTEDACCORDOI TOAST MC 871. NSULAU.P MATERIALS FOR USE ON AUSTENITIC STAINL D FOAM INSULATION MATERIALS SHALL NOT USE CFC OFTH 22 ELASTOMERIC FOAM INSULATION: TO BE USED ON COPPER REENGE'iANT SUCTION AND SL BUL CLOSED CE'LLEIASTOMERIC TUBULAR OR SHE ASTM-0534. MATERIAL SHALL HAVEA FLAME SPREAD RA ACCORD WITH ASTM-EN FOR ALLTIR-ESSES. WATER ASTM EN. ACCEPTABLE MANUFACTURERS: AMOFLEICAEROCELL® 2. ARMACELLLLC FLEX®USA c, PREFAMBOTEDINSULATION PTTAMREQUIREDFOREI FOLLOWING MANUFACTURERS: 1. ARMACELLLLC, ARMAFITMANUFACTUREDFrTTINGS AEROFLEXOUSA, AMOFIT MANUFACTURED FITTINGS 3. K-FLEXGUSA, K-FITMANUFACTUUFN1N7INGS ADHESIVE- ELASTOMERIC FOAM INSULATION: CONTACTA MOISTURE RESISTANT PERMANENT POND BETWEENA- TERW-TOBEINSO, EB ACCEPTAMOURNUFACTUF AFLM S20ADHESIVE 2. K-REX®620 CONTACTADHESNE-BLACK I. K+1EX®32OCONTACTADHESIVE-AMBER SULATSD PIPE SUFPORTS- ELASTOMERIC FOAM INSULA F. INSULATION COUPLING AS MANUFACTURED BY NUFSHUR ASAMF T INSULATEDINSERTSMMANUFACTUREUS 2 AFRO_%INSULATED tNSERTSM-NUFACTUREDB EX 360 INSULATED PIPE SUPPORTS AS MANUFACTI G. SEALANT: SANITARY SILICONE RUBBER B.- CONEON RESISTANT SILICONE SE RANT OR EQUAL, LL PROVIDE SUFFICIENT QUANTITIES OF URETHANE FOAM IN VERB FOAMR, BY RHH FOAM SYSTEMS IN. OR EQUAL V vES TUGS: RMURED FOR INSULATION THA t. WHITE PVC FITTINGCOVERSANDJACKETINGWITNVIN W W W.SPEEDLINEPVC COM. 2. K+IEXWTCLADNS(NONSPLIT)TUBEINSULATIONVH MSUFLEX USA, INC., SANIGUAND^' 30 MILPVC JACKET 2.3 PREPARATION EL VWMMERIC FOAM INSULATION 1, DONOTAPPLYINSULATIONORCOVERINGBUNTILAFTE ANDAPPROVED BYTHE AUTHORITY HAVING JURISDICT SURFAC OLTERIA`FROM ENTBE ERING CLEAN OPENING, FREE OF DIRT, C 24 INSTALLATION � C FOAM INSULATION SYSTEMS; 1. INLAT STALION SHAD. SE PERFORMED BYTRAINED INS( O NOT TEAR INSULATION. ALL JOINTS SHALL BE C-I 3. INSULATION SHALL SE CONTINUOUS THROUGH ALL SLE OMERIC FOAM INSULATION SCHEDULE (MINIMUM WALL THICKNESS): vREPDcc FI v DW.IETEa vlvwGz too Dw.tn'ER Pi rvGa Hob DIAMtTeR NN 2.5 EP POLYISOCYANURATEINSULATION moRrocatnea3AN0.e-n A. REQUIRED FOR STEELOR STAINLESSSTEEL PIPING, D. PDLYHSOCYANURATE: UNPAGED,PREFORMED,RIGIDCELWLARPOLYISOGYANURATEMATERALINTENDEDFORUSEASTHERMAL N UHHUR 1. SUBJECT TO COMPLIANC WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUALANDAPPROVED: TR 2OR_ _ CORAFOA. S_IS_ e O_MP0Y COMPANY OFINC AE'1OL-3: =1.FOAM. M LY WITH ASTMC591, TYPE IORTYPE IV,EXCEPT THERMAL CONDUCTIVItY(K-VALUE)SHN.LNOT EXCEE00.198TVXINJHXS¢. Fi.X 2 DEGFAT75DUST' ERIBODAYSOFMING. SPREAD INDEX SHALL BE25 OR LESS. AND SMOKOUPIELOPED INUEX SHALL BE SO ORLESS FOR THICKNESS UP TO i INCHAS TESTED BY AS E., FABRICATE SHAPES AMORDING TOASTP-MANDAST A C 565 PREFORMED FLFUNGS SHALL BE UTILIZED FOR VALVES, THINGS, ELBOWS, ETc. s. FACTORY-APPUEDJACKET: REQUIREMENTSARE SPECIFIED IN"FAC PHAPPUED JACKETS" ARTICLE. 1PEAPPLICAU NS: PVDC. RFACE-BURNING CHARACTERISTICS: FOR INSULATION AND RELATED MATERIALS, AS DETERMINED BY TESTING IDENTICAL PRODUCTS ACCORDING TO ASTM E 34. BYATESTNGAND INSPECTINGAGENCYACCEPTABLE TO AUTHORITIES HAVING JURISDICTION. FACTORY LABEL INSULATION AND JACIO:TMATERIALS AND ADHESIVE, MASTIC. TAPES,ANDCEMENTMATERIALCONTAINERS, INCH APPROPRIATE MARKINGS OF APPLICABLE TESTING AGENCY. F INSULATIONINSTALLEDINDOORS FLAMESPREAOINDEXOF25ORLE S,ANDSMOK&DEVELOPEDINDEXOF50ORLESS. INSUTATION INSTALLEDOUTDOORS: RAMESPREAD INDEX OF750R LESS E- AND SMOKDENSOPED INDEX OF IN OR LESS, OCKUPS: BEFORE INSTAWNG INSULATION, BUILD MOCKUPS FOR EACH TYPE OF INSULATION AND FINISH LISTED BELOW TO DEMONSTRATE TY OFINSULATION APPLICATIONAND FlNISHES. BVILD MOCKUPS IN THE LOCATION INDICATED OR IF NOT INDICATED, AS DIRECTED BY OWNER. USE MATERIALS INDICATED FOR THE COMPLFTFD W 2.6A ADHESIYES MATERIALS HAL D S D'. SURFACE A PHENOLIC AND PI PLUS ON DEG F, . PRODUCTS: Si OTTER BFA ORINDOORA MVENU(E ADHESIVE SM STANDARD PF ENVIRONMENT PRODUCTS ST 1. PRODUCT.: SI DOW CORNS M L Ec 2, FOR INDOORS SUF.W.(Er 3. ADHESIVE SHA STANDARD PR ENVRONMENT, 2.7 MASTICS A MATERIALS SHALL BE COMPATIBLE WITH INAUUYU.E MATERIALS, JACKETS, AND SUBSTRATES; COMPLY WITH MIL-PRF FACC. TYPEHI. 1. FOR INDOORAMUCATIDNS, USE MASTICS THAT HAVE AVOC GWENTOF 50 G4.ORLE55 WHEN CALCULATEDACCOROING T040 CFR 59. .PART . (EPA METHOD 24). OR.BARMER MASTIC: SOLVENT BE.; SUITABLE FOR INDOOR USE ON SELOW-AMBIENT SERVICES. _= SUBJECT TO COMPUMCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL ANDAPPROVED: _, CWLTYCONSTRUC NBRANDSINC.,ABUSINESSOPH.B.FUME COMPANY;CP30. =GES-MARATHON INDUSTRIEWSP. FOSTER BRAND, SPECIALTY CONSTRUCTION BRANDS. INC.. A BUSINESS OF H. B. FULLER COMPANY; 30.35. OURVA INDUSTRES WC.;SG10. ATERETEMEERATUR RA ASTM F1249,ECPERM AT 35-MIL DRY FILM THICKNESS RIDS TEMPERATURE RANGE OT018ORT F. 4, SOLIDS CONTENT: ABIM.1844, 44 PERCENT BY VOLUME AND 62 PERCENT BY WEIGHT. 5. COLOR: WHITE. c. VAPOR -BARRIER MASTIC SOLVENT BARED; SUITABLE FOR OUTDOOR USE ON BELOW-AMBIENTSERVICES, PRODUCTS: SUBJECTED COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUALAND APPROVED: .CH-EFILIEV, C. SPECIALTY CONSTRUCTION BRANDS. INC., q BUSINESS OF H, B. FULLER COMPANY; BCACEL. FAME SRI aGES N W --MARATHODUSTRIEN WO. uD SPECIALTYCONSTRUCTION BRANDS, INS, ABUSINESS OF P B. FULLER COMPANY; 8085(60.96. 2. WATER -VAPOR PERMENDUCASTM F INS,WS5 PERMAT30-MIL DRY FILM THICKNESS, 3. SERVICE TEMPERATURE RANGE: MINUS SO TO PLUS CM DEG 4. SOLIDS CONTENT: ASTM D BF4, 33 PERCENT BY VOLUME MD 46 PERCENT BY WEIGHT s. COLOR: WHITE, 2.8 .SEALANTS A J NT SEALANTS: 1. JOINT SEALANTS FOR CELLULAR -GLASS. PHENOLIC. AniO POLYISOCYANURATEARODUCTS; SUBJECT TO COMPLIANCE WITH PRODUCTS SUBJECTTO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL ANDAPPROVED-LftP: S MAiENI_EB ND SPEC IALTY CONSTRUCTION BRANDS INC.ABUSIN-ESS OF H. S, FULLER COMPANY; LL BE COMPATIBLE WITH INSULATION MATERIALS, JACKETS, AND SUBSTRATES. ND W OTULSWSISTANT, FEXI LBLE, ELASTOMERIC SEALANT. ,zFECE MMPERATURE RANGE: MINUS O M PLUS B O DEG F, . COLOR WHITE. 13, FOR INDOORAPPLICATIONS, SEALANTS SHAM MVEAVOC CONTEMOF420 GIL OR LESS WHEN CALCULATEDACCORDING T040 CFR SS SUBPART D (EPA METHOD N). 4. SEALANTS SFA1L COMPLY WITH THE TESTNGANO PRODUCT REQUIREMENT60F THE CALIFORNIA DEPARTMENT OF HEALTH SERVICES' STANDARD PRACTICE FOR THETEBTING OF VOLATILE ORGANIC EMISSIONS FROM VARIOUS SOURCES USING SMALL - BUYING MENTALCNAMSERS• 2.9FIELD-APPLIED FABRIC -REINFORCING MESH A. WOVEN GLASS -FIBER FABRIC: APPROXIMATELY 2 OZJSQ, YD. (68 DISC. M) WITH A THREAD COUNT OF 10 STRANDS BY 10 STRANDSISQ. IN. (4 STRANDS BY 4 STRANDS/SQ. MM) FOR COVERING PIPE AND PIPE FITTINGS. I. PRODUCTS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: ..CHILDERS BRAND, SPECIALTY CONSTRUCTION BRANDS, INC., A BUSINESS OF H. B. FULLER COMPANY; CHIL-GLAS NUMBER 10. 2.10 FIELD -APPLIED JACKETS A FIELD -APPLIED JACKETS SHALL COMPLY WITH ASTM C 921, TYPE 1, UNLESS OTHERWISE INDICATED. B. PVC JACKET: HIGH -IMPACT -RESISTANT, UV -RESISTANT PVC COMPLYING WITH ASTM D 1784, CLASS 16354-C: THICKNESS AS SCHEDULED; ROLL STOCK READY FOR SHOP OR FIELD CUTTING AND FORMING, THICKNESS IS INDICATED IN FIELD -APPLIED JACKET SCHEDULES, 1. PRODUCTS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: 8. JOHNS MANVILLE; ZE-ON. U. P.I.C_PLASTICS, INC; FG SERIES. p, PROTO CORPORATION; LOSMOKE. a. SPEEDLINF. CORPORATION; SMOKESAFE. 2. ADHESIVE: AS RECOMMENDED BY JACKET MATERIAL MANUFACTURER. 3. COLOR: COLOR -CODE JACKETS BASED ON SYSTEM, 4. FACTORY -FABRICATED FITTING COVERS TO MATCH JACKET IF AVAILABLE; OTHERWISE, FIELD FABRICATE. a,SHAPES. CDEGREE LONGRADIUS ELBOWS, TEES, VALVES, FLANGES, UNIONS, REDUCERS, AND END CAPS, C. METAL JACKET: i. PRODUCTS; SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED; 0 CHILDERS BRAND, SPECIALTY CONSTRUCTION BRANDS, INC., A BUSINESS OF H. Q FULLER COMPANY; METAL JACKETING SYSTEMS. U.ITMV INSULATION SYSTEMS ; ALUMINUM AND STAINLESSSTEEL JACKETING, c. RPR PRODUCTS, INC; INSUL-MATE. 2. ALUMINUM JACKET: COMPLY WITH ASTM B 209, ALLOY 3003, 3005, 3105, OR 5005, TEMPER H-14. a. SHEET AND ROLL STOCK READY FOR SHOP OR FIELD SIZING. E. FINISH AND THICKNESS ARE INDICATED IN FIELD -APPLIED JACKET SCHEDULES. c. MOISTURE BARRIER FOR INDOOR APPLICATIONS: THICK POLYSURLYN. a. MOISTURE BARRIER FOR OUTDOOR APPLICATIONS: 2S-MIL-THICK POLYSURLYN. 0. FACTORY -FABRICATED FITTING COVERS: 1) SAME MATERIAL, FINISH, AND THICKNESS AS JACKET. 2) PREFORMED 2-PIECE OR GORE, 90.OEGREE LONG -RADIUS ELBOWS. M TEE COVERS. 4) FLANGE AND UNION COVERS. 5) END CAPS. 6) VALVE COVERS. 7 FIELD FABRICAT E APPLICATIONS: 4TMU_- HICK, HITS FITTINGMIALLY ARE NOT TED BARRIER. D. PVDC VAPOR BARRIER 0.02 PERMS WHEN TESTED:CMIL-THICK, WHITE PVVCBIAXIAND ITHAEDBARRREADM WITH OF 5AND A SMOKE -DEVELOPED E-D PERMS D INDEX TESTED WHEN TESTEDNG ASTM E ACCORDING EO HAND WITHAFLAMESPREAD INDEX OF 5 AND ASMOKE-DEVELOPED INDEX OF 20 WHEN TESTED ACCORDING TO ASTM E 84. I. PRODUCTS SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: P . DOW CHEMICAL COMPANY (THE); SARAN 540 VAPOR RETARDER FILM. E. PVDC VAPOR BARRIER FOR OUTDOOR APPLICATIONS: 6-MIL-THICK,WHITE PVDC BLUGALLY ORIENTED BARRIER FILM WITH A PERMEANCE AT 001 PERMS WHEN TESTED ACCORDING TO ASTM E 961E 96M AND WITH A FLAME -SPREAD INDEX OF 5 AND A SMOKE -DEVELOPED INDEX OF 25 WHEN TESTED ACCORDING TO ASTM E 84. 1. PRODUCTS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: a. DOW CHEMICAL COMPANY (THE); SARAN SAO VAPOR RETARDER FILM. 2.11 TAPES A. PVC TAPE: WHITE VAPOR -RETARDER TAPE MATCHING FIELD -APPLIED PVC JACKET WITH ACRYLIC ADHESIVE; SUITABLE FOR INDOOR AND OUTDOOR APPLICATIONS. 1. PRODUCTS:SUWECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: e. ABI, IDEAL TAPE DIVISION; 370 WHITE PVC TAPE. o. CO.MPAC CORPORATION; 130. c. VENTURE TAPE; 15M CW MS. 2. WIDTH: 2INCHES. 3. THICKNESS: 6MILS. 4. ADHESION: 64OUNCES FORCE)INCH IN WIDTH. 5. ELONGATION: 500 PERCENT. 6. TENSILE STRENGTH: IS LBFBNCH IN WIDTH. B. PVDC TAPE FOR INDOOR APPLICATIONS: WHITE VAPOR -RETARDER PVDC TAPE WITH ACRYLIC ADHESIVE. i. PRODUCTS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: a. DOW CHEMICAL COMPANY (THE); SARAN SIN VAPOR RETARDER TAPE. 2. WIDTH: 3INCH ES. 3, RUATHICKNESS: 4MILS. 4. AOHESIVETHICKNESS: IZMILS. S. ELONGATION AT BREAK: 145 PERCENT. 6, TENSILE STRENGTH: 55 LBFIINCH IN WIDTH. C. PVDC TAPE FOR OUTDOORAPPLICATIONS: WHITE VAPOR -RETARDER PVDC TAPE WITH ACRYLIC ADHESIVE. 1. PRODUCTS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: a. VOW CHEMICAL COMPANY (THE); SARAN SAO VAPOR RETARDER TAPE. 2, WIDTH: 3INCHES. 3. FILM THICKNESS: 6MILS. 4. ADHESIVE THICKNESS: 1.5 MILS, 5, ELONGATION AT BREAK: 145 PERCENT. 6, TENSILE STRENGTH: 55 UFYNCH IN WIDTH. 2.12 SECUREMENTS A. BANDS: 1. PRODUCTS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE THE FOLLOWING OR EQUAL AND APPROVED: a. ITW INSULATION SYSTEMS; GERHARD STRAPPING AND SEALS. o. RPR PRODUCTS. INC; INSUL-MATE STRAPPING, SEALS, AND SPRINGS. 2. STAINLESS STEEL: ASTM A 167 OR ASTM A 2401A 240M, TYPE 304; 0.015INCH THICK, 1YZ INCH WIDE WITH WING SEAL. m ORNCED19laION i EC ;EiVED Mi' Y OF TUK%-V;L ARCHITECT OF RECORD: BRR ARCHITECIV RS, INC .Y.. AN .PLAZA SUITE A.. MERRIAM, KS 66204 www.brrar<h.wm EL: 933-262-9OB5 AX: 913-262-9044 CONSULTANT . ..................... idHENDERSON ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA, KS 66214 TEL 913.742.5000 FAX913.742.5001 WWW.HENDERSONENGINEERS.COM 1950002714 WA. CORPORATE NUMBER: 1754 06/30/20 COPYRIGHT NOTICE . ..................... aretl for use on a specific sl'te mntemporaneoustywTth its Issue aam aaa ¢ D Pot ammma ror aae oA a GRemnt vrole¢ site or at later Ba ple mG. Onuse or nis arewi09 ror reference or exam aatner 0- re 1B mG sereiras GwlpeGra. notne, PMe snort aotno i:aa apa may pe ISSUES & REVISIONS PROJECT NAME UWAS SEATTLE PROJECTMDRESS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ISSUED FOR PERMIT PUOUGOTMANAGER: 3AMES MCCARTY cxEGKED BY: HEI DRAWN BY: HEI OCUMENT DATE: 06/14/19 PROJECT NO . . . .... . ..... . 1950002714 PROFESSIONAL SEAL Jun 20 2019 �.. PROJECTNAME: UWAS (SEATTLE) BUILDING ADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ELENAME REFRIGERATION SPECIFICATIONS PROJECT YEAR: WIN REGION. 2019 TDDAYS DATE: DRAWN BY. 6/13/2019 HEI SLOG FLOOR: DRAWN DATE: 1 06/14/19 ILUINGTYPE: PROVED BY: UWAS ECA.:Al -1 ND W A"AFON CLAIER J"oa 8111820R C4ICCT m�nnO ARCHITECT OF RECORD: MRARCHITECNRE, INC 0 ANTIOCH PLAZA U3TE 300 MERRLUI, K9 66204 www.brtarch.com 933-262-9095 FAX: 933-262-9044 3. EXECUTION 3.1 EXAMINATION A. EXAMINESUBSTRATES AND CONDITIONS FOR COMPLIANCE WITH REQUIREMENTS FOR INSTALLATION TOLERANCES AND OTHER CONDITIONS AFFECTING PERFORMANCE OF INSULATION APPLICATION. 1. VERIMTHATSVSTEMS TO BE INSULATED HAVE BEEN TESTED AND ARE FREE OF DEFECTS. 2. VERIFY THAT SURFACES TO BE INSULATED ARE CLEAN AND DRY. 3. PROCEED WITH INSTALLATION ONLYAFTER UNSATISFACTORY CONDITIONS HAVE BEEN CORRECTED. 3.21PREPARATION A. SURFACE PREPARATION: CLEAN AND DRY SURFACES TO RECEIVE INSULATION, REMOVE MATERIALS THAT WILL ADVERSELY AFFECT INSULATION APPLICATION, B. COORDINATE INSULATION INSTALLATION WITH THE TRADE INSTALLING HEAT TRACING. COMPLY WITH REQUIREMENTS FOR HEATTRACING THAT APPLY TO INSULATION. 3.3 GENERAL INSTALLATION REQUIREMENTS A. INSTALL INSULATION MATERIALS, ACCESSORIES, AND FINISHES WITH SMOOTH, STRAIGHT, AND EVEN SURFACES; FREE OF VOIDS THROUGHOUTTHE LENGTH OF PIPING INCLUDING FITTINGS, VALVES, AND SPECIALTIES. e. INSTAII. INSULATION MATERIALS, FORMS, VAPOR BARRIERS OR RETARDERS, JACKETS, AND THICKNESSES REQUIRED FOR EACH ITEM OF PIPE SYSTEM AS SPECIFIED IN INSULATION SYSTEM SCHEDULES. C. INSTALL ACCESSORIES COMPATIBLE WITH INSULATION MATERIALS AND SUITABLE FOR THE SERVICE. INSTALL ACCESSORIES THAT DO NOT CORRODE, SOFTEN, OR OTHERWISE ATTACK INSULATION OR JACKET IN EITHER WET OR DRY STATE. O. INSTALL INSULATION WITH LONGITUDINAL SEAMS AT THE 3 AND 9 O'CLOCK POSITIONS. E. NSTALL MULTIPLE LAYERS OF INSULATION WITH LONGITUDINAL AND END SEAMS STAGGERED. F. DO NOT WELD BRACKETS, CLIPS, OR OTHER ATTACHMENT DEVICES TO PIPING, FITTINGS, AND SPECIALTIES. G. KEEPINSULATION MATERIALS DRY DURING APPLICATION AND FINISHING. H. INSTALL INSULATION WITH TIGHT LONGITUDINAL SEAMS AND END JOINTS. BOND SEAMS AND JOINTS WITH ADHESIVE RECOMMENDED BY INSULATION MATERIAL MANUFACTURER. I. INSTALL INSULATION WITH LEAST NUMBER OF JOINTS PRACTICAL. J. WHERE VAPOR BARRIER IS INDICATED, SEAL JOINTS, SEAMS, AND PENETRATIONS IN INSULATION AT HANGERS, SUPPORTS, ANCHORS, AND OTHER PROJECTIONS WITH VAPOR -BARRIER MASTIC. 1, INSTALL INSULATION CONTINUOUSLY THROUGH HANGERS AND AROUND ANCHOR ATTACHMENTS. 2. FOR INSULATION APPLICATION WHERE VAPOR BARRIERS ARE INDICATED, EXTEND INSULATION ON ANCHOR LEGS FROM POINT OF ATTACHMENT TO SUPPORTED ITEM TO POINT OF ATTACHMENT TO STRUCTURE. TAPER AND SEAL ENDS AT ATTACHMENT TO STRUCTURE WITH VAPOR -BARRIER MASTIC. 3. IN TALL INSERT MATERIALS AND INSTALL INSULATION TO TIGHTLYJOIN THE INSERT. SEALINSULATIONTO NSULATION INSERTS WITH ADHESIVE OR SEALING COMPOUND RECOMMENDED BY INSULATION MATERIAL MANUFACTURER. 4. COVER INSERTS WITH JACKET MATERIAL MATCHING ADJACENT PIPE INSULATION. INSTALL SHIELDS OVER JACKET, ARRANGED TO PROTECT JACKET FROM TEAR OR PUNCTURE BY HANGER, SUPPORT, AND SHIELD. K. APPLY ADHESIVES, MASTICS, AND SEALANTS AT MANUFACTURER'S RECOMMENDED COVERAGE RATE AND WET AND DRY FILM THICKNESSES. L. CUTINSUMHON IN A MANNER TO AVOID COMPRESSING INSULATION MORE THAN 75 PERCENT OF ITS NOMINAL THICKNESS. M. FINISH INSTALLATION WITH SYSTEMS AT OPERATING CONDITIONS. REPAIR JOINT SEPARATIONS AND CRACKING DUE TO THERMAL MOVEMENT. N. REPAIR DAMAGED INSULATION FACINGS BY APPLYING SAME FACING MATERIAL OVER DAMAGED AREAS. EXTEND PATCHES AT LEAST4 INCHES BEYOND DAMAGED AREAS. ADHERE, STAPLE, AND SEAL PATCHES SIMILAR TO BUTT JOINTS. O. FOR ABOVE -AMBIENT SERVICES, DO NOT INSTALL INSULATION TO THE FOLLOWING: i, VIBRATION -CONTROL DEVICES. 2. TESTING AGENCY LABELS AND STAMPS. 3. NAMEPLATES AND DATA PLATES. 4. VALVE BONNETS 3APENETRATIONS A. INSULATION INSTALLATION AT ROOF PENETRATIONS: INSTALL INSULATION CONTINUOUSLY THROUGH ROOF PENETRATIONS. I. SEAL PENETRATIONS WITH FLASHING SEALANT. 2- FOR APPLICATIONS REQUIRING ONLY INDOOR INSULATION, TERMINATE INSULATION ABOVE ROOF SURFACE AND SEAL WITH JOINT SEALANT. FOR APPLICATIONS REQUIRING INDOOR AND OUTDOOR INSULATION, INSTALL INSULATION FOR OUTDOOR APPLICATIONS TIGHTLY JOINED TO INDOOR INSULATION ENDS. REAL JOINT WITH JOINT SEALANT. 3. EXTEND JACKET OF OUTDOOR INSULATION OUTSIDE ROOF FLASHING AT LEAST 2 INCHES BELOW TOP OF ROOF FLASHING. 4. SEAL JACKET TO ROOF FLASHING WITH FLASHING SEALANT, B. INSULATION INSTALLATION AT ABOVEGROUND EXTERIOR WALL PENETRATIONS: INSTALL INSULATION CONTINUOUSLY THROUGH WALL PENETRATIONS. i. SEAL PENETRATIONS WITH FLASHING SEALANT. 2. FOR APPLICATIONS REQUIRING ONLY INDOOR INSULATION, TERMINATE INSULATION INSIDE WALL SURFACE AND SEALWITHJOINTSEALANT. FORAPPLICATIONS REQUIRING INDOORAND OUTDOOR INSULATION,INSTALL INSULATION FOR OUTDOORAPPLICATONS TIGHTLY JOINED TO INDOOR INSULATION ENDS. SEALJOINTWITH JOINT SEALANT. 3. EXTEND JACKET OF OUTDOOR INSULATION OUTSIDE WALL FLASHING AND OVERLAP WALL FLASHING AT LEAST NCHES. 4, SEAL JACKET TO WALL FLASHING WITH FAN LASHING SEALT. C. INSULATION INSTALLATION AT INTERIOR WALL AND PARTITION PENETRATION$ (THAT ARE NOT FIRE RATED): INSTALL INSULATION CONTINUOUSLY THROUGH WALLS AND PARTITIONS. 0 INSULATION INSTALLATION AT FIRE -RATED WALL AND PARTITION PENETRATIONS: INSTALL INSULATION CONTINUOUSLY THROUGH PENETRATIONS OF FIRE -RATED WALLS AND PARTITIONS. 1. COMPLY WITH REQUIREMENTS IN SECTION 078413'PENETRATION FIRESTOPPING" FOR FIRESTOPPING AND FIRE -RESISTIVE JOINTSEALERS. E. INSULATION INSTALLATION AT FLOOR PENETRATIONS: 1, PIPE: INSTALL INSULATION CONTINUOUSLY THROUGH FLOORPENETRATIONS, 2. SEAL PENETRATIONS THROUGH FIRE -RATED ASSEMBLIES. COMPLY WITH REQUIREMENTS IN SECTION 078413 "PENETRATION FIRESTORM G.' 3.5 GENERAL PIPE INSULATION INSTALLATION A. REQUIREMENTS IN THIS ARTICLE GENERALLY APPLY TO ALL INSULATION MATERIALS EXCEPT WHERE MORE SPECIFIC REQUIREMENTS ARE SPECIFIED IN VARIOUS PIPE INSULATION MATERIAL INSTALLATION ARTICLES. B. INSULATION INSTALLATION ON FITTINGS, VALVES, STRAINERS, FLANGES, AND UNIONS: 1. INSTALL INSULATION OVER FITTINGS, VALVES, STRAINERS, FLANGES, UNIONS, AND OTHER SPECIALTIES WITH CONTINUOUS THERMAL AND VAPOR -RETARDER INTEGRITY UNLESS OTHERWISE INDICATED. 2. INSULATE PIPE ELBOWS USING PREFORMED FITTING INSULATION OR MITERED FITTINGS MADE FROM SAME MATERIALANDDENSITYASADJACENT PIPE INSULATION. EACH PIECE SHALL BE BUTTED TIGHTLY AGAINST ADJOINING PIECE AND BONDED WITH ADHESIVE. FILL JOINTS, SEAMS, VOIDS, AND IRREGULAR SURFACES WITH CEMENT FINISHED TO A SMOOTH HARD UNIFORM CONTOUR THAT IS UNIFORM WITH ADJOINING PI EINSULATI N. ,AND PIPE INSULATION. a. INSULATE TEE THICKNESS WITH PREFORMED FITTING INSVLACUT ORSECTIONAL PIPE INSULATION OF SAME MATERIASECTION AND CLOSE YTO THE AS USED AND HOLD ADJACENT PLACE PIPE, CUT SECTIONAL PIPE E ESWITH ON TO ADHESIVE. .BUTT EACH SECTION VALVE USING THENEXTAND HOLDIN PLACE WITH 'DE WIRE. BOND PIECES WITH AD HESIVE. 4. INSULATE VALVES USING PREFORMED FITTING INSULATION VE SECTIONAL PIPE INSULATION OF SAME MATERIAL, DENSITY, AND THICKNESS K USED F PIPE INSULATION, OVERLAP ADJOINING PIPE INSULATION HI NOT LESS THAN TWO TIMES THE THICKNESS OF PIPE INSULATION, OR ONE PIPE DIAMETER, WHICHEVER IS THICKER. FOR VALVESOINTS, INSULATE UPANDI TO AND REGULAR LUDING SURFACES WITH .CEMENT,VE BOX STUDS, BOLTS, AND NUTS. FILL JOINTS, SEAM$, AND IRREGULAR SURFACES W ITH INSULATING CEMENT. 5. INSULATE STRAINERS USING PREFORMED FITTING INSULATION OR SECTIONAL PIPE INSULATION SAME MATERIAL, DENSITY, AND THICKNESS ASUSED FPIPEIN CENT PIPE, OVERLAP ADJOINING PIPE INSULATION BY NOT LESS THAN TWO TIMES THE THICKNESS OF PIPE IN BONE PIPE DIAMETER, WHICHEVER IS THICKER. FILL BASKS FLATS,NGE SEAMS, ANDPLUGCA BE ULAR SLY REMOVED S WITH AND ULATING WITHOUT DAMAGING THINERS SO STRAINER BASKET FLANGE OR PLUG CAN BE EASILY REMOVED AND REPLACED WITHOUT DAMAGING THE SERVIATONAND JACKET. PROVIDER INTAINBLEREUSASLE INSULATION COVER. FOR BELOW -AMBIENT SERVICES, PROVIDE A DESIGN THAT MAINTAIN$ VAPOR BARRIER. B. INSULATE FLANGES AND UNIONS USING A SECTION OF OVERSIZED PREFORMED PIPE INSULATION. OVERLAP ADJOINING PIPE INSULATIONBYNOT LESS THAN TWO TIMES THE THICKNESS OF PIPE INSULATION, OR ONE PIPE DIAMETER, WHICSEGMENTED ER IS INSULATED SURFACES >. COVER STALLVGMENTEDINSULASTIC FOR BEL WITH ALAY R OF SERVICES BREATHEMENT $MASTICND COAT WITFOR ASCASTIC. INSTALL S. REINFORCE R CE THE FOR WITH FABRIC- E IN SERVICES AND A BREATHER MASTIC FOR ABOVE -AMBIENT SERVICES. REINFORCE THE MASTIC WITH FABRIC -REINFORCING MESH, TROWEL THE MASTIC TO A SMOOTH AND WELL -SHAPED CONTOUR 8. FORSERVICE ER NOT L FITTED PVC RECCOVER E A OVER ELBOWS, ED TEES, EXCEPT FOR S, FLANGES, ES, AND ERIC UNIONS. D POLVOLEFIN, INSTALL FITTED PVC COVER OVER ELBOWS, TEE$, STRAINERS, VALVES, FLANGES, AND UNIONS. TERMINATE ENDS WITH PVC END CAPS. TAPE PVC COVERS TO ADJOINING INSULATION FACING USING PVC TAPE. 9. COLOR OF PIPE LA THE OUTSIDE INSULATION JACKET OF EACH UNION WITH THE WORD "UNION.' MATCH SIZE AND COLOR S PIPE LABELS. C. INSULATE INSTRUMENT CONNECTIONS FOR THERMOMETERS, PRESSURE GAGES. PRESSURE TEMPERATURE TAPS, TEST CONNECTIONS, FLOW METERS, SENSORS, SWITCHES, AND TRANSMITTERS ON INSULATED PIPES. SHAPE INSULATION AT THESE CONNECTIONS BY TAPERING IL TO AND AROUND THE CONNECTION WITH INSULATING CEMENT AND FINISH WITH FINISHING CEMENT, MASTIC, AND FLASHING SEALANT. D. INSTALL REMOVABLE INSULATION COVERS AT LOCATIONS INDICATED. INSTALLATION SHALL CONFORM TO THE FOLLOWING: i. MAKE REMOVABLE FLANGE AND UNION INSULATION FROM SECTIONAL PIPE INSULATION OF SAME THICKNESS AS THAT ON ADJOINING PIPE. INSTALL SAME INSULATION JACKET AS ADJOINING PIPE INSULATION. 2. WHEN FLANGE AND UNION COVERS ARE MADE FROM SECTIONAL PIPE INSULATION, EXTEND INSULATION FROM FLANGES OR UNION LONG AT LEAST TWO TIMES THE INSULATION THICKNESS OVERADJACENT PIPE INSULATION ON EACH SIDE OF FLANGE OR UNION. SECURE FLANGE COVER IN PLACE WITH STAINLESSSTEEL OR ALUMINUM BANDS. $ELECT BAND MATERIAL COMPATIBLE WITH INSULATION AND JACKET. 3. CONSTRUCT REMOVABLE VALVE INSULATION COVERS IN SAME MANNER AS FOR FLANGES, EXCEPT DIVIDE THE TWO-PART SECTION ON THE VERTICAL CENTER LINE OF VALVE BODY. 4, WHEN COVERS ARE MADE FROM BLOCK INSULATION, MAKE TWO HALVES, EACH CONSISTING OF NE BRED BLOCKS WIRED TO STAINLESS -STEEL FABRIC. SECURE THIS WIRE FRAME, WITH ITS ATTACHED INSULATION, TO FLANGES WITHTIEWIRE. EXTEND INSULATION AT LEAST 2 INCHES OVERADJACENT PIPE INSULATION ON EACH SIDE OF VALVE. FILLSPACEBETWBEN FLANGEOR UNION COVERAND PIPE INSULATION WITH INSULATING CEMENT, FINISH COVER ASSEMBLY WITH INSULATING CEMENTAPPLIED IN TWO COATS. AFTER FIRST COAT IS DRY, APPLY AND TROWEL SECOND COAT TO ASMOOTH FINISH. S. UNLESS A PVC JACKET IS INDICATED IN FIELD- APPLIED JACKET SCHEDULES, FINISH EXPOSED SURFACES WITH METALJACKET. 3XINSTALLATION OF POLYISOCYANURATE INSULATION A. INSULATION INSTALLATION ON STRAIGHT PIPES AND TUBES: 1. SECUREEACHLAYEROF INSULATION TO PIPE WITH TAPE OR BANDS AND TIGHTEN WITHOUT DEFORMING INSULATION MATERIALS. ORIENT LONGITUDINAL JOINTS BETWEEN HALF SECTIONS IN 3-AND 9C'CLOCK POSITIONS ON THE PIPE. S. FOR INSULATION WITH FACTORY -APPLIED JACKETS WITH VAPOR BARRIERS, DO NOT STAPLE LONGITUDINAL TABS. INSTEAD, SECURE TABS WITH ADDITIONAL ADHESIVE OR TAPE AS RECOMMENDED BY INSULATION MATERIAL MANUFACTURERAND SEAL WITH VAPOR -BARRIER MASTIC. 3. ALLINSULATION SHALL BE TIGHTLY BUTTED AND FREE OF VOIDS AND GAPS AT LJOINTS. VAPORBARRIERMUST BE CONTINUOUS. BEFORE INSTALLING JACKET MATERIAL, INSTALL VAPOR -BARRIER SYSTEM. R INSULATION INSTALLATION ON PIPE FLANGES: INSTALL PREFORMED PIPE INSULATION TO OUTER DIAMETER OF PIPE FLANGE. 2. MAKE WIDTH OF INSULATION SECTION SAME AS OVERALL WIDTH OF FLANGE AND BOLTS, SAME THICKNESS OF ADJACENT PIPE INSULATION, NOTTO EXCEED 1-112-INCH THICKNESS. 3. FILL VOIDS BETWEEN INNER CIRCUMFERENCE OF FLANGE INSULATION AND OUTER CIRCUMFERENCE OF ADJACENT STRAIGHT PIPE SEGMENTS WITH CUT SECTIONS OF POLYISOCYANURATE BLOCK INSULATION OF SAME THICKNESS AS PIPE INSULATION. C. INSULATION INSTALLATION ON FITTINGS AND ELBOWS: 1, INSTALL PREFORMED SECTIONS OF SAME MATERIALAS STRAIGHT SEGMENTS OF PIPE INSULATION, SECURE ACCORDING TO MANUFACTURER'S WRITTEN INSTRUCTIONS. D. INSULATION NSTALLATION ON VALVES AND PIPE SPECIALTIES: 1, INSTALL PREFORMED SECTIONS OF POLYISOCYANURATE INSULATION TO VALVE BODY. 2. ARRANGE INSULATION TO PERMIT ACCESS TO PACKING AND TO ALLOWVALVE OPERATION WITHOUT DISTURBING INSULATION. 3. INSTALL INSULATION TO FLANGES AS SPECIFIED FOR FLANGE INSULATION APPLICATION. 3.7FIELD-APPLIED JACKET INSTALLATION A. WHERE PVC JACKETS ARE INDICATED, INSTALL WITH I -I NCH OVERLAP AT LONGITUDINAL SEAMS AND END JOINTS; FOR HORIZONTALAPPLICATIONS. SEAL WITH MANUFACTURER'S RECOMMENDED ADHESIVE. 1. APPLY TWO CONTINUOUS BEADS OF ADHESIVE TO SEAMS AND JOINTS, ONE BEAD UNDER LAP AND THE FINISH BEAD ALONG SEAM AND JOINT EDGE. B. WHERE METAL JACKETS ARE INDICATED, INSTALL WITH 2-INCH OVERLAP AT LONGITUDINAL SEAMS AND END JOINTS. OVERLAP LONGITUDINAL SEAMS ARRANGED TO SHED WATER. SEAL END JOINTS WITH WEATHERPROOF SEALANT RECOMMENDED BY INSULATION MANUFACTURER. SECURE JACKET WITH STAINLESSSTEEL BANDS 12INCHES O.C. AND AT END JOINTS. C. WHERE PVDC VAPOR BARRIERS ARE INDICATED, INSTALL AS FOLLOWS: 1. APPLYTHREESEPARATEWRAPSOF FIMMENTTAPE PER INSULATION SECTION TO SECURE PIPE INSULATION TO PIPE PRIOR TO INSTALLATION OF PVDC JACKET. 2. WRAPFACTORY-PRESIZED JACKETS AROUND INDIVIDUAL PIPE INSULATION SECTIONS WITH ONE END OVERLAPPING THE PREVIOUSLY INSTALLED SHEET. INSTALL PRESIZED JACKET W ITH AN APPROXIMATE OVERLAP AT BUTT JOINT OF 2 INCHES OVER THE PREVIOUS SECTION. ADHERE LAP SEAL USING ADHESIVE OR SSL,AND THEN APPLY 1-114 CIRCUMFERENCES OF APPROPRIATE PVDC TAPE AROUND OVERLAPPED BUTT JOINT. 3. CONTINUOUS JACKET CAN BE SPIRAL -WRAPPED AROUND A LENGTH OF PIPE INSULATION. APPLY ADHESIVE OR PVDC TAPE AT OVERLAPPED SPIRAL EDGE. WHEN ELECTING TO USE ADHESIVES, REFER TO MANUFACTURER'S WRITTEN INSTRUCTIONS FOR APPLICATION OF ADHESIVES ALONG THIS SPIRAL EDGE TO MAINTAIN A PERMANENT BOND. 4. JACKET CAN BE WRAPPED IN CIGARETTE FASHION ALONG LENGTH OF ROLL FOR INSULATION SYSTEMS WITH AN OUTER CIRCUMFERENCE OF SS-112INCHES OR LESS. THE M-112-INCH-CIRCUMFERENCE LIMRALLOWS FOR 2-INCH-OVERLAP SEAL. USING THE LENGTH OF ROLL ALLOWS FOR LONGER SECTIONS OF JACKET TO BE INSTALLED AT ONE TIME. USE ADHESIVE ON THE LAP SEAL. VISUALLY INSPECT LAP SEAL FOR'FISHMOUTHINQ,l AND USE PVDC TAPE ALONG LAP SEAL TO SECURE JOINT. 5. REPAIR HOLES ORTEARS IN PVDCJACKET BY PLACING PVDC TAPEOVERTHE HOLE ORTEARAND WRA.PPINGA MINIMUM OF TAM CIRCUMFERENCES TO AVOID DAMAGE TO TAPE EDGES. 3.& FIELD QUALITY CONTROL A. TESTING AGENCY: OWNER WILL ENGAGE A QUALIFIED TESTING AGENCY TO PERFORM TESTS AND INSPECTIONS. B. PERFORMTESIB AND INSPECTIONS. C. TESTS AND INSPECTIONS: 1. INSPECT PIPE, FITTINGS, STRAINERS, AND VALVES, RANDOMLY SELECTED BY ARCHITECT, BY REMOVING FIELD -APPLIED JACKET AND INSULATION IN LAYERS IN REVERSE ORDER OF THEIR INSTALLATION. C ALL INSULATION APPLICATIONS WILL BE CONSIDERED DEFECTIVE WORK IF SAMPLE INSPECTION REVEALS NONCOMPLIANCE WITH REQUIREMENTS. 3.9 PIPING INSULATION SCHEDULE, GENERAL A ACCEPTABLE PREFORMED PIPEAND TUBULAR INSULATION MATERIALS AND THICKNESSES ARE IDENTIFIED FOR EACH PIPING SYSTEM AND PIPE SIZE RANGE. IF MORE THAN ONE MATERIAL IS LISTED FOR A PIPING SYSTEM, SELECTION FROM MATERIALS LISTED IS CONTRACTOR'S OPTION. 3.10 INDOOR PIPING INSULATION SCHEDULE A. REFRIGERANT PIPING: i. POLYIS..CET RATETHICKNEBB(IN) SHALL BE THE FOLLOWING: izE0 ON) S NmF SVC00N>DF u0u10 3.11 OUTDOOR, ABOVEGROUND PIPING INSULATION SCHEDULE A REFRIGERANT PIPING: 1. POLYISOCVANURATE THICKNESS (IN) SHALL BE THE FOLLOWING: PIPEFT PR cno 1zZ(I% SU NaF SU 01-1F LIQUID 3.12 INDOOR, FIELD -APPLIED JACKET SCHEDULE A. INSTALL JACKET OVER INSULATION MATERIAL. FOR INSULATION WITH FACTORY -APPLIED JACKET, INSTALL THE FIELD -APPLIED JACKET OVER THE FACTORY -APPLIED JACKET, e. PIPING: 1. PVC, COLOR -CODED BY SYSTEM: 30 MILS THICK. C. INSTALL JACKET OVER INSULATION MATERIAL. FOR INSULATION WITH FACTORY -APPLIED JACKET, INSTALL THE FIELD -APPLIED JACKET OVER THE FACTORY -APPLIED JACKET. D. PIPING: 1. ALUMINUM,STUCCO EMBOSSED: 0.0161NCH. END OF SECTION 242300 24 3102 INSTALLATION OF AIR COOLED REFRIGERANT CONDENSING UNITS 1. GENERAL 1.1 SUMMARY THIS SECTION MHUESTO THE WORKAS .'.ED WITH RECEIVING UNLOADING, HANDLING, SETTING INSTALLING, AND THE STARTUP OFAIRCOOLED CONDENSING UNITS. 1.2 INFORMATIONAL SUBMITTALS A COORDINATION DRAWINGS: PLANS, DRAWN TO SCALE, ON WHICH THE FOLLOWING ITEMS ARE SHOWN AND COORDINATED WITH EACH OTHER, BASED ON INPUT FROM INSTALLERS OF THE ITEMS INVOLVED: 1. STRUCTURAL MEMBERS TO WHICH COMPRESSOR AND CONDENSER UNITS WILL BE ATTACHED. LIQUID AND SUCTION LINE SEES. REFRIGERANTSPECIALIIES. PIPING INCUIDING CONNECTIONS, OIL TRAPS, AND DOUBLE RISERS. COMPRESSORS. EVAPORATORS. FIELD QUALITY -CONTROL REPORTS. 1.3 DELIVERY, STORAGE, AND HANDLING COORDINATE DELIVERY OF EQUIPMENT WITH GENERAL CONTRACTOR, INSPECT UNITS UPONARRIVAL FOR DAMAGE OR SHORTAGES, DO NOT INSTALLMIMAGEDCOMPONENTS. RIG UNITS FOR UNLOADING, MOVING, AND HOISTING ACCORDING TO MANUFACTURER'S INSTRUCTIONS, D. FURNISH NECESSARY LABOR, TOOLS, AND EQUIPMENTTO SET UNITS IN DESIGN LGCATIONS. 1A COORDINATION COORDINATE INSTALLATION OF ROOF CURBS, EQUIPMENT SUPPORT$ AND ROOF PENETRATIONS, A COORDINATE LOCATON OF PIPING AND ELECTRICAL ROUG-S, 2. PRODUCTS (NOT USED) 3. EXECUTION 3,1 EXAMINATION EXAMINEARGM TO RECEIVE EQUIPMENT, PROPOSED ROUTNG OF EQUIPMENT, AND FINAL LOCATION TO VERIFY THATTHEY ARE FREE FROM INTERFERENCE. COMPLY WITH REQUIREMENTS FOR INSTALIATION TOLERANCE AND OTHER CONDITIONS AFFECTING EQUIPMENT PERFORMANCE. DO NOT PROCEED WITH INSTALLATION UNTIL CONFLICTS OR DEFICIENCIES HAVE BEEN RESOLVED. B. INSPECT UPON DELIVERY AND RECORD INFORMATION REQUIRED IN AMAZON'S PRESTARTUP CHECKLIST. AND STARTLE 3.2 INSTALLATION STALL UNI CONNECTF MIMAIN M, LOOSE COM F. SuPPORTPI CONNEGTO TERMINATE LABEL UNIT 1. PRESSURE' IT' , LI J. ADD MODEL SO WARE CONNECTR MDOFSECTON24ZRC 244702 INSTALLATION OF EVAPORATOR COILS FOR COMMERCIAL REFRIGERATION 1. GENERAL INSTRUCTIONS 1.1 INFORMATIONAL SUBMITTALS A. COORDINATION DRAWINGS:PLANSE-H TO SCALE. ON WHICH THE FOLLOWING ITEMS PRE SHOWN AND COORDINATEDWITH EACH OTHER, BASED ON INPUT FROM INSTALLERS OF THE ITEMS INVOLVED: STRUCTURAL MEMBERS TO WHICH EVAPORATOR UNITS WILL BE ATTACHED, LIQUID AND SUCTION LINE SIZES. REFRGERANT SPECIALTIES. PING INCLUDING CONNECTIONS. OIL TRAPS, AND RISERS. FIELD QUALITY-GONTROL REPORTS. 1.2 COORDINATION A COORDINATE SIZES AND LOCATIONS OF MOUNTING SUPPORTSTEEL. COORDINATE LOCATION OF PIPING AND ELECTRICAL CONNECTIONS. COORDINATE DELIVER OF EVAPORATOR COILS WITH MANUFACTURER AND WITH GENERAL CONTRACTOR. 1.3 DELIVERY, STORAGE, AND HANDLING: FURNISH LABORAND EQUIPMENT TO RECEIVE, UNLOAD, MOVE, UNCRATE, AND LIFT EVAPORATOR COIL D. INSPECT EVAPORATOR COILS UPON DEUVERYAND RECORD INFORMATION REQUIRED IN AMAZON'S PRESTARTUP CHECKLIST, AND START-UP CHECK LIST. 0. LABEL EVAPORATOR COIL AS REQUIRED IN SECTION 240SDD IDENITFICATION FOR REFRIGERATION PIPING AND EQUIPMENT. 2. PRODUCTS 2.1 HEATTRACE A. IT TCABLE,COMPONENTS, AND THERMOSTATIC CONTROLS: RATED FOR 5 WATTS PER FOOT AT GVF,SELF-REGULATING FACTOROFAT LEASTEE%,HEAT TRACE SHALL BE UL LISTED. XL HEATITI CE.COMPONENTSANDCOMROLS: MANUMCTUREDBYRAYCHEMCORPORATION B. PROVIDEANDINSTALLHEATTRACEONEVAPORATORCOILSLOCATEDINSPACESAT3 ORBELOW, 1. EZERIBI.ASTMEEZER MEATCOOLER' MEAT CHILLER 3. EXECUTION 3.1 EXAMINATION X EXAMINE SUBSTRATES.AREAS, AND CONDITIONS, WITH INSTALLER PRESENT, FOR COMPLIANCE WITH REQUIREMENTS FOR INSTALLATION TOLERANCES AND OTHER CONDMONSAFFECTNG PERFORMANCE OF COMPRESSORMD CONDENSER UNITS. EXAMINE ROUGHING -IN FOR REFRIGERANT PIPING SYSTEMS TO VERIFY ACTUAL LOCATIONS OF PIPING CONNECTIONS BEFORE EQUIPMENT INSTALLATION. PROCEED WITH INSTALLATION ONLY AFTER UNSATISFACTORY CONDITIONS HAVE BEEN CORRECTED - 33 INSTALLATION A INSTALLUNITS LEVEL AND PLUMB, FIRMLY ANCHORED IN LOCATIONS INDICATED, SUPPORT PIPING SO THAT IT IS NOT SUPPORTED FROM EVAPORATOR COIL SAINTAIN MANUFACTURER'S RECOMMENDED CLEARANCES FOR SERVICE AND MAINTENANCE. LOOSECOMPONENTS: INSTALL ELECTRICAL COMPONENTS AND ACCESSORIES THAT ME NOT FACTORY MOUNTED. INSTALL SOLENOID VALVE OUTSIDE OF REFRIGERATED SPACE, F. NSTALLINTERCONNECTING REFRIGERANT SUCTION AND LIQUID LINES BETWEEN EVAPORATOR COIL MD CORRESPONDING CONDENSING UNIT OR COMPRESSORRACK INSTALL LIQUID LINE DRIER BETWEEN THE EVAPORATOR000ID CONNECTION AND THE LIQUID ISOLATION VALVE. IT PROVIDEAND INSTALL LIQUID LINE ISOLATION VALVE UPSTREAM OF REFRIGERATION LIQUID LINE SOLENOID, I. INSTALL CONDENSATE LINES FROM EVAPORATOR DRAIN PAN ODOJETTO RECEPTORAS SHOWN ON PLUMBING DRAWING, INSTALL UNION IN CONDENSATE DRAIN LINE WRHIN 2' OF DRAIN PANTO FACILITATE REMOVALOF DRAIN PAN. INSTALL HEATTAPEAND INSULATEALL DRAIN LINES IN SPACES THATARE OPERATING BELOW ICT. INSTALL ELECTRICAL DEVICES FURNISHED BY MANUFACTURER BUT NOT SPECIFIED AS FACTORY INSTALLED. L. TERMINATE LOW VOLTAGE AND CONTROL WIRING CONNECTIONS, 3.3 CONNECTIONS A CONNECT REFRIGERANT PIPING TO EVAPORATOR COIL. MAINTAIN REQUIRED ACCESS TO UNIT. INSTALL FURNISHED FIELDNOUNTED ACCESSORIES, FWGERANT PIPING AND SPECIALTIESARE SPECIFIED IN SECTION N2100-FRIGERANT PIPING' 3.4 FIELD QUALITY CONTROL A STAR UP: PRESSURE TEST EVAPORATOR COLLAND REFRIGERATION SYSTEM AS PER SECTION 24g550 SYSTEM STARTUP, LEAK CHECKING, AND CHARGING. RECORD TEST RESULTS IN PRE -STARTUP CHECKUSTMD STARTUP CHECKLIST. PERFORMEACH VISUAL AND MECHANICAL INSPECTION AND ELECTRICAL TEST. CERTIFY COMPLIANCE WITH TEST PARAMETERS. 4. OPERATIONAL TEST: AFTER ELECTRICAL CIRCUITRY HAS BEEN ENERGIZED, START UNITS TO CONFIRM PROPER MOTOR OPERATION AND UNIT OPERATION, PRODUCT CAPABILITY. AND COMPLIANCE WITH REQUIREMENTS. TESTANDADJUST CONTROLSANDSAFETES. REPLACE DAMAGED AND MALFUNCTIONING CONTROLS AND EQUIPMENT, VERIFY PROPER AIRFLOW OVER COILS, EVAPORATOR UNITS WILL BE CONSIDERED DEFECTIVE IF THEY DO NOT PASS TESTS AND INSPECTIONS. 3.5 STARTUP SERVICE A PERFORM STARTUP SERVICE. 1. COMPLETEINSTALLATIONANDSTARNP CHECKSACCORDINGTOMANUF REYSWRITTENINSTRUCTONSANOPERFORMTH'c FOLLOWING A INSPECT FOR PHYSICAL DAMAGE TO UNIT CASING. B CLEAN UNITS AND INSPECT FOR CONSTRUCTION DEBRIS. G VER EYTHATALLBOLTSANDSCREWSAREUGHT. D. ADJUST VIBRATION ISOLATION AND FLEXIBLE CONNECTIONS, ERIFY THAT CONTROLS ARE CONNECTED AND OPERATIONAL. S. LUBRICATE BEARINGS ON FAN MOTORS. VERIFY THAT FANS ARE ROTATING IN THE CORRECT DIRECTION AND IS NOT VIBRATING OR BINDING, UNITACCORDINGTO MANUFACTURER'S WRITTEN INSTRUCTIONS AND COMPLETE PMNUFACTURER'S STARTUP CHECKLIST. E. MEASUREAND RECORDAIRFLOW AND AIR TEMPERATURE RISE OVER COILS. FG VEWFY PROPER OPERATION OF EVAPORATOR CAPACITY CONTROL DEVICE. VERIFYTHl TVISMTONISOLATONANDFLEXIBLECONNECTIONSPROPERLYDAMPENVIBRATONTRANSMISSIONTOST MRE. END OF AFTER STARTUP AND PERFORMANCE TEST. LUBRICATE BEARINGS. RECEIVED UTY OF TUK'WIL?, PPEcR f'=`IT %��--, I'd =R HENDERSON ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA, KS 66214 TEL913.742.5000 FAX913.742.5001 WWW,HENDERSONENGINEERS.COM 1950002714 WA. CORPORATE NUMBER: 1754 06130120 COPYRIGHT GOT E . .................... heclfrcste pntemporaneousty withpics issue gate aea m is got:wrame for Bea oq a M.P nt projelt site or at a later Ume. Use of wing far reference or example on perpmleci regUlres Me servius of ly I 11larcN,tees N V. M, . utbp Pd and may be ISSUES & REVISIONS PRCEECTT UWAS U 7Y AS SEATTLE PROJECT ADDRESS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ISSUED FOR PERMIT CHECKED OY: HEI $AWN BY: HEI DOCUMENT DA' 06/14/19 PROJECT NO, 1950002714 PROFESSIONAL SEAL Jun 20 2019 PROIECTNAME: UWAS (SEATTLE) BUILDINGADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 MJMANE: REFRIGERATION SPECIFICATIONS zo19 EAR I WW RE.,QN. 6/13/2019 REIN BY FLOOB. DRAWN DATE: 10G 06/14/19 [LOIN. TYPE: IPI-11 BY: UWAS 9�8 N J / DIVISION 24: REFRIGERATION EQUIPMENT SPECIFICATIONS 24 0110 AIR CURTAINS AND CONDITIONED AIR VESTIBULES 1° GENERAL 1.1 REFERENCE STANDARDS 12 RELATED DOCUMENTS 0. DRAWINGSANN DGERALPROVISION: SECTION. RRIGERATION INSTALLATION SPECII REFRIGERATION DESIGN SPECIRCATI 1.3 SUMMARY A SECTION ESTABASHES THE REQUIRE 2, SELF -RE WINDS GOTTOMES( UPS e. GOO ROINATOLOORCONTROLPACKM VEANRULETE IRAVISEI 1.4 ACTION SUBMITTALSucuRRFNr sE. A PRODUCTDATA INCLUDE MODEL NUF ACCESSORIES, INCLUDE EQUIPMENT ASEEMBEY,COMA fl.HOP DRAWINGS: INCLUDE PLANS. ELI 1.5 INFORMATIONAL SUBMITTALS S SUBMIT SHOP DRAWINGS AND PRODU e. INDICATE DIMENSIONS, CC C NSEAND HARDWARE ND I'M C. VIDE CERTIFIED WIRING DIAGRAM 1.6 CLALITYASSURANCE A ELECTRICAL COMPONENTS, DEVICES. AGENCY, ND MARKS FOR INTENDEL 1.7 WARRANTY R TO SPECIFICATION SECTION 24 2. PRODUCTS 2.1 MANUFACTURERS A. APPROVE UFACTURRS: 22 PERFORMANCE REQUIREMENTS A. REEZERDOORS: PROVDEPRESSUR e. CO FxB LENT AMBIENT-TILLE US. SC.INESSH.UB. R.TLUP S. c. W OR POSITION AND CYq.E t IBM $) 2.3 SAFETY EQUIPMENT A UP THE FOLLOWING: 1. V TA 1, ANNUNCROOR- NALTE- B. ELECTRICAUS L WI RING owuwARD SHu A. A OR TO BE FACTORY WIRED MEP SO FACTORY WIRING TO TERMINATE AT PROVIDE MTW, THHN OR TOWN WITH f 2.5 SEALANTS: GE DOW CORNING, OR RED DEVIL RT 2.6 FINISHES: VISION REQUIREMENTS IF REQUIRED BY AUTHORITY HAVING JURISDICTION F P11 2T COMPONENTS: EXE 3. CUTION ore ¢ONTM. TYPE 3.1 INSTALLATION 3.2 ADJUSTMENT: DOOR TO BE INSPECTED BY A MANUFACNRR'S REPRESNTMER OR INSTALLING CONTRACTOR AS APPROVE BY THE ARCHITECT CONTRACTOR TO FURNISH OWNER ND ARCHITECT WITH A COPY OF THE DOOR MANUFACTURER'S INSPECTION REPORT. 240115 HIGH SPEED ROLLUP DOORS 1. GENERAL 1.1 SUMMARY T ACTION SUBMITTALS A. DE MODEL NUMBER DOOR OPENING SEE, OPE DEEQUIPMENTDIMENSIONS, WEIGHTSANDSTR ASSEMBLY, COMPONENTS, AND LOCATION AND SIZE OF EACH FIELD CI e. SMOF DRAWINGENCLUDE PLANS, ELEVATIONS, SECTIONS, DETAILS, 1.3 INFORMATIOWIN GNAL SUBMITTALS sIGNu. ANo coNmol.wlRlNc. 1.4 CLOSEOUT SUBMITTALS 1.5 QUALITY ASSURANCE A ELECTRICAL COMPONENTS, AGENCY, AND MARKED FOR 1.6 WARRANTY REFE-SPECIFICATIONS 2. PRODUCTS 21 MANUFACTURERS TGLVASHC SONDOCROMETROSTC 22 PERFORMANCE REQUIREMENTS 23 SAFETY EQUIPMENT A PRGYPETMEFOLLOWING: HENTS 24 ELECTRICAL W,1N1 OwNWA 1- 3. EXECUTION 3.1 INSTALLATION 32 ADJUSTMENT A DOONTO BEI CONTRAC'T04 END OFs6cnoN z4611. 24 3101 AIR COOLED REFRIGERANT CONDENSING UNITS 1. GENERAL 1.1 PERFORMANCE REQUIREMENTS 12 ACTION SUBMITTALS A. COPY OF THE_ FOLLOWING COORDINATION DOCUMENTS: R NO 'ON GENE L 3. UNIT PIPING ADD INSTRUMSTIAEOR MS IPSDI C-MUSHE NSTAUANGN PAN PER- AL TO ILE 1.3 INFORMATIONAL SUBMITTALS slcrwt, ND coNraol.wlRNc. A.SEISLICQUALIflONTION CERTIFICATION: FOR CONDENSING UNITS, ACCESSORIES, AND COMPONENTS, FROM MANUFA LATGR AN PAREMSCY TO Mail E:C 1.4 CLOSEOUTSUBMITTALS OPERATION AND MAINTENANCE DATA: FOR CONDENSING UNITS TO INCLUDE IN EMERGENCY, OPERATION, ND MAIND U QUALITY ASSURANCE A ELECTRICAL COMPONENTS, DEVICES, AND ACCESSORIES: LISTDANDLABELEDASDEFINEDINNFPATOBYAQUALIFI SEEM Y,NDMARKEDFORINTENDEDLOCATIONNDAPPLICATION. FABRICATEAND LABEL REFRIGERATION SYSTEM ACCORDING TOASHRAE 15,"SAFETY STANDARD FOR RERIGERATI01 C. ASHRAEIIESNAROACOMPLIANCE: APPUCASLEREOUIREMENTSINASHRgE11EENA 90.1, SECTION 6,-HEATING, VENTILA' AIR-CONDITIONING" TH ANSI B 31.5 REFRIGERANT PIPING, E. HSME COMPLIANCE FABRICATE AND LABEL WATER-COOLS COMPRESSOR AND CONDENSER UNITS TO COMPLY WITF PRESSURE VESSELCODE: SECTION Vlll, DNISION 1. ARISTNDARDS: UNITSHALLBERATEDINACCORDWRHRELE WA ISTNDARDS. TIN.: CONDENSING UNITSHAD. BE ULMSTED AND HAVE APRMANENTLYAH-D UL LABEL, IT RAALS: SHALL BENEWANDWITHOUTDEFECT, IFREQUESTD,MANUFACTURRSHALLSUBMITDOCUMENTATION QUALITY OF THE RERIGERATION SYSTEM. DOCUMENTATION TO INCLUDE ENGINEERING DESIGN SHEETS, FULL SHOP TEST REPORTS ND ELECTRICAL FUNCTION TESTING. MANUFACTURER M RESPONSIBLE FORARUCATDNAND DI INDIVIDUAL COMPONENTS. L MANUFAND RERTOLEAKCHECKNDPRESSUR=E CHCONDENSINGUNITT0450PSIGNDEJACUATEPMORTOSI SHIPWOH 1O PSIG HOLDING CHANGE OF DRY NITROGEN. NUFACTUHER TO COMPLY WITH APPLICABLE CODES, STANDARDS, AND REGULATORY REQUIREMENTS. MANUFACTURER RESPONSIBLE FOR QUALITY OF BRAZING. CONDENSING UNITCAPACITYTO BE RAID IN gCCORO WITH NRI STANDARDS. BRATS COMPONENTS INACCORD WITH COMPONENT MNUFAT URER RECOMMENDATION. INSTILLCONTROLS, COMPONENTS, AND VALVES IN LOCATIONS AND POSITIONS WHERE THEY ARE EASILY SERACEABI O. LEAK CHECKAND PRESSURE TEST EACH CONDENSING UNIT TO 450 PRIG AND EVACUATE PRIOR TO SHIPMENT. SHIPU HOLDING CHARGE OF DRY NITROGEN. 1.6 SELECTION CRITERIA A. SUCTION TEMPERATURE REQUIREMENTS: PROVIDE CONDENSING UNITS CAPABLE OF MEETING SUCTION TEMPERATE. ON THE REFRIGERATION SCHEDULE e.CONDENSING UNIT DESIGN REQUIREMENTS: WHEN THE ASHRAE 04% DESIGN FOR OUTDOOR AMBIENT IS: FTr G CONDNSERTEMPERATUREDIFFEREACE: UCEITDII- RU UIIRMEIURFSv MS. USE14TO15^ D EFROST , SPACE MEAT C W LEERS, Aup ALL tow TEMPERATURE N W uCATIONS SHALL USE EtECIRIC DEFR06T. i.T WARRANTY sPACEssnnu.usEOFF.rIME OFFRosT. A SPECIAL WASPRONTY, MANUIPPOTURPROT STANDARD FORM IN WHICH MANUFACTURER AGREES TO REPAIR OR SEEM OP C PRESSORAN CONDENSER UNITS THAT FAIL IN MATERIALS OR WORKMANSHIP WITHIN SPECI PED WARRANTY COMPRESSOR FILURE. 2. TYFERIOD. FIVE YEARS rROFL M DATE OF SUBSTANTIALCOMETIO 2. PRODUCTS N. 21 AIR COOLED CONDENSING UNITS A. DESCRIPTION: FURNISH FACTORVASREMBLED AND TESTED. ARCOOLED: CONSISTING OF CASING, COMPRESSORS,0 CONDENSER FANSAND MOTORS, REFRIGERATION SPECIALTIES, UNIT CONTROLS ELECTRICAL CABINETS, ND FACTO FUSED DISCONNECT. APPROVED MANUFACTURERS: B. CONDENSING UNITTO BE EQUIPPED WITH SUFFICIENT STAND-N.ONECONTROLB TOINDEPENDENTLYPROTCTANDC COMPRESSOR CYCLE THE CONDENSER FN, AND OPERATE THE HEAD PRESSURE CONTROL VALVE, c. WRETHE FOLLOWING DEVICES TOATRMINAL STRIP FOR EXTERNAL CONTROLOR MONITORING BY THE RMCS, PRESS D.AINT COMPRESSOR HEADS TO MATCHASHRAE GOSSAMER COLOR FOR REFRIGERANTTYPE. COIDENING IT DOMEENENTI G GARNET, PROVDENGALVNIZE STEEL WE, LIFTING LUGS, AND STRUCTURAL MOUNTING RAILS TO SUPPORT COMPF CONDENSER COIL, ELECTRICAL PANELAND OTHER REUIRE REFRIGERATION COMPONENTS, PANELSANDTOPCOVI 2 ALVNUK ZEDRA F-DSTEEL0RATE 0 RAAPP OR GOVED FAN GuuiownicH ENCI.osPC ouoENSER FN ANo MAINTAIN sEPgRATION FxI PERIMINERTOWIRICATED NB NSERF VSMU6TBE REIRMTOCONDENSERCON LO ELTwOOTHERcoMPONENTSOFTHECONDNSNc OCONDE App F. 1COMPRESSOR SHALL BE DESIGNED FOR SERVICE WITH CRANKCASE SIGHT GLASS, CRANKCASE HEATER AND BACK S 4 PGUO.M 16%BWEA, FOR DISSIMILAR METAts USE AND SAG-11(NOMINN, 0% SILVER) oF 5. S-10 LINE PIPING $OCR THAT UQUIDYFULDITY FROM CLUDERSERTO HAD PRESSURE SOCEIVERDOES NOTIESSED ON FEETERE MIND - I. PRESSURECONTROLHOSITO 1 TION:FLEX ELSOMFIED CFLL EIASTOMRICTUBULAR OR SHEET INSULATION WHICH CONFORMS TOASTING 534. SEE RTO SPECIFCATION SECTIOR MSM0- REFRIGERANT PIPING INSULATION. ARMATTES ST. USA 2.2 REFRIGERATING SPECIALTIES A. HIGH PRESSURE RECEIVER: 1, ASMECERTRED AND INSPECTEDVEBSELS WITH A NATIONAL BOARD TAG FOR SHELLS LARGER THAN 6°IN DIAMETER, VESSELS TO BE COMPLIANT WITH UL-207 FOR SHELLS SMALLER THAN 6 IN DIAMETER, G SHALL BE RATE 450 FOR PSIGAT 150°FAND MANUFACTURED BY STANDARD REFRIGERATION OR EUIVALENT. 3. SIZE RECEIVERSOTHAT-VOLUMEIS SUFFICIENTTO HOLD FULLWINTRANDSUMMEROPERATION CHARGEAND SEAL CHARGE -- 4. PROVIDEHEATED, INSULATE RECEIVER FOR OUTDOOR APPLICATIONS. I. RECEIVER HEATER TO BE CONTROLLED THROUGH REFRIGERATION MONITORING AND CONTROL SYSTEM (RMCS) 5. PROVIDE INSULATE RECEIVER FOR INDOOR APPLICATIONS. 6. RELIEFVENTS:TWO HENRY, HANSEN TECHNOLOGIES. OR WESTERMEYER INDUSTRIES RUPTURE -ASSEMBLER WITH INDICATOR GAGES AND PRESSURE TRANSDUCERS. IT SUCTION ACCUMULATOR: ASME CERTIFIED AND INSPECTED PRESSURE VESSEL WITH NATIONAL BOARD TAG IF OVER 6° DIAMETER. COMPLIANT WITH UL-207 IF SHELL IS LESS THAN 6"IN DIAMETER. MANUFACTURED BY HENRY OR EQUIVALENT APPROVED VENDOR. PROVIDE INSULATED ACCUMULATOR FOR INDOOR APPLICATIONS, FULL LOAD PRESSURE DROP NOTTO EXCEED 1I2°F. 2. LOCATEACCUMULATORATSAME ELEVATION AS COMPRESSOR AND DOWNSTREAM OF SUCTION FILTER. 3. ACCUMULATOR TO BE CAPABLE OF RETURNING LIQUID AT AN ACCEPTABLE RATE THROUGH THE FULL RIDGE OF REFRIGERANT LOADING. 4. INSTALLHEATTAPEONSUCTIONACCUMULATORANDCONTROLWI LINEVOLTAGETHERMOSTAT, G. SUCTION LINE FILTER: SPORLAN SEALED SF SERIES WITH SUCTION LINE FILTERS. COMPUANTVVfUU -20T. 1. PRESSURE DROP NOTTO EXCEED I PSIG 2. LOCATE FILTER DRIERSUCH THAT DEBRIS CANNOT FALL INTO SHELL DURING CORE REMOVAL 3. INSULATE RUCTION FILTER 4, PRESSURE DROP NOTTO EXCEED'/.PSI. C LIQUID LINE FILTER DRIER 1. SPORLAN SEALED CSERIES LIQUID LINE DRIER WITH SOLDER CONNECTIONS. 2. ALCO,SPORLAN. OR DANFOES REPLACEABLE CORE LIQUID LINE DRIER WITH UE-SOR EUNALENT HIGH WATER CAPACITY CORE ND SECONDARY FILER. 3. SHELLS COMPLIANT WITH ULAS7. 4, PRESSURE DROP NOT TO EXCEED 1 PSIG LOCATE FILTER DRIER SUCH THAT DEBRIS CANNOT FALL INTO SHELL DURING CORE REMOVAL. E. UDUIDU ESIGHT GLASS: SPORLAN SEE -ALL LIQUID LINE SIGHT GLASS WITH SOLDER CONNECTIONS. F. LIQUID LINE SOLENOID VALVES: SHIP LOOSE FOR FIELD INSTALLATION. PROVIDE SPORIAN E AND ME VALVES, NORMALLY CLOSED WITH MANUAL LIFT STEM. SIZE VALVE FOR FULL CAPACITY OF UNIT WITH A MAXIMUM PRESSURE DROP OF 3 PSI AT DESIGN CONDITIONS. G LOW AMBIENT CONTROL VALVES: SPORLAN LAC SERIES HEAD PRESSURE CONTROL VALVES IN CONJUNCTION WITH AN AUXILIARY DRAIN LEG CHECK VALVE. IT LOW AMBIENT FAN CYCLING CONTROLS; PROVIDE ON OUTDOOR UNITS WITH MULTIPLE FANS, AND SINGLE FAN CONDENSING UNITS WITH REFRIGERANT COOLED COMPRESSORS. L CONTROL DEVICES- PROVIDE AND INSTALL: 1. JOHNSON PiTOAB12, HENCE - 80 ERIC ADJUSTABLE LOW PRESSURE CONTROL 2. HIGHPRESSURECONTROL: JOHNSON PHAW,SR-A50PSIGMANUAL RESENT PRESSURESWITCH 3, PH PDOWNRELAY 4. DEFROSTRELAY DEFROST CONTACTOR 6. PHASE LOSS PROTECTION OMPRESSOR CONTACTOR 8. FACTORYMOUNTEDFUSEDISCONNECT 9. XILIARY CONTACT ON COMPRESROR FOR CRANKCASE HEATER IF SO EQUIPPED 10 E VOLTAGETHERMOSTATFORRECEIVER HEAT ER CONTROL. 11. COMPRESSOR DELAY RELAY. ZERO TO 600 SECONDS,ADJUSTABLE. ARTRONICE TGL2600R EQUIVALENT J. FACTORY INSTALLED RMCS COMPONENTS: EMERSON-XCMz50 CONDENSING UNIT CONTROLLER C. EMERSONNETWER.I-EXCMCONTROLLER a. XCM25 FOR SINGLE COMPRESSOR I SINGLE CONDENSER FAN UNITS b. XC645 FOR MULTIPLE COMPRESSORS I MULTIPLE CONDENSER FAN UNITS RUCTION PRESSURE TRANSDUCER CPC DISCHARGE PRESSURE TRANSDUCER S. PIPEMOUNT TYPEUQUIDTEMPERATURESENEOR 6. SUCTIONRENRNGASTEMPERANRESENSOR T DISCHARGETEMPERATURESENSOR B. CON DENSER INLET AIR TEMPERATURE SENSOR 9. CON DENSER OUTLETAIRTEMPERATURE RNROR 10, CURRENT SENSING RE-Ol DENT INSTRUMENT, 200 A. HINGED CT. DENT EN CTTWC-lCG U ON EACH LEG OF COMPRESSOR POWER ii. CURRENT SENSING RELAY ON CONDENSER FAN MOTOR (PAN MOTOR PROOF) 12. AMBIENT AIR TEMPERATURE SENSOR ON ONE CONDENSING UNIT K FOR COPELAND COMPRESSORS, MAKE USE OF CORESENSE IF AVAILABLE. 2.3 FABRICATION AND ASSEMBLY A, COMPRESSOR PIPING SHALL NOT INTERFERE WITH THE REMOVAL OF THE COMPRESSOR OR COMPRESSOR HEADS. B. PIPEANDFITTINGS: INSTALL PIPING SOTO PREVENT VIBRATION, PIPES RUBBING AGAINST EACH OTHER OR OTHER OBJECTS, AND WITHOUT UNDUE STRAIN ON PIPE AND FLTTINGS. 1. SUPPORT BENDS WITHIN 10INCHES OF REND. C. MECHANICAL INSULATION: FOLLOW MANUFACTURER'S RECOMMENDED INSTALLATION PRACTICES. 1. SURFACES MUST BE CLEAN ND DRY, FREE OF DIRT, GREASE, OR OTHER IMPURITIES SUCH AS CORROSIVES OR DUST. SEAL REFRIGERANT PIPE DURING INSTALLATION OF INSULATION TO PREVENT FOREIGN MATERIAL FROM ENTERING TUBING. REAL SEAMS, UUTTJOINTS, AND ENDS TO RETARD MOISTURE INTRUSION. 3. INRULATE VALVES FITTINGS, AND 11ANGES WITH SAME INSULATION THGKNESS AS PIPING, 2.4 POWER AND CONTROL WIRING A. ROUTE WIRING WITHIN THE CONDENSING UNITAND OUTSIDE OF ELECTRICAL PANELS IN WATERTIGHT CONDUIT IN CONFORMANCE WITH NFPATO. B. MARK WIRING WITH NUMBERS FOR IDENTIFICATION AT CONNECTION POINTS. C. CONTROLWIRING: 16AWGORLARGER D. FURNISH TERMINAL STRIPS FOR CONNECTIONS E. NEATLY TIE AND SUPPORTWIRING INSIDE OF PANELS ND EQUIPMENT CABINETS, PROTECTWIRE FROM ABRASIONS. F. MAKE ELECTRICALWIRINGTERMINWBONS INACCORD WITH ELECTRICAL INDUSTRYSTANDARDS UTILIZING ULAPPROVED DEVICES. 2.5 EQUIPMENT LABELING AND TAGGING A EACH CONDENSING UNITTO BE PROVIDED WITH A CLEARLY AFFIXED LABEL DISPLAYWG THE FOLLOWING: 1, MANUFACTURER'S NAME 2. CONDENSING UNIT MODEL NUMBER NG UNITSERIAL NUMBER 4. MA IN POWER VOLTAGE MCA 6. MOPD T. CON TROLPOWERVOLTAGE COMPRESERRA COMPRESSORLRA 10. GONDENSER PAR FLA DEFROST HEATER AMPS 2, CAUTION OR WARNING SIGNS AS NEEDED. 2.6 REFRIGERATION CONTROLS AND ACCESSORIES A ACCESSORIES: 1. SERVICEVALVES- 2. AUXILIARY CONTACTS ON COMPRESSOR FOR CRANKCASE HEATER IF EQUIPPED, R HEAT RECOVERY: AS INDICATED ON OR REQUIRED BY THE DRAWINGS, CONDENSING UNIT SHALL BE PROVIDED WITH WATER HEAT RECOVERY SHELL AND TUBE, PLATE AND FRAME, OR BRAZED PLATE HEAT EXCHANGER INTERNALTO THE UNIT. A LOAD DIVERTING VALVE SHALL BE PROVIDED AND CONTROLLED BY THE CONDENSING UNIT CONTROLS. PROVIDE WITH PRESSURE RELIEF; LIQUID LEVEL TEST COCK: PURGE CONNECTION; ND REFRIGERANT AND WATER ISOLATION VALVES, END OF SECTION MITI 244701 EVAPORATOR COILS FOR COMMERCIAL REFRIGERATION 1. GENERAL 1 .1 SUMMARY A. SECTION INCLUDES EVAPCRATORCOILS FORREFACERATEDNDFR B- MOTORS, REFRGER RIONACCESSORIES. AND CONTROL DEVICES. 1.2 ACTION SUBMITTALS 1.3 CLOSEOUT SUBMITTALS OPERATION AND MAINTENANCE DATA FOR EVAPORATOR UNITS TO INCLUDI 1A QUALITY ASSURANCE 1.5 SELECTION CRITERIA A. SECTION INCLUDES DESIGN CRITERW, OPERATING CONDITIONS, ND REQUIRED COMPONENTS FOR EVAPORATORCOILS. ORATOR GOILE DESIGN FOR USE WITH REFRIGERANT AS LISTED THE CONSTRUCTION DOCUMENTS, 2. PRODUCTS 2,1 FABRICATION CAI UNIT SINGS: : TEXTURED OR SMOOTH FINISHED ALUMINUM, INDEPENDENTLY BAFFLED FAN SECTIONS, NO LONG -THROW FAN GUARDS. 1. IRANTANSM-DIDATOASINGLEGRAINSIST, e. COILS: STAGG RE STAIN LESS CEPPERN E'AWMNUM FIN COIL, ND DISTRISUTOR GIRCUITED FOR DIRECT EXPANSION OPERATION. FIN SPACING, TEMPERATURE DIFFERENCE. AND DEFROST REQUIREMENTS AS PER TABLE BELOWTO HEMMED DIRECTLY INTO SUCHOR LINE, TARE FUTI-PREFRETIRRET C. FAR MOTORS ND FAN BLADES: FURNISH DIRECT DRIVE, HIGH EFFICIENCY EVAPORATOR CAN MOTOR FACTORY WIRE TO A TERMINAL S SIR, TRIP AN LADES TO BELOW NOISETYPE, CONSTRUCTED OF HEAVY GAGE ALUMINUM HAD OLES MECHNICALLYATTACHED TO A STERE HUM HIS ED 'By IDE FACT ORYENRTALLEHEXPNSION VALVE. o%IpATION. E F. ELECTRIC DEFROST HEATERS AND ELECTRIC DRAIN PAN HEATERS SHALLSE FIRMLY ATTACHEDTOTHE EVAPORATOR CORTO PREVENT HEATER FROM WALKING AND IMPACTING PIPING WITHIN EVAPORATOR COIL, ELECTRICAL CONNECTIONS TO DEFROST ND DRAIN PAN G HEATERS SHALL BE INSULATE TO PREVENT GROUNDING AGAINST COPPER TUBING OR EVAPORATOR COIL CABINET. , CUN;'%`LLMER PANS, DEFROST IGATERS. REPROST TEMNAP- AND EITIMMIDN VALVE TO BE GONTROLUED THROUGH EMERS11 W V9 b) PANME WIRING I-UA-EARSEN-. EME MPN 6B11222sENsoRLEADS CLEARLYMMKEDAS DASENSOR H. . FEE IIIRINIHMNE�ESWIII�E'��IIITR�E�'�FIR�UE��l�'�E MOSTLY I. PERMNENTLYATTACHED�LNEL TO CARNET THAT CONTAINS THE FOLLOWING INFORMATIONPEAPOISTOR FROST PRATER-, SE ROOMETEMPERATURE, EVAPORATOR COIL T'D AND DEFROST REQUIREMENTS. K ROOM TEMPERATURE DEFROST TEMPERATURE DIFFERENCE F /INCH CHILLED STORAGE ELECTRIC ISTE 40R6 FREEZER -10'F ELECTRIC 10.1E 4 2.2 APPROVED MANUFACTURERS A. APPROVED MANUFACTURERS OF EVAPORATOR COILS: 1. E-IDNNIKHACK REVIEWED FOR CODE COMPLIANCE APPROVED A 08 2619 City of Tukwila BUILDING DIVISION ARCHITECT OF RECORD: BRIT ARCHITECTURE, INC 6T00ANTUD PLAZA SUITE 300 MERRIAMI, KS 66204 wW TEE, PAX: 933-262-9044 CONSULTANT . ............... ...... CONSULTANT LOGO ENGINEERS 8345 LENEXA DRIVE, SUITE 300 LENEXA, KS 66214 TEL 913.742.5000 FAX913.742.5001 WWW,HENDERSONENGINEERS.COM 1950002714 WA. CORPORATE NUMBER: 1754 06130/20 COPYRIGHT NOTICE . ..................... This Drawing was preparetl for use on a pacific M[e contemporeneousiy witM1 rfs issue Date antl it is not suitable Por use on a nt Fmject site or at a IaMr time, Use of wing Por reference or example on project requires the seMces oT antl engineers. not Nis tlraw ng for reuse anoN I pro-eLY Is not auMoraeO oM mOay be contrary W the law. ISSUES S, REVISIONS PRO)E�CTT ]NAME U®VA5 SEATTLE PROJECTADDRESS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ISSUED FOR PERMIT � PROJECT MANAGER: JAMESMCCARTY -1G11D B HEI DRAWN BY: HEI DOCUMENT DATE: 06/14/19 PROJECT NO. . ..................... 1950002714 PROFESSIONAL SEAL Jun 20 2019 RECEIVED CI .TY OF TUKWILA v P i,:glT CENTERAl AD PROBECTNAME: UWAS (SEATTLE) BUILDING ADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 FILENAME, REFRIGERATION SPECIFICATIONS 2019 YEAR. W REIGN. DATE 6/13/2019 DRAWNTODAYS By HEI 1 OG FLOOR: .11411. /14/19 BUILDING T'PL UWAS APPROVED BY: SCALE: APPROVED DATE, MA o REFRIGERATIONSCHEDULE SYSTEM MT RCUs Rsfug. OEM: Condenser Type: HUSSMANN A, FUC-I Reclaim beat: N. S.1 ROf._Liquid T.mp('F): led SG2 Refrig. Liquid Temp ('F) NIA �SG3 Petra. Liquid Temp ('F) NIA EXTERIOR DRY BULB dDBu ('F) 0.4%Cooling DB 783 2017 Format Warehouse Stop, 11: UWA5 System Type: Remote Condensing M Unit Refrigerant R448A R.frig. EMS: C Set C'nd.Temp (°F): 115 Heat Reclaim Use: N SO1 Comp RGT (7): 50 SG2 Comp ROT ('I TO RGT('F): NIA Proto Sim: City/Site: SEATTLE, WA Consultant HEI Estimated Refrigerant Charge (los): NIA System Elec: ZacnAW E.11� F.pd, Design TO (*F): 15 Heat Reclaim WBU, (GPM) EXTERIOR WET BULB (WB) (°F): 0.4% MonthyMaxW3 from ASHRAE Pub. RAN 2017 Preto CIA]. Date: Casandra Petra R,ck&Cond. Charge nbs): NIA D.fn,.tEI 208V60Hq1 ,3 Ph NIA Eat Summer THR (MBH): N/A E.p. S.perh..t('F): 10 Dole Prepared: 6172019 1 Design up (°L) !VV13 (°Fy 100°Fi NIXF I Interior Design DB ff) IRH%: 75°F/55% Fixture and Field Piping (lbs): NIA , Pilot El- 20811 Ph Cond. Elec. 460V 3 Ph OOH. E At Winter THR AWI (MBH): NIA ASHRAE Design Condit... Weather Station:SEATTLE, WA USA CIRCUIT INFORMATION FIXTURE ELECTRICAL INFORMATION Case Fixture Length /Qu mily Walk -In Box Size LSHXY:,r N? Case Light Anti -Sweat & M.d Fwr _oil T�' Sub -Circuit Load Circuit E.p Walk -In Circuit Control Volvo. Defrost Defrost Heaters Pon. Amps Arnp. C KT # AT N of Doom 4 D68* 5 DrI12" L IN H Case/Coil Mkodel Caae/C.il Mormf Application Vv P.C. N Distributor NoLde (MEN) Load (MBH) SET Air Temp Type (I 20Y) (120v) I Comments Equip Number EPR LLSV Amps I Voltage Amps Voltage RCUI MAIN CIRCUIT- SUSCIRC UITS ARE BELOW 115 1 76 1 12 KRACK 1/2 Cooler W.I. 112 TOTAL MAIN CIRCUIT 148.1 22 34 E19S270 EL 43.0/21.5 20813 208/1 CKTL RCUla MK36E.381 KNACK lA6 Cooler W.I. 112 HX-6 49A - 22 34 EL 21.5 20813 L267 326 11 RCUI RCUlb MK36E-381 KNACK 1/6 Cooler-WIL 112 HX-6 49A 22 r 34 EL 21 S 20813 T6 208/1 RCU1. RCU1c MK36E-381 KNACK T76 Cooler WI. 112 HX-6 49A 22 34 21E 208/3 7.6 208/1 RCUIb RCU2 MAIN CIRCUIT- SUBCIRCUITS ARE BELOW 115 76 12 KRACK 12 Cooler W.I. 112 TOTAL MAIN CIRCUIT 148A 22 34 E19S270 EL 430121,5 20813 22,7 20811 RCUIc RCU2. MRS - 6E 381 KRACK 1/6C..IGrWL112 HX-6 42 22 34 EL 21.5 208/3 7.6 20811 RCU2 RCU2b MK36E 81 -3 KRACK 1/.Cooler IIX_6 4 1 - 2 '�2 208/3 7B 2 RCU2. RCUm, MK36E-381 KNACK Cooler HX-6 2 1 54 211 208/3 T6 2 REI_12b RCU2c SUCTION GROUP #1 REQUIRED9 CT454At ITY MB H): 296.. 20 "1) Su.b.p T.mp..W,. Ms., "..a' 1.) Owner's designated refrigeration equipment manufacturer: HUSSMANN. 2.) RCUs furnished with factory insisted controller. 3.) **Evaporator polls furnished with factory installed pulse EEV. Updatsd:En82019 REFRIGERATIONSCHEDULE SYSTEM LT RCUs Refing. OEM: HUSSMANN Condenser Type: Air Heat Reclaim Media: NIA SG1 Rettig, Liquid Temp (°F): 102 SG2 Reffig. Liquid Temp (°F): N/A SG3 Reing. Liquid Temp (°F): NIA EXTERIOR DRY BU LB (DB) 78.7 0.4% Cooling DB 2017 Format Store #: UwA5 System Type: !1110jCondensing Refrigerant R44M --kefrig. EMS: CPC Set Cond. Temp ff): 110 Heat Reclaim Use: NIA SG1 Comp RGT ff): 30 SG2 Comp HOT ff): N/A SG3 Comp RGT ff): N/A Preto Sim: City/State: SEATLLE, WA Consultant: HE] HEIEarlemanot Estimated Refrigerant Charge (Ilbs): N/A System Elec: 46OV3Ph6OHz Cond. Design TD (°F): 10 Heat Reclaim Mier (GPM): EXTERIOR WET BULB (VVB) N/A 0.4% Monthly NI from ASHRAE Pub. 2017 Prato Cycle Data: Elevation (it): 7 - Prepared By: CaLan �T_qmtars R k,&,Cond. Charge (lbs): IT Defrost Elec: 208V 60Hz 1 or 3 Ph NIA Est SummerTHR (MBH): NIA Evate. Superheat ff): 10 Date Prepared: 6-/-7/2019 Design DB ('F) / WB ff): 1 00'F I NIKE I Interior Design DB (F) RH%: 75°F i Fixtureand Field Piping dos); N/A Sys.Pilot �Fllot Elec �208V I Ph Cond. Else. 46OV3 Ph 6GHz Est. Winter THR Avail (MBH): N/A ASHRAE Design Conditions Mather Sieben: SEATTLE, WA USA CIRCUIT INFORMATION FIXTURE ELECTRICAL INFORMATION CKT# RCU3 Case Fixture Length/Quantity Walk-in Box Size Case/Coil Model Case/Coil Manuf. KRACK Application 112 Freezer 1 W.I. LSHXYorN? & Model # W Evaps Evaporator Coil TXV / Distributor No22Je TOTAL MNN Sub -Circuit Load (MBH) CIRCUIT Circuit Load (MBH) 79.3 Evap SET -21 -Casel Walk-in Air Temp -10 Circuit Control Values Defrost Type EL Defrost Heaters Fans Lights Amps (I 20v) Anti -Sweat Amps (1 20v) Comments Equip Number FT N of Doom MAIN CIRCUIT-SUBCIRCUITS 1 2 DN4' � 3 D 4 Dr/8' ARE BELOW L 51 W 80 H 12 ERR LLSV E10S150 Amps 36.6118.3 Voltage - 208/3 Amps 22.7 Voltage 20811 RCU3a MK34E-246 KRACK 1/6 Freezer 1 W.I. - HX-7 26A - -21 -10 EL 18.3 203/3 7.6 208M RCU3b MK34E-246 KRACK 116 Freezer 1 W.I. HX-7 26A - -21 -10 EL 18.3 - 208/3 TS 20811 RCU3c MK34E-246 KRACK 1/6 Freezer I W.I. HX-7 26A -21 -10 EL 18.3 208/3 7.6 20811 RCU4 MAIN CIRCUIT- SUBCIRCUITS ARE BELOW 51 80 12 KRACK 1/2 Freezer 1 W.I. TOTAL MAIN CIRCUIT 79r3 -21 -10 EIOST50 EL 36.61183 20513 22.7 208/1 RCU4a I j MK34E-246 I KRACK 1/6 Freezer I W.I. HX-7 f-= 2 - -21 -10 EL 18.3 20813 7.6 208/1 CU4b R U MK34E-246 KRACK 1/6 Freezer 1 WI. I -21 -10 - EL 113 21813 - 7,6 211111 ERCU4c MK34E-246 KRACK 1/61'reezer I W.I. HX-7 208/3 7.6 20817 SUCTION GROUP I 158AO -24 (F) Suction Temperature SYSTEM MT RCUs DISCHARGE AIR TEMPERATURE AND DEFROST PARAMETERS DISCHARGE AIR TEMP Updated: 61201201 7- SETTING FOR CASES/ RETURN AR TEMP DEFROST DEFROSTSCHEDULE SETTING FOR WALK-IN BOXES OWNERS CIRCUIT# APPLICATION MODEL NUMBER MFR EQUIP. NUMBER MANUFACTURER'S OPERATING DUALTEMP DI ROSTTYPE FREQUENCY PUMPOUT MAXURAITERMINATION IONTIME(MIN) Defr-t TARGET ('F I TARGET ff PER DAY TIME (MIN) (MIN) TEMP ff) � DRIP ..-.11 NI-12 Defeat 3 4 .."A.I. rTPOINTDF) RCU1 1/2CoolerWI 112 MK36E-381 KRACK 34 34 EL 40 1 55 one ago 16) RCU2 112C..I.,W] 112 MK36E-381 KRACK 34 34 _EL s 50 _T_ 40 3 4UU 12 GO SYSTEM LT RCUs DISCHARGE AIR TEMPERATURE AND DEFROST PARAMETERS DISCHARGE AIR TEMP Upd.ted:620/2019 SETTING FOR CASES/ RETURN AIR TEMP DEFROST DEFROSTSCHEDULE SETTING FOR WALK-IN BOXES CIRCUIT# APPLICATION MODEL NUMBER MFR EQUIP. NUMBER MANUFACTURER'S OWNER'S OPERATING DUAL TEMP DEFROST FREQUENCY PUMP OUT -DURATION TERMINATION TARGET(*F SETPOINT(T) TARGET (�F) PER DAY TIME (MIN) (M I Mp (TF, RP TIME MN, D..Et, Q.fincst 2 Defrost3 Defm,t4 D.fOGt5 Defroat6 RCU3 IQ Freeter 1 W.I, MK34E-746 KRACK -10 -10 EL 4 2 45 51 o p (To I 1800 030 RCU4 12 Freeter I W.I. KRACK -10 -10 EL 4 45 B LEAK DETECTION CONTROL MODULES, UPON REGISTERING A CONCENTRATION THAT IS: ONE-HALF OF THE IDLH OR AT THE OEL; WHICHEVER IS LESS, 1 ACTIVATE VISUAL AND AUDIBLE ALARMS FOR THE ZONE INDICATING THE LEAK 2 ENABLE AN AUTOMATIC SHUTDOWN OF THE LLSV AND EEPR TO ISOLATE THE REFRIGERANT FLOW IN THE CIRCUIT IN ALARM. 3. SEND AN ALARM SIGNAL TO THE FIRE ALARM PANEL. IBLE I VISUAL DEVICES INSIDE COOLERS AND FREEZERS SHALL BE INSTALLED IN WEATHERPROOF JUNCTION BOXES, REFERENCE LEAK DETECTOR IBLEMSUAL DEVICES SHALL ANNUNCIATE ATA SOUND PRESSURE LEVEL THAT IS A MINIMUM OF 15 DBA ABOVE THE AMBIENT NOISE LEVEL. EEPR: ELECTRONIC REVIEWED FOR CODE COMPLIANCE APPROVED AUG 08 2019 City of Tukwila BUILDING DIVISION R E 1 D K,,"i 1 L A PCEFI`01T CENTER ARCHITECT OF RECORD: ERR ARCHITECTURE, INC 6 00 ANTRICH PiAiF 300 TE. --s-aK co.su-1 CONSULTANT LOGO HENDERSON ENGINEERS 8345 LENEXA DRIVE, SUITE 30D LENEXA, KS 66214 TEL 913 742 5000 FAX913742.5001 WWW.HENDERSONENGINEERS.COM 1950002714 WA CORPORATE NUMBER: 1754 OV30120 COPYRIGHT NOTICE D-2,u- -c ISSUES & REVISIONS IN-1 CAME UWAS SEATTLE PROJECT ADDRESS 18323 ANDOVER PARK WEST TUKWILA, WA 98188 ISSUED FOR PERMIT PROJECT MANAGER: JAMES MCCARTY CHECKED BY; HEI OUN BY: HEI DOCUMENT 06/ 4, 19 PROJECT NO 1950002714 PRCCECT NAME UWAS (SEATTLE) BUILDING ADDRESS: 18323 ANDOVER PARK WEST TUKWILA, WA 98188 FILENAME' REFRIGERATION SCHEDULES PROIECTYEAR: N; 2019 Too -DATE DRAWN 6/13/2019 HEI BLOG FLOOR: U DATE 1 06/14/19 GUI-NG APPROVED BY: UWAS ECA NTS amazon