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Permit M18-0094 - LEO STELLA - SUPPLY FANS, HUMIDIFERS, TERMINAL UNITS AND EXHAUST FAN
LEO STELLA 12501 E MARGINAL WAY S D18-0094 Parcel No: Address: r� City of Tukwila r .A Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Inspection Request Line: 206-438-9350 Web site: http://www.TukwilaWA.gov MECHANICAL PERMIT 7345600580 12501 E MARGINAL WAY S Project Name: LEO STELLA Permit Number: M18-0094 Issue Date: 9/17/2018 Permit Expires On: 3/16/2019 Owner: Name: Address: Contact Person: Name: Address: Contractor: Name: Address: License No: Lender: ,Name: Address: INTERNATIONAL GATEWAY EAST 12201 TUKWILA INTRNTNL BL 4TH , SEATTLE, WA, 98168 KAYLENE NELSON 1221 SECOND AVE N , KENT, WA, 98032 HERMANSON COMPANY LLP (GENERAL) 1221 2ND AVE N , KENT, WA, 98032- 2945 HERMACL005BJ Phone: (253) 359-7147 Phone: (206) 575-9700 Expiration Date: 8/25/2020 DESCRIPTION OF WORK: PROVIDE AND INSTALL (4) SUPPLY FANS, (6) HUMIDIFIERS, (28) FAN POWERED TERMINAL UNITS, (28) GRD'S AND RELOCATE (1) EXHAUST FAN. Valuation of Work: $258,000.00 Type of Work: REPLACEMENT Fuel type: ELECT Fees Collected: $3,292.77 Electrical Service Provided by: SEATTLE CITY LIGHT Water District: 125 Sewer District: VALLEY VIEW Current Codes adopted by the City of Tukwila: International Building Code Edition: International Residential Code Edition: International Mechanical Code Edition: Uniform Plumbing Code Edition: International Fuel Gas Code: 2015 2015 2015 2015 2015 National Electrical Code: WA Cities Electrical Code: WAC 296-46B: WA State Energy Code: Permit Center Authorized Signature: l^� Zi1}w Date: 2017 2017 2017 2015 nV� 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 to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to sign and obtain this development permit and agree to the conditions attached to this permit. Signature. Date: L (') I Is`( Print Name: le .P.f'1Q_ pe.Atv\ 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: 1: The attached set of mechanical plans have been reviewed by The Tukwila Fire Marshals Office and are acceptable with the following concerns: 2: 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 #2437) 3: H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting 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. (IMC 606.1, 606.2.1) 4: Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #2437) 5: Duct detectors shall send a supervisory signal only upon activation. (City Ordinance #2437) 6: 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) 7: An electrical permit from the City of Tukwila Building Department Permit Center (206-431-3670) is required for this project. • 8: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #2436 and #2437) 9: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 10: These plans were reviewed by Inspector 511. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575-4407. 11: 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. 12: 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. 13: All construction shall be done in conformance with the Washington State Building Code and the Washington State Energy Code. 14: 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. 15: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206-431-3670). 16: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center. j \ f '1 17: VALIDITY OF PERMIT: 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 of the City of Tukwila shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 18: ***MECHANICAL PERMIT CONDITIONS*** 19: All mechanical work shall be inspected and approved under Permit Center (206/431-3670). 20: Manufacturers installation instructions shall be available on PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (206) 438-9350 0703 1800 0609 0705 0701 0702 MECH EQUIP EFF MECHANICAL FINAL PIPE/DUCT INSULATION REFRIGERATION EQUIP ROUGH -IN MECHANICAL SMOKE DETECTOR TEST a separate permit the job site at the issued by the City of Tukwila time of inspection. CITY OF TliKWI1 , Community Development Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http://www.TukwilaWA.gov Mechanical Permit No. Vt ( 9'006114 Project No. Date Application Accepted: 1 [ 9 (For office use only) Date Application Expires: 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 12501 King Co Assessor's Tax No.: 734560-0385 Site Address: E Marginal Way S Suite Number: Floor: Tenant Name: Leo Stella PROPERTY OWNER Name: Kaylene Nelson Name: Group Heath City: Kent State: WA Zip: 98032 Address: 3530 S 126TH ST Email: KAYLENE.NELSON@Hermanson.com Cin': Tukwila State: WA Zip: 98168 CONTACT PERSON — person receiving all project communication Name: Kaylene Nelson Address: 1221 2nd Avenue N City: Kent State: WA Zip: 98032 Phone: (253) 359-7147 Fax: Email: KAYLENE.NELSON@Hermanson.com New Tenant: ® Yes ❑ ..No MECHANICAL CONTRACTOR INFORMATION Company Name: Hermanson Company Address: 1221 2nd Avenue N City: Kent State: WA Zip: 98032 Phone: (253) 359-7147 Fax: Contr Reg No.: HERMACL005BJ Exp Date: 08/25/2018 Tukwila Business License No.: Valuation of project (contractor's bid price): $ Describe the scope of work in detail: Provide and install (4) Supply Fans, (6) Humidifiers, (28) Fan Powered Terminal Units (28) GRD's and Relocate (1) Exhaust Fan. 258,000 Use: Residential: New ❑ Replacement ❑ Commercial: New ❑ Replacement Fuel Type: Electric E Gas ❑ Other: H:. Applications Forms -Applications On Line 2011 Applications Mechanical Permit Application Revised 8-9-1 I.docx Revised: August 2011 bh Page 1 of 2 Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <100k btu Furnace >100k btu 28 Floor furnace Suspended/wall/floor mounted heater 5 Appliance vent Repair or addition to heat/refrig/cooling system 4 Air handling unit <10,000 cfm 28 Unit Type Qty Air handling unit >10,000 cfm 28 Evaporator cooler Ventilation fan connected to single duct 5 Ventilation system Hood and duct 4 Incinerator — domestic Incinerator — comm/industrial Unit Type Qty Fire damper Diffuser 28 Thermostat Wood/gas stove Emergency generator Other mechanical equipment 4 Boiler/Corepressor 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 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 WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OW Signature: RA RIZED AGENT: Date: 07/19/2018 Print Name: Kaylene Nelson Day Telephone: (253) 359-7147 Mailing Address: 1221 2nd Avenue N 1-1: Applications Forms -Applications On Line 2011 Applications Mechanical Permit Application Revised 8-9-1 I.docx Revised: August 2011 bh Kent WA 98032 City State Zip Page 2 of 2 eceiptumber R15652 DESCRIPTIONS ACCOUNT PermitTRAK M18-0094 Address: 12501 E MARGINAL WAY S Apn: 7345600580 Credit Card Fee Credit Card Fee R000.369.908.00.00 QUANTITY PAID $69.87 $69.87 0.00 $2.04 $2.04 MECHANICAL $67.83 ADDITIONAL PLAN REVIEW TOTAL FEES PAID BY RECEIPT: R15652 R000.345.830.00.00 1.00 $67.83 $69.87 Date Paid: Thursday, October 18, 2018 Paid By: KAYLENE NELSON Pay Method: CREDIT CARD 790419 Printed: Thursday, October 18, 2018 10:27 AM 1 of 1 SYSTEMS f \ DESCRIPTIONS ��� PermitTRAK ;ACCOUNT QUANTITY PAID $2,659.55 M18-0094 Address: 12501 E MARGINAL WAY 5 Apn: 7345600580 $2,659.55 Credit Card Fee $77.46 Credit Card Fee R000.369.908.00.00 0.00 $77.46 MECHANICAL $2,459.13 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $33.15 PERMIT FEE R000.322.100.00.00 0.00 $2,425.98 TECHNOLOGY FEE $122.96 TECHNOLOGY FEE TOTAL FEES PAID BY RECEIPT: R15410 ` . R000.322.900.04.00 0.00 $122.96 $2,659.55 Date Paid: Monday, September 17, 2018 Paid By: KAYLENE NELSON Pay Method: CREDIT CARD 317035 Printed: Monday, September 17, 2018 12:18 PM 1 of 1 DESCRIPTIONS PermitTRAK ; ACCOUNT QUANTITY PAID $717.66 M18-0094 Address: 12501 E MARGINAL WAY S Apn: 7345600580 $633.22 Credit Card Fee $18.44 Credit Card Fee R000.369.908.00.00 0.00 $18.44 MECHANICAL $614.78 PLAN CHECK FEE R000.322.102.00.00 0.00 $614.78 PG18-0097 Address: 12501 E MARGINAL WAY S Apn: 7345600580 $84.44 Credit Card Fee $2.46 Credit Card Fee R000.369.908.00.00 0.00 $2.46 PLUMBING $81.98 PLAN CHECK FEE TOTAL FEES PAID BY RECEIPT: R14982 R000.322.103.00.00 0.00 $81.98 $717.66 Date Paid: Thursday, July 19, 2018 Paid By: SYDNEY LOWERY Pay Method: CREDIT CARD 541823 Printed: Thursday, July 19, 2018 10:40 AM 1 of 1 SYSTEMS Page 2 of 2 CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA Date: 10/18/2018 10:27:21 AM CREDIT CARD SALE VISA CARD NUMBER: **********0057 K TRAN AMOUNT: $69.87 APPROVAL CD: 790419 RECORD 6: 000 CLERK ID: Bill Thank you! Customer Copy https ://classic. convergepay. com/V irtualMerchant/transaction. do?dispatchMethod=printTr... 10/18/2018 Page 1 of 2 CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA 0017340000802374464500 Date: 09/17/2018 12:18:17 PM CREDIT CARD SALE VISA CARD NUMBER: **********0057 K TRAN AMOUNT: $2,659.55 APPROVAL CD: 317035 RECORD #: 000 CLERK ID: Rachelle 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://classic.convergepay.com/VirtualMerchant/transaction.do?dispatchMethod=printTra... 9/17/2018 Page 2 of 2 CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA Date: 09/17/2018 12:18:17 PM CREDIT CARD SALE VISA CARD NUMBER: **********0057 K TRAN AMOUNT: $2,659.55 APPROVAL CD: 317035 RECORD #: 000 CLERK ID: Rachelle Thank you! Customer Copy https://classic.convergepay.com/VirtualMerchant/transaction.do?dispatchMethod=printTra... 9/17/2018 CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA Date: 07/19/2018 10:39:54 AM CREDIT CARD SALE VISA CARD NUMBER: TRAN AMOUNT: APPROVAL CD: RECORD #: CLERK ID: **********4691 $717.66 541823 000 Bill Thank you! Customer Copy K Page 2 of 2 https://classic. convergepay.com/V irtualMerchant/transaction. do?di spatchMethod=printTra... 7/19/2018 INSPECTION RECORD Retain a copy with permit ION NO. P RMIT NO. CITY OF TUKWILA BUILDING DIVISION (206) 431-3670 6300 Southcenter Blvd., #100, Tukwila. WA 98188 Permit Inspection Request Line (206) 438-9350 Project: L� 6et.A-t \ Type of Inspection: M i 0A -L 13/ -- Address: 17i4?:)1 E iyk- Date Called: Special Instructions: — • ate Wanted: , th-Pt. G�.m- p.m. -____-q Requester: at 1 IN Phone No: Zacz_ 2r 71 % `'f 30 Approved per : pplicable codes. El Corrections required prior to approval. C S: d Inspector: Date:/ /`�� REINSPECTION FEE REQUIRED. Prior to next inspection, fee mu 'e paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit %v%{ 009 INSPECTION NO. P RMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Project. Type of Inspection: Add ss: /Ze lY �i i`I, _ � / ire.-- Date al ed: Special Instructions: D e Wanted:a�m. —y 'grit Requester: Phone No: ElApproved per applicable codes. Corrections required prior to approval. COMMENTS: AciPatiAc- Inspector: Date: -06. REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Cali to schedule reinspection. INSPECTION RECORD Retain a copy with permit Nig wrq INS (TION 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 Project: GEO 4S-rrLL Type of Inspection: fp/ L 2 Z Z 37' Address: /Z�/ F 44Z4n 'f---- id/411 Date Called: S Special Instructions: ©/),4�/ (1.- // Date Wanted: a.m. p.m. Requester Phone No: Zo (0 5`1 / 7 '4,30 ❑ Approved per applicable codes. Corrections required prior to approval. COMMENTS: 4uirc L7C-77C7 S7 PeQ49E___ Re- sem. ficy---AK747 Inspector:TIO0 Date: /z-s-z.W( REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION NO. INSPECTION RECORD Retain a copy with permit PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Project:��^ j ll�fVV �',pv, Tp%j' f In .+ectJ n�:, �L�k w f l C4 Address: 125-0) Ef // (re. LCu ' Special Instructions: e ate&ntedj• Z—� W Ca.m.- p.m. Requester: Phone No: EjApproved per applicable codes. LJ Corrections required prior to approval. COMMENTS: Inspector: Date: REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit INSP TION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION /Y1 /B'- 9t( 6300 Southcenter Blvd., #100, Tukwila. WA 98188 Permit Inspection Request Line (206) 438-9350 (206) 431-3670 Project: /. F0 . Type f Inspection: ,P - M il oite r‘,4-1._ Address:Date /L! of Ps MA '' oalic- I/,%S, Called: Special Instructions: R....1-, 91-0,4131-2_ iffziel Date Wanted: //‘ iy- zn l Requester: No: Phone Approved per applicable codes. ['Corrections required prior to approval. COMMENTS: (Let AL3/ cid 930/ 2-9 ., Inspector: Dat/ f/ 9 REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedute reinspection. T1ss cry INSPECTION RECORD Retain a copy with permit INSPECTION NO.4... ¥PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 Permit Inspection Request tine (206) 438-9350 (206) 431-3670 Pr je S1/4 TR of jnspec Address 1250/ �� / f / Vi Called: �� Special Instructions: VVV Date Wanted: 11 .7- 06 � a.m9 p.m. Requester: Phone No: Approved per applicable codes. P'4 Corrections required prior to approval. COMM e)aducei Artg4weffli /CSI _s----1:12 1.64ga'Y />f /lre,X6°40)1 ‘' Inspector: Date :i 7tv7 REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Cali 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: LED STEL -L Approved T e of Inspection: . �. � Fr�9 -haN u44 Address: 12.50 E. Ya.u— ..- • Date Call Special Instructions: 9 Date Wanted: /f� li- i - !�/�CJ a.m. IP. . Requester: Phone Nor 2196 —901— 702 7702- Approved per applicable codes. Corrections required prior to approval. COMMENTS: Inspector: Date://7-ZL1/ REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be 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 Permit Inspection Request Line (206) 438-9350 MN -0094 (206) 431-3670 Project Le 0 £ y I L L A iYTLL T e of Inspection: f ,, V�_1/'10w� Address: /2•50/ Er rithreLt1017., DtSaCC.t-�t.�V 5 Special Instructions: Oate Wanted: 11- 1- ZOke a.m., p.m. Requester: Phone No: Approved per applicable codes. Ll Corrections required prior to approval. 0 t2 1.4)1T-2_4 cit 19-1-e — 7t) 11161€60ito at) Sttoge-K J- 743-eirgzt_ Ge14-4ic eirave- REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. /%SCLoo sf9,6* tow INSPECTION NO. INSPECTION RECORD Retain a copy with permit PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Project: LEO STFL[� Type of Inspection: ocePT Mahn ' ok A -i 1.4)14 Address: 12501 5 /111b$2PNAL oh's, Date Called: Special Instructions: piPeDucT INSu--JMTto� Date Wanted: EO-) Z •1$ a rri. Requester: Phone No: ElApproved per applicable codes. LJ Corrections required prior to approval. COMMENTS: St ocePT Mahn ' ok A -i 1.4)14 c4 REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. 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 7 r--711 Project Title: Leo Stella Tenent Improvement Date 8/9/2018 Applicant Information. Provide contact information for individual who can respond to inquiries about compliance form information provided. For Building Dept. Use q -L Company Name: Hermanson Company LLP Company Address: 1221 Second Avenue, Kent, WA 98032 Applicant Name: Kaylene Nelson Applicant Phone: 253-359-7147 Project Briefly describe the text box Description mechanical systems in provided Performance (TAP) includes all mandatory per C401.2 Option 2. MECH-CHK, and C407 forms required. ❑ No System Changes or replace existing series water system. existing fan. Provide DOAS not required, Fan Spaces are not applicable. MI New Building • Building Addition El Tenant Improvement • System Retrofit Remodel existing tenant space for Leo Stella. Reuse existing rooftop VAV AHU, reuse fan terminal units. Reuse existing building control system. Reuse existing building service Connect exhaust ducts from new shower areas to existing exhaust system and rebalance new service water heater for new showers. Since existing systems are being reused, Power Form not required, C406 Options not required. Low Energy and Semi -Heated II Total Bldg This path provisions MECH-SUM, Energy Analysis Design Load Calculations - building heating, cooling or includes all applicable Load calculation summary • MECH-LOAD-CALC Form Provide design load calculations for all mechanical systems and equipment serving the ventilating needs. If a load calculation summary is provided with the permit documents that compliance information then the MECH-LOAD-CALC form is not required. Mechanical Schedules forms are not required, El Mechanical Plans ❑ MECH-EQ Forms (TBD) Indicate location of equipment compliance information. If provided on plans then MECH-EQ however, include on plans all applicable compliance information listed in MECH-EQ tables. Dedicated System High Efficiency Alternate Outdoor Air Requirements and VAV ❑ DOAS is required per C403.6 effective July 1, 2017 (office, retail, education, library and All occupied, conditioned areas shall be served by a DOAS that delivers required ventilation not require space conditioning fan operation. Space conditioning fans cycled off when no ❑ Ventilation provided via natural ventilation per 2015 IMC in lieu of DOAS (0403.6, fire station occupancies) air in a manner that does heating or cooling is required. Exception 1) of DOAS (C403.6, Exception library or fire station) C402.4.1.4 with 100% of • and space conditioning provided by a HEVAV system per C403.7 in lieu Ventilation ❑ DOAS included in project, although not required (occupancy not office, retail, education, REV1EWED FO D AS related allowances included in project: CODE COMPLIANC Prescriptive vertical fenestration maximum area allowance increased to 40% per conditioned floor area in building served by DOAS. Al�Fyki�VED Exception to air economizer per C403.3 Exception 1, include MECH-ECONO form. Fan Pow AUG 21 2 r City of Tukwila BUILDING exceeds 5hp. 5 horsepower threshold. 13 II P oject includes HVAC air distribution systems that provide heating and/or cooling yes, provide a MECH-FANSYS -SUM form. ❑ r one or more systems, the total fan motor nameplate hp of all fans in HVAC system yes, provide a seperate MECH-FANSYS form for each HVAC system exceeding the efer to Section C403.2.11 and MECH-FANSYS-DOC for requirements and exceptions. HVAC Hydronic DIVISION ydronic chilled water ❑ Water -loop heat pump El No hydronic systems Systems • Hydronic heating water • Geothermal C406 Additional Efficiency Options - Mechanical or air -to -water heat be 15% more efficient than have FEQ a 71 and must be required ventilation air in a , ` h ua hot LAr energy use MI C406.2 More efficient HVAC equipment and fan systems Requires 90% of heating and cooling capacity to be equipment listed in tables C403.2.3(1)-(9) pumps and heat recovery chillers. All equipment listed in tables C403.2.3(1)-(7) must minimum requirements. All stand alone supply, return, and exhaust fans over 1 hp must 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 C40335 that delivers manner that does not require space conditioning fan operation. RECEIVED • C406.7 Reduced energy in service water heating C Requires 90% of floor area be in occupancy types listed in C406.7.1 ndghat o% of n be provided by heat pump, waste heat recovery or solar water -heating systems. Petw TR# . 4.)J 1 -u LU F$ PERMIT CENTER 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) ❑ Instantaneous Heat exchan ❑ g central hot water/steam from p a s ace heat boiler or water systems El Hot water heating tank(s) • No service li Dedicated boiler Distribution Type (s) • Circulation System • On -demand Commissioning Commissioning is required for: per C408.2 shall be performed requirements: of all mechanical heating. Mechanical water heating not required. water heating systems per C408.4 systems regardless of individual equipment capacity. systems in the building do not exceed 240,000 Btu/h commissioning not required. does not exceed 200,000 Btu/h. Service water heating El Mechanical systems ' Service If required, commissioning Exceptions to commissioning ❑ Total output capacity cooling or 300,000 Btu/h Capacity of largest service systems commissioning for all applicable space conditioning systems system in building 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 output 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. Enter 0 if no cooling. Note 6 - Refer to Section C402.1.1 Low Energy Building. totalled 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. Air System Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Permit Set Prepared by: HERMANSON COMPANY LLP Air System Information Air System Name Equipment Class Air System Type Rooftop VAV PKG ROOF VAV Sizing Calculation Information Calculation Months Jan to Dec Sizing Data Calculated Central Cooling Coil Sizing Data Total coil load Total coil load Sensible coil load Coil CFM at Aug 1400 Max block CFM at Aug 1400 Sum of peak zone CFM .._ Sensible heat ratio _ CFM/Ton ft2/Ton BTU/(hr•ft2) .. . Water flow @ 10.0 °F rise Supply Fan Sizing Data Actual max CFM at Aug 1400 Standard CFM Actual max CFM/ft2 Outdoor Ventilation Air Data Design airflow CFM CFM/ft2 . Hourly Analysis Program 5.11 Number of zones 26 Floor Area 18037.0 ft2 Location Seattle IAP, Washington Zone CFM Sizing Peak zone sensible Toad Space CFM Sizing _ _..... Individual peak space loads 41.4 Tons Load occurs at 496.8 MBH OA DB / WB 419.4 MBH Entering DB / WB 14335 CFM Leaving DB / WB 17307 CFM Coil ADP .... 18795 CFM Bypass Factor 0.844 Resulting RH 346.3 Design supply temp. 435.7 Zone T -stat Check Aug 1400 85.5 / 66.8 °F 79.5 / 63.0 °F 52.0/50.5 °F 48.9 °F 0.100 42 % 55.0 °F 27.5 Max zone temperature deviation N/A 17307 CFM 17028 CFM 0.96 CFM/ft2 3952 CFM 0.22 Fan motor BHP Fan motor kW Fan static .. ... CFM/person EVIEWED FOR CODE COMPLIANCE APPROVED AUG 21 2018 City of Tukwila BUILDING DIVISION 25of26 OK 0.5 °F 08/09/2018 01:36PM 21.33 BHP 16.92 kW 4.00 inwg 18.21 CFM/person "Lrl CORRECTION LTR# REr E 1 1E D CITY OF TU KWI A\ AUS 1 0 2018 PERMIT CENTER Page 1 of 7 Zone Sizing Summary for Rooftop VAV V Project Name: TUK_Leo Stella TI_v5_11 Permit Set Prepared by: HERMANSON COMPANY LLP Air System Information Air System Name Rooftop VAV Number of zones 26 Equipment Class PKG ROOF Floor Area ....._ 18037.0 ft2 Air System Type VAV Location Seattle IAP, Washington Sizing Calculation Information Calculation Months Jan to Dec Sizing Data _ Calculated Zone Terminal Sizing Data Zone CFM Sizing . Peek zone sensible Toad Space CFM Sizing .. Individual peak space loads 08/09/2018 01:36PM Zone Name Design Supply Airflow (CFM) Minimum Supply Airflow (CFM) Zone CFM/ft2 Reheat Coil Load (MBH) Reheat Coil Water gPm @ 30.0 °F Zone Htg Unit Coil Load (MBH) Zone Htg Unit Water gpm @ 30.0 °F Mixing Box Fan Airflow (CFM) Zone 1 727 218 1.50 15.0 - 0.0 - 727 Zone 2 707 212 1.16 14.6 - 0.0 - 707 Zone 3 677 203 1.19 14.0 - 0.0 - 677 Zone 4 675 203 1.61 13.9 - 0.0 - 675 Zone 5 1255 377 1.35 25.9 - 0.0 - 1255 Zone 6 3708 1112 5.08 76.4 - 0.0 - 3708 Zone 7 913 274 1.60 18.8 - 0.0 - 913 Zone 8 566 170 2.41 11.7 - 0.0 - 566 Zone 9 938 281 1.32 19.3 - 0.0 - 938 Zone 10 925 277 1.47 19.1 - 0.0 - 925 Zone 11 527 158 2.11 10.9 - 0.0 - 527 Zone 12 107 59 0.14 1.2 - 0.0 - 107 Zone 13 267 80 0.40 1.8 - 0.0 - 267 Zone 14 1925 578 5.75 13.3 - 0.0 - 1925 Zone 15 27 16 0.10 0.3 - 0.0 - 27 Zone 16 1728 518 0.46 11.9 - 0.0 - 1728 Zone 17 416 134 0.46 3.0 - L 0.0 - 416 Zone 18 359 108 0.35 2.5 - 0.0 - 359 Zone 19 118 35 0.91 0.8 - - 0.0 - 118 Zone 20 46 15 0.51 0.3 - 0.0 - 46 Zone 21 655 196 0.45 4.5 - 0.0 - 655 Zone 22 56 20 0.62 0.4 - . 0.0 - 56 Zone 23 137 41 0.98 0.9 - 0.0 - 137 Zone 24 466 140 0.36 3.2 - 0.0 - 466 Zone 25 164 66 0.27 1.4 - 0.0 - 164 Zone 26 331 103 0.87 2.3 - 0.0 - 331 Zone Peak Sensible Loads Zone Name Zone Cooling Sensible (MBH) Time of Peak Sensible Cooling Load Zone Heating Load (MBH) Zone Floor Area (ft2) Zone 1 8.8 Jun 1800 11.5 485.0 Zone 2 8.3 Jun 1800 11.2 610.0 Zone 3 8.0 Jun 1800 10.7 570.0 Zone 4 4.4 Jun 1400 10.7 420.0 Zone 5 26.5 Oct 1400 10.6 927.0 Zone 6 32.0 Jun 0900 5.6 730.0 Zone 7 19.2 Jun 0900 13.2 570.0 Zone 8 11.9 Oct 1300 6.3 235.0 Zone 9 19.8 Oct'1300 12.0 710.0 Zone 10 19.5 Oct 1300 12.1 630.0 Zone 11 11.1 Oct 1300 5.2 250.0 Hourly Analysis Program 5.11 Page 2 of 7 Zone Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Permit Set Prepared by: HERMANSON COMPANY LLP 08/09/2018 01:36PM Zone Name Zone Cooling Sensible (MBH) Time of Peak Sensible Cooling Load Zone Heating Load (MBH) Zone Floor Area (ft2) Zone 12 2.3 Jan 2100 0.0 740.0 Zone 13 5.6 Jan 2100 0.0 665.0 Zone 14 40.6 Jan 2100 0.0 335.0 Zone 15 0.6 Jan 2200 0.0 260.0 Zone 16 36.4 Jan 2100 0.0 3770.0 Zone 17 8.8 Jan 2100 0.0 905.0 Zone 18 7.6 Jan 2100 0.0 1030.0 Zone 19 2.5 Jan 2100 0.0 130.0 Zone 20 1.0 Jan 2100 0.0 90.0 Zone 21 13.8 Jan 2100 0.0 1450.0 Zone 22 1.2 Jan 2100 0.0 90.0 Zone 23 2.9 Jan 2100 0.0 140.0 Zone 24 9.8 Jan 2100 0.0 1310.0 Zone 25 3.5 Jan 2100 0.0 605.0 Zone 26 7.0 Jan 2100 0.0 380.0 Hourly Analysis Program 5.11 Page 3 of 7 Zone Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Permit Set Prepared by: HERMANSON COMPANY LLP 08/09/2018 01:36PM Space Loads and Airflows Zone Name / Space Name Mult. Cooling Sensible (MBH) Time of Peak Sensible Load Air Flow (CFM) Heating Load (MBH) Floor Area (ft2) Space CFM/ft2 Zone 1 101 N Incoming & Storage 1 3.1 Jun 1800 255 4.8 170.0 1.50 102 N Equip. & Sub-Assem 1 5.7 Jun 1800 472 6.7 315.0 1.50 Zone 2 103 N Clean Room 1 8.3 Jun 1800 707 11.2 610.0 1.16 Zone 3 104 N Clean Room 1 8.0 Jun 1800 677 10.7 570.0 1.19 Zone 4 105 NE Air Lock 1 4.4 Jun 1400 675 10.7 420.0 1.61 Zone 5 A1 -S Conference 1 22.1 Oct 1400 1050 8.7 719.0 1.46 A2 Storage 1 4.3 Oct 1300 205 1.9 208.0 0.99 Zone 6 107 E Environment Test 1 9.7 Jun 0900 1114 5.6 285.0 3.91 119 Enviromental Test 1 22.6 Jan 2100 2594 0.0 445.0 5.83 Zone 7 109 E Cafeteria 1 19.2 Jun 0900 913 13.2 570.0 1.60 Zone 8 110 S Cafeteria 1 11.9 Oct 1300 566 6.3 235.0 2.41 Zone 9 111 S Open Office 1 19.8 Oct 1300 938 12.0 710.0 1.32 Zone 10 112 S Open Office 1 19.5 Oct 1300 925 12.1 630.0 1.47 Zone 11 113 S Conference 1 11.1 Oct 1300 527 5.2 250.0 2.11 Zone 12 114 Incoming & Storage 1 2.3 Jan 2100 107 0.0 740.0 0.14 Zone 13 115 Equipment & Assembly 1 5.6 Jan 2100 267 0.0 665.0 0.40 Zone 14 134 Bakeout 1 40.6 Jan 2100 1925 0.0 335.0 5.75 Zone 15 116 Airlock 1 0.6 Jan 2200 27 0.0 260.0 0.10 Zone 16 117 Clean Room 1 19.9 Jan 2100 946 0.0 3160.0 0.30 118 Thermal & Vib. Tests 1 16.5 Jan 2100 782 0.0 610.0 1.28 Zone 17 121 Cafeteria 1 8.8 Jan 2100 416 0.0 905.0 0.46 Zone 18 122 Open Office 1 7.6 Jan 2100 359 0.0 1030.0 0.35 Zone 19 124 Conference 1 2.5 Jan 2100 118 0.0 130.0 0.91 Zone 20 123 Telephone Rms 1 1.0 Jan 2100 46 0.0 90.0 0.51 Zone 21 125 Open Office 1 13.8 Jan 2100 655 0.0 1450.0 0.45 Zone 22 128 Phone Room 1 0.7 Jan 2100 34 0.0 55.0 0.62 129 Phone Room 1 0.5 Jan 2100 22 0.0 35.0 0.62 Zone 23 126 Conference 1 2.4 Jan 2100 114 0.0 95.0 1.20 127 Phone Room 1 0.5 Jan 2100 23 0.0 45.0 0.51 Zone 24 130 Open Office 1 9.8 Jan 2100 466 0.0 1310.0 0.36 Zone 25 Hourly Analysis Program 5.11 Page 4 of 7 Zone Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Permit Set Prepared by: HERMANSON COMPANY LLP 08/09/2018 01:36PM Zone Name / Space Name Mult. Cooling Sensible (MBH) Time of Peak Sensible Load Air Flow (CFM) Heating Load (MBH) Floor Area (ft2) Space CFM/ft2 132 Flat -Sat 1 3.5 Jan 2100 164 0.0 605.0 0.27 Zone 26 133 Conference 1 7.0 Jan 2100 331 0.0i 380.0 0.87 Hourly Analysis Program 5.11 Page 5 of 7 Project Name: TUK_Leo Stella TI_v5_11 Permit Set Prepared by: HERMANSON COMPANY LLP Ventilation Sizing Summary for Rooftop VAV 08/09/2018 01:36PM 1. Summary Ventilation Sizing Method Design Condition Occupant Diversity (D) Uncorrected Outdoor Air Intake (Vou) System Ventilation Efficiency (Ev) Outdoor Air Intake (Vot) 2. Space Ventilation Analysis ASHRAE Std 62.1-2010 Minimum flow (cooling) 1.000 2167 CFM 0.548 3952 CFM Hourly Analysis Program 5.11 Page 6 of 7 Minimum Supply Air (CFM) Space Floor Area (ft2) Area Outdoor Air Rate (CFM/ft2) Time Averaged Occupancy (Occupants) People Outdoor Air Rate (CFM/person) Air Distribution Effectiveness Space Outdoor Air (CFM) Breathing Zone Outdoor Air (CFM) Space Ventilation Efficiency Zone Name / Space Name Mult. (Vpz) (Az) (Ra) (Pz) (Rp) (Ez) (Voz) (Vbz) (Evz) Zone 1 101 N Incoming & Storage 1 77 170.0 0.06 1.0 5.00 1.0 15 15 1.087 102 N Equip. & Sub-Assem 1 141 315.0 0.06 2.0 5.00 1.0 29 29 1.084 Zone 2 103 N Clean Room 1 212 610.0 0.06 2.0 5.00 1.0 47 47 1.077 Zone 3 104 N Clean Room 1 203 570.0 0.06 2.0 5.00 1.0 44 44 1.078 Zone 4 105 NE Air Lock 1 203 420.0 0.06 1.0 5.00 1.0 30 30 1.110 Zone 5 A1 -S Conference 1 315 719.0 0.06 48.0 5.00 1.0 283 283 0.764 A2 Storage 1 61 208.0 0.06 1.0 5.00 1.0 17 17 1.048 Zone 6 107 E Environment Test 1 334 285.0 0.06 1.0 5.00 1.0 22 22 1.148 119 Enviromental Test 1 778 445.0 0.06 2.0 5.00 1.0 37 37 1.157 Zone 7 109 E Cafeteria 1 274 570.0 0.06 16.0 5.00 1.0 114 114 0.986 Zone 8 110 S Cafeteria 1 170 235.0 0.06 12.0 5.00 1.0 74 74 0.977 Zone 9 111 S Open Office 1 281 710.0 0.06 6.0 5.00 1.0 73 73 1.060 Zone 10 112 S Open Office 1 277 630.0 0.06 8.0 5.00 1.0 78 78 1.049 Zone 11 113 S Conference 1 158 250.0 0.06 8.0 5.00 1.0 55 55 1.018 Zone 12 114 Incoming & Storage 1 59 740.0 0.06 3.0 5.00 1.0 59 59 0.562 Zone 13 115 Equipment & Assembly 1 80 665.0 0.06 4.0 5.00 1.0 60 60 0.834 Zone 14 134 Bakeout 1 578 335.0 0.06 2.0 5.00 1.0 30 30 1.155 Hourly Analysis Program 5.11 Page 6 of 7 Project Name: TUK_Leo Stella TI_v5_11 Permit Set Prepared by: HERMANSON COMPANY LLP Ventilation Sizing Summary for Rooftop VAV 08/09/2018 01:36PM Zone 15 116 Airlock 1 16 260.0 0.06 0.0 5.00 1.0 16 16 0.548 Zone 16 117 Clean Room 1 284 3160.0 0.06 12.0 5.00 1.0 250 250 0.773 118 Thermal & Vib. Tests 1 235 610.0 0.06 2.0 5.00 1.0 47 47 1.087 Zone 17 121 Cafeteria 1 134 905.0 0.06 16.0 5.00 1.0 134 734 0.701 Zone 18 122 Open Office 1 108 1030.0 0.06 8.0 5.00 1.0 102 102 0.742 Zone 19 124 Conference 1 35 130.0' 0.06 4.0 5.00 1.0 28 28 0.816 Zone 20 123 Telephone Rms 1 15 90.0 0.06 2.0 5.00 1.0 15 15 0.691 Zone 21 125 Open Office 1 196 1450.0 0.06 16.0 5.00 1.0 167 167 0.786 Zone 22 128 Phone Room 1 13 55.0 0.06 2.0 5.00 1.0 13 13 0.658 129 Phone Room 1 7 35.0 0.06 1.0 5.00 1.0 7 7 0.699 Zone 23 126 Conference 1 34 95.0 0.06 4.0 5.00 1.0 26 26 0.833 127 Phone Room 1 8 45.0 0.06 1.0 5.00 1.0 8 8 0,691 Zone 24 130 Open Office 1 140 1310.0 0.06 8.0 5.00 1.0 119 119 0.787 Zone 25 132 Flat -Sat 1 66 605.0 0.06 6.0 5.00 1.0 66 66 0.647 Zone 26 133 Conference 1 103 380.0 0.06 16.0 5.00 1.0 103 103 0.710 Totals (incl. Space Multipliers) 5597 2167 0.548 Hourly Analysis Program 5.11 Page 7 of 7 DHermanson Building Today, Defining Tomorrow Hermanson Company LLP 1221 2nd Avenue North Kent, WA 98032 tel 206-575-9700 fax 206-575-9800 2Sa i Project: 104 E. Marginal Way S. Date: 07/17/2018 July 16, 2018 REVIEWED FOR CODE COMPLIANCE APPROVED AUG 21 2018 City of Tukwila BUILDING DIVIS • 011rr O TUKIRELA JUL 19 2018 HVAC SYSTEM COOLING/HEATING CALCS CARRIER HAP VERSION: 5.11 PERMIT SUBMITTAL PACKAGE M1BOO'I Mechanical Construction, Engineering and Service www.hermanson.com Hermanson Building Today, Defining Tomorrow Hermanson Company LLP 1221 2nd Avenue North Kent, WA 98032 tel 206-575-9700 fax 206-575-9800 Project: 12401 E. Marginal Way S. Date: 07/17/2018 is Hermanson Building Today, Defining Tomorrow HVAC SYSTEM COOLING/HEATING CALCS CARRIER HAP VERSION: 5.11 ENVELOPE INPUTS 0; • 4 ,f• ; 0 Mechanical Construction, Engineering and Service PM 4 www.hermanson.com TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Wall Constructions 07/17/2018 07:51AM Existing Wall Wall Details Outside Surface Color Medium Absorptivity 0.675 Overall U -Value 0.120 BTU/(hr•ft2•°F) Wall Layers Details (Inside to Outside Layers Thickness in Density Ib/ft3 Specific Ht. BTU / (Ib•°F) R -Value (hr•ft2.°F)/BTU Weight Ib/ft2 Inside surface resistance 0.000 0.0 0.00 0.68500 0.0 Gypsum board 0.625 50.0 0.26 0.56000 2.6 R-13 batt (16" O.C.) 4.100 0.5 0.20 5.75000 0.2 12 -in HW concrete 12.000 140.0 0.20 1.00000 140.0 Outside surface resistance 0.000 0.0 0.00 0.33300 0.0 Totals 16.725 - 8.32800 142.8 Hourly Analysis Program v5.11 Page 1 of 1 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Window Constructions 07/17/2018 07:53AM Existing 6' Window Window Details: Detailed Input No Height 6.00 ft Width 1.00 ft Overall U -Value 0.500 BTU/(hr•ft2•°F) Overall Shade Coefficient 0.510 Hourly Analysis Program v5.11 Page 1 of 1 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Door Constructions 07/17/2018 07:54AM Rollup Door Door Details: Gross Area 80.0 ft2 Door U -Value 0.370 BTU/(hrft2•°F) Glass Details: Glass Area 0.0 ft2 Glass U -Value 0.600 BTU/(hrft2•°F) Glass Shade Coefficient 0.350 Glass Shaded All Day? No SEA -NR Swinging Door Details: Gross Area 21.0 ft2 Door U -Value 0.370 BTU/(hrft2•°F) Glass Details: Glass Area 0.0 ft2 Glass U -Value 0.600 BTU/(hrft2•°F) Glass Shade Coefficient 0.350 Glass Shaded All Day? No Hourly Analysis Program v5.11 Page 1 of 1 Hermanson Building Today, Defining Tomorrow Hermanson Company LLP 1221 2nd Avenue North Kent, WA 98032 tel 206-575-9700 fax 206-575-9800 Project: .12401 E. Marginal Way S. Date: 07/17/2018 Hermanson Building Today, Defining Tomorrow HVAC SYSTEM COOLING/HEATING CALCS CARRIER HAP VERSION: 5.11 SPACE INPUTS Mechanical Construction, Engineering and Service www.hermanson.com Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 101 N Incoming & Storage 1. General Details: Floor Area 170.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 0.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 1.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. N 228.5 10 0 0 W 74.6 4 0 0 3.1. Construction Types for Exposure N Wall Type Existing Wall 1st Window Type Existing 6' Window 3.2. Construction Types for Exposure W Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 1.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 170.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2•°F) Exposed Perimeter 20.2 ft Edge Insulation R -Value 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 1 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 102 N Equip. & Sub-Assem 1. General Details: Floor Area 315.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 500.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule . 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. N 421.0 25 0 0 3.1. Construction Types for Exposure N Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 315.0 ft2 Total Floor U -Value 0.440 BTU/(hir•ft2•°F) Exposed Perimeter 28.1 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 2 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 103 N Clean Room 1. General Details: Floor Area 610.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 1.00 W/ft2 Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. N 704.2 38 0 0 3.1. Construction Types for Exposure N Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 610.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 47.0 ft Edge Insulation R -Value 10.00 (hr-ft2-°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 3 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 104 N Clean Room 1. General Details: Floor Area 570.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: 2.4. People: Fixture Type Recessed (Unvented) Occupancy 2.0 People Wattage._ 0.89 W/ft2 Activity Level Office Work Ballast Multiplier .......... _ _..... _ .. _... _ .. ..... ........1.08 Sensible 245.0 BTU/hr/person Schedule 90.1 Office Lights/Elec Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.2. Task Lighting: 2.5. Miscellaneous Loads: Wattage . 0.00 W/ft2 Sensible 0 BTU/hr Schedule None Schedule _ None Latent 0 BTU/hr Schedule None 2.3. Electrical Equipment: Wattage 1.00 W/ft2 Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. N 657.0 38 0 0 3.1. Construction Types for Exposure N Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 570.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2•°F) Exposed Perimeter 43.8 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 4 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 105 NE Air Lock 1. General Details: Floor Area 420.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 0.00 W/ft2 Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 1.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. N 500.0 8 0 1 E 202.0 9 0 0 3.1. Construction Types for Exposure N Wall Type Existing Wall 1st Window Type Existing 6' Window Door Type Rollup Door 3.2. Construction Types for Exposure E Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 1.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 420.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2•°F) Exposed Perimeter 47.0 ft Edge Insulation R -Value 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 5 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 106 E Satellite Storage 1. General Details: Floor Area 470.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 0.00 W/ft2 Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 1.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. E 236.3 14 0 0 3.1. Construction Types for Exposure E Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 470.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 15.8 ft Edge Insulation R -Value 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 6 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 107 E Environment Test 1. General Details: Floor Area 285.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 1000.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 1.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. E 342.8 20 0 0 3.1. Construction Types for Exposure E Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 285.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 23.0 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 7 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 108 E Hallway 1. General Details: Floor Area 75.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 0.00 W/ft2 Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 0.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule None 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. E 105.0 5 0 0 3.1. Construction Types for Exposure E Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 1.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 75.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 7.0 ft Edge Insulation R -Value 10.00 (hr•ft2-°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 8 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 109 E Cafeteria 1. General Details: Floor Area 570.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 400.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 16.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. E 900.0 48 0 0 3.1. Construction Types for Exposure E Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 570.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 60.0 ft Edge Insulation R -Value 10.00 (hrft2-°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 9 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 110 S Cafeteria 1. General Details: Floor Area 235.0 ft' Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ftz 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ftz Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ftz Schedule .. None 2.3. Electrical Equipment: Wattage 150.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 12.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. S 448.0 23 0 0 3.1. Construction Types for Exposure S Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area .. 235.0 ft' Total Floor U -Value 0.440 BTU/(hr•ftz•°F) Exposed Perimeter 30.0 ft Edge Insulation R -Value 10.00 (hr•ftz•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 10 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 111 S Open Office 1. General Details: Floor Area 710.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 810.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 6.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. S 735.8 39 0 0 3.1. Construction Types for Exposure S Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 710.0 ft2 Total Floor U -Value 0.440 BTU/(hrftz•°F) Exposed Perimeter 49.1 ft Edge Insulation R -Value 10.00 (hr-ftz•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 11 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 112 S Open Office 1. General Details: Floor Area 630.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 420.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 8.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. S 791.8 41 0 0 3.1. Construction Types for Exposure S Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 630.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 52.8 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 12 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 113 S Conference 1. General Details: Floor Area 250.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 500.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 8.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. S 304.7 20 0 0 3.1. Construction Types for Exposure S Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 250.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2•°F) Exposed Perimeter 20.3 ft Edge Insulation R -Value 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 13 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 114 Incoming & Storage 1. General Details: Floor Area 740.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 Ballast Multiplier 1.08 Schedule . 90.1 Office Lights/Elec W/ft2 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 0.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling ...__... 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade 740.0 ft2 Floor Area Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 0.440 BTU/(hrft2•°F) 0.0 ft 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 3.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule _ None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 14 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 115 Equipment & Assembly 1. General Details: Floor Area 665.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 1000.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 665.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2.°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hrft2.°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 4.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 15 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 116 Airlock 1. General Details: Floor Area 260.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 0.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 260.0 ft2 Total Floor U -Value 0.440 BTU/(hr.ft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 0.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule None 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 16 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 117 Clean Room 1. General Details: Floor Area 3160.0 Avg. Ceiling Height 10.0 Building Weight 70.0 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 ft2 ft lb/ft2 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 1.00 W/ft2 Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 3160.0 ft2 Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 0.440 BTU/(hrft2•°F) 0.0 ft 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 12.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 17 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 118 Thermal & Vib. Tests 1. General Details: Floor Area 610.0 ft' Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft' 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ftZ Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ftZ None 2.3. Electrical Equipment: Wattage 1.00 W/ftZ Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 610.0 ft2 Total Floor U -Value 0440 BTU/(hr•ft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 11909 BTU/hr Schedule . 24/7 People/Light Schedule Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 18 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 119 Enviromental Test 1. General Details: Floor Area 445.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 1000.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area .._ 445.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hrft2-°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 11909 BTU/hr Schedule 24/7 People/Light Schedule Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 19 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 120 Corridor 1. General Details: Floor Area 120.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 0.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 120.0 ft' Total Floor U -Value 0.440 BTU/(hr•ft2-°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 0.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule None 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 20 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 121 Cafeteria 1. General Details: Floor Area 905.0 Avg. Ceiling Height 10.0 Building Weight 70.0 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 ft2 ft Ib/ft2 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 1000.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 905.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hr-ft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 16.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 21 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 122 Open Office 1. General Details: Floor Area 1030.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 1080.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 1030.0 ft2 Total Floor U -Value 0440 BTU/(hrft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 8.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 22 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 123 Telephone Rms 1. General Details: Floor Area 90.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 100.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 90.0 ft2 0.440 BTU/(hr•ft2-°F) 0.0 ft 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 23 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 124 Conference 1. General Details: Floor Area _ ....................................130.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 400.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling __ __ 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade 130.0 ft2 Floor Area .. Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 0.440 BTU/(hrft2•°F) 0.0 ft 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 4.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 24 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 125 Open Office 1. General Details: Floor Area 1450.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 2160.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 1450.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2-°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 16.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 25 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 126 Conference 1. General Details: Floor Area 95.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 400.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 95.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 4.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 26 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 127 Phone Room 1. General Details: Floor Area 45.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ftz Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 50.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 45.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2.°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hrft2-°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 1.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 27 of 36 TUK_Leo Stella Tl_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 128 Phone Room 1. General Details: Floor Area 55.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 50.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade 55.0 ft2 Floor Area Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 0.440 BTU/(hrft2°F) 0.0 ft 10.00 (hrft2.°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None. Hourly Analysis Program v5.11 Page 28 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 129 Phone Room 1. General Details: Floor Area 35.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 50.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 35.0 ft2 0.440 BTU/(hr-ft2-°F) 0.0 ft 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 1.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 29 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 130 Open Office 1. General Details: Floor Area 1310.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage.. 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 1580.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade 1310.0 ft2 Floor Area Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 0.440 BTU/(hrft2-°F) 0.0 ft 10.00 (hrft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 8.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 30 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 131 Main Entry 1. General Details: Floor Area 145.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 0.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 145.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible .. 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 31 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 132 Flat -Sat 1. General Details: Floor Area 605.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage . 250.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade 605.0 ft2 Floor Area Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 0.440 BTU/(hrft2•°F) 0.0 ft 10.00 (hrft2-°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 6.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 32 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM 133 Conference 1. General Details: Floor Area 380.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ._ ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 800.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 380.0 ft2 Total Floor U -Value 0.440 BTU/(hrft2•°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hrft2-°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 16.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 33 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM 134 Bakeout 1. General Details: Floor Area 335.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 lb/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ftz Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 0.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: (No Wall, Window, Door data). 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade 335.0 ft2 Floor Area Total Floor U -Value Exposed Perimeter Edge Insulation R -Value 0.440 BTU/(hrftz-°F) 0.0 ft 10.00 (hr•ftz•°F)/BTU 7. Partitions: (No partition data). 2.4. People: Occupancy 2.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 39421 BTU/hr Schedule 90.1 Office Lights/Elec Latent 0 BTU/hr Schedule None Hourly Analysis Program v5.11 Page 34 of 36 Space Input Data TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP 07/17/2018 07:55AM A1 -S Conference 1. General Details: Floor Area 719.0 Avg. Ceiling Height 10.0 Building Weight 70.0 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 ft2 ft lb/ft2 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage 0.00 W/ft2 Schedule None 2.3. Electrical Equipment: Wattage 500.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 48.0 People Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. S 510.0 25 0 0 3.1. Construction Types for Exposure S Wall Type Existing Wall 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.50 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 250.0 ft2 Total Floor U -Value 0.440 BTU/(hr-ft2-°F) Exposed Perimeter 20.3 ft Edge Insulation R -Value 10.00 (hr-ft2-°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 35 of 36 TUK_Leo Stella TI_v5_11 HERMANSON COMPANY LLP Space Input Data 07/17/2018 07:55AM A2 Storage 1. General Details: Floor Area 208.0 ft2 Avg. Ceiling Height 10.0 ft Building Weight 70.0 Ib/ft2 1.1. OA Ventilation Requirements: Space Usage User -Defined OA Requirement 1 5.0 CFM/person OA Requirement 2 0.06 CFM/ft2 Space Usage Defaults ASHRAE Std 62.1-2010 2. Internals: 2.1. Overhead Lighting: Fixture Type Recessed (Unvented) Wattage 0.89 W/ft2 Ballast Multiplier 1.08 Schedule 90.1 Office Lights/Elec 2.2. Task Lighting: Wattage ...._ Schedule 0.00 W/ft2 None 2.3. Electrical Equipment: Wattage 0.0 Watts Schedule 90.1 Office Lights/Elec 3. Walls, Windows, Doors: 2.4. People: Occupancy 1.0 Person Activity Level Office Work Sensible 245.0 BTU/hr/person Latent 205.0 BTU/hr/person Schedule 90.1 Office Occupants 2.5. Miscellaneous Loads: Sensible 0 BTU/hr Schedule None Latent 0 BTU/hr Schedule None Exp. Wall Gross Area (ft2) Window 1 Qty. Window 2 Qty. Door 1 Qty. S 160.0 10 0 0 3.1. Construction Types for Exposure S Wall Type .NOTE1: below grade walls same as above grade 1st Window Type Existing 6' Window 4. Roofs, Skylights: (No Roof or Skylight data). 5. Infiltration: Design Cooling 0.00 CFM Design Heating 0.00 ACH Energy Analysis 0.00 CFM Infiltration occurs at all hours. 6. Floors: Type Slab Floor On Grade Floor Area 208.0 ft2 Total Floor U -Value 0.440 BTU/(hr•ft2-°F) Exposed Perimeter 0.0 ft Edge Insulation R -Value 10.00 (hr•ft2•°F)/BTU 7. Partitions: (No partition data). Hourly Analysis Program v5.11 Page 36 of 36 OHermanson Building Today, Defining Tomorrow Hermanson Company LLP 1221 2nd Avenue North Kent, WA 98032 tel 206-575-9700 fax 206-575-9800 Project: 12401 E. Marginal Way S. Date: 07/17/2018 Hermanson Building Today, Defining Tomorrow HVAC SYSTEM COOLING/HEATING CALCS CARRIER HAP VERSION: 5.11 SYSTEM INPUTS Mechanical Construction, Engineering and Service www.hermanson.com Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP Rooftop VAV Input Data 07/17/2018 07:56AM 1. General Details: Air System Name Rooftop VAV Equipment Type Packaged Rooftop Units Air System Type VAV Number of zones 27 2. Ventilation System Components: Ventilation Air Data: Airflow Control Constant Ventilation Airflow Ventilation Sizing Method ASHRAE Std 62.1-2010 Unocc. Damper Position Closed Damper Leak Rate 5 % Outdoor Air CO2 Level 400 ppm Economizer Data: Control Integrated enthalpy control Upper Cutoff 75.0 °F Lower Cutoff 35.0 °F Central Cooling Data: Supply Air Temperature 55.0 °F Coil Bypass Factor 0.100 Cooling Source Air -Cooled DX Schedule JFMAMJJASOND Capacity Control Cycled or Staged Capacity - Fan On Supply Fan Data: Fan Type . Forward Curved with Variable Frequency Drive Configuration Draw-thru Fan Performance 4.00 in wg Overall Efficiency 48 % % Airflow 100 90 80 70 60 50 % kW 100 77 60 44 35 25 % Airflow 40 30 20 10 0 %kW 19 13 9 7 6 Duct System Data: Supply Duct Data: Duct Heat Gain 3 % Duct Leakage 2 % Return Duct or Plenum Data: Return Air Via Return Air Plenum Wall Heat Gain to Plenum 20 % Roof Heat Gain to Plenum 80 % Lighting Heat Gain to Plenum 30 % 3. Zone Components: Space Assignments: Zone 1: Zone 1 101 N Incoming & Storage x1 102 N Equip. & Sub-Assem x1 Zone 2: Zone 2 103 N Clean Room x1 Zone 3: Zone 3 104 N Clean Room x1 Zone 4: Zone 4 105 NE Air Lock x1 Zone 5: Zone 5 106 E Satellite Storage x1 Zone 6: Zone 6 107 E Environment Test x1 119 Enviromental Test x1 Zone 7: Zone 7 Hourly Analysis Program 5.11 Page 1 of 5 Rooftop VAV Input Data Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP 07/17/2018 07:56AM 109 E Cafeteria x1 Zone 8: Zone 8 Heating T-Stat Occ. (°F) 110 S Cafeteria x1 Zone 9: Zone 9 Direct Exhaust Airflow (CFM) 111 S Open Office x1 Zone 10: Zone 10 80.0 112 S Open Office x1 Zone 11: Zone 11 100 113 S Conference x1 Zone 12: Zone 12 75.0 114 Incoming & Storage x1 Zone 13: Zone 13 1.50 115 Equipment & Assembly x1 Zone 14: Zone 14 3 134 Bakeout x1 Zone 15: Zone 15 55.0 116 Airlock x1 Zone 16: Zone 16 0.0 117 Clean Room x1 118 Thermal & Vib. Tests x1 Zone 17: Zone 17 1.50 121 Cafeteria x1 Zone 18: Zone 18 5 122 Open Office x1 Zone 19: Zone 19 55.0 124 Conference x1 Zone 20: Zone 20 0.0 123 Telephone Rms x1 Zone 21: Zone 21 70.0 125 Open Office x1 Zone 22: Zone 22 0.0 128 Phone Room x1 129 Phone Room x1 Zone 23: Zone 23 55.0 126 Conference x1 127 Phone Room x1 Zone 24: Zone 24 130 Open Office x1 Zone 25: Zone 25 132 Flat -Sat x1 Zone 26: Zone 26 133 Conference xl Zone 27: Zone 27 A1 -S Conference x1 A2 Storage x1 Thermostats and Zone Data: Zone Cooling T-Stat Occ. (°F) Cooling T-Stat Unocc. (°F) Heating T-Stat Occ. (°F) Heating T-Stat Unocc. (°F) T-Stat Throttling Range (°F) Diversity Factor (%) Direct Exhaust Airflow (CFM) Direct Exhaust Fan (kW) 1 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 2 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 3 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 4 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 5 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 6 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 7 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 Hourly Analysis Program 5.11 Page 2 of 5 Project Name: TUK_Leo Stella TI_v5 11 Prepared by: HERMANSON COMPANY LLP Rooftop VAV Input Data 07/17/2018 07:56AM Zone Cooling T-Stat Occ. (°F) Cooling T-Stat Unocc. (°F) Heating T-Stat Occ. (°F) Heating T-Stat Unocc. (°F) T-Stat Throttling Range (°F) Diversity Factor (%) Direct Exhaust Airflow (CFM) Direct Exhaust Fan (kW) 8 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 9 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 10 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 11 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 12 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 13 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 14 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 15 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 16 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 17 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 18 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 19 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 20 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 21 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 22 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 23 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 24 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 25 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 26 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 27 75.0 80.0 70.0 55.0 1.50 100 0.0 0.0 Thermos at Schedule Unoccup.ed Cooling is Supply Terminals Data: 90.1 Office HVAC Available Zone Terminal Type Air Distribution Air Distribution Effectiveness Specification Air Distribution Effectiveness Minimum Airflow Fan Performance Fan Efficiency Design Supply Temp. 1 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 %84.9 °F 2 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 %84.9 °F 3 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 84.9 °F 4 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 84.9 °F 5 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 84.9 °F 6 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 84.9 °F 7 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 84.9 °F 8 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 84.9 °F 9 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 84.9 °F 10 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 %84.9 °F 11 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 %84.9 °F 12 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 13 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 %72.0 °F 14 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 %72.0 °F Hourly Analysis Program 5.11 Page 3 of 5 Rooftop VAV Input Data Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP 07/17/2018 07:56AM Zone Terminal Type Air Distribution Air Distribution Effectiveness Specification Air Distribution Effectiveness <auto> Minimum Airflow 30 % Fan Performance 0.30 in wg Fan Efficiency 70 % Design Supply Temp. 72.0 °F 15 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 16 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 17 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 18 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 19 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 20 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 21 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % w g 0.30 in70 % 72.0 °F 22 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 23 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 24 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 25 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 26 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 72.0 °F 27 Series FPMBX with reheat Ceiling supply / ceiling return ASHRAE 62.1 <auto> 30 % 0.30 in wg 70 % 84.9 °F Reheat Coil Source Electric Resistance Reheat Coil Schedule Zone Heating Units: Zone Unit Heat Source JFMAMJJASOND Electric Resistance Zone Heating Unit Schedule JFMAMJJASOND 4. Sizing Data (Computer -Generated): System Sizing Data: Sizing Data: Cooling Supply Temperature 55.0 °F Supply Fan Airflow 15100.8 CFM Ventilation Airflow 3722.3 CFM Hydronic Sizing Specifications: Chilled Water Delta -T 10.0 °F Hot Water Delta -T 30.0 °F Safety Factors: Cooling Sensible 0 % Cooling Latent 0 % Heating 0 % Zone Sizing Data: Zone Airflow Sizing Method Peak zone sensible Toad Space Airflow Sizing Method Individual peak space loads Zone Supply Airflow (CFM) Zone Htg Unit (MBH) Reheat Coil (MBH) FPMBX Fan (CFM) 1 727.0 - 15.0 727.0 2 707.5 - 14.6 707.5 3 677.2 - 14.0 677.2 4 675.2 - 13.9 675.2 5 322.1 - 6.6 322.1 6 1236.4 - 25.5 1236.4 7 913.1 - 18.8 913.1 Hourly Analysis Program 5.11 Page 4 of 5 Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP Rooftop VAV Input Data 07/17/2018 07:56AM Zone Supply Airflow (CFM) Zone Htg Unit (MBH) Reheat Coil (MBH) FPMBX Fan (CFM) 8 565.5 - 11.7 565.5 9 937.7 - 19.3 937.7 10 924.7 - 19.1 924.7 11 526.5 - 10.9 526.5 12 106.9 - 1.2 106.9 13 267.2 - 1.8 267.2 14 1925.1 - 13.3 1925.1 15 26.7 - 0.3 26.7 16 1690.2 - 11.7 1690.2 17 416.5 - 3.0 416.5 18 358.7 - 2.5 358.7 19 117.9 - 0.8 117.9 20 45.8 - 0.3 45.8 21 655.0 - 4.5 655.0 22 56.1 - 0.4 56.1 23 137.2 - 0.9 137.2 24 466.1 - 3.2 466.1 25 163.7 - 1.4 163.7 26 331.2 - 2.3 331.2 27 1255.1 - 25.9 1255.1 5. Equipment Data Central Cooling Unit - Air -Cooled DX Estimated Maximum Load .. 487.3 MBH Design OAT 95.0 °F Equipment Sizing User -Defined Gross Cooling Capacity 1.0 MBH Compressor & OD Fan Power 1.000 kW Conventional Cutoff OAT 55.0 °F Low Temperature Operation Not used Hourly Analysis Program 5.11 Page 5 of 5 Hermanson Building Today, Defining Tomorrow Hermanson Company LLP 1221 2nd Avenue North Kent, WA 98032 tel 206-575-9700 fax 206-575-9800 Project: 12401 E. Marginal Way S. Date: 07/17/2018 Hermanson Building Today, Defining Tomorrow HVAC SYSTEM COOLING/HEATING CALCS CARRIER HAP VERSION: 5.11 SYSTEM OUTPUTS Mechanical Construction, Engineering and Service www.hermanson.com Air System Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 07/17/2018 Prepared by: HERMANSON COMPANY LLP 07:58AM Air System Information Air System Name Rooftop VAV Equipment Class PKG ROOF Air System Type VAV Number of zones 27 Floor Area 18507.0 ft2 Location Seattle IAP, Washington Sizing Calculation Information Calculation Months Jan to Dec Zone CFM Sizing Peak zone sensible Toad Sizing Data Calculated Space CFM Sizing Individual peak space loads Central Cooling Coil Sizing Data Total coil load 40.6 Tons Load occurs at Aug 1400 Total coil load 487.3 MBH OA DB / WB 85.5 / 66.8 °F Sensible coil load 410.3 MBH Entering DB / WB 79.4 / 62.9 °F Coil CFM at Aug 1400 13898 CFM Leaving DB / WB 51.6 / 50.2 °F Max block CFM at Aug 1400 15101 CFM Coil ADP 48.5 °F Sum of peak zone CFM 16564 CFM Bypass Factor 0.100 Sensible heat ratio 0.842 Resulting RH 42 % CFM/Ton 342.2 Design supply temp. 55.0 °F ft2/Ton 455.7 Zone T -stat Check 26 of 27 OK BTU/(hr•ft2) 26.3 Max zone temperature deviation 0.5 °F Water flow @ 10.0 °F rise N/A Supply Fan Sizing Data Actual max CFM at Aug 1400 15101 CFM Fan motor BHP 18.61 BHP Standard CFM 14857 CFM Fan motor kW 14.76 kW Actual max CFM/ft2 0.82 CFM/ft2 Fan static 4.00 in wg Outdoor Ventilation Air Data Design airflow CFM 3722 CFM CFM/person 17.07 CFM/person CFM/ft2 0.20 CFM/ft2 Hourly Analysis Program 5.11 Page 1 of 8 Zone Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP 07/17/2018 07:58AM Air System Information Air System Name Rooftop VAV Number of zones 27 Equipment Class PKG ROOF Floor Area 18507.0 ft2 Air System Type VAV Location Seattle IAP, Washington Sizing Calculation Information Calculation Months Jan to Dec Zone CFM Sizing Peak zone sensible load Sizing Data Calculated Zone Terminal Sizing Data Space CFM Sizing Individual peak space loads Zone Name Design Supply Airflow (CFM) Minimum Supply Airflow (CFM) Zone CFM/ft2 Reheat Coil Load (MBH) Reheat Coil Water gpm @ 30.0 °F Zone Htg Unit Coil Load (MBH) Zone Htg Unit Water gpm @ 30.0 °F Mixing Box Fan Airflow (CFM) Zone 1 727 218 1.50 15.0 - 0.0 - 727 Zone 2 707 212 1.16 14.6 - 0.0 - 707 Zone 3 677 203 1.19 14.0 - 0.0 - 677 Zone 4 675 203 1.61 13.9 - 0.0 - 675 Zone 5 322 97 0.69 6.6 - 0.0 - 322 Zone 6 1236 371 1.69 25.5 - 0.0 - 1236 Zone 7 913 274 1.60 18.8 - 0.0 - 913 Zone 8 566 170 2.41 11.7 - 0.0 - 566 Zone 9 938 281 1.32 19.3 - 0.0 - 938 Zone 10 925 277 1.47 19.1 - 0.0 - 925 Zone 11 527 158 2.11 10.9 - 0.0 - 527 Zone 12 107 59 0.14 1.2 - 0.0 - 107 Zone 13 267 80 0.40 1.8 - 0.0 - 267 Zone 14 1925 578 5.75 13.3 - 0.0 - 1925 Zone 15 27 16 0.10 0.3 - 0.0 - 27 Zone 16 1690 507 0.45 11.7 - 0.0 - 1690 Zone 17 416 134 0.46 3.0 - 0.0 - 416 Zone 18 359 108 0.35 2.5 - 0.0 - 359 Zone 19 118 35 0.91 0.8 - 0.0 - 118 Zone 20 46 15 0.51 0.3 - 0.0 - 46 Zone 21 655 196 0.45 4.5 - 0.0 - 655 Zone 22 56 20 0.62 0.4 - 0.0 - 56 Zone 23 137 41 0.98 0.9 - 0.0 - 137 Zone 24 466 140 0.36 3.2 - 0.0 - 466 Zone 25 164 66 0.27 1.4 - 0.0 - 164 Zone 26 331 103 0.87 2.3 - 0.0 - 331 Zone 27 1255 377 1.35 25.9 - 0.0 - 1255 Zone Peak Sensible Loads Zone Name Zone Cooling Sensible (MBH) Time of Peak Sensible Cooling Load Zone Heating Load (MBH) Zone Floor Area (ft2) Zone 1 8.8 Jun 1800 11.5 485.0 Zone 2 8.3 Jun 1800 11.2 610.0 Zone 3 8.0 Jun 1800 10.7 570.0 Zone 4 4.4 Jun 1400 10.7 420.0 Zone 5 5.1 Jun 0900 5.1 470.0 Zone 6 26.1 Jun 0900 5.6 730.0 Zone 7 19.2 Jun 0900 13.2 570.0 Zone 8 11.9 Oct 1300 6.3 235.0 Zone 9 19.8 Oct 1300 12.0 710.0 Zone 10 19.5 Oct 1300 12.1 630.0 Hourly Analysis Program 5.11 Page 2 of 8 Zone Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP 07/17/2018 07:58AM Zone Name Zone Cooling Sensible (MBH) Time of Peak Sensible Cooling Load Zone Heating Load (MBH) Zone Floor Area (ft2) Zone 11 11.1 Oct 1300 5.2 250.0 Zone 12 2.3 Jan 2100 0.0 740.0 Zone 13 5.6 Jan 2100 0.0 665.0 Zone 14 40.6 Jan 2100 0.0 335.0 Zone 15 0.6 Jan 2200 0.0 260.0 Zone 16 35.6 Jan 2100 0.0 3770.0 Zone 17 8.8 Jan 2100 0.0 905.0 Zone 18 7.6 Jan 2100 0.0 1030.0 Zone 19 2.5 Jan 2100 0.0 130.0 Zone 20 1.0 Jan 2100 0.0 90.0 Zone 21 13.8 Jan 2100 0.0 1450.0 Zone 22 1.2 Jan 2100 0.0 90.0 Zone 23 2.9 Jan 2100 0.0 140.0 Zone 24 9.8 Jan 2100 0.0 1310.0 Zone 25 3.5 Jan 2100 0.0 605.0 Zone 26 7.0 Jan 2100 0.0 380.0 Zone 27 26.5 Oct 1400 10.6 927.0 Hourly Analysis Program 5.11 Page 3 of 8 Zone Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP 07/17/2018 07:58AM Space Loads and Airflows Zone Name / Space Name Mult. Cooling Sensible (MBH) Time of Peak Sensible Load Air Flow (CFM) Heating Load (MBH) Floor Area (ft2) Space CFM/ft2 Zone 1 101 N Incoming & Storage 1 3.1 Jun 1800 255 4.8 170.0 1.50 102 N Equip. & Sub-Assem 1 5.7 Jun 1800 472 6.7 315.0 1.50 Zone 2 103 N Clean Room 1 8.3 Jun 1800 707 11.2 610.0 1.16 Zone 3 104 N Clean Room 1 8.0 Jun 1800 677 10.7 570.0 1.19 Zone 4 105 NE Air Lock 1 4.4 Jun 1400 675 10.7 420.0 1.61 Zone 5 106 E Satellite Storage 1 5.1 Jun 0900 322 5.1 470.0 0.69 Zone 6 107 E Environment Test 1 9.7 Jun 0900 456 5.6 285.0 1.60 119 Enviromental Test 1 16.6 Jan 2100 782 0.0 445.0 1.76 Zone 7 109 E Cafeteria 1 19.2 Jun 0900 913 13.2 570.0 1.60 Zone 8 110 S Cafeteria 1 11.9 Oct 1300 566 6.3 235.0 2.41 Zone 9 111 S Open Office 1 19.8 Oct 1300 938 12.0 710.0 1.32 Zone 10 112 S Open Office 1 19.5 Oct 1300 925 12.1 630.0 1.47 Zone 11 113 S Conference 1 11.1 Oct 1300 527 5.2 250.0 2.11 Zone 12 114 Incoming & Storage 1 2.3 Jan 2100 107 0.0 740.0 0.14 Zone 13 115 Equipment & Assembly 1 5.6 Jan 2100 267 0.0 665.0 0.40 Zone 14 134 Bakeout 1 40.6 Jan 2100 1925 0.0 335.0 5.75 Zone 15 116 Airlock 1 0.6 Jan 2200 27 0.0 260.0 0.10 Zone 16 117 Clean Room 1 19.9 Jan 2100 946 0.0 3160.0 0.30 118 Thermal & Vib. Tests 1 15.7 Jan 2100 744 0.0 610.0 1.22 Zone 17 121 Cafeteria 1 8.8 Jan 2100 416 0.0 905.0 0.46 Zone 18 122 Open Office 1 7.6 Jan 2100 359 0.0 1030.0 0.35 Zone 19 124 Conference 1 2.5 Jan 2100 118 0.0 130.0 0.91 Zone 20 123 Telephone Rms 1 1.0 Jan 2100 46 0.0 90.0 0.51 Zone 21 125 Open Office 1 13.8 Jan 2100 655 0.0 1450.0 0.45 Zone 22 128 Phone Room 1 0.7 Jan 2100 34 0.0 55.0 0.62 129 Phone Room 1 0.5 Jan 2100 22 0.0 35.0 0.62 Zone 23 126 Conference 1 2.4 Jan 2100 114 0.0 95.0 1.20 127 Phone Room 1 0.5 Jan 2100 23 0.0 45.0 0.51 Zone 24 130 Open Office 1 9.8 Jan 2100 466 0.0 1310.0 0.36 Zone 25 132 Flat -Sat 1 3.5 Jan 2100 164 0.0 605.0 0.27 Hourly Analysis Program 5.11 Page 4 of 8 Zone Sizing Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP 07/17/2018 07:58AM Zone Name / Space Name Mult. Cooling Sensible (MBH) Time of Peak Sensible Load Air Flow (CFM) Heating Load (MBH) Floor Area (ft2) Space CFM/ft2 Zone 26 133 Conference 1 7.0 Jan 2100 331 0.0 380.0 0.87 Zone 27 A1 -S Conference 1 22.1 Oct 1400 1050 8.7 719.0 1.46 A2 Storage 1 4.3 Oct 1300 205 1.9 208.0 0.99 Hourly Analysis Program 5.11 Page 5 of 8 Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP Ventilation Sizing Summary for Rooftop VAV 07/17/2018 07:58AM 1. Summary Ventilation Sizing Method ASHRAE Std 62.1-2010 Design Condition Minimum flow (cooling) Occupant Diversity (D) 1.000 Uncorrected Outdoor Air Intake (Vou) 2200 CFM System Ventilation Efficiency (Ev) 0.591 Outdoor Air Intake (Vot) 3722 CFM 2. Space Ventilation Analysis Hourly Analysis Program 5.11 Page 6 of 8 Minimum Supply Air (CFM) Space Floor Area (ft2) Area Outdoor Air Rate (CFM/ft2) Time Averaged Occupancy (Occupants) People Outdoor Air Rate (CFM/person) Air Distribution Effectiveness Space Outdoor Air (CFM) Breathing Zone Outdoor Air (CFM) Space Ventilation Efficiency Zone Name / Space Name Mult. (Vpz) (Az) (Ra) (Pz) (Rp) (Ez) (Voz) (Vbz) (Evz) Zone 1 101 N Incoming & Storage 1 77 170.0 0.06 1.0 5.00 1.0 15 15 1.114 102 N Equip. & Sub-Assem 1 141 315.0 0.06 2.0 5.00 1.0 29 29 1.111 Zone 2 103 N Clean Room 1 212 610.0 0.06 2.0 5.00 1.0 47 47 1.104 Zone 3 104 N Clean Room 1 203 570.0 0.06 2.0 5.00 1.0 44 44 1.105 Zone 4 105 NE Air Lock 1 203 420.0 0.06 1.0 5.00 1.0 30 30 1.137 Zone 5 106 E Satellite Storage 1 97 470.0 0.06 1.0 5.00 1.0 33 33 1.047 Zone 6 107 E Environment Test 1 137 285.0 0.06 1.0 5.00 1.0 22 22 1.131 119 Enviromental Test 1 235 445.0 0.06 2.0 5.00 1.0 37 37 1.133 Zone 7 109 E Cafeteria 1 274 570.0 0.06 16.0 5.00 1.0 114 114 1.013 Zone 8 110 S Cafeteria 1 170 235.0 0.06 12.0 5.00 1.0 74 74 1.004 Zone 9 111 S Open Office 1 281 710.0 0.06 6.0 5.00 1.0 73 73 1.086 Zone 10 112 S Open Office 1 277 630.0 0.06 8.0 5.00 1.0 78 78 1.076 Zone 11 113 S Conference 1 158 250.0 0.06 8.0 5.00 1.0 55 55 1.045 Zone 12 114 Incoming & Storage 1 59 740.0 0.06 3.0 5.00 1.0 59 59 0.604 Zone 13 115 Equipment & Assembly 1 80 665.0 0.06 4.0 5.00 1.0 60 60 0.861 Zone 14 134 Bakeout 1 578 335.0 0.06 2.0 5.00 1.0 30 30 1.181 Zone 15 Hourly Analysis Program 5.11 Page 6 of 8 Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP Ventilation Sizing Summary for Rooftop VAV 07/17/2018 07:58AM 116 Airlock 1 16 260.0 0.06 0.0 5.00 1.0 16 16 0.591 Zone 16 117 Clean Room 1 284 3160.0 0.06 12.0 5.00 1.0 250 250 0.800 118 Thermal & Vib. Tests 1 223 610.0 0.06 2.0 5.00 1.0 47 47 1.109 Zone 17 121 Cafeteria 1 134 905.0 0.06 16.0 5.00 1.0 134 134 0.729 Zone 18 122 Open Office 1 108 1030.0 0.06 8.0 5.00 1.0 102 102 0.769 Zone 19 124 Conference 1 35 130.0 0.06 4.0 5.00 1.0 28 28 0.843 Zone 20 123 Telephone Rms 1 15 90.0 0.06 2.0 5.00 1.0 15 15 0.721 Zone 21 125 Open Office 1 196 1450.0 0.06 16.0 5.00 1.0 167 167 0.813 Zone 22 128 Phone Room 1 13 55.0 0.06 2.0 5.00 1.0 13 13 0.690 129 Phone Room 1 7 35.0 0.06 1.0 5.00 1.0 7 7 0.728 Zone 23 126 Conference 1 34 95.0 0.06 4.0 5.00 1.0 26 26 0.860 127 Phone Room 1 8 45.0 0.06 1.0 5.00 1.0 8 8 0.721 Zone 24 130 Open Office _ 1 140 1310.0 0.06 8.0 5.00 1.0 119 119 0.814 Zone 25 132 Flat -Sat 1 66 605.0 0.06 6.0 5.00 1.0 66 66 0.680 Zone 26 133 Conference 1 103 380.0 0.06 16.0 5.00 1.0 103 103 0.737 Zone 27 A1 -S Conference 1 315 719.0 0.06 48.0 5.00 1.0 283 283 0.791 A2 Storage 1 61 208.0 0.06 1.0 5.00 1.0 17 17 1.074 Totals (incl. Space Multipliers) 4941 2200 0.591 Hourly Analysis Program 5.11 Page 7 of 8 Air System Design Load Summary for Rooftop VAV Project Name: TUK_Leo Stella TI_v5_11 Prepared by: HERMANSON COMPANY LLP 07/17/2018 07:59AM Hourly Analysis Program 5.11 Page 8 of 8 DESIGN COOLING DESIGN HEATING COOLING DATA AT Aug 1400 COOLING OA DB / WB 85.5 °F / 66.8 °F HEATING DATA AT DES HTG HEATING OA DB / WB 24.0 °F / 19.2 °F ZONE LOADS Details Sensible (BTU/hr) Latent (BTU/hr) Details Sensible (BTU/hr) Latent (BTU/hr) Window & Skylight Solar Loads 2232 ft2 64958 - 2232 ft2 - - Wall Transmission 4905 ft2 3997 _ - 4905 ft2 27019 - Roof Transmission 0 ft2 0 - 0 ft2 0 - Window Transmission 2232 ft2 7957 - 2232 ft2 51336 - Skylight Transmission 0 ft2 0 - 0 ft2 0 - Door Loads 80 ft2 211 - 80 ft2 1362 - Floor Transmission 18038 ft2 0 - 18038 ft2 7746 - Partitions 0 ft2 0 - 0 ft2 0 - Ceiling 0 ft2 0 - 0 ft2 0 - Overhead Lighting 17789 W 38385 - 0 0 - Task Lighting 0 W 0 - 0 0 - Electric Equipment 19150 W 62525 - 0 0 - People 218 44320 44690 0 0 0 Infiltration - 0 0 - 26655 -20 Miscellaneous - 63239 0 - 0 0 Safety Factor 0% / 0% 0 0 0% 0 0 » Total Zone Loads - 285592 44690 - 114118 -20 Zone Conditioning - 300183 44690 - 92230 -20 Plenum Wall Load 20% 1673 - 0 0 - Plenum Roof Load 80% 0 - 0 0 - Plenum Lighting Load 30% 18209 - 0 0 - Return Fan Load 13898 CFM 0 - 5041 CFM 0 - Ventilation Load 3722 CFM 32671 32344 3722 CFM 157217 0 Supply Fan Load 13898 CFM 41144 - 5041 CFM -7570 - Space Fan Coil Fans - 2785 - - -2785 - Duct Heat Gain / Loss 3% 8568 - 3% 3424 - » Total System Loads - 405232 77034 - 242515 -20 Central Cooling Coil - 410265 77040 - 0 0 Terminal Reheat Coils - 0 - - 236938 - » Total Conditioning - 410265 77040 - 236938 0 Key: Positive values are clg loads Negative values are htg Toads Positive values are htg Toads Negative values are clg loads Hourly Analysis Program 5.11 Page 8 of 8 Lifetime Value Expert Support r kf Headquarters: 5924-203`tl St. SW Lynnwood, WA 98036 425-774-6602: Phone 425-775-2272: Fax -Seattle -Portland -Yakima -Medford -Boise PRELIMINARY SUBMITTAL AUBURN MEDICAL CENTER FLEXIBLE WATERTUBE BOILERS CLEAVER -BROOKS MODEL: FLX 200-450-160HW (3) REVIEWED FOR CODE COMPLIANCE APPROVED AUG 21 2018 City of Tukwila BUILDING DIVISION Provided To: HERMANSON COMPANY, LLP Dan Burns, Construction Executive, (253) 796-5837 RECEIVED CITY OF TUKWILA An 1 0 2018 PERMIT CENTER ;ORRECTION _TRI# Provided By: COLE INDUSTRIAL, INC. Scott Best, Account Manager, (206) 963-4116 Cozette Fitzhugh, Project Manager, (425) 7-315 um March 2, 2017 +K-. Table of Contents SCOPE OF SUPPLY FLEXIBLE WATERTUBE BOILERS Cleaver -Brooks Model FLX Product Data GAS/OIL COMBINATION FIRED BURNERS Cleaver -Brooks Model VLG Product Data BOILER CONTROLS Cleaver -Brooks Hawk Master Panel 8 Product Data Electrical Nomenclature Cleaver -Brooks Hawk Master Panel 8 EXAMPLE Wiring Diagram WARRANTY INFORMATION Cleaver -Brooks Standard Warranty Lifetime Value TO: Hermanson 1221 2nd Ave. N. Kent, WA 98032 ATTENTION: Paul Robinett probinett@hermanson.com Expert Support Headquarters: 5924 -203rd St. SW Lynnwood, WA 98036 425-774-6602: Phone 425-775-2272: Fax -Seattle -Portland -Yakima -Medford -Boise DATE: 1/25/2017 QUOTE NO.: 12475 -SB REV 4 PROJECT: AUBURN MEDICAL CENTER SCOPE OF SUPPLY B -1,B-2, & B-3 We propose to furnish three (3) Cleaver -Brooks FlexTube Model FLX-200-450-160HW Tangent tube, 5 pass Watertube Hot Water Boilers. Boilers shall be fired with ProFire natural gas / # 2 oil combination firing burners and be rated at 4,500 MBH input, 3,600 MBH output. Boiler shall be stamped in accordance with section IV of ASME code for 160 MAWP. The Entire UL listed boiler package shall be pre -piped and wired to include 5 -pass, two drum flexible watertube design with tangent tube waterwall furnace, constructed with 1.5" diameter swedge fitted field replaceable steel tubes, downcomers and drums, jacket & insulation, burner, Combustion control and flame safeguard system, fuel train(s), valving, and hot water trim and controls as listed below: Product Mode : FLX-200-.450-160HW (460/3160)-STD/CFG Item Qty. Description #1 3 Watertube Boiler Model: FLX-200-450-160HW (460/3/60)-STD/CFG Project Market: United States Boiler Capacity (Input) at 500 ft: 4,500MBTU (Output: 3,600MBTU) Model Dimension (in.): 139 x 48 x 95 Shipping Weight: 7,900 lbs Application Environment: Indoor - Typical Boiler Room Project NEMA Rating: NEMA 1 Boiler Tube Wall Thickness: 0.0'95in Fuel: Natural Gas, 2 Oil Oil Supplied to Boiler From LoopSystem (2 Oil) COLE INDUSTRIAL, INC. ("Seller") offers to fumish to the above named ('Buyer") the equipment and services described herein for the purchase price noted, exclusive of all taxes and shipping costs, unless otherwise stated. No statements or understandings relating to the subject matter other than those set forth herein, shall be binding on the Seller. SEE THE TERMS AND CONDITIONS OF•SALE @ http://coleindust.com/wp-content/uploads/2015/02/Cole-Industrials-Terms-Conditions.pdf Cole Industrial, Inc. Page 2 of 5 Design Pressure: 160 lb. HW Water Mixture: 100% Water Boiler Supply Temperature: 180 F Boiler Return Temperature: 160 F Operating Pressure: 30 psig Safety Valve Setting: 60 lb. Safety Valve Relieving Requirement: Full Capacity Safety Valve Relieving Capacity: 5,362 MBtu/Hr Voltage: 460/3/60 Customer Site Voltage: 460 V Electrical Panel Configuration: Control Panel / High Voltage Panel / J -Box Insurance Requirement: CSD -1 Insurance Requirement: FM Packaged Boiler Label: UL #2 3 Product Pricing Basis: Aprl6 Price Book in use based on 01/16/2017 effective date for this product configuration. Pricing valid for 60 days. #3 3 Burner Information: Burner Model: V Hinged: Open to Right Altitude: 500 ft ASL Burner Input Capacity: 4,500 MBTU Gas (NG) Emissions Level: Uncontrolled Gas (NG) CO Emissions Level: 150 ppm Minimum Gas Flow: 450 SCFH Maximum Gas Flow: 4,500 SCFH Burner Gas Turndown: 10 : 1 Oil (#2) Emissions Level: 140 ppm Oil (#2) CO Emissions Level: 100 ppm Oil Atomization Type: Pressure - Direct Drive Minimum Burner Oil Flow: 21.4 Maximum Burner Oil Flow: 64.3 Burner Oil Turndown: 3:1 Burner Modulation: Full Modulation Burner Ignition Type: Spark Ignited Gas Burner Mounting Plate Included #4 3 Blower Motor: 2 HP ODP (460/3/60) #5 9 Blower Motor Fuse Protection: 6 Amp Fuse (Control / Burner Panel) #6 3 Blower Motor Starter: IEC #7 3 Seismic Design - Formal Calculations: Calculation Info.: Zip Code: 98001, Site Class: D, Ss: 1.23321, Fa: 1.006716, ap: 1.0 For Boilers, Rp Zip: 2.5, Rp Zone: 3, Ip: 1.5 (Life Safety Facility), Equip. height z: 0, Roof height h: 1, SDS: 0.8277 #8 3 Seismic Design Anchor Bolt Provisions: Weld to Base #9 3 Safety Valve #1: Kunkle 1 1/2" 601b HW (Full Capacity) #10 3 Stack Connection: 16in Flanged #11 3 Supply Connection: 6in Flanged 1501b. F.F. #12 3 Return Connection: 6in Flanged 150Ib. F.F. #13 3 Air Vent Connection: lin NPT #14 3 Main Low Water Cut -Off: Warrick 3E-1 Manual Reset On/Off Internal Probe with Piping '4. "Cole Industrial, Inc. Page 3 of 5 #15 3 Auxillary Low Water Cut -Off: MCDM750 Manual Reset Internal Probe #16 3 Pressure Gauge: 3.5in Dial 0-300 psig #17 3 Supply Water Thermometer: 3.5in Dial 30-300 F #18 3 Primary Gas Train for Natural Gas (Right): Nema Rating: NEMA 1; Piping Material: Carbon Steel Components from Burner to Customer Connection: Butterfly Valve: 2in Reduced; Manual Valve #2: 3in Lubricated; Safety Shutoff Valves: Honeywell Motorized with POC ; SSOV #1: 3in; GPR Configuration: 121-8 1.25in (Standard Trim); Manual Valve #]I: 1.25in Butterball; Customer Connection: 1.25in. Pressure Requirements: Minimum Gas Pressure (@ Inlet of Manual Valve): 29.96 in. w.c. Maximum Gas Pressure (@ Inlet of Manual Valve): 415.5 in. w.c. Customer Supply Gas Pressure (@ Inlet of Manual Valve): 56 in. w.c. #19 3 Primary Gas Train High Gas Pressure Switch: Honeywell C6097 Manual Reset #20 3 Primary Gas Train Low Gas Pressure Switch: Antune A Manual Reset #21 3 Primary Gas Train Valve Plugged Leakage Test Cock: 0.25in #22 3 Natural Gas Pilot Train (Right): Piping Material: Carbon Steel Customer Inlet Gas Pressure (in. w.c.): 56 in. w.c. #23 3 Pilot Gas Train Natural Gas Gas Pressure Regulator: Maxitrol 325-3 in. w.c. #24 3 Pilot Gas Train Manual Shutoff Cock: Bronze #25 3 Pilot Gas Train Solenoid Valve: Aluminum Body #26 3 Oil Train Nozzle: Bypass #27 3 Oil Train Direct Drive Oil Pump (Driven off of Blower Motor) #28 3 Oil Train Metering Valve #29 3 Oil Train Safety Shutoff 2 Way Valve #30 3 Oil Train Safety Shutoff 3 Way Valve #31 3 Oil Train Low Pressure Switch #32 3 Oil Train Fusible Link Oil Valve Required per CSD -1: Supplied by Others #33 3 Hawk Package: 1000 (16 Gauge Panel Wiring) #34 3 Hawk Package Dual Fuel Manual Selector Switch #35 3 Control Screen: 4in Color (Hawk Screen - US Standard Units) #36 3 Parallel Positioning Primary Fuel Actuator (Type: Quick Disconnect) #37 3 Parallel Positioning Secondary Fuel Actuator (Type: Quick Disconnect) #38 3 Parallel Positioning Air Actuator (Type: Quick Disconnect) #39 3 Modulating Control: Transmitter (Temperature) for Hawk #40 3 Operating Temperature Limit Control: Honeywell L4008A #41 3 High Limit Control: Honeywell #42 1 Lead Lag Transmitter: Temperature #43 1 Hawk Package Masterpanel #44 1 Hawk Masterpanel Ethernet Hub: 8 Port #45 1 BAS System: BACnet MSTP(ProtoNode) #46 3 Combustion Safeguard Control: CB780EUV #47 3 Hawk Package Stack Temp Transmitter #48 3 Remote Emergency Shutoff: Terminals Only Cole Industrial, Inc. Page 4 of 5 #49 3 High Voltage Panel Enclosure: Side Mounted NEMA 1 Right (Power Connection) #50 3 Control / Burner Panel Enclosure Configuration - Side Mounted (NEMA 12) #51 3 Control Panel Circuit Wire: 16 AWG Hawk Panel Internal Wire Always 16 #52 3 Control Panel Single Point Connection: - 460/3/60 #53 3 J -Box Panel Burner Mount and Pull Through Enclosure: NEMA 1 #54 3 Electrical Wiring: Flexible #55 3 Main Power Distribution: Rotary UnFused Disconnect 30 AMPS #56 3 Control Circuit Transformer: 1.0kVA (Control / Burner Panel) #57 9 CCT Fuse Protection: 3 (Control / Burner Panel) #58 3 Manuals #59 1 Submittals - Dimensional Diagram (FLX) #60 1 Submittals - Wiring Diagram (FLX) #61 1 Submittals - Test Fire Report (FLX) Manufacturers' Field Services: We shall provide three (3) man days of start-up, balancing, testing and owner/operator training. Start-up shall include both fireside and waterside inspection, setting combustion and emissions, and checking all operating and safety circuits including fuel, flame safeguard, LWCO, ALWCO, air flow and limit circuits. Testing shall include written reports on boiler firing rate, turndown, efficiency, motor amperage, 02, CO, NOx levels, flue gas temperature, ambient temperature, and all control settings. Two (2) Standard Operating and Maintenance manuals shall be provided including cut -away views of boiler and burner, schematics including fuel trains, general instructions for maintenance and inspections, complete spare parts lists and troubleshooting procedures. Warranty: The entire boiler/burner package shall be warranted by the boiler manufacturer. Warranty shall include all parts for a period of (12) months from the date of start-up for beneficial use or (18) months from date of shipment, whichever occurs first. ESTIMATED SHIPPING WEIGHT: 6,100 LBS. (Ea.) ESTIMATED SHIPPING 10-11 WEEKS AFTER APPROVAL & RELEASE FOR FABRICATION Exceptions: 1. Specification section 23-09-93 for control sequences has not been reviewed or considered in the development of this proposal. Exception is taken to any provisions not specifically included in the foregoing scope of supply. 2. Certified Dimensional Shop Drawings are not included in this proposal. Certified drawings are available, but at an additional cost and not until after fabrication of the boiler. 3. Burners will be pressure atomized on #2 oil not air atomized. CLARIFICATIONS: 1. COLE INDUSTRIAL TERMS AND CONDITIONS ARE AT: http://coleindust.com/wp-content/uploads/2015/02/Cole-Industrials-Terms-Conditions.pdf Cole Industrial, Inc. Page 5 of 5 2. Emissions/Air Quality Permits - Washington Law requires all boiler installations file and receive an approved new source review of emissions prior to delivery. This permit is by the Owner, not Cole Industrial. 3. Fuel Oil Systems - Unless stated otherwise, the fuel oil delivery system design and installation is By Others. Any issues with boiler operation due to the fuel oil delivery system may result in extra charges for extra startup time. 4. All control wiring/conduit between boiler and remote devices including the following will be PROVIDED BY OTHERS: [ ] • Oil pump, shipped loose [ ] • Remote oil pumps [ ] • Aux contacts [ ] • Hot water header sensor [ ] • System Pump Interlock [ ] • Remote Emergency Shutdown Switches 5. Water treatment chemical, boiler boil out, fuel, electricity and supervision of boiler systems operations required during commissioning process and after system is completed to be provided by others. 6. Submittals and 0 & M's shall be manufactures standard only. Additional pricing for expanded submittals, 0 & M's and/or e -filing services can be provided upon request. 7. Any photographs above are for reference only and may not accurately reflect product(s) quoted. Respectfully submitted, COLE INDUSTRIAL, INC. Scott get Account Manager Email: sbest@coleindust.com Direct: 206-963-4116 FLEXIBLE WATERTUBE BOILERS Model FLX Flexible Watertube Boilers 1.5 —12.0 MMBTU/H Steam and Hot Water TABLE OF CONTENTS FEATURES AND BENEFITS 3 PRODUCT OFFERING 4 Standard Equipment 5 DIMENSIONS AND RATINGS 7 PERFORMANCE DATA 17 Efficiency 17 Emissions 17 ENGINEERING DATA 18 Boiler Information 18 Burner/Control Information 20 1 Model FLX Boilers Commercial Boiiets Illustrations Figure -2. FLX HW Dimension Drawing 12 Figure -3. Model FLX Tube Attachment 20 Figure -4. Model FLX Oil Burner Supply Pump Installation 22 Figure -5. Model FLX Clearance Requirements 24 Figure -6. Model FLX Breeching Arrangement - Single or Multiple Boiler Installation 25 Tables Table -1. Model FLX Watertube Boiler Sizes 4 Table -6. FLX HW Dimensions Sizes 150-500 13 Table -8. FLX HW Ratings Sizes 150-550 15 Table -11. Model FLX Hot Water Boiler Flow Rates and Pressure Drops 17 Table -12. Model FLX Circulating Rates, Hot Water Boiler 18 Table -13. Model FLX Minimum Over Pressure Requirements 18 Table -14. Model FLX Boiler Heat Release Information 19 Table -15. Model FLX Burner Characteristics 20 Table -16. Model FLX Minimum Required Gas Pressure 21 Table -17. Model FLX Sound Levels 23 Table -18. Combustion Air Requirements 25 This section contains information on the Flexible Watertube boiler. The product model name is "FLX" for factory -assem- bled boilers, and "FLE" for field -erectable boilers. It is available in sizes ranging from 1.5 to 12 MMBtu/hr input. Cleaver -Brooks offers the Model FLX "bent -tube" boiler to meet today's demanding commercial user's needs. The flexible watertube design has distinct advantages, including resistance to thermal shock and easy boiler maintenance. In addition Model FLX boilers offer high operating efficiency. These combined factors equate to a real increase on the return from your boiler room investment. 2 CleaverBrook40 Corfimercial Boilers Model FLX Boilers FEATURES AND BENEFITS CleaverBrooksi ASME Construction: • Built in accordance with the ASME Code, ensures design integrity for long life. • Ensures safety and reliability with third party inspection of standards compliance. Underwriters Package Label (UL/cUL]: • Ensures the complete package [burner/boiler] has been tested and certified to the UL standards of safety and controls requirements. High Turndown Burner: • For standard emissions [uncontrolled], up to 10:I turndown on Gas firing, reduces inefficient on/off operation, reducing fuel consumption. • Boiler stays on line during low load conditions for optimum efficiency and performance. • Airfoil damper design eliminates low fire excess air spikes, increasing combustion efficiency. • Boiler/burner by single manufacturer eliminating divided responsibility. Hinged Burner Design: • Standard for all sizes of the Elite series and sizes 400 and greater on the Premium series, optional for Premium series sizes 350 and less. • Burner assembly is attached to the front boiler wall with integral hinges, permits burner swing out for ease of service, maintenance, and inspection. Swedge-Fitted Tube Attachment: • Eliminates welded tube attachment to each drum providing ease of tube replacement. • Eliminates rolling or welding of tube replacement, reduces maintenance costs. Thermal Stress Protection: • 25 Year Thermal Shock Warranty ensures tube integrity against thermal stress, associated with hydropic: heating systems. • Bent tube design provides ability to withstand thermal stress of tubes during rapid load swings and cold water returns. Removable Side Panel Casing: • Sectional side panels easily remove to provide access to each tube eliminates total casing removal for tube access. • Reduces maintenance time and costs. Field Assembly Option: • Boiler can be erected on the project site where access space is minimized. • Pressure vessel parts, tubes, burner and controls can fit through a standard doorway, elevator shaft or reduced side wall opening or window. 3 Model FLX Boilers Commercial Boii'ers PRODUCT OFFERING 4 Information in this section applies to steam and hot water boiler sizes ranging from 1.5 to 12 MMBtu/hr input, as shown in Table 2 The Flexible Watertube Boiler is a five -pass steel boiler with flexible tubes formed and arranged to direct the flow of combustion gases through the boiler. The pressure vessel conforms to Section I or Section IV of the ASME Code, and consists of the formed tubes and the external downcomer connected to the top and bottom drums. The heated area of the pressure vessel is contained within a gas-tight, insulated casing that is composed of removable, formed -steel panels. The boiler/ burner package is manufactured by Cleaver -Brooks and is ULJcUL approved as a package. Table 1. Model FLX Watertube Boiler Sizes MODEL CAPACITY INPUT BTU/HR HEAT OUTPUT BTU/HR EQUIV HP FLX-150 1,500,000 1,200,000 36 FLX-200 2,000,000 1,600,000 48 FLX-250 2,500,000 2,000,000 60 FLX-300 3,000,000 2,400,000 72 FLX-350 3,500,000 2,800,000 84 FLX-400 4,000,000 3,200,000 96 FLX-450 4,500,000 3,600,000 108 FLX-500 5,000,000 4,000,000 119 FLX-550 5,500,000 4,400,000 132 FLX-600 6,000,000 4,800,000 143 FLX-700 7,000,000 5,600,000 167 FLX-800 8,000,000 6,400,000 191 FLX-900 9,000,000 7,200,000 215 FLX-1000 10,000,000 8,000,000 239 FLX-1100 11,000,000 8,800,000 263 FLX-1200 12,000,000 9,600,000 287 NOTES: 1. Design Pressure: 150 psig Hot Water, 15 psig Steam, 150 psig Steam. 2. Also available in Model FLE (field erectable). cleaverarooks0 Corfimercial Boilers Model FLX Boilers Standard Equipment Equipment described below is for the standard factory package offering. 1. Boiler: A. All boilers are designed and constructed in accordance with the ASME Code. B. Each vessel is mounted on an integral base frame; refractories for the boiler and burner are installed. C. Each vessel receives a factory hydro test with third party witness. D. ASME Code Stamped and National Board Registered. E. For Canadian installations, appropriate CRN Stamping. Notice Hot water boilers with design pressures up to 150 psig, and with design temperatures less than 250 "F, are constructed under Section IV of the ASME Code, and 'H' stamped for low- pressure heating boilers. Notice Steam boilers with design pressure of 30 psig, and maximum allowable operating pressure of 15 psig, are constructed under Section IV of the ASME Code, and 'H' stamped for low pressure heating boilers. Notice Steam boilers with design pressure of 150 psig are constructed under Section I of the ASME code and "S" stamped for high pressure steam boilers. 2. Forced Draft Burner, Cleaver -Brooks ProFireTM V Series: A. Mounted on a hinged backing plate for easy access to furnace. Note: Standard on all sizes Elite Series and sizes 400 and larger Premium Series. B. Pressure atomizing type for No. 2 oil burner. This includes the oil pump. C. Stainless steel flame -retention type combustion head for gas, with UV scanner and gas pressure regulator. D. External access to flame scanner for ease of maintenance. 3. Water/Steam Controls: A. ASME safety relief valve(s). B. Pressure and temperature gauges for hot water boilers. C. Pressure gauge for steam boilers. D. Operating and limit controls: E. High limit control - manual reset. F. Operating limit control - automatic reset. G. Modulating or proportional controller. H. Low water cutoff: • Probe type - hot water. • Float type main and probe type auxiliary for steam. I. Pump Control - steam boilers. 4. Altitude: Standard boilers attain full ratings at altitudes up to 2,000 feet. Altitude compensation for most models is available for altitudes up to 10,000 ft above sea level. CleaverBroolcs' 5 Model FLX Boilers Commercial Boilers, 12 CONTROL PANEL BURNER CC Figure 2. FLX HW Dimension Drawing w "ZZ" 0 5/8"HOLES EQUALLY SPACED ON "Z" DIA B.0 LUE GAS OUTLET FLANGE X Y EE u F 0 0 0 'LT 0 0 0 -t# u p, TEMPERATURE i CONTROLS A E -R V EE SIGHT PORT BB W. T LWCO PROBE BURNER SWING TO THIS SIDE DD L Cl eavlerBrooks V Q„ M Vv Q —LIFTING LUG U -- _ _ pn -• oo--I------ acfcc I --'------ Fr_d - ---TE-� EE u F 0 0 0 'LT 0 0 0 -t# u p, TEMPERATURE i CONTROLS A E -R V EE SIGHT PORT BB W. T LWCO PROBE BURNER SWING TO THIS SIDE DD L Cl eavlerBrooks Coriimercial ,Boilers Model FLX Boilers Table 6. FLX HW Dimensions Sizes 150-500 CleaverBroocs' y, .. .,,,, ,,. „y„a„�, ,�y ��,. 2. Add 4” o each side of the base frame dimension to account for optional seismic anchor pads. 3. For Models 150 to 350 a single drain connection is provided at the front bottom drum; for Models 400 and greater, an additional drain 4. Supply and return nozzle flanges are 150# Flat Face. 5. Standard safety valve setting is 160 psig and options for reduced settings are noted. 13 1 BOILER SIZE [SEE NOTE 1] 150 200 250 300 350 400 450 500 LENGTHS Inches Dim. Overall Length of Boiler A 115 115 115 120 120 146 146 146 Boiler Base Frame B 68 68 68 74 74 95 95 95 Front Extension Upper C 17 17 17 17 17 17 17 17 Front Extension Lower D 11 11 11 11 11 11 11 11 Rear Extension Lower E 20 20 20 20 20 21 21 21 Burner Extension F 27 27 27 27 27 31 31 31 WIDTHS Inches Boiler Base Frame [Note G 42 42 42 46 46 48 48 48 Centerline to Casing GI 21 21 21 23 23 24 24 24 Centerline to outside Gas G2 33 33 33 35 35 36 36 36 HEIGHTS Inches Base to Stack Flange H 78 78 78 82 82 86 86 86 Base to Lifting Lug I 78 78 78 82 82 86 86 86 Base to Top of Casing J 76 76 76 80 80 85 85 85 Base to Supply Nozzle K 65 65 65 69 69 73 73 73 Base to Return Nozzle L 9 9 9 9 9 10 10 10 LOCATIONS Inches Flue Outlet Centerline M 54 54 54 62 62 81 81 81 Rear Extension Upper N 28 28 28 26 26 28 28 28 Safety Valves 0 24 24 24 22 22 24 24 24 Bottom Drain see Note 3 P 15 15 15 15 15 15 15 15 Boiler Air Vent q 12 12 12 13 13 13 13 13 Bottom Drain Rear see R N/A N/A N/A N/A N/A 24 24 24 PIPING CONNECTIONS Supply Nozzle [Note 4] S 3 FLG 3 FLG 3 FLG 4 FLG 4 FLG 6 FLG 6 FLG 6 FLG Return Nozzle [Note 4] T 3 FLG 3 FLG 3 FLG 4 FLG 4 FLG 6 FLG 6 FLG 6 FLG Bottom Drain see Note U 11/2 1% 1'/ 11/2 11/2 2@2 2@2 2@2 Safety Valves, 30 psig V 2 2 2 2 2 21/2.11.1.4 2% Safety Valves, 60 psig V 1'/ 11/2 11/2 1% 11/2 2 tea. 2 Safety Valves, 125 psig v 1 1 1 1'/. 1'/4 1'/r 11/2 Safety Valves, 160 psig v 3/. % % '/e % 11/4 11/4 1% Boiler Air Vent W 1 1 1 1 1 1 1 1 Tapping for optional W1 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 Flue Gas ID X 10 10 10 12 12 16 16 16 Flue Gas Outlet Flange Y 15 15 15 17 17 21 21 21 Flange Bolt Circle Z 12% 12'/ 12'/ 14'/ 14'/ 18'/ 18% 181/2 Number of holes in bolt ZZ 4 4 4 ��— 4 4 6 6 6 MINIMUM SERVICE Tube removal each side AA 28 28 28 32 32 34 34 34 Rear service area BB 24 24 24 24 24 24 24 24 Front service area - CC 36 36 36 36 36 36 36 40 PERIPHERAL DATA Upper/Lower Drum OD DD 8-5/8" 8-5/8" 8-5/8" 8-5/8" 8-5/8" 10-3/4" 10-3/4" 10-3/4" Handhole Inspection EE 4" x 5" 4"x 5" 4" x 5" 4" x 5" 4"x 5" 4" x 5" 4" x 5" 4"x 5" Rear Downcomer (NPS) FF 4 4 4 4 4 5 5 5 IJr1TGC• 9 c... o,ti. i.. �... CleaverBroocs' y, .. .,,,, ,,. „y„a„�, ,�y ��,. 2. Add 4” o each side of the base frame dimension to account for optional seismic anchor pads. 3. For Models 150 to 350 a single drain connection is provided at the front bottom drum; for Models 400 and greater, an additional drain 4. Supply and return nozzle flanges are 150# Flat Face. 5. Standard safety valve setting is 160 psig and options for reduced settings are noted. 13 Commercial Boilers Model FLX Boilers Table 8. FLX HW Ratings Sizes 150-550 Boiler SIZE 1 150 200 250 1 300 350 1 400 450 500 550 Ratings [Notes A and B] Output Btu/hr 1,205,100 1,606,800 2,008,50C2,410,2002,811,90C3,213,6003,615,3008,983,5254,385,225 Output Kcal/Hr 303,696 404,928 506,160 607,392 708,624 809,856 911,088 1,003,8841,105,116 Output kW 353 471 589 706 824 942 1,060 1,168 1,285 Output Boiler Horsepower 36 48 60 72 84 96 108 119 131 Approximate Fuel Consumption [Input - Note C] Natural Gas [ft3/hr] - 180 F Supply Water 1,435 1,936 2,420 2,904 3,388 3,826 4,304 4,742 5,221 Natural Gas Therms/Hour - 180 F Supply Water 14.3 19.4 24.2 29.0 33.9 38.3 43.0 47.4 52.2 Natural Gas [m3/hr] - 82C Water Supply 40.6 54.8 68.5 82.2 95.9 108.3 121.9 134.3 147.8 Propane Gas [ft3/hr] - 180 F Supply Water 574 774 968 1,162 1,355 1,530 1,897 2,088 Propane Gas [m3/hr] - 82C Water Supply 16.2 21.9 27.4 32.9 38.4 43.3 Wil- 53.7 59.1 No.2 Oil Fuel - gph, 180 F Supply Water 10.4 13.9 17.4 20.9 24.3 ' 27.8 31.3 34.5 38.0 No.2 Oil Fuel - liters/hour, 82C Water Supply 39.4 52.6 65.7 78.9 92.0 105.2 118.3 130.4 143.5 Power Requirements - Uncontrolled Emissions [Notes A and D] Blower Motor HP - Gas Firing 1/2 3/4 3/4 3/4 1 1 2 3 -2- Blower Motor kW - Gas Firing 0.378 0.5595 .5595 .5595 0.746 0.7460 1.492 2.238 Blower Motor HP - Oil or Combination 3/4 1 1 1 1-1/2 1-1/2 2 3 3 Blower Motor kW - Oil or Combination .5595 0.746 0.746 0.746 1.119 1.119 1.492 2.238 2.238 Oil Pump for Oil or Combination Direct Drive from the Blower Motor Minimum Ampacity - Standard Blower Motor - Gas Firing Only, [1151230/1/60 [9.8] 4.9 [13.8] 6.9 [13.8] 6.9 [13.8] 6.9 [16] 8 [16] 8 [21] 12 Blower Motor - Oil or Combination, [115]230/1/60 [13.8] 6.9 [16] 8 [16] 8 [16] 8 [20] 10 [20] 10 [24) 12 Blower Motor - Gas, 230/3/60 6.8 9.6 Blower Motor - Oil or Combination, 230/3/60 9.6 9.6 Blower Motor - Gas, 460/3/60 3.4 4.8 Blower Motor - Oil or Combination, 460/3/60 4.8 4.8 Blower Motor - Gas, Oil or Combination, 400/3/50 2.8 4.2 Blower Motor - Gas, 575/3/60 2.7 3.9 Blower Motor - Oil or Combination, 575/3/60 3.9 3.9 Remote Oil Pump, [2301460/3/60 Control Circuit @115/1/60 1.7 1 1.7 1 1.7 1.9 1.9 1 1.9 2.4 2.4 2.4 Weights Operating Weight, lbs. 4,700 4,700 4,700 5,900 5,900 7,600 7,600 7,600 7,600 Operating Weight, kg 2,132 2,132 2,132 _ 2,676 2,676 3,447 3,447 3,447 3,447 Water Content Normal, gallons 96 96 96 108 108 180 180 180 180 Water Content Normal, liters 363 363 363 409 409 681 681 681 681 Water Content Flooded, gallons 96 96 96 108 108 180 180 180 180 Water Content Flooded, liters 363 363 363 409 409 681 681 681 681 Shipping Weight, approximate lbs. 3,900 3,900 3,900 5,000 5,000 6,100 6,100 6,100 6,100 Shipping Weight, approximate kg 1,769 1,769 1,769 2,268 2,268 2,767 2,767 2,767 2,767 Notes: A. Ratings shown for elevation to 1000 Feet. For ratings above 1000 Feet, contact your local Cleaver -Brooks Representative. B. Input calculated with Nat. Gas @ 1000 Btu/ft3• Propane @ 2500 Btu/ft3, and Oil @ 140,000Btu/gal. C. Standard Motors meet the requirements of UL & NEMA and include the following: Open drip proof design 1.15 Service Factor Class "B" Insulation October, 2015 CleaverBrooks' NEMA Design "B" Ball Bearing Continuous Duty, 400 C ambient 15 Cornmercial.Boilers Model FLX Boilers PERFORMANCE DATA Efficiency Fuel -to -steam (fuel -to -water) efficiency is based on specific operating conditions (fuel, pres- sure, temperature). Nominal efficiency on all FLX hot water and low pressure steam boilers is 81% firing natural gas, and 84% firing No. 2 oil. For high pressure steam applications, contact your local Cleaver -Brooks representative for expected efficiencies. Emissions Expected emissions for natural gas fired FLX boilers are shown in Table 10. Table 10. Expected emissions (ppm, corrected to 3% 02), natural gas fired boiler FLUE GAS COMPONENT HIGH -FIRE LEVELA PPMv LOW -FIRE LEVELB PPMv c0 <100 <100 NOx 70 70 NOTE: NOx levels based on standard product offering. A. Based on 12% excess air. B. Based on 15% excess air. Table 11. Model FLX Hot Water Boiler Flow Rates and Pressure Drops MODEL NO. T = 20°F T = 40°F T = 60°F T = 80°F T =100°F P (PSIG) GPM P (PSIG) GPM P (PSIG) GPM P (PSIG) GPM P (PSIG) GPM FLX-150 1.14 122.0 0.30 61.1 0.13 41.1 0.08 30.8 0.05 24.4 FLX-200 1.14 162.3 0.30 81.1 0.13 54.1 0.08 40.6 0.05 32.5 FLX-250 1.77 202.8 0.46 101.4 0.21 67.6 0.12 50.7 0.08 40.6 FLX-300 1.85 243.4 0.48 121.7 0.22 81.1 0.12 60.9 0.08 48.7 FLX-350 2.49 284.0 0.65 142.0 0.29 94.7 0.17 71.0 0.11 56.8 FLX-400 1.35 324.5 0.35 162.3 0.16 108.2 0.09 81.1 0.06 64.9 FLX-450 1.71 365.1 0.44 182.6 0.20 121.7 0.11 91.2 0.08 73.0 1 FLX-500 2.03 405.7 0.54 202.8 0.25 135.2 0.14 101.4 0.09 81.1 FLX-550 2.50 446.3 0.67 223.1 0.31 148.7 0.17 1I1.5 0.11 89.2 FLX-600 2.99 486.8 0.77 243.4 0.35 162.3 0.20 121.7 0.13 97.4 FLX-700 1.75 567.9 0.45 284.0 0.21 189.3 0.12 142.0 0.08 113.6 FLX-800 2.27 649.1 0.59 324.5 0.27 216.4 0.15 162.3 0.10 129.8 FLX-900 2.85 730.2 0.74 365.1 0.33 243.4 0.19 182.6 0.12 146.0 FLX-1000 4.08 811.4 1.02 405.6 0.42 270.4 0.25 202.8 0.15 163.6 FLX-1100 4.42 892.6 1.15 446.2 0.48 297.4 0.28 223.0 0.18 178.4 FLX-1200 6.20 973.6 1.60 486.8 0.59 324.6 0.31 243.4 0.22 194.8 CleaverBrooks' 17 Model FLX Boilers Commercial Boilers ENGINEERING DATA Boiler Information 18 Flow Rates and Pressure Drops Flow rates and pressure drops for the FLX hot water boilers are shown in Table 11. This table can be used to determine the boiler pressure drop in relation to full boiler output and system temperature drop. Table 12 can be used to determine the maximum gpm circulating rate in relation to full boiler output and system temperature drop. The maximum gpm can be determined by knowing the boiler size and expected system temperature drop. Table 12. Model FLX Circulating Rates, Hot Water Boiler MODEL NO. (HP) SYSTEM TEMPERATURE DROP°F 10 20 30 40 50 60 70 80 90 100 MAXIMUM CIRCULATING RATE - GPM FLX-150(36) 243 122 81 61 49 41 35 31 27 24 FLX-200(48) 324 162 108 81 65 54 46 41 36 32 FLX-250 (60) 404 202 135 101 81 68 58 51 45 41 FLX-300(72) 488 244 162 122 97 81 70 61 54 49 FLX-350 (84) 568 284 189 142 114 95 81 71 63 57 FLX-400 (96) 648 324 216 162 130 108 93 81 72 65 FLX-450 (108) 729 365 243 182 146 122 105 91 81 73 FLX-500(119) 1812 406 270 203 162 135 116 101 90 81 FLX-550(131) 893 447 297 223 178 149 128 111 99 89 FLX-600(143) 972 486 325 243 195 162 139 122 108 97 FLX-700(167) 1136 568 379 284 227 189 162 142 126 114 FLX-800(191) 1300 650 433 325 260 216 185 162 144 130 FLX-900(215) 1460 730 487 365 292 243 209 183 162 146 FLX-1000(239) 1622 811 541 406 324 270 232 203 180 164 FLX-1100(263) 1784 893 595 446 357 297 255 223 198 178 FLX-1200(287) 1947 974 649 487 389 325 279 243 216 195 System Operating Parameters (Hot Water) System over pressure requirements are shown in Table 13. Minimum return water temperature is 140 °F; minimum supply (boiler outlet) water tem- perature is 150 °F in order to prevent fireside corrosion. Table 13. Model FLX Minimum Over Pressure Requirements MAXIMUM OUTLET TEMPERATURE (°F) MINIMUM SYSTEM PRESSURE (PSIG) 180 12 190 15 200 18 210 21 220 24 230 27 240 30 aeaver9roolc4 Commercial.Boilers Model FLX Boilers CleaverBrooks' System Operating Parameters (Steam Boilers) The following operating limitations must be observed for optimum operation of the boiler: 1. Minimum make-up temperature 60 °F. 2. Maximum make-up rate (for on/off make-up control) 2.0 times the evaporation rate. 3. Minimum operating pressure 6 psig. on low pressure steam and 40 psig. on high pressure steam. 4. Maximum operating pressure 12 psig. on low pressure steam. 5. Maximum load tracking rate 0 - 100% load or 100% - 0 load, 30 seconds on low pressure steam and 20% per minute on high pressure steam. Maximum boiler water chemistry parameters: Silica: 150 ppm; specific conductance: 3500 pmho/cm un -neutralized; total alkalinity: 300 ppm as CaCO3; hardness: 0; oxygen: 7 ppb; pH: 7 - 10; total iron: 0.05 ppm; oil matter: 1 ppm. Boiler Heat Release Information Boiler heat release information is shown in Table 14. Table 14. Model FLX Boiler Heat Release Information MODEL NO. FURNACE PROJECTED AREA (FT2) FURNACE VOLUME (FT3) FURNACE HEAT RELEASE BTU/HR (FT3) FURNACE HEAT RELEASE BTU/ HR (FT2) FLX-150 38.4 24.2 61,983 39,063 FLX-200 38.4 24.2 82,645 52,083 FLX-250 38.4 24.2 103,306 65,104 FLX-300 48.7 34.9 85,960 61,602 FLX-350 48.7 34.9 100,287 71,869 FLX-400 70.6 54.7 73,126 56,657 FLX-450 70.6 54.7 82,267 63,739 FLX-500 70.6 54.7 91,408 70,822 FLX-550 70.6 54.7 100,548 77,904 FLX-600 70.6 54.7 109,689 84,986 FLX-700 104.6 94.6 73,996 66,922 FLX-800 104.6 94.6 84,567 76,482 FLX-900 104.6 94.6 95,137 86,042 FLX-1000 128.9 116.5 85,837 77,580 FLX-1100 128.9 116.5 94,421 85,337 FLX-1200 128.9 116.5 103,004 93,095 Tube Attachment Construction of the Flexible Watertube Boiler includes a special tube -to -drum attachment that requires no welding or rolling (see Figure 3). The tube is fitted with a tapered ferrule, which is press-fit into the tube hole in the drum. The ferrule is welded to the tube at the fac- tory for both new and replacement tubes, so no field welding is required. The tube is held in place with a keeper plate. This tube attachment design reduces repair and maintenance costs, and also reduces the cost of field erection of new units. 19 Model FLX Boilers Commercial Boilers. Burner/Control Information 20 Figure 3. Model FLX Tube Attachment Burner Characteristics Burner information is shown inTable 15. Note that the model selection may vary for actual application factors (altitude, gas pressure, etc.). Table 15. Model FLX Burner Characteristics MODEL NO. BURNER MAXIMUM INPUT MBH BURNER MODEL FAN MOTOR (3450 RPM) VOLTAGE FLX-150 1500 PFVLG-15 115/230/1/60 FLX-200 2000 PFVLG-20 115/230/1/60 FLX-250 2500 PFVLG-25 115/230/1/60 FLX-300 3000 PFVLG-30 115/230/1/60 FLX-350 3500 PFVLG-35 208/230/1/60 FLX-400 4000 PFVLG-40 208/230/1/60 FLX-450 4500 PFVLG-45 208-230/460/3/60 FLX-500 5000 PFVLG-50 230/460/3/60 FLX-550 5500 PFVLG-55 230/460/3/60 FLX-600 6000 PFVLG-60 460/3/60 FLX-700 7000 PFVLG-70 460/3/60 FLX-800 8000 PFVLG-80 460/3/60 FLX-900 9000 PFVLG-90 460/3/60 FLX-1000 10000 PFVLG-100 460/3/60 FLX-1100 11000 PFVLG-110 460/3/60 FLX-1200 12000 PFVLG-120 460/3/60 Notes: 1 Burner model selection shown is subject to changed and is based on actual application (altitude, gas pressure, reduced NOx, etc.) 2 Standard voltage for Canadian applications is 575/3/60. 3 Bumer operation is Full Modulation on Elite Series and for the Econo series Low High Low for units 150 - 600 and modulated firing on 700 and greater. 4 Burner models shown are for combination gas/oil firing. For straight gas, delete the letter L, and for straight oil, delete the letter G. cleaversrooksi)) Commercial ,Boilers Model FLX Boilers Minimum Required Gas Pressures Approximate gas pressure required at rated input is shown in Table B1-10. For oversized gas trains or altitudes above 1,000 feet, contact your local Cleaver -Brooks authorized represen- tative. Table 16. Model FLX Minimum Required Gas Pressure M • • L NO. STD GAS TRAIN SIZE (IN.) Note 3 MIN. GAS PRESSURE (IN.W.C.) Note 4 MIN. GAS PRESSURE (IN.W.C.) Note 5 BURNER MOD FLX-150 1 11.2 12.5 PF .-15 FLX-200 1 19.4 21.7 VG -20 FLX-250 1.5 12.4 15.7 PFVG-25 FLX-300 15.9 20.7 PFVG-30 FLX-350 1.5 15.5 22.0 PFVG-35 FLX-400 1.5 18.7 PFVG-40 FLX-450 2 16.0 26.7 PFVG-45 FLX-500 2 21.0 PFVG-50 FLX-550 2 22.9 27.1 PFVG-55 FLX-600 2 20. 24.9 PFVG-60 FLX-700 2 .2 31.9 PFVG-70 FLX-800 2.5 19.9 PFVG-80 FLX-900 2.5 24.7 27.7 PFVG-90 FLX-1000 2.5 31.6 31.6 PFVG-100 FLX-1100 2 37.3 37.3 PFVG-110 FLX-1200 2.5 38.2 38.2 - G-120 Notes: 1. Table is based on '00 Btu/cu.ft natural gas and elevation to 1000 feet. 2. Minimum ga .ressure also applies to 200 fuel series. 3. As an . on, the standard gas train can be replaced with an oversized design to reduce inlet gas pressure requirements. 4. U his column for all U.S. Installations. Use this column for all Canadian Installations. Note: See Item 18 in the Scope of Supply for gas pressure requirements. Fuel Connections - Gas The local gas company should be consulted for requirements and authorization for installa- tion and inspection of gas supply piping. Installation of gas supply piping and venting must be in accordance with all applicable engineering guidelines and regulatory codes. All con- nections made to the boiler should be arranged so that all components remain accessible for inspection, cleaning and maintenance. A drip leg should be installed in the supply piping before the connection to the gas pressure regulator. The drip leg should be at least as large as the inlet fitting supplied with the boiler. Consideration must be given to both volume and pressure requirements when choosing gas supply piping size. Refer to the boiler dimension diagram provided by Cleaver -Brooks for the particular installation. Connections to the burner gas train should be made with a union, so that gas train components or the burner may be easily disconnected for inspection or ser- vice. Upon completion of the gas piping installation, the system should be checked for gas leakage and tight shutoff of all valves. Fuel Connections - Oil Oil -fired burners are equipped with an oil pump, which draws fuel from a storage tank and supplies pressurized oil to the burner nozzle(s). The burner supply oil pump has a greater capacity than the burner requires for the maximum firing rate. Fuel not delivered to the noz- zle is returned to the storage tank. A two -pipe (supply and return) oil system is recom- CleaverBrooks 21 Model FLX Boilers Commercial Boilers, 22 mended for all installations. Figure 4 shows a typical fuel oil supply arrangement. Oil lines imust be sized for the burner and burner supply oil pump capacities. Figure 4. Model FLX Oil Burner Supply Pump Installation *NOT FURNISHED BY CLEAVER -BROOKS CHECK VALVE* (NOTE 2) SUPPLY TO BURNER RETURN FROM BURNER OIL PRESSURE GAUGE1 L---- OIL PU P (NOTE 1) VACUUM GAUGE* STRAINER* �` ktf) T i f 'Ir 11� * _--- ,0i�, - t r-- l4 SUPPLY TO PUMP* if! RETURN TO TANK* I I LJ SHUTOFF VALVES* NOTES: 1. OIL PUMP CONFIGURATION AND CON- NECTIONS VARY WITH BURNER DESIGN AND CAPACITY REFER TO FLX OPERAT- ING PERATING AND MAINTENANCE MANUAL FOR SPECIFIC INFORMATION. 2. LOCATION OF CHECK VALVE VARIES WITH SYSTEM. CHECK VALVE IS USU- ALLY LOCATED AS CLOSE AS POSSIBLE TO TANK OUTLET. The burner supply oil pump suction should not exceed 10" Hg. If a transfer pump is used, it must have a pumping capacity at least equal to that of the burner pump(s). Supply pressure to the burner pump should not exceed 3 psig. A strainer must be installed in the supply piping upstream of the burner supply pump in order to prevent entry of foreign material into the pump, fuel control valves, or burner noz- zle(s). The strainer must be sized for the burner supply pump capacity. A strainer mesh of 150 microns (0.005") is recommended. Install a check valve in the line to prevent draining of the oil suction line when the burner is not in operation. Location of the check valve varies with the system, but usually it is located as close as possible to the storage tank. Installation of a vacuum gauge in the burner supply line between the burner oil pump and the strainer is recommended. Regular observation and recording of the gauge indication will assist in determining when the strainer needs servicing. Upon completion of the oil piping installation, the system should be checked for oil or air leakage and for tight shutoff of all valves. CleaverBrooks' Sound Levels (dBA) Table 17. Model FLX Sound Levels SOUND LEVEL FIRING RATE MODEL NO. 150 200 250 300 350 400 450 500 550 600 700 800 900 1000 1100 1200 Low Fire (dBA) 75 75 76 75 75 77 78 79 79 79 81 81 83 79 82 85 High Fire (dBA) 76 76 77 76 76 78 79 80 80 80 82 82 83 81 83 86 Measurement: Three feet from front center of boiler, and 3-1/2 feet above boiler base.. Measurements are decibel ratings on the A -weighted scale, registered without addition of sound attenuators, mufflers, or silencers. Sound pressure data taken on combination fuel burners firing oil. Sound pressure levels firing natural gas will be 0.5 dBA lower. Boiler Room Information The boiler must be installed on a non-combustible floor. If the floor is not level, piers, or a raised pad, slightly larger in length and width than the boiler base dimensions, will make boiler installations and leveling easier. Installation on a raised pad or piers will make boiler drain connections more accessible. The floor, pad, or piers must be of sufficient load bearing strength to safely support the operating weight of the boiler and any additional equipment installed with it. Approximate operating weights for Model FLX series steam and hot water boilers are shown in Dimensions and Ratings. After the boiler is in place it must be leveled. Both side-to-side and front -to -back level can be verified using the vertical connection between the upper and lower drums at the back of the boiler. If shims are required to level the boiler, the weight of the boiler must be evenly distrib- uted at all points of support. The boiler must be installed so that all components remain accessible for inspection, cleaning, or maintenance. Field- installed piping and electrical connections to the burner and boiler must be arranged to allow removal of the casing panels, and swinging of the burner. Minimum clearances to walls or other obstructions and combustible materials are shown in "Model FLX Clearance Requirements" on page 24. The top view shows areas that must be kept clear of field installed connections to the boiler for access or maintenance purposes. A positive means of supplying a volume of outside air for complete fuel combustion is required. Proper ventilation of the boiler room must be provided. The amount of air required, and the required duct and air supply opening areas, are determined by the maximum fuel input rating of the burner and the altitude of the installation. Refer to Table B1-12. Air inlets must be sized in accordance with applicable engineering guidelines and regulatory code. Outdoor Reset Control Cleaver -Brooks does not recommend the use of outdoor controls which reset the boiler water outlet temperature below 150 °F, or the utilization of the boiler as a system thermostat. Breechings For single boiler installations, use breeching of the same diameter as the vent outlet on the boiler. For multiple boiler installations, and when a number of boilers of the same size (input) are to be connected to a common breeching, sections should be sized appropriately to accom- modate the total flue gas volume. Stack Support Capabilities Flextube boilers can support up to 200 lbs without additional support. 23 Model FLX Boilers Commercial Boilers 24 Figure 5. Model FLX Clearance Requirements rill/W/1/MB �l ■. 11.1. r_ ■ J / /////// MODEL NO. SIDES A TOP B FRONT C REAR D FLX-150 - 250 28 18 48 24 FLX-300 - 350 32 18 48 24 FLX-400 - 600 34 18 60 24 FLX-700 - 1200 40 18 60 24 NOTE: Top Dimension from boiler to top ofstack based on stack selection. REAR BURNER SWUNG OPEN SIDE C cleaMereroacs•1e Commercial Boilers Model FLX Boilers Table 18. Combustion Air Requirements MODEL NO. 150 200 250 300 350 400 450 500 550 600 700 800 900 1000 1100 1200 Comb Air (Dry) Gas (scfh) (Ib/hr) 15480 20640 25800 30960 36120 41280 46440 51600 56760 61920 72240 82560 92280 103200 113520 123840 1207 1609 2012 2414 2817 3219 3621 4024 4426 4828 5633 6438 7243 8048 8853 9657 Oil(scth) (lb/hr) 17050 22733 28414 34098 39782 45463 51146 56831 62514 68196 79562 90928 102294 113662 125028 136394 1269 1692 2115 2538 2961 3384 3807 4231 4654 5077 5923 6769 7640 8462 9308 10154 Flue Gas (Dry) Gas (scfh) (lb/hr) 17520 23360 29200 35040 40880 46720 52560 58400 64240 70080 81760 93440 105120 116800 128480 140160 1278 1704 2130 2556 2983 3409 3835 4261 4687 5113 5965 6817 7669 8521 9373 10225 Oil(scfh) (1b/hr) 17915 23886 29855 35827 41799 47769 53740 59713 65684 71655 83598 95541 107484 119427 131370 143312 1357 1809 2261 2714 3166 3618 4070 4523 4975 5427 6330 7237 8142 9047 9951 10856 NOTES: 1. Natural gas @ 1000 Btu/cu-ft. 2. No. 2 oil @ 140,000 Btu/gal. Figure 6. Model FLX Breeching Arrangement - Single or Multiple Boiler Installation TIGHT SEAL CLEANOUT r MANUAL DAMPElt (LOCK OPEN) BREECHING EST SERV o-� Ne 11111111r:' CLEANOUT 11 () DRAIN 11 CONNECTION 11 11 PIPE DRAIN TO A SAFE POINT (I OF DISCHARGE CleaverBrooks' 25 GAS/OIL COMBINATION FIRED BURNERS OilCleaverBmoks® PROFIRE V SERIES TECHNICAL DATA INFORMATION PACKET Technical Data V Series Uncontrolled Emissions Configuration (VG, VL, VLG) 1.3 - 16.8 MM BTU/H NG; 9.3 - 120 GPH #2 OIL UL listed with choice of NFPA, CSD -1, GAP, and FM for U.S. or Canadian units Standard equipment: Combustion Control System options: Fuel options: 3450 RPM motor, panel signal lights (Power Parallel Positioning Combustion Main Fuel: Natural gas (VG), #2 oil - On, Main Fuel, Ignition, Flame Failure), combustion air proving switch, safety shutoff Control System with O2 Trim and Variable Frequency Drive (VFD) pressure atomized (VL) or Combination gas/ #2 oil - pressure atomized (VLG). valves, 120/1/60 control circuit, burner mounted panel with standard or inverted Open Damper Purge Control with UV Scanner Igniter Fuel: Natural gas and/or propane. configuration, and a shipped loose gas train 0 Fuel Changeover Switch: Combination (where applicable). • gas/oil units only (VLG). Series Features 0 Optional Feature Flame Safeguard Limited Damper Purge Control with UV Scanner •' • •1 •' •f Open Damper Purge Control with UV Scanner 0 0 0 0 0 • • Turndown Up to 10:1 on Natural Gas •2 •2 •2 •2 •2 •2 •2 Mode of Operation On -Off Firing • Low -High -Off Firing 0 • Low -High -Low Firing 0 0 0 0 0 Full Modulation Firing 0 0 0 0 0 • • Auto -Manual Firing Rate Control •3 •3 03 •3 •3 •3 •3 Ignition Gas/Electric Pilot and Ignition Transformer (VGNLG) •4 •4 j4 •4• Dual Ignition (VLG) 0 0 0 0 0 Direct Spark (VL) • • • • Oil Components Directly Driven Oil Pump Set • Separately Driven Oil Pump Set 0 0 0 0 • Simplex Oil Nozzle • • Return Flow Oil Nozzle 0 • • - • - Gas Components Butterfly Rate Control Valve 05 • • • • High & Low Gas Pressure Interlocks 0 • • - • Gas Shutoff Cocks (2) • • • •• ' LDP (60% air above 2,500 - 6,300 MBH). <2,500 MBH, purge is at low -fire damper setting 3 High turndown on gas requires the Siemens SQM mod motor or a parallel positioning system (VLG burners only) ' Standard for full modulation; optional on select parallel positioning systems ° Optional for VL models 13-55 Standard for low -high or full modulation 2 Standard Ratings V Series VG - VL - VLG: Gas, #2 Oil, Gas/Oil Configuratio Oil Input GPH Remote Oil Pump Motor HP' Standard Gas Train Pipe Size (in.) Model No. & Frame Size V-13-1 1,300 9.3 31 1/2 3/4 1/2 0.4 1 8.6/9.25 V-15-1 1.500 10.7 36 1/2 3/4 1/2 0.5 1 11.4/11.75 V-17-1 1.700 12.1 40 1/2 3/4 1/2 0.7 1 14.3/14.75 V-20-1 2,000 14.3 48 3/4 1 1/2 0.9 1 19.7/20.25 V-21-1 2,100 15.0 50 3/4 1 1/2 1.0 1 21.5/22.15 "' V-25-1 2,500 17.9 60 3/4 1 1/2 1.21 1/2 N 9.6/10.45 0 V-30-1 3,000 21.4 71 3/4 1 1/2 1.4 2 8.7 1 V-34-1 3,400 24.3 81 3/4 1 1/2 1.8 2 10.3 V-35-2 3,500 25.0 83 1 11/2 1/2 1.9 2 8.1 V-40-2 4,000 28.6 95 1 1 1/2 1/2 1.2 2 10.4 V-42-2 4,200 30.0 100 11/24 2 1/2 1.3 2 11.5 V-45-2 4,500 32.1 107 2 2 1/2 1.4 2 10.8 V-50-2 5,000 35.7 119 2 3 3/4 1.8 2 13.6 iv 0 V-54-2 5,400 38.6 129 3 3 3/4 2.1 2 03 19.2 N V-55-2 5,500 39.3 131 3 3 3/4 2.2 2 19.7 0 V-60-3 6,000 42.9 143 5 3/4 2.7 2 17.6 0 V-63-3 6,300 45.0 150 5 - 3/4 1.8 2 19.3 w V-70-3 7,000 50.0 167 5 - 3/4 2.2 21/2 15.7 V-80-3 8,000 57.1 190 5 - 1 2.8 21/2 14.8 V-84-3 8,400 60.0 200 71/2 - 1 3.1 21/2 15.2 V-90-3 9,000 64.3 214 7 1/2 - 1 1/2 3.5 2 1/2 17.4 V-100-3 10,000 71.4 238 10 - 11/2 2.7 21/2 20.5 V-105-3 10,500 75.0 250 10 - 11/2 2.8 21/2 44.7 .P V-110-3 11,000 78.6 262 10 - 1 1/2 3.0 2 1/2 48.7 0 V-120-4 12,000 85.7 286 15 - 11/2 3.6 21/2 34.2 w V-126-4 12,600 90.0 300 15 - 11/2 4.3 2 49.1 V-147-4 14,700 105.0 350 15 - 1 1/2 4.3 2 2.5 PSI V-168-4 16,800 120.0 400 15 - 1 1/2 1.0 2 3.1 PSI 1 Motor ratings for gas only or gas/oil burners using a remote oil pump 2 Motor ratings for oil only and gas/oil burners using a direct drive oil pump 'Remote oil pump is optional for frame size 1 and 2 but standard for frame sizes 3 and 4. All pump motors are 115/230/1 41 1/2 HP blower motor voltage is 115/230/1 'Low/High and Full Modulation minimum gas pressure Input is based on fuel BTU content, listed furnace pressure and altitude of 2,000 feet or less. If altitude > 2,000 feet and < 8,000 feet, derate capacity 4% per 1,000 feet over 2,000. Consult factory for higher altitudes. If furnance pressure exceeds listed value, derate capacity 5% for every 0.5" w.c. of pressure in excess of stated. Consult factory if derate exceeds 20%. Gas input is based on natural gas with 1,000 BTU/ cu.ft. and 0.60 gravity. For total pressure at manifold, ado furnace pressure. Oil input based on 140,000 BTU/gal. Consult factory for 50 Hz. applications. Standard Dimensions V Series VG - VL - VLG: Gas, #2 Oil, Gas/Oil Configuration Standard Configuration Inverted Configuration Accompanying dimensions, while sufficiently accurate for layout purposes, must be confirmed for construction. 4 DIM 1 Burner Frame Size 2 Size Size 1 Size 3 Size 4 Length in inches Overall length A 37 1/4 40 3/8 45 1/4 51 1/8 Width in inches Center line to right side (Standard) M 14 13 5/8 16 7/8 21 7/8 Center line to left side (Standard) N 12 7/16 13 7/8 15 1/4 15 1/4 Center line to right side (Inverted) N 12 7/16 13 7/8 15 1/4 15 1/4 Center line to left side (Inverted) S 14 13 5/8 16 7/8 21 7/8 Height in inches Center line to top (Standard) J 9 1/2 9 1/8 8 3/8 9 3/4 Center line to bottom (Standard) K 11 3/4 14 7/16 18 5/8 19 1/4 Center line to burner support (Standard) P 11 3/4 14 7/16 18 5/8 19 1/4 Center line to top (Inverted) R 28 30 5/8 34 3/4 35 1/2 Center line to center line of main gas inlet (Inverted) 0 6 7/8 8 7/8 10 1/8 11 3/4 Blast tube dimensions in inches Extension (Standard) C STD 4 4 4 5 Extension (Maximum) C MAX 5 5 5 6 Diameter D STD 8 1/4 10 11 1/2 13 5/8 I Panel box depth in inches Panel box depth G 7 3/8 7 3/8 7 3/8 7 3/8 Mounting flange dimensions in inches Diameter H 12 7/8 15 16 3/4 17 1/2 Bolt circle diameter I 11 1/4 13 1/4 15 1/4 15 3/8 Gas inlet measurement in inches Center line to main gas inlet L 9 5/8 9 5/8 10 1/2 11 Mounting flange to main gas inlet E 6 7/8 7 1/4 7 5/8 9 1/2 Accompanying dimensions, while sufficiently accurate for layout purposes, must be confirmed for construction. 4 CleaverBrooks° Packaged Burner Systems 351 21st Street, Monroe, WI 53566 USA 608.325.3141 • info@cleaverbrooks.com cleaverbrooks.com Printed in the USA ©2015 Cleaver -Brooks, Inc CB -8315 02/15 BOILER CONTROLS r MASTER PANEL 8 HAWK MASTER PANEL 8 LEAD/LAG for up to EIGHT BOILERS Provides Lead/Lag control for up to eight boilers when used in conjunction with the HAWK integrated boiler control system. 1111711014 10:31:54 AM 2 Boilers Required Bolger A. Boller B 192.168.1.101 192.168.1.102 Status 1 Working tCleaverBrook Boiler C Holier D 192.168.1.103 192.168.1.104 1 2 3 Control 45.7 45.7 0 4 0 Holler 8 Boller F Bo11er G Boller H 192.168.1.305 192.168.1.106 192.168.1.101 192.168.1.108 �m Status !,: �' � i � ',,... , „ . Working a S { � 0 5 6 Control 0 0 Auto Sequence Rotation in 86 Nr TM Min 86 Sec 7 0 8 0 Overview Screen Select Firing Rate Set Points Setup 1 Setup 7 8 Seri Pressure 122 Ser point 122`_ Psig (lapsed A1srr Tirne History FEATURES AND BENEFITS Controls Header Pressure and Temperature: • Maintains steam pressure or hot water supply temperature based on system load demand. • Compensates for varying losses between boiler and header. Benefits: • Maximizes system efficiency. • Reduces cycling and boiler wear, thereby reducing maintenance and downtime costs. • System shall be provided with a sequence to automatically rotate sequence in which the boilers are fired. Rotation shall be based on the elapsed time. • Optimizes fuel savings. Lead/Lag Start with Lead/Lag Modulation: • Lead boiler operates at full capacity prior to starting lag boiler #1. • Lag boiler #1 starts when the lead boiler's firing rate is close to the maximum. Operator can select this parameter via HMI. • Lag boiler #1 starts modulation when the lead boiler reaches the maximum firing rate position. • Subsequent lag boilers operate in the same fashion. • Ideal for steam boilers. MASTER PANEL 8 Lead/Lag Start with Unison Modulation: • Lead boiler operates at full capacity prior to starting the lag boiler. • All boilers operate at the same firing rate as the lead boiler. • Ideal for Hot Water boiler systems. PRODUCT OFFERING Cleaver -Brooks shall supply the following equipment: • Boiler control for each boiler shall be the HAWK. • Pressure (Steam) or temperature (Hot Water) transmitter shipped loose for mounting in the common header. • Master Control Panel shipped loose for field mounting. • Requires Ethernet/IP Communication Option 2 Cleaver6rooks' ELECTRICAL NOMENCLATURE MNEMONIC DESCRIPTION BMPR A A Amber (Color Of Pilot Light) AAFL Atomizing Air Failure Light AAFR Atomizing Air Failure Relay AAPL Atomizing Air Proven Light AAPS Atomizing Air Proving Switch AAPS -B Atomizing Air Proving Switch- Burner AAPS -C Atomizing Air Proving Switch- Compressor AASS Atomizing Air Selector Switch AB Alarm Bell ACCR Air Compressor Control Relay ACM Air Compressor Motor ACMCB Air Compressor Motor Circuit Breaker ACMF Air Compressor Motor Fuses ACMS Air Compressor Motor Starter ACMSi Air Compressor Motor Starter interlock AH Alarm Horn Al Analog input ALFCO Assured Low Fire Cutoff ALFR Assured Low Fire Relay ALWCO Auxiliary Low Water Cutoff AM Ammeter AMS Atomizing Media Switch ANLL COM Analog Common AO Analog Output AOV Auxiliary Oil Valve APR Air Purge Relay APV Air Purge Valve AR Alarm Relay AS Auxiliary Switch (Suffix) ASR Alarm Silencing Relay ASS Alarm Silencing Switch ASV Atomizing Steam Valve AT Annunciator Transformer AWCBDS Auxiliary Water Column Blowdown Switch CWPR B B Blue (Color of Pilot Light) BC Bias Control BDCS Breeching Damper Closed Switch BDOS Breeching Damper Open Switch BDRS Blowdown/Reset Switch BFPL Boiler Feed Pump Light BFPM Boiler Feed Pump Motor BFPMCB Boiler Feed Punip Motor Circuit Breaker BFPMF Boiler Feed Punip Motor Fuses BFPMS Boiler Feed Pump Motor Starter BFPS Boiler Feed Pump Switch BFTS Back Flow Temperature Switch BHS Boiler - Header Switch BTOL Boiler in Operation Light BIOR Boiler In Operation Relay BM Blower Motor BMCB Blower Motor Circuit Breaker BMCR Blower Motor Control Relay BMF Blower Motor Fuses C23-3862 REV 11 2011 MNEMONIC DESCRIPTION BMPR Blower Motor Power Relay BMPS Blower Motor Purge Switch BMR Blower Motor Relay BMS Blower Motor Starter BMSI Blower Motor Starter Interlock BMSS Boiler Master Selector Switch BR BY -Pass Relay BS Burner Switch BSS Boiler Selector Switch BWPM Booster Water Pump Motor BWT Booster Water Thermostat C CAFL Combustion Air Failure Light CAFR Combustion Air Failure Relay CAP Capacitor CAPS Combustion Air Proving Switch CCCB Control Circuit - Circuit Breaker CCF Control Circuit Fuse CCRS Control Circuit Reset Switch CCT Control Circuit Transformer CFR Chemical Feed Relay CiPL Changeover in Progress Light CL Canopy Light CLS Canopy Light Switch COPS Changeover Pressure Switch COR Changeover Relay COTD Changeover Time Delay CPOL Control Power on Light CR Control Relay CSSS Control System Selector Switch CWPM Circulating Water Pump Motor CWPMCB Circulating Water Pump Motor Circuit Breaker CWPMF Circulating Water Pump Motor Fuses CWPMS Circulating Water Pump Motor Starter CWPMSI Circulating Water Pump Motor Starter Interlock CWPR Circulating Water Pump Relay CWPS Circulating Water Pump Switch CWSV Cooling Water Solenoid Valve D D Denotes Digester Gas Equipment (Prefix) DARR Deaerator Automatic Recirc Relay DCVM Direct Current Voltmeter DER Drive Energized Relay DG Draft Gauge DGHPV Digester Gas Housing Purge Valve DGR Digester Gas Relay DHWC Deaerator High Water Control DHWL Deaerator High Water Light DHWR Deaerator High Water Relay DI Digital Input DiSC Disconnect (Entrance Switch) DLWC Deaerator Low Water Control DLWL Deaerator Low Water Light DLWR Deaerator Low Water Relay DM Damper Motor MNEMONIC DESCRIPTION DMT Damper Motor Transformer DNS Day -Night Switch DO Digital Output DODE Delay On Deenergization (Tinier) DOE Delay On Energization (Tinier) DPS Damper Positioning Switch DS Door Switch HFS-A E EDS Emergency Door Switch ESS Emergency Stop Switch ETM Elapsed Time Meter HHFL F FADM Fresh Air Damper Motor FARC Fuel Air Ratio Controller FADR Fresh Air Damper Relay FD Flame Detector FDJB Flame Detector Junction Box FDPS Flow Differential Pressure Switch FFA Flame Failure Alarm FFL Flame Failure Light FFR Flame Failure Relay FGR Flue Gas Recirculation FGRCDTD Flue Gas Recirculation Cool Down Time Delay FGRCPS Flue Gas Recirculation Cam Position Switch FGRFM Flue Gas Recirculation Fan Motor FGRFMS Flue Gas Recirculation Fan Motor Starter FGRFMSI Flue Gas Recirculation Fan Motor Starter Interlock FGRMVLS Flue Gas Recirculation Manual Valve Limit Switch FGRTD Flue Gas Recirculation Time Delay FORS First Out Reset Switch FPM Feed Pump Motor FPMS Feed Punip Motor Starter FPR Feed Pump Relay FPS Feed Pump Switch FRi Firing Rate interface FRP Firing Rate Potentiometer 102 Trim) FS Flow Switch FSS Fuel Selector Switch FSSM Flame Signal Strength Meter FVEL Fuel Valve Energized Light FVL Fuel Valve Light FVR Fuel Valve Relay FWC Feed Water Control FWVT Feed Water Valve Transformer IR G G Green (Color Of Pilot Light) GBR Gas Booster Relay GGL Gauge Glass Light GOL Gas Operation Light GOR Gas -Oil Relay GOS Gas -Oil Switch GPS Gas Pressure Sensor GPV Gas Pilot Valve GPVV Gas Pilot Vent Valve GR Gas Relay GSL Green Stack Light GSSV Gas Sensor Solenoid Valve CiVEL Gas Valve Energized Light GVTS Gas Valve Test Switch LFGV H HATC High Ambient Temperature Control HBWTC High Boiler Water Temperature Control 2 MNEMONIC 1 DESCRIPTION ' HBWTL High Boiler Water Temperature Light HFAV High Fire Air Valve HFGV High Fire Gas Valve HFL High Fire Light HFOV High Fire Oil Valve HFPS High Furnace Pressure Switch HFS High Fire Switch HFS-A High Fire Switch - Air HGPL High Gas Pressure Light HGPR High Gas Pressure Relay HGPS High Gas Pressure Switch HHFL Header High Fire Light H/LWA High Low Water Alarm HLC High Limit Control HLFC High -Low Fire Control HLPC High Limit Pressure Control HLTC High Limit Temperature Control HMC Header Modulating Control HOl Heavy Oil isolation HOPL High Oil Pressure Light HOPR High Oil Pressure Relay HOPS High Oil Pressure Switch HOLC Header Operating Limit Control HOTL High Oil Temperature Light HOTR High Oil Temperature Relay HOTS High Oil Temperature Switch HPCO High Pressure Cutoff HSPC High Steam Pressure Control HSPL High Steam Pressure Light HSPR High Steam Pressure Relay HSTC High Stack Temperature Control HSTL High Stack Temperature Light HSTS High Stack Temperature Switch HWA High Water Alarm HWAR High Water Alarm Relay HWC High Water Control HWCO High Water Cutoff HWL High Water Light HWR High Water Relay i (i.C.) instantaneously Closed (I.0.) Instantaneously Open iL ignition Light iNT interval (Timer) IR Ignition Relay iT ignition Transformer iVPR isolation Valve Proximity Relay IVPS Isolation Valve Proximity Switch J JPP Jackshaft Position Potentiometer L LAMPS Low Atomizing Media Pressure Switch LAPR Low Air Pressure Relay LAPS Low Air Pressure Switch LASPS Low Atomizing Steam Pressure Switch LDL Load Demand Light LDPS Low Differential Pressure Switch LDS Low Draft Switch LFAV Low Fire Air Valve LFGV Low Fire Gas Valve LFHTD Low Fire Hold Time Delay LFL Low Fire Light C23-3862 REV 11 2011 MNEMONIC DESCRIPTION LFOV Low Fire Oil Valve LFPS Low Fire Pressure Switch LFR Low Fire Relay LFS Low Fire Switch LFS-A Low Fire Switch - Air LFS-F Low Fire Switch - Fuel LFS-G Low Fire Switch - Gas LFS-0 Low Fire Switch - Oil LFTC Low Fire Temperature Control LGPL Low Gas Pressure Light LGPR Low Gas Pressure Relay LGPS Low Gas Pressure Switch LIAPS Low Instrument Air Pressure Switch LLPC Low Limit Pressure Control LLPR Low Limit Pressure Relay LLR Lead Lag Relay LLTC Low Limit Temperature Control LLTR Low Limit Temperature Relay LOPL Low Oil Pressure Light LOPR Low Oil Pressure Relay LOPS Low Oil Pressure Switch LOTL Low Oil Temperature Light LOTR Low Oil Temperature Relay LOTS Low Oil Temperature Switch LPAPS Low Plant Air Pressure Switch LPCO Low Pressure Cutoff LPS Low Pressure Switch LPSR Limit Proximity Switch Relay LSPAR Low Steam Pressure Alarm Relay LSPC Low Steam Pressure Control LSPL Low Steam Pressure Light LSPR Low Steam Pressure Relay LSPS Low Steam Pressure Switch LTS Lamp Test Switch LWA Low Water Alarm LWAR Low Water Alarm Relay LWCO Low Water Cutoff LWFL Low Water Flow Light LWL Low Water Light LWR Low Water Relay LWRR Low Water Reset Relay OPMS M MA Milli -amp MAS Manual - Automatic Switch MAM Micrometer MC Modulating Control MCS Manual Control Switch MDM Modulating Damper Motor MDMAS Modulating Damper Motor Auxiliary Switch MFC Manual Flame Control (Potentiometer) MFGRTS Minimum Flue Gas Recirculation Temperature Switch MFVL Main Fuel Valve Light MFWV Motorized Feed Water Valve MGV Main Gas Valve MGVAS Main Gas Valve Auxiliary Switch MGVEL Main Gas Valve Energized Light MGVV Main Gas Vent Valve MLC Modulating Level Control (MOM) Momentary MOP Main Oil Pump MOPS Main Oil Pump Starter MOV Main Oil Valve C23-3862 REV 11 2011 MNEMONIC DESCRIPTION MOVAS Main Oil Valve Auxiliary Switch MOVEL Main Oil Valve Energized Light MPC Modulating Pressure Control MPCB Main Power Circuit Breaker MPP Manual Positioning Potentiometer (MR) Manual Reset MTC Modulating Temperature Control MV Motorized Valve MVA Make -Up Valve Actuator N N Denotes Natural Gas Equipment (Prefix) (N.C.) Normally Closed (N.0.) Normally Open NFL No Flow Light NFR No Flow Relay NGHPV Natural Gas Housing Purge Valve NGR Natural Gas Relay NRLR Nonrecycle Limit Relay 0 ODA Outlet Damper Actuator ODAS Outlet Damper Auxiliary Switch ODM Outlet Damper Motor ODMAS Outlet Damper Motor Auxiliary Switch ODMT Outlet Damper Motor Transformer ODS Oil Drawer Switch OH Oil Heater OHCB Oil Heater Circuit Breaker OHF Oil Heater Fuses OFIR Oil Heater Relay OHS Oil Heater Switch OHT Oil Heater Thermostat OLC Operating Limit Control OLPC Operating Limit Pressure Control OL'S Thermal Overloads OLTC Operating Limit Temperature Control OMPM Oil Metering Punip Motor OMPMF Oil Metering Pump Motor Fuse OOL Oil Operation Light OPM Oil Pump Motor OPMCB Oil Pump Motor Circuit Breaker OPMF Oil Pump Motor Fuses OPMS Oil Pump Motor Starter OPPM Oil Purge Pump Motor OPR Oil Purge Relay OPRL Oil Pump Running Light OPRS Oil Pressure Sensor OPS Oil Pump Switch OPSPM Oil Pump Supply Pump Motor OPV Oil Purge Valve OR Oil Relay ORV Oil Return Valve OSOV Oil Shutoff Valve OSPS 02 Set Point Switch OSS Oil Selector Switch OT Outdoor Thermostat OTPR Oil Transfer Pump Relay OTS Oil Temperature Sensor OV Oil Valve OVAS Oil Valve Auxiliary Switch OVEL Oil Valve Energized Light P P Denotes Propane Gas Equipment (Prefix) 3 MNEMONIC DESCRIPTION PAASV Plant Air Atomizing Solenoid Valve PAPS Purge Air Proving Switch PC Pump Control PCL Purge Complete Light PCR Punip Control Relay PFCC Power Factor Correction Capacitor PFFL Pilot Flame Failure Light PFFR Pilot Flame Failure Relay PFPS Positive Furnace Pressure Switch PIIGPS Pilot High Gas Pressure Switch PiPL Purge in Progress Light PiS Pilot ignition Switch PLC Programmable Logic Controller PLGPS Pilot Low Gas Pressure Switch POL Power On Light POV Pilot Oil Valve PPL Pre -Purging Light PPR Post Purge Relay PPTD Post Purge Time Delay PR Program Relay PRL Purge Ready Light PRPTD Pre -Purge Time Delay PR Program Relay PRPTD Per -Purge Time Delay PS Power Supply PSF Power Supply Fuse PSS Pump Selector Switch PSV Purge Solenoid Valve PT Purge Timer PTS Pump Transfer Switch PUCR Purge Complete Relay PUR Purge Relay PV Panelview TPMF R R Red (Color of Pilot Light) RAR Remote Alarm Relay RATD Remote Alarm Time Delay RES Resistor RML Run Mode Light RMR Release To Modulate Relay RS Range Switch RSL Red Stack Light RSR Remote Start Relay RTD Resistance Temperature Detector VSD S SBFPL Stand By Feed Pump Light SBFPM Stand By Feed Pump Motor SBFPMCB Stand By Feed Pump Motor Circuit Breaker SBFPMF Stand By Feed Pump Motor Fuses SBFPMS Stand By Feed Pump Motor Starter SBOV Surface Blow Off Valve SBPS Sootblower Pressure Switch SBR Sootblower Relay SC Scanner SCTS Supervisory Cock Test Switch SDHPS Stack Damper High Pressure Switch SDL Steani Demand Light SDOPS Stack Damper Open Proving Switch 4 MNEMONIC DESCRIPTION SER Serial SHT Steam Heater Thermostat SHV Steam Heater Valve SLCL Safety Limits Complete Light SPiR System Pump interlock Relay SPS Steani Pressure Sensor SS Selector Switch SSC Sequencing Step Controller SSL Safety Shutdown Light SSR Solid State Relay SSV Span Solenoid Relay STHWC Surge Tank High Water Control STHWL Surge Tank High Water Light STHWR Surge Tank I-Iigh Water Relay STLWC Surge Tank Low Water Control STLWL Surge Tank Low Water Light STLWR Surge Tank Low Water Relay STPDPS Surge Tank Pump Differential Pressure Switch T (T.C.) Timed Closed (T.O.) Timed Open TB Terminal Block T/C Thermocouple TC Tinie Clock TCR Tinie Clock Relay TD Time Delay TDAS Time Delay Auxiliary Switch TFWR Transistorized Feedwater Relay Ti Thermocouple Input TPCR Transfer Pump Control Relay TPL Transfer Pump Light TPM Transfer Pump Motor TPMCB Transfer Pump Motor Circuit Breaker TPMF Transfer Pump Motor Fuses TPMS Transfer Pump Motor Starter TPS Transfer Pump Switch TRX Transformer U UVFD Ultra -Violet Flame Detector V V Voltmeter VDR Voltage Differential Relay VFD Variable Frequency Drive VSR Variable Speed Drive Relay VSD Variable Speed Drive W W White (Color of Pilot Light) WC Water Column WCBDS Water Column Blow Down Switch WF Water Feeder WFNL Water Flow Normal Light WLC Water Level Control WO Denotes Waste Oil Equipment (Prefix) WTS Water Temperature Sensor Y Y Yellow (Color of Pilot Light) YSL Yellow Stack Light C23-3862 REV 11 2011 REVISIONS z z T18 4-1-1 8 Z 8 1 Note: For EXAMPLE only. Project specific diagram to be provided when available. 99- 0 O SS. B�L� O 8 v GOG 1=1 0 • o 0 gG 88 0 L L E L r 0 0 pp 0 0 0 0 0 0 0 8 e 0 0 0 0 0 K € K h R F X R R g K �p Y real 7 DO UP 19 4A la Y pry A B C D E WARRANTY INFORMATION CleaverBrooks• STANDARD WARRANTY Cleaver -Brooks warrants that the equipment, parts, and accessories manufactured by Cleaver -Brooks and identified in the proposal submitted by Cleaver -Brooks (collectively, "Equipment") shall conform in all material respects to the specifications contained in such proposal and such other specifications as may be otherwise expressly agreed to in writing by Cleaver -Brooks ("Warranty"). Cleaver -Brooks, at its option and in its sole and absolute discretion, may also grant additional or extended warranties with respect to the Equipment or any aspect thereof (collectively, "Extended Warranty"), which, if granted, shall be incorporated into and made a part of the Warranty. In the event of a conflict between the Warranty and any Extended Warranty, the terms of the Extended Warranty shall control. Neither the Warranty nor any Extended Warranty (if any) is assignable or transferrable or applies to Equipment or aspects of any Equipment that: (i) have been stored, installed, operated, maintained, repaired, or altered in a manner inconsistent with the applicable manual(s) for such Equipment or by persons not expressly approved or authorized by Cleaver -Brooks; (ii) have been damaged by accident, forces of nature, or abuse, erosive, or corrosive substances or contaminants; (iii) have been used other than for the Equipment's intended commercial purpose; (iv) was not manufactured by Cleaver -Brooks; (v) is defective in a manner that does not materially impair the normal operation of the Equipment; or (vi) is perishable, consumable, or expendable. Cleaver -Brooks hereby assigns to the purchaser of the Equipment all third -party warranties (if any) with respect to Equipment not manufactured by Cleaver - Brooks, to the extent assignable, but in no event shall such any other manufacturer's warranty create any warranty obligations of Cleaver -Brooks. THE WARRANTY AND ANY EXTENDED WARRANTY (IF ANY) ARE IN LIEU OF ALL OTHER WARRANTIES, WRITTEN OR ORAL, EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NON - INFRINGEMENT, ALL OF WHICH ARE EXPRESSLY DISCLAIMED. OTHER THAN THE WARRANTY AND EXTENDED WARRANTY (IF ANY), THE EQUIPMENT IS PROVIDED IN ITS "AS -IS, WHERE -IS" CONDITION. The Warranty is valid for twelve (12) months from the date of initial operation of the Equipment, but in no event shall the Warranty extend more than eighteen (18) months from the date of shipment of the Equipment by Cleaver -Brooks. All claims of a breach of the Warranty or any Extended Warranty (if any) shall be made within thirty (30) calendar days of the discovery of such breach by contacting Cleaver -Brooks' customer service center at 1-800-296-4110 to obtain information regarding contacting the appropriate local customer service representative. Failure to provide written notice whin such thirty (30) day period constitutes a waiver of all such claims. As to valid warranty claims, the sole and exclusive remedy shall be, at Cleaver -Brooks' option and in its discretion, the repair or replacement of the defective Equipment. All Equipment claimed to be defective pursuant to a valid warranty claim shall be, if required by Cleaver -Brooks, returned for inspection as directed, via Ex Works. Expenses incurred in connection with submitting a warranty claim, including, without limitation, returning the Equipment or any part thereof to Cleaver -Brooks, will not be reimbursed by Cleaver -Brooks. BeII & Gossett a xylem brand CIIIJIIICCCI J J1.11CUUICU pi UUUI.I. J Flel.1111.a11u11. LJL 1 1J.L.U.I• SUBMITTAL A-370 Auburn Medical Center CUP Phase II - Design Development - Auburn, WA Engineer: WSP Expansion Tanks ET -1 & ET -2 Representative: CHC Columbia Hydronics Company Contractor: Hermanson Company Date: 2/22/17 Quote: 16-0019-R5 Series "B" (ASME) Unpressurized Expansion Tanks Vertical Not For Potable Water Systems DESCRIPTION Series "B" expansion tanks are ASME rated unpressurized bladder -type pressure vessels. The Series "B" tank is designed to absorb the expansion forces of heating/cooling system water while maintaining proper system pressurization under varying operating conditions. The heavy duty bladder contains system water thereby eliminating tank corrosion and waterlogging problems. CONSTRUCTION System Connection: Forged Steel Shell: Carbon Steel Bladder: Heavy Duty Butyl Rubber Designed and Constructed per ASME Section VIII, Division 1 MAXIMUM OPERATING LIMITS Maximum Design Pressure: 125 PSI (862kPa) Design Temperature: 240°F (115°C) PART NUMBER MODEL NO. TANK AND ACCEPTANCE VOLUME GALLONS (LITERS) TAGGING INFORMATION QUANTITY UNPRESSURIZED EXPANSION TANKS 116955 8-200 53 (200) Revised for ET -1 116956 B-300 80(300) selection 116957 B-400 106 (400) 116958 8-500 132(500) 116959 B-600 158(600) 116960 B-800 211 (800) I 116961 B-1000 264 (1000) 4 116962 B-1200 317 (1200) I Expansion Tank ET -2 1 116963 B-1400 370(1400) 4 X16964 116965'- B-1600 422 (160L - 20 00 Expansion Tank ET -1 1 6-6 8-2500 660 (2500) 116967 B-3000 792(3000) 116968 B-3500 925(3500) 116969 8-4000 1057(4000) 116970 B-5000 1321 (5000) 116971 8-7500 1980(7500) 116972 B-10000 2640(10000) 116973 B-15000 3963(15000) TYPICAL SPECIFICATION Furnish and install as shown on plans a gallon ( liter) " ( mm) diameter x " ( mm) high unpressurized steel expansion tank with replaceable heavy duty Butyl rubber bladder. The tank shall have a " NPT system connection, " NPT drain, and a .302"-32 charging valve connection (standard tire valve) to facilitate the on-site charging of the tank to meet system requirements. Bell & Gossett is a trademark of Xylem Inc. or one of its subsidiaries. © 2012 Xylem. The tank shall be fitted with lifting rings and a floor mounting skirt for vertical installation. The tank must be constructed in accordance with Section VIII of the ASME Boiler and Pressure Vessel Code and stamped 125 PSI (862 kPa) working pressure. Each tank shall be Xylem - Bell & Gossett Model No. xylem Let's Solve Water ASME EXPANSION TANKS - UNPRESSURIZED (Air Elimination) A-370 LIFTING RING SYSTEM CONNECTION(C) FIG. 1 B DRAIN (0) FIG 2 CHARGING VALVE (.302" -32NC) LIFTING RING ANGLE CLIP DRAIN PLUG (0) FIG. 3 120' (TYP) (1BOLT CIRCLE (H) (J) (1) HOLE SIZE (G) NOTE: Tanks are factory unpressurized. Allow a minimum of 18"(457.2mm) clearance for system piping. Sight glass and seismic restraints available on request. Tanks can be installed in the horizontal position with the system connection located below the horizontal centerline of the tank. DIMENSIONS IN INCHES (MM) AND WEIGHTS IN LBS. (KG) (FIG. 1 OPTIONAL SEISMIC RESTRAINTS (FIG.2 & 3) - DIMENSIONS IN INCHES (MM) TANK DIAMETER G H I J 24" 9/16 (14) 21 (533) 2 (51) 2 (51) 30" 7/8 (22) 28 (711) 4 (102) 4 (102) 36" 7/8 34 4 4 19 (483) (22) (864) (102) (102) 48" 7/8 (22) 46 (1168) 4 (102) 4 (102) 54" 7/8 (22) 46 (1168) 4 (102) 4 (102) 60" 7/8 (22) 46 (1168) 4 (102) 4 (102) 72" 1 (25) 58 (1473) 4 (102) 4 (102) ,NOTE: Seismic restraints are optional at additional cost. Dimensions are subject to change. Not to be used for construction purposes unless certified. *Approximate weight 100% full occurs if bag fails or if air charge is lost. Xylem Inc. 8200 N. Austin Avenue Morton Grove, IL 60053 Phone: (847)966-3700 Fax: (847)965-8379 www.xyleminc.com/brands/bellgossett Bell & Gossett is a trademark of Xylem Inc. or one of its subsidiaries. © 2012 Xylem xylem Let's Solve Water PART NUMBER MODEL NUMBER A B C NPTF D E F APPROX. SHPG. WT. APPROX. WT* 100% FULL UNPRESSURIZED EXPANSION TANKS 116955 8-200 24 (610) 36-7/8 (936) 1 3/4 19 (483) 3/16 (5) 192 (87) 629 (285) 116956 8-300 24 (610) 50-7/8 (1292) 1 3/4 19 (483) 3/16 (5) 268 (122) 928 (421) 116957 8-400 24 (610) 64-3/4 (1644) 1 3/4 19 (483) 3/16 (5) 309 (140) 1184 (537) 116958 8-500 24 (610) 78 (1981) 1 3/4 19 (483) 3/16 (5) 328 (149) 1417 (643) 116959 8-600 30 (762) 63-3/4 (1619) 1-1/2 1 24 (610) 3/16 (5) 510 (232) 1814 (823) 116960 B-800 30 (762) 81-3/4 (2076) 1-1/2 1 24 (610) 3i16 (5) 656 (297) 2306 (1046) 116961 B-1000 36 (914) 73 (1854) 1-1/2 1-1/4 30 (762) 3/16 (5) 691 (313) 2869 (1301) I116962 B-1200 36 (914) 85-3/8 (2169) 1-1/2 1-1/4 30 (762) 3/16 (5) 779 (353) 3394 (1539) I 116963 B-1400 36 (914) 97-3/4 (2483) 1-1/2 1-1/4 30 (762) 3/16 (5) 905 (410) 3958 (1795) 116964 B-1600 48 (1219) 69-1/8 (1756) 1-1/2 1-1/2 42 (1067) 1/4 (6) 1183 (537) 4665 (2116) I116965 B-2000 48 (1219) 84 (2145) 1-1/2 1-1/2 42 (1067) 1/4 (6) 1264 (573) 5620 (2549) I 116966 B-2500 48 (1219) 100-7/8 (2562) 2 1-1/2 42 (1067) 1/4 (6) 1445 (655) 6890 (3125) 116967 B-3000 48 (1219) 118-1/8 (2562) 2 1-1/2 42 (1067) 1/4 (6) 1630 (739) 8164 (3703) 116968 B-3500 54 (1372) 111 (2820) 2 1-1/2 42 (1067) 1/4 (6) 2110 (957) 9741 (4418) 116969 13-4000 54 (1372) 124-1/2 (3163) 2 1-1/2 42 (1067) 1/4 (6) 2230 (1011) 10950 (4967) 116970 8-5000 60 (1524) 128 (3251) 2 1-1/2 42 (1067) 1/4 (6) 2450 (1111) 13403 (6079) 116971 B-7500 72 (1829) 127 (3326) 3 1-1/2 54 (1372) 3/8 (10) 4000 (1814) 20500 (9299) 116972 B-10000 72 (1829) 159 (4039) 3 1-1/2 54 (1372) 3/8 (10) 4900 (2223) 26890 (12197) 116973 8-15000 72 (1829) 233 (5918) 3 1-1/2 54 (1372) 3/8 (10) 6000 (2721) 39010 (17695) Dimensions are subject to change. Not to be used for construction purposes unless certified. *Approximate weight 100% full occurs if bag fails or if air charge is lost. Xylem Inc. 8200 N. Austin Avenue Morton Grove, IL 60053 Phone: (847)966-3700 Fax: (847)965-8379 www.xyleminc.com/brands/bellgossett Bell & Gossett is a trademark of Xylem Inc. or one of its subsidiaries. © 2012 Xylem xylem Let's Solve Water AikABBOTT k'N CONSTRUCTION Submittal Transmittal Date: February 24, 2017 65099.03 - AMC Central Utility Plant Phase 1 202 North Division Auburn, WA 98001 Transmitted To: Bill Youngs GBJ Architecture 815 SW Second Ave Portland, OR 97204 Transmitted By: Jacob Swanson J.R. Abbott Construction Inc. - Seattle 3408 1st Ave. South Seattle, WA 98134 Submittal Package Rev Description Number Due Date Package Status 028 A Mechanical Equipment 03/02/17 Submitted Submittal Sub Qty Description Item # Section Document Details Type Status 1 Expansion Tanks Product Data ET -1, -2, Expansion Tanks, Bell & Gossett, Columbia 11111111MIIMMie 1 Chilled Water Pumps Submitted Product Data CHP -1, -2, -3, Chilled Water Submi Pumps, Bell & Gossett, 111111M111_ Condenser Water Pumps Product Data Water Pumps, Bell & Gossett, CWP -1 -2 -3 Condenser Submi e in. Water Pumps Product Data HWP-1, -2, -3, Heating Water Submitted Pumps, Bell & Gossett, Heat Exchanger Product Data HX -1, Heat Exchanger, Bell & Submitted Gossett GPX, Columbia 236416.1 1 Centrifugal Water Chillers Product Data CH -1, -2, -3, Centrifugal Submitted Water Chillers, York, Custom Mechanical Solutions Remarks JOB: 65099.03 SUBMITTAL NO. 028A REVIEWED BY J.R. ABBOTT CONSTRUCTION INC. BY Joe Holden & Jacob S% DATE 2/24/17 ❑ NO EXCEPTIONS TAKEN ❑ REVISE AND RESUBMIT ® NOTE MARKING ❑ REJECTED This submittal review shall not be construed as a complete check and indicates only that the information presented conforms generally with contract documents. in no case is subcontractor or supplier relieved of full responsibility for adherence to the contract documents and satisfactory construction of all work. J.R. Abbott Construction Inc. 3408 1st Ave. South Seattle, WA 98134 Office: 206.467.8500 I Fax: 206.447.1885 1 www.jrabbott.com W.C.L JRABBCI 022 JZ • ';7 Hermanson Hermanson Company LLP 1221 2nd Avenue North Kent, WA 98032 tel 206-575-9700 fax 206-575-9800 SUBMITTAL DATA MHS Auburn Medical Center CUP 202 N. Division Street Auburn, WA 98001 Preliminary Review Submittal #PRE -007 SPEC SECTION: EQUIPMENT TAGS: CH -1, -2, -3 ITEM: WATER COOLED CHILLERS MANUFACTURER: YORK SUPPLIER: CUSTOM MECHANICAL SOLUTIONS Date Submitted: 02/23/17 Comments: WSP Comments: 1) Inlet & outlet locations acceptable as indicated. 2) Voltage confirmed as 460/3/60. 3) BACnet interface is required. Coordinate with Siemens controls. NO EXCEPTIONS NOTED EXCEPTIONS NOTED [ ] RESUBMIT FOR RECORD [X] NO RESUBMISSION REQUIRED REVISE AND RESUBMIT REVIEWED FOR INFORMATION ONLY UNREVIEWED Corrections or comments made on the shop drawings during this review do not relieve contractor from compliance with requirements drawings and specifications. This check is only for review of general conformance with the design concept of this part of the project general compliance with the information given in the ccntract documents. The contractor is responsible for providing all infornation necessary for this review: confirming and correlating all quantities dimensions; selecting fabrication processes, techniques and sequences of construction; coordinating work with that of other trades performing work in a safe and satisfactory manner. Notations on drawing do not authorize changes to the contract documents without written authorization from the owner's representatives. WSP -Building Systems Date: Mar 07, 2017 By: Rick Schwab of the and and and this Mechanical Construction, Engineering and Service www.hermanson.com ® • CUSTOM MECHANICAL SOLUTIONS Customer: Hermanson Project: Multicare Auburn Medical Center Auburn, WA Date: February 16, 2017 Engineer: WSP CMS, Inc. is proud to submit the following equipment: Project Summary Product Spec. Section Qty Tag(s) Manufacturer / Model York Centrifugal Water Cooled Chiller 23 64 16 3 CH -1, 2 and 3 York YMC2-S1319AA NOTE: Customer to confirm the following prior to release of order: • Evaporator Inlet/Outlet Locations • Condenser Inlet/Outlet Locations • Voltage/Phase/Hertz • Sufficient water quality is achievable given the scheduled fouling factors for evaporator and condenser • Sufficient clearance around unit can be provided (i.e. tube pull) Eric Pruehs CUSTOM MECHANICAL SOLUTIONS Main: (206) 973-3900 Direct: (206) 973-0244 Cell: (425) 444-5780 email: eric@cmswa.com 2517 Eastlake Ave E, Suite 200 Seattle. WA 98102 2517 Eastlake Ave E., Suite 200, Seattle, WA 98102 Tel (206) 973-3900 Fax (206) 299-9730 www.croswa.com ll• • CUSTOM MECHANICAL SOLUTIONS SUBMITTAL PRODUCT DESCRIPTION CUSTOM MECHANICAL SOLUTIONS--2517Eastlake Ave, Suite 200- Seattle, WA98102 Ph: (206) 973-3900 Fax: (206) 299-9730 0 1ill CUSTOM MECHANICAL SOLUTIONS Product Summary SIM IT Elk Qty (3) York 375T Centrifugal Chillers (tags: CH -1 thru 3), including: • R -134a refrigerant with zero ODP • OptiView MicroComputer Control Center with 10.4" diagonal FULL color liquid crystal (LCD) display. Includes BacNet Interface. • The compressor will be a single -stage centrifugal type direct driven hermetically sealed permanent magnet motor. • ASME tabled evaporator and condenser shells capable of storing entire refrigerant charge. • 2- Pass Condenser - shell and tube type, designed for 235 psig working pressure on the refrigerant side, 150 psi water side 0.025" thick tubes shall be high -efficiency type having .050" plain copper lands at all intermediate tube supports to provide maximum tube wall thickness at the support area. Compact water boxes with vic connections will be provided. • 2 - Pass Evaporator - shell and tube type, designed for 180 psig working pressure on the refrigerant side, 150 psi water side 0.025" thick tubes shall be high -efficiency type having .050" plain copper lands at all intermediate tube supports to provide maximum tube wall thickness at the support area. Compact water boxes with vic connections will be provided. • Insulation will be a flexible, closed -cell plastic type, %" inches thick. • Pre -rotation vanes & Adaptive Capacity Control to facilitate chiller capacity modulation down to 15% • Isolation valves are located in two places on the chiller; between the compressor discharge and the condenser, and at the variable orifice. These valves allow chiller refrigerant to be isolated from the rest of the system. • Reseating, spring loaded refrigerant relief valves. • Thermal type water flow switches come standard on York chiller- factory mounted on both evap & cond and are factory wired. • Refrigerant service valves at sensors: stop angle valves at pressure transducers and isolating ball valve at stall sensor. • Factory performance testing (Full load perf and sound) o Includes travel cost for 2 owners reps to wittiness testing. • The services of a factory trained, field service representative will be provided to provide the final leak testing, charging and startup of the chiller as well as conduct concurrent operator instruction. • (12) months chiller & VSD parts, labor, & refrigerant warranty from startup (* startup occurring 6 months from shipment) • (60) months compressor/motor parts, labor, & refrigerant warranty from startup (* startup occurring 6 months from shipment) • Complete chiller bagging provided during shipment. FACTORY MOUNTED VARIABLE SPEED DRIVE: • Factory mounted and wired variable speed drive starter includes: o Control voltage transformer o Circuit Breaker with ground fault protection o 100K AIC short circuit withstand rating o IEEE Std. 519-1992 Active Harmonic Distortion Filter (3.6% CURRENT THD) EXCLUDING: ASHRAE 15 Equipment Room Modifications (SCBA, Refrigerant Monitors, Controls/Alarms, Ventilation Fans, etc.), Refrigerant Relief Piping, Electrical or Controls Wiring, Separate Refrigerant Storage Tank/Systems, Marine Waterboxes (marine specified but drawings show compact), LonWorks Communication Interface, Factory & Field Eddy Current Testing, External Vibration Isolation (other than noted), Seismic Calcs/Restraints, Expedited Production, Expedited Shipping, Storage or Staging to the Job Site. 2517 Eastlake Ave E., Suite 200, Seattle, WA 98102 Tel (206) 973-3900 Fax (206) 299-9730 www.cmswa.com FORM 160.84-EG1 516 Unit Components 6 COMPONENT DESCRIPTION 1 OptiView Control Panel 2 Keypad 3 Suction 4 Hot Gas Bypass (Optional) 5 Refrigerant Relief Valves 6 Endsheet 7 Condenser 8 Sight Glass 9 Lockout Handle 10 VSD LD18605 JOHNSON CONTROLS FORM 166.84-EG1 516 Unit Components (Cont'd) 1 2 LD18606 4 COMPONENT DESCRIPTION 1 VSD 2 VSD Coolant Reservoir 3 Nozzles 4 Compact Waterbox 5 Power Panel 6 Evaporator 7 Suction 8 Direct Dive Compressor Motor with Active Magnetic Bearings JOHNSON CONTROLS FORM 160.84-EG1 516 Equipment Overview YORK YMC2 Centrifugal Liquid Chillers are completely factory -packaged including the evaporator, condenser, compressor, motor, VSD, control center, and all interconnecting unit piping and wiring. The initial charge of refrigerant is supplied for each chiller. Actual shipping procedures for the chiller will depend on a number of project -specific details. The services of a Johnson Controls factory -trained, field service representative are in- curred to supervise or perform the final leak testing, charging, the initial start-up, and concurrent operator instructions. COMPRESSOR The compressor is a single -stage centrifugal type directly driven by a hermetically -sealed, permanent -magnet motor. A cast -aluminum, fully -shrouded impeller is mounted directly to the motor shaft using a stretched tie -bolt. Impeller seals employ a labyrinth geometry, sized to provide minimal thrust loading on the impeller throughout the operating range. The impeller is dynamically balanced and overspeed tested for smooth, vibration -free operation. CAPACITY CONTROL Capacity control will be achieved by the combined use of variable speed control and mechanical flow regulation to provide fully modulating control from maximum to minimum Toad. For normal air conditioning applications, the chiller can adjust capacity from 100% to 15% of design. For each condition the capacity control devices will be automatically adjusted to maintain a constant leaving chilled liquid temperature at optimized efficiency, based on information fed by sensors located throughout the chiller. All mechanical actuators are external electrical devices which automatically and precisely position components. MOTOR The compressor motor is a hermetically -sealed, high-speed design with a permanent magnet rotor supported by active magnetic bearings. Each magnetic bearing cartridge includes both radial and axial (thrust) bearings. The bearing controls provide a completely oil -free operating system. The motor rotor and stator are cooled by a pressure driven re- frigerant loop to maintain acceptable operating temperatures. The active magnetic bearings are equipped with automatic vibration reduction and bal- ancing systems to ensure smooth and reliable operation. In the event of a power failure, the magnetic bearings will remain in operation throughout the compressor coast -down us- ing a reserve energy supply. Mechanical bearings are included as backup to the magnetic bearings and designed for emergency touchdown situations. The active magnetic bearings are equipped with automatic vibration redution and balancing systems JOHNSON CONTROLS FORM 16C.84-EG1 516 Equipment Overview (Cont'd) OPTISOUND CONTROL YMC2 chillers are equipped with the YORK OptiSound Control as standard. The YORK OptiSound Control is a patented combination of centrifugal -chiller hardware and software that reduces operational sound levels, expands the chiller operating range, and improves chiller performance. The OptiSound Control feature continuously monitors the charac- teristics of the compressor -discharge gas and optimizes the diffuser spacing to minimize gas -flow disruptions from the impeller. This innovative technology improves operating sound levels of the chiller and can reduce part -load sound levels below the full -load level. In addition, the OptiSound Control provides the benefit of an expanded operating range. It improves performance and reliability by minimizing diffuser -gas stall at off -design op- eration, particularly at conditions of very low load combined with little or no condenser - water relief. The elimination of the gas -stall condition can also result in improved chiller efficiency at off design conditions. OptiSpeed VSD A VSD is factory -packaged and mounted on the YMC2 chiller. It is designed to vary the compressor motor speed by controlling the frequency and voltage of the electrical power to the motor. The capacity control logic shall automatically adjust motor speed and com- pressor diffuser geometry for maximum part -load efficiency by analyzing information fed to it by sensors located throughout the chiller. See OptiView Control Center on page 21 for additional information. HEAT EXCHANGERS Shells Evaporator and condenser shells are fabricated from rolled carbon steel plates with fu- sion welded seams or carbon steel pipe. Carbon steel tube sheets, drilled and reamed to accommodate the tubes, are welded to the end of each shell. Intermediate tube supports are fabricated from carbon steel plates, drilled and reamed to eliminate sharp edges. The refrigerant side of each shell is designed, tested, and stamped in accordance with ASME Boiler and Pressure Vessel Code, Section VIII — Division 1, or other pressure vessel code as appropriate. Tubes Heat exchanger tubes are copper alloy high -efficiency, externally and internally enhanced type to provide optimum performance. Utilizing the "skip -fin" tube design provides a smooth internal and external surface at each intermediate tube support. This provides extra wall thickness (up to twice as thick) and non work -hardened copper at the support location, extending the life of the heat exchangers. Each tube is roller -expanded into the tube sheets providing a leak -proof seal, and is individually replaceable. Evaporator The evaporator is a shell and tube, hybrid falling -film type heat exchanger. It contains a balance of flooded and falling -film technology to optimize efficiency, minimize refrigerant charge, and maintain reliable control. A specifically designed spray distributor provides uniform distribution of refrigerant over the entire shell length to yield optimum heat trans- fer. A suction baffle is located above the tube bundle to prevent liquid refrigerant carryover JOHNSON CONTROLS FORM 160.84-EG1 516 Equipment Overview (Cont'd) into the compressor. A 1-1/2" (38 mm) liquid level sight glass is conveniently located on the side of the shell to aid in determining proper refrigerant charge. The evaporator shell contains a dual refrigerant relief valve arrangement or a single -relief valve arrangement, if the chiller is supplied with the optional refrigerant isolation valves. A 1" (25.4 mm) refriger- ant charging valve is provided for service access. Condenser The condenser is a shell and tube type, with a discharge gas baffle to prevent direct high velocity impingement on the tubes. The baffle is also used to distribute the refrigerant gas flow properly for the most efficient heat transfer. An integral sub -cooler is located at the bottom of the condenser shell providing highly effective liquid refrigerant subcooling to provide the highest cycle efficiency. A 1-1/2" (38 mm) liquid level sight glass is conve- niently located on the side of the shell to aid in determining proper refrigerant charge. The condenser contains dual refrigerant relief valves. Water Boxes The removable water boxes are fabricated of steel. Integral steel water baffles are located and welded within the water box to provide the required pass arrangements. Stub -out water nozzle connections welded to the water boxes are suitable for ANSI/AWWA C-606 couplings, welding or flanged, and are capped for protection during shipment. Plugged 3/4" (19 mm) drain and vent connections are provided in each water box. REFRIGERANT ISOLATION VALVES Factory -installed isolation valves in the compressor discharge line and refrigerant liquid line allow isolation and storage of the refrigerant charge in the chiller condenser. WATER FLOW SWITCHES Thermal type water flow switches are factory mounted in the chilled and condenser water nozzles, and are factory wired to the OptiView control panel. These solid state flow sen- sors have a small internal heating element. They use the cooling effect of the flowing fluid to sense when an adequate flow rate has been established. The sealed sensor probe is 316 stainless steel, which is suited to very high working pressures. REFRIGERANT FLOW CONTROL Refrigerant flow to the evaporator is controlled by the YORK variable orifice control sys- tem. Liquid refrigerant level is continuously monitored to provide optimum subcooler, condenser and evaporator performance. The variable orifice electronically adjusts to all Real -World operating conditions, providing the most efficient and reliable operation of refrigerant flow control. OPTIVIEW CONTROL CENTER The chiller is controlled by a stand-alone, microprocessor -based control center. The con- trol center provides control of chiller operation and monitoring of chiller sensors, actua- tors, relays and switches. See OptiView Control Center on page 21 for additional infor- mation. JOHNSON CONTROLS FORM 16G.84-EG1 316 Equipment Overview (Cont'd) CODES AND STANDARDS • ASME Boiler and Pressure Vessel Code — Section VIII Division 1. • AHRI Standard 550/590 • c/U.L. — Underwriters Laboratory • ASHRAE 15 — Safety Code for Mechanical Refrigeration • ASHRAE Guideline 3 — Reducing Emission of Halogenated Refrigerants in Refrig- eration and Air -Conditioning Equipment and Systems • N.E.C. — National Electrical Code • OSHA — Occupational Safety and Health Act • IEEE Std. 519-1992 Compliance ISOLATION MOUNTING The unit is provided with four vibration isolation mounts of nominal 1" operating height. The pads have a neoprene pad to contact the foundation, bonded to a steel plate. The vibration isolation pad assemblies mount under steel plates welded to the chiller tube sheets. REFRIGERANT CONTAINMENT The standard unit has been designed as a complete and compact factory -packaged chill- er. As such, it has minimum joints from which refrigerant can leak. The entire assembly has been thoroughly leak tested at the factory prior to shipment. The YMC2 chiller includes service valves conveniently located to facilitate transfer of refrigerant to a remote refriger- ant storage/recycling; system. Condenser isolation valves allow storage of the charge in the condenser. PAINT Exterior surfaces are protected with one coat of Caribbean blue, durable alkyd -modified, vinyl enamel, machinery paint. SHIPMENT Protective covering is furnished on the Control Center, VSD, and unit -mounted controls. Water nozzles are capped with fitted plastic enclosures. Entire unit is protected with in- dustrial -grade, reinforced shrinkwrap covering. Each unit can be broken down into several form shipment configureations for ease of transportation and installation. JOHNSON CONTROLS es CUSTOM MECHANICAL SOLUTIONS SUBMITTAL PERFORMANCE DATA CUSTOM MECHANICAL SOLUTIONS - 2517 Eastlake Ave, Suite 200 -Seattle, WA 98102 Ph: (206) 973-3900 Fax: (206) 299-9730 WI YORK® YMC2 CHILLER PERFORMANCE SPECIFICATION Unit Tag Qty Model No. Compressor Model: M1B-205FAB Net Capacity (tons) Power Refrigerant CH -1,2,3 3 YMC2-S1319AA 44.00 375.0 460/3/60.0 R -134A Unit Data Evaporator Condenser Compressor Model: M1B-205FAB Model: EA2510-371-BS1-2GCL Model: CA2510-260-DS1-2GCL EWT (°F): 60.00 76.00 LWT (°F): 44.00 86.01 Flow Rate (gpm): 561.1 1035 Pressure Drop (ft): 13.2 13.1 Fluid Type (%): WATER WATER Circuit No. of Passes: 2 2 Fouling Factor (ft' °F hr /Btu): 0.000100 0.000250 Tube No. / Description: 371 - 0.025" Turbo -ESP Copper (3/4") 260 - 0.025" CSL Enhanced Copper Design Working Pressure (psis): 150 150 Entering Water Nozzle A4 Location: L L Leaving Water Nozzle (n, Location: L L Water Box Weight, ea (lb) : 158 165 Cover Plate Weight , ea (ib): N/A N/A Return Head Weight (lb): 116 116 Water Weight (lb): 467 688 Water Volume(gal): 56 83 Min Flow Rate (gpm): 157.7 554.8 Max Flow Rate (gpm): 1262 2017 Performance Data Electrical Data Other Job KW: 189.8 Job FLA: 249 Operating Wt. (lb): 12719 KW/Ton.R: 0.5061 Min Circuit Ampacity (Amps): 311 Per Isolator (lb): 3180 NPLV.IP: 0.3244 Max Fuse/Breaker: 500 Refrigerant Wt. (lb): 610 Compressor Wt. (Ib): 1881 Isolation Valves: YES Ship Wt (lb): 11594 Type Starter: VSD w/ flter VSD Model: HYP490XH3OB-46 Notes: Project Name: Auburn Reg Med Center- CUP Printed: 2/16/2017 at 14:29 Unit Ver.: 16.05 (LTC Version: 1.0.6127) Unit Folder: CH 1-375Z YORKworks 17.00 York Contract No.: CH -1 (375T) Performance YORK® YMC2 CHILLER PERFORMANCE SPECIFICATION AHRI Message: Certified in accordance with the AHRI Water -Cooled Water Chilling and Heat Pump Water -Heating Packages Using Vapor Compressor Cycle Certification Program, which is based on AHRI Standard 550/590 (I -P) and AHRI 551/591 (SI). Certified units may be found in the AHRI Directory at www.ahridirectory.org. VAWAIKaitiel ill Project Name: Auburn Reg Med Center- CUP Printed: 2/16/2017 at 14:29 Unit Ver.: 16.05 (LTC Version: 1.0.6127) Unit Folder: CHI -375Z YORKworks 17.00 York Contract No.: CH -1(375T) Performance Project: Y,O R K r Unit Tag: Engineer: Customer: SALES REPORT Rating Program: LTS 1.0.6127 Software Version: YW 16.05 Date: 11/09/2016 14:41:39 Unt Specifications Model YMC2-S1319A Fluid Refrigerant R134a Specified Net Capacity (Tons) 375. Refrigerant Charge (Ib) 610 Rated Net Capacity (Tons) 375. ariable Orifice V2 Full Load (kW/Ton.R) 0.5061 Isolation Valve Y NPLV.IP (kW/Ton.R) 0.3244 OptiSound Control Y Input Power (kW) 189. oltage / Hz 460 / 60.0 Starter Type HYP490XH***-46 FLA (Amps) 249 Compressor MIB-205FAB -Weighted SPL (dBA) 70 Evaporator EA2510-371-BS*-2*** Min Circuit Ampacity 311 Condenser CA2510-260-DS*-2*** Max Circuit Breaker Amps 500 (*) Designates User Specified Input Certified in accordance with the AHRI Water -Cooled Water Chilling and Heat Pump Water - Heating Packages Using Vapor Compressor Cycle Certification Program, which is based on AHRI Standard 550/590 (I -P) and AHRI 551/591 (SI). Certified units may be found in the AHRI Directory at www.ahridirectory.org. Auxiliary components included in total kW: Chiller Controls. Compliant with ASHRAE 90.1-2004. Compliant with ASHRAE 90.1-2007. Compliant with ASHRAE 90.1-2010. Compliant with the requirements of the LEED Energy and Atmosphere Enhanced Refrigerant Management Credit (EAc4). Materials and construction per mechanical specifications - Form 160.78-EG1. Auxiliary components included in total kW - Chiller controls. Evaporator Condenser Fluid Water* Water* Tube MTI No. 371* 260* / 260 Passes 2* 2* Fouling Factor (hr-ft2-°F/Btu) 0.000100* 0.000250* Entering Fluid Temp (°F) 60.00 76.00* Leaving Fluid Temp (°F) 44.00* 86.01 Fluid Flow (gpm) 561.1* 1035* Fluid Pressure Drop (ft) 13.2 13.1 (*) Designates User Specified Input Certified in accordance with the AHRI Water -Cooled Water Chilling and Heat Pump Water - Heating Packages Using Vapor Compressor Cycle Certification Program, which is based on AHRI Standard 550/590 (I -P) and AHRI 551/591 (SI). Certified units may be found in the AHRI Directory at www.ahridirectory.org. Auxiliary components included in total kW: Chiller Controls. Compliant with ASHRAE 90.1-2004. Compliant with ASHRAE 90.1-2007. Compliant with ASHRAE 90.1-2010. Compliant with the requirements of the LEED Energy and Atmosphere Enhanced Refrigerant Management Credit (EAc4). Materials and construction per mechanical specifications - Form 160.78-EG1. Auxiliary components included in total kW - Chiller controls. YORK Project: Unit Tag: Engineer: Customer: Rating Program: LTS 1.0.6127 Software Version: YW 16.05 Date: 11/09/2016 14:41:39 Partload Data (User Defined - Specific Point) Load Net Capacity (Tons) % Power Input Power (kW) EEFT (eF) (F) ELFT (F) Evap (gpm) Evap PD (ft) CEFT ° (F) CLFT ° (F) kW/Ton.R 100 375.0 100 189.8 60.00 44.00 561.1 13.2 76.00 86.01 0.5061 90 337.5 80 152.1 60.00 44.00 505.0 11.0 73.80 82.69 0.4508 80 300.0 64 121.0 60.00 44.00 448.9 8.90 71.60 79.40 0.4032 70 262.5 50 94.12 60.00 44.00 392.8 7.02 69.40 76.15 0.3586 60 225.0 38 71.66 60.00 . 44.00 336.7 5.33 67.20 72.92 0.3185 50 187.5 28 53.24 60.00 44.00 280.6 3.85 65.00 69.72 0.2839 40 150.0 22 42.07 60.00 44.00 224.4 2.51 65.00 68.78 0.2805 30 112.5 17 32.77 60.00 44.00 168.3 1.41 65.00 67.84 0.2913 20 75.00 13 24.43 55.38 44.00 157.7 1.24 65.00 66.92 0.3258 12 45.00 10 19.59 50.82 44.00 157.7 1.24 65.00 66.19 0.4354 Certified in accordance with the AHRI Water -Cooled Water Chilling and Heat Pump Water - Heating Packages Using Vapor Compressor Cycle Certification Program, which is based on AHRI Standard 550/590 (I -P) and AHRI 551/591 (SI). Certified units may be found in the AHRI Directory at www.ahridirectory.org. Auxiliary components included in total kW: Chiller Controls. Compliant with ASHRAE 90.1-2004. Compliant with ASHRAE 90.1-2007. Compliant with ASHRAE 90.1-2010. Compliant with the requirements of the LEED Energy and Atmosphere Enhanced Refrigerant Management Credit (EAc4). Materials and construction per mechanical specifications - Form 160.78-EG1. Auxiliary components included in total kW - Chiller controls. • 1 CUSTOM MECHANICAL SOLUTIONS SUBMITTAL UNIT DRAWINGS & DIMENSIONAL DATA CUSTOM MECHANICAL SOLUTIONS--2517Eastlake Ave, Suite 200-- Seattle, WA98102 Ph: (206) 973-3900 Fax: (206) 299-9730 o 30' O omX A p3i n3a z N w (nN n m 0 (0 z m n 1 0 0 c n v Z < m O Z D 3 v m O xi Aca O 0 A 9V-90£HX06trdAH 9VdSOZ-9IW Dz O � 0 W T 0 Project Name : Auburn Reg Med Center- CUP 00 -tea �c �n g < m O " d < c W .. c m ff,w o o N U A co TA Mr' ia G) O 3 0 m n = mD m y r 0 n O O 0 0z - Z 0 > Co r - N co -U 02 O N O *;111 UJ Z t7 V r 0 0 O m y O 5 O A r V m r W N ANVdW03 SlO2l1NO3 NOSNHOP V )IOA 3' 4 —0 8 0 <m m Z 0 T r m Z0 m z 0 0 T T D z z m 1 • i13SN30NO0 II II I I I I 3'-4" a. QN r-3' 315116"— --2'.61/8"—D 6'-8" • OVERALL UNIT HEIGHT • 4'-6 1116" r2'-1 112" N W N 1'-16" 6' 2 7/8" f m o v 2 O p O o z i0 m m 10-9 3/8" �– y 1.1..3 3/16" Ir O� 1 < • •r D \ /I N Q \k/ I / \ 1 0 L/ y o, H3SN3ONO0 1'-2 1/4" N z O i 4 [.4 z M 0 O c N 4 4 V3 IV find 39n1 0 O O z n 0 N 0 to m 401 f + -\ / f } 103'-11 7/16" 0 >1 rZ Am m-4 T m Dr m m rZ m1 T <m ry mr m Victaulic Grooved Nozzles (per ANSI / AWWA C-606) nnmm zz00-012> m m 0 0 AA0 22 crez mmcm -1 i1 rrrr 04)00 mmmm =oz. Hann 14141919 DDDD co N N N MOWN m m m m 0000 ? • O O O O 1:1'.(7(11 N 010 f0 ml 0000 T V T T ON303131ZZON (D < o m o o z > O 3 m O (" y 1 O O 94-80£HX064dAH 139 -1SO-09Z-0LSZVO z F T Si Project Name : Auburn Reg Med Center- CUP 8LA4444 9LOZ/6114 : alga ANVdINOO S10211NO3 NOSNHOf V )IMOA (31v3s O1ION) 1f10J1vi 2100-1A DIMENSIONS ARE TYPICAL ALL FOUR CORNERS 43 m co71 r C Z 0 r -a 07 C711 As mD c0 J 0 0 O m m CO 1 rn r m r z n w 0m m > m r m x m x m z v 0) m m 0 0 3N112131N33 21O1b210dVA3 3NI12131N30 S113HS �A t 3" r I O0 m_v 2'-7" 411 N 1'S'1'N)111/13a 2101V108I 5'-2" 133HS aN3 0 000 w N z�,n_m� Oo r- m z p 0 4.23mm mmr1>2 N r 0 �1 O'U P W N Z O 0 nmacr+>Nz>-zNrnm-lo>� \rcwpwcx_ I I 1 -P vcoc� DrmT r -ornm- 1 0)> >>MMMI4M N >-:- 00 0 ---1 m� mtmncrni�aNDNc�mNz-<r��On CC Nc.�' Fn nOo>Dccm 0 zomz�am c;ccr-- 0ccorri •mNz0�a lnzm cN�\my-�ZZN �e1=*'I�Z �• Nf�T7 Y lNT1NOO o�crni�p-D ooNwz�z�m 'U NO0 rz�mrZ 1_ m �D53 -2-1 -1vmnnommc o N 0-0 =r'OT7�rnn. nOn _-PDQ r4r2!! N�o. � !!!"0 Es�Omz -1G7 mo O oc moa = z -1 D z A g m o N m= 0 mo c�D N z0 0 I Z ›- NI - NO1103NN00 SVO 10H NOLL03NNO0 SV9 10H N PI 23 N W m m w c 0 (0 CO V Q'1 UA W Ni F.a O T S • YMC2 - THERMAL INSULATION RECOMMENDATIONS (EA25 - EA44 SHELLS, WITH/ M COMPRESSORS ) • 3/4" INSULATION - WITHOUT/HOT GAS BY-PASS --- English ADHESIVE SCOTCH GRIP - gallon (GL.) ELECTRICAL TAPE - 3/4" wide x .007 thk. x 66 ft. long (FT.) ELECTRICAL TAPE - 2" wide x .007 thk. x 108 ft. long (FT.) INSULATION - 3/4" I.D. x 3/4" wall thk. x 6 ft. long (FT.) Z D INSULATION - 1-5/8" I.D. x 3/4" wall thk. x 6 ft. tong (FT.) INSULATION - 2-7/8" I.D. x 3/4" wall thk. x 6 ft. long (FT.) Z b INSULATION RD - 2.500 I.D. x 3/4" wall thk. x 6 ft. long (FT.) WATER BOXES ONLY: (SQ.FT.) COOLER WITH: (SQ. FT.) 42" to 49" width x 65" long x 3/4" thick (EA.) INSULATION - 3/4" thick - SHELL ONLY - (SQ.FT.) • DESCRIPTION MARINE WATER BOXES (300#) MARINE WATER BOXES (150#) COMPACT WATER BOXES (300#) COMPACT WATER BOXES (150#) MARINE WATER BOXES (300#) MARINE WATER BOXES (150#) COMPACT WATER BOXES (300#) COMPACT WATER BOXES (150#) _ O N lD 0 l0 o 1. N Z D NJ 0 it Z D N W rn W Un TZ 1--> (0 224 223 209 207 8.5 188 m N N 0 COOLER CODE 1 0 A N 0 0 0 0 N \ y N - in \ N W 61 W In N F-& N CD 1-> 290 276 274 F� NJ CO EA2514 EA29 EA33 m D UJ EA44 • 1 CUSTOM MECHANICAL SOLUTIONS SUBMITTAL UNIT SPECIFICATION CUSTOM MECHANICAL SOLUTIONS 2517 Eastlake Ave, Suite 200— Seattle, vWA98102 Ph: (206) 973-3900 Fax: (206) 299-9730 61YORK® YMC2 CHILLER Auburn Reg Med Center- CUP GENERAL Furnish YORK YMC2 Centrifugal Liquid Chilling-Unit(s) as indicated on the drawings. Each unit shall produce a capacity of 375.0 tons, cooling 561.1 gpm of WATER from 60.00 to 44.00 °F when supplied with 1035 gpm of condenser water at 76.00°F. Power input shall not exceed 189.8 KW with an NPLV of 0.3244. The cooler shall be selected for 0.000100 fouling factor and a maximum liquid pressure drop of 13.2 ft. Water side shall be designed for 150 psig working pressure. The condenser shall be selected for 0.000250 fouling factor and maximum liquid pressure drop of 13.1 ft. Water side shall be designed for 150 psig working pressure. Power shall be supplied to the unit at 460 volts - 3 phase - 60 Hertz. The chiller shall use HFC R -134A. Each unit shall be completely factory -packaged including evaporator, unit mounted Optispeed variable speed drive, condenser, sub -cooler, compressor, hermetic motor, Optiview control center. and all interconnecting unit piping and wiring. The chiller shall be painted prior to shipment. Performance shall be certified in accordance with ARI Standard 550/590. Only chillers that are listed in the ARI Certification Program for Centrifugal and Rotary Screw Water Chillers are acceptable. The initial charge of refrigerant shall be supplied, shipped in containers and cylinders for field installation or factory charged in the chiller. COMPRESSOR The compressor shall be a single -stage centrifugal type powered by a high speed electric motor. A cast aluminum, fully shrouded impeller shall be mounted directly to the motor shaft. The impeller shall be designed for balanced thrust, dynamically balanced and overspeed tested for smooth, vibration -free operation. Compressor castings shall be designed for 235 psig working pressure and hydrostatically pressure tested at 355 psig for HFC R -134A units. Capacity control shall be achieved by the combined use of variable speed and variable diffuser geometry to provide fully modulating control from 'maximum to minimum Toad while maintaining constant chiller leaving water temperature. MOTOR The compressor motor shall be a hermetic, oil free, permanent magnet type directly coupled to the compressor. The motor will be bolted to a cast iron adapter plate mounted on the compressor to provide factory alignment of the shaft. The motor shaft shall be supported on active magnetic radial and thrust bearings. Magnetic bearing control shall be equipped with auto vibration reduction and balancing systems. During a power failure event, the magnetic bearings shall remain active throughout the compressor coast down. Rolling element bearings shall be provided as a backup to the magnetic bearings designed for emergency touch down situations. Motor stator and rotor shall be equipped with a pressure driven refrigerant cooling loop to maintain acceptable operating temperatures. VARIABLE SPEED DRIVE A variable speed drive shall be factory installed on the chiller. It will vary the compressor motor speed by controlling the frequency and voltage of the electrical power to the motor. The capacity control logic shall automatically adjust motor speed and compressor diffuser geometry for maximum part -load efficiency by analyzing information fed to it by sensors located throughout the chiller. Drive shall be PWM type utilizing IGBT's with a power factor of 0.97 or better at all loads and speeds. The variable speed drive shall be unit mounted in a NEMA 1 enclosure with all power and control wiring between the drive and chiller factory installed. Field power wiring shall be a single point connection and electrical lugs for incoming power wiring will be provided. The entire chiller package shall be UL listed. The following features will be provided: a. Door interlocked circuit breaker capable of being padlocked. Printed: 2/16/2017 at 14:28 Reference: 160.78 -EG 1 Filename: spechdr.rtf 111YORK® YMC2 CHILLER Auburn Reg Med Center- CUP b. Ground fault protection. c. Over voltage and under voltage protection. d. 3-phase sensing motor over current protection. e. 3-phase sensing input over current protection. f. Single phase protection. g. Insensitive to phase rotation. h. Over temperature protection. i. IEEE Std. 519-1992 compliance j. Digital readout at the chiller unit control panel of output frequency, output voltage, 3-phase output current, input Kilowatts and Kilowatt-hours, self-diagnostic service parameters. Separate meters for this information will not be acceptable. k. KW Meter - The unit's input power consumption will be measured and displayed digitally via the unit's control panel. The KW meter accuracy is typically +1- 3% of reading. KW meter scale is 0 - 788 KW I. KWh Meter — The unit's cumulative input power consumption is measured and displayed digitally via the unit's control panel. The KWh meter is resetable and it's accuracy is typically +1- 3% of reading. KWh meter scale is 0 — 999,999 kWh. m. Ammeter — Simultaneous three-phase true RMS digital readout via the unit control panel. Three current transformers provide isolated sensing. The ammeter accuracy is typically +1- 3% of readming. Ammeter scale is 0- 545ARMS . n.Voltmeter — Simultaneous three-phase true RMS digital readout via the unit control panel. The voltmeter accuracy is typically +1- 3% of reading. Voltmeter scale is 0 — 670 VAC. o.Elapsed Time Meter — Digital readout of the unit's elapsed running time (0 — 876,600 hours, resetable) is displayed via the unit control panel. EVAPORATOR Evaporator shall be a shell -and -tube, hybrid falling film type designed for 235 psig working pressure on the refrigerant side. Shell shall be fabricated from rolled carbon steel plate with fusion welded seams; have carbon steel tube sheets, drilled and reamed to accommodate the tubes; and intermediate tube supports spaced no more than four feet apart. The refrigerant side shall be designed, tested and stamped in accordance with ASME Boiler and Pressure Vessel Code, Section VIII- Division 1. Tubes shall be high -efficiency, internally and externally enhanced type having plain copper lands at all intermediate tube supports to provide maximum tube wall thickness at the support area. Each tube shall be roller expanded into the tube sheets providing a leak -proof seal, and be individually replaceable. Water velocity through the tubes shall not exceed 12 fps. A liquid level sight glass will be located on the side of the shell to aid in determining proper refrigerant charge. A suction baffle eliminator will be located above the tube bundle to prevent liquid refrigerant carryover to the compressor. The evaporator shall have a refrigerant relief device sized to meet the requirements of ASHRAE 15 Safety Code for Mechanical Refrigeration. Water boxes shall be removable to permit tube cleaning and replacement. Stubout water connections having victaulic grooves will be provided. Waterboxes shall be designed for 150psi (10.3 bar) design working pressure and tested at 225 psig (15.5 bar). Vent and drain connections with plugs will be provided on each water box. Low flow protection shall be provided by a thermal -type flow sensor, factory mounted in the water nozzle connection and wired to the chiller control center. CONDENSER Condenser shall be of the shell -and -tube type, designed for 235 psig working pressure on the refrigerant side. Shell shall be fabricated from rolled carbon steel plate with fusion welded seams; have carbon steel tube sheets, drilled and reamed to accommodate the tubes; and intermediate tube supports spaced no more than four feet apart. The refrigerant side shall be designed, tested and stamped in accordance with ASME Boiler and Pressure Vessel Code, Section VIII - Division 1. Tubes shall be high -efficiency, internally and externally enhanced type having plain copper lands at all intermediate tube supports to provide maximum tube wall thickness at the support area. Each tube shall be roller expanded into the tube sheets providing a leak -proof seal, and be individually replaceable. Water velocity through the tubes shall not exceed 12 fps. Printed: 2/16/2017 at 14:28 Reference: 160.78-EG1 Filename: spechdr.rtf WI YORK® YMC2 CHILLER Auburn Reg Med Center- CUP Water boxes shall be removable to permit tube cleaning and replacement. Stubout water connections having ANSI/AWWA C-606 grooves will be provided. Waterboxes shall be designed for 150 psi (10.3 bar) design working pressure and tested at 225 psig (15.5 bar). Vent and drain connections with plugs will be provided on each water box. REFRIGERANT FLOW CONTROL. Refrigerant flow to the evaporator shall be controlled by a variable orifice for improving unloading capabilities. The variable orifice control shall automatically adjust to maintain proper refrigerant level in the condenser and evaporator. This shall be controlled by monitoring refrigerant liquid level in the condenser, assuring optimal subcooler performance. GRAPHIC CONTROL CENTER General: The chiller shall be controlled by a stand-alone microprocessor based control center. The chiller control center shall provide control of chiller operation and monitoring of chiller sensors, actuators, relays and switches. Control panel: The control panel shall include a 10.4 in. diagonal color liquid crystal display (LCD) surrounded by "soft" keys which are redefined based on the screen displayed at that time. This shall be mounted in the middle of a keypad interface and installed in a locked enclosure. The screen shall detail all operations and parameters, using a graphical representation of the chiller and its major components. Panel verbiage shall be available in English as standard and in other languages as an option with English always available. Data shall be displayed in either English or Metric units. Smart Freeze Point Protection shall run the chiller at 36.00°F leaving chilled water temperature, and not have nuisance trips on low water temperature. The sophisticated program and sensor shall monitor the chiller water temperature to prevent freeze up. When needed Hot Gas Bypass is available as an option. The panel shall display countdown timer messages so the operator knows when functions are starting and stopping. Every programmable point shall have a pop-up screen with the allowable ranges, so that the chiller can rot be programmed to operate outside of its design limits. The chiller control panel shall also provide: 1.System operating information including: a. return and leaving chilled liquid temperature b. return and leaving condenser liquid temperature c. evaporator and condenser saturation temperature d. evaporator and condenser pressure e. compressor discharge temperature f. percent full load motor current g. motor frequency h. magnetic bearing levitation status i. magnetic bearing temperatures j. operating hours k. number of compressor starts 2. Digital programming of setpoints through the universal keypad including: a. leaving chilled liquid temperature b. percent current limit c. pull-down demand limiting d. six-week schedule for starting and stopping the chiller, pumps and tower e. remote reset temperature range 3.Status messages indicating: a. system ready to start b. system running c. system coastdown d. system safety shutdown -manual restart e. system cycling shutdown-autc restart f. MBC startup Printed: 2/16/2017 at 14:28 Reference: 160.78-EG1 Filename: spechdr.rtf YORK' g. start inhibit YMC2 CHILLER Auburn Reg Med Center- CUP 4.The text displayed within the system status and system details field shall be displayed as a color coded message to indicate severity: red for safety fault, orange for cycling faults, yellow for warnings, and green for normal messages. 5.Safety shutdowns enunciated through the display and the status bar, and consist of system status, system details, day, time, cause of shutdown, and type of restart required. Safety shutdowns shall include: a.evaporator — low pressure b. evaporator — transducer or leaving liquid probe c. evaporator — transducer or temperature sensor d. condenser — high pressure contacts open e. condenser — high pressure f. condenser — pressure transducer out of range g. auxiliary safety — contacts closed h. discharge — high temperature i. discharge — low temperature j. control panel — power failure k. watchdog — software reboot I. MBC — Internal Fault m. MBC — High Bearing Temperature n. MBC — Cable Fault o. MBC — Speed Signal Fault p. MBC — Overspeed Fault q. MBC — Communication r. MBC — High Bearing Current s. MBC — Rotor Elongation t. MBC — Oscillator Fault u. MBC — Power Supply Fault v. MBC — Unauthorized Rotation w. MBC — No Rotation x. VSD Shutdown — Requesting Fault Data y. VSD — Stop contacts Open z. VSD — DC Bus Preregulation Lockout aa. VSD — Logic Board Plug bb. VSD — Ground Fault cc. VSD — Phase _ Input DCCT (A,B,C) dd. VSD — Phase _ Motor DCCT (A,B,C) ee. VSD — Input Current Overload ff. VSD —105% Motor Current Overload gg. VSD — High Phase _ Input Baseplate Temperature (A,B,C) hh. VSD — High Phase _ Motor Baseplate Temperature (A,B,C) ii. VSD — Motor or Stator Current Imbalance jj. VSD — Motor Current THD Fault kk. VSD — Motor Synchronization Fault II. VSD — Rectifier Program Fault mm. VSD — Inverter Program Fault 6.Cycling shutdowns enunciated through the display and the status bar, and consists of system status, system details, day, time, cause of shutdown, and type of restart required. Cycling shutdowns shall include: a. multiunit cycling — contacts open b. system cycling - contacts open c. control panel - power failure d. leaving chilled liquid - low temperature Printed: 2/16/2017 at 14:28 Reference: 160.78-EG1 Filename: spechdr.rtf YORK® YMC2 CHILLER Auburn Reg Med Center- CUP e. leaving chilled liquid - flow switch open f. condenser — flow switch open g. motor controller — contacts open h. motor controller — loss of current i. MBC — Position j. MBC — Low Frequency Displacement k. MBC — Vibration I. MBC — High Amplifier Temperature m. MBC — High DC/DC Temperature n. MBC — No Levitation o. MBC — Serial Communications Fault p. Power Fault q. Control Panel — Schedule r. VSD Precharge — Low DC Bus Voltage s. VSD — DC Bus Preregulation t. VSD — Logic Board Power Supply u. VSD — High DC Bus Voltage v. VSD — High Phase _ Input Current (A,B,C) w. VSD — High Phase _ Motor Current (A,B,C) x. VSD — Phase _ Input Gate Driver (A,B,C) y. VSD — Phase _ Motor Gate Driver (A,B,C z. VSD — Single Phase Input Power aa. VSD — DC Bus Under Voltage bb. VSD — Low Phase _ Input Baseplate Temperature (A,B,C) cc. VSD — Low Phase _ Motor Baseplate Temperature (A,B,C ) dd. VSD — High Internal Ambient Temperature ee. VSD — Serial Communications ff. VSD — Logic Board Processor gg. VSD — Run Signal hh. VSD Shutdown — Requesting Fault Data ii. VSD — Stop Contacts Open jj. VSD — Initialization Failed 7.Security access to prevent unauthorized change of setpoints, to allow local or remote control of the chiller, and to allow manual operation of the prerotation vanes. Access shall be through ID and password recognition, which is defined by three different levels of user competence: view, operator, and service. 8.Trending data with the ability to customize points of once every second to once every hour. The panel shall trend up to 6 different parameters from a list of over 140, without the need of an external monitoring system. 9.The operating program stored in non-volatile memory (EPROM) to eliminate reprogramming the chiller due to AC power failure or battery discharge. Programmed setpoints shall be retained in lithium battery -backed RTC memory for a minimum of 11 years with power removed from the system. 10.A fused connection through a transformer in the compressor motor starter to provide individual over -current protected power for all controls. 11. A numbered terminal strip for all required field interlock wiring. 12.An RS -232 port to output all system operating data, shutdown / cycling message, and a record of the last 10 cycling or safety shutdowns to a field -supplied printer. Data logs to a printer at a set programmable interval. This data can be preprogrammed to print from 1minute to 1day. 13.The capability to interface with a building automation system to provide: Printed: 2/16/2017 at 14:28 Reference: 160.78-EG1 Filename: spechdr.rtf YORK® a. remote chiller start and stop b. remote leaving chiller liquid temperature adjust c. remote current limit setpoint adjust d. remote ready to start contacts e. safety shutdown contacts f. cycling shutdown contacts g. run contacts YMC2 CHILLER Auburn Reg Med Center- CUP STARTUP AND OPERATOR TRAINING The services of a factory trained, field service representative will be provided to supervise the final leak testing, charging and the initial startup and conduct concurrent operator instruction. FACTORY INSULATION Factory -applied, anti -sweat insulation shall be attached to the cooler shell, flow chamber, tube sheets, suction connection, and (as necessary) to the auxiliary tubing. The insulation shall be a flexible, closed -cell plastic type, 3/4 thick, applied with vapor -proof cement. The insulation will normally prevent sweating in environments with relative humidity up to 75% and dry bult temperatures ranging from 50 to 90 °F. ISOLATION MOUNTING Included with the unit are four vibration isolation mounts, consisting of 1" thick neoprene isolation pads, for field mounting. The pads are to be mounted under the steel mounting pads on the tube sheets. Suitable for ground floor installation. SHIPMENT Form 1 The chiller is shipped complete with miscellaneous loose items shipped together. Refrigerant charges are included. The unit is completely assembled at the factory. • The driveline (compressor/motor assembly) is mounted and all the necessary interconnecting piping is assembled. • The complete unit is factory leak -tested, evacuated, and shipped charged with R -134A refrigerant. • The OptiViewTM Control Center is mounted on the unit. • The Variable Speed Drive (VSD) is mounted, wired, and shipped with glycol. The following items are shipped together: • Four (4) vibration isolation pads (or optional spring isolators and brackets). • VSD Inhibitor • Other shipped loose items, including piping, water temperature controls, wiring, etc. Printed: 2/16/2017 at 14:28 Reference: 160.78-EG1 Filename: spechdr.rtf • 1 CUSTOM MECHANICAL SOLUTIONS SUBMITTAL BACNET CONTROLS INTERFACE CUSTOM MECHANICAL SOLUTIONS -2517 Eastlake Ave, Suite 200 - Seattle, WA 98102 Ph: (206) 973-3900 Fax: (206) 299-9730 YMC2 ODtiView Section 1 ELINK YORK TALK 3 QS 34 (Imp), QS 35 (Metric) Micro Board: 031-02430-xxx Item Version Part Number Chiller Mod Comp Model Baud COMMENTS 1 C.OPT.16.01.213 031-03074-001 A M1 B-xxxFAA 19.2K YMC2 Mod A Chiller with FAA Compressor. Applies to C.OPT.16.01.307 and later. 2 C.OPT.16.01.213 031-03074-001 A M1 B-xxxFAB 19.2K YMC2 Mod A Chiller with FAB Compressor. Applies to C.OPT.16.01.307 and later. 3 C.OPT.18.02.313 031-03074-002 B MxC-xxxFAC 19.2K YMC2 Mod B Chiller with FAC Compressor. Applies to C.OPT.18.02.307 and later. 4 5 6 7 8 9 10 ENG PAGE REF GPIC Object Type BACnet Object & Instance BACnet Object Name LON Profile Name LON SNVT Type N2 Metasys Address MODBUS ENG Units ENG PAGE REF POINT LIST CODE: S = STANDARD 0 = OPTIONAL N = NOT AVAILABLE Address Scale IMP 1 SI POINT LIST DESCRIPTION 1 2 3 4 5 6 7 8 9 10 see note 1 see notes 2,3 see note 4 P03 AV.1 AV1 REM LEAVING CH LIO TEMP SP nviCoolSetPt SNVT_temp_p ADF 1 0001 Div 10 °F °C Remote Leaving Chilled Liquid Setpoint S S S P03 PO4 AV.2 AV2 REM INPUT CURRENT LIM SP nviCapacityLimit SNVT_Iev_percent ADF 2 0002 Div 10 % % Remote Input Current Limit Setpoint S S S PO4 P05 A AV3 ADF 3 0003 Div 10 P05 P06 A AV4 ADF 4 0004 Div 10 P06 P07 BV.1 BV1 REM RUN STOP CMD nviChillerEnable SNVT_svntch BD 1 0061 N/A 0 / 1 0 / 1 Remote Run/Stop [0=Stop, 1=Run] S S S P07 P08 B BV2 BD 2 0062 N/A P08 P09 8 BV3 BD 3 0063 N/A P09 P10 B BV4 BD 4 0064 N/A P10 P11 AI.1 AV5 LEAVING CH GO TEMP nvoLvgCHWTemp SNVT_temp_p ADF 5 0005 X10 °F °C Leaving Chilled Liquid Temperature S S S P11 P12 AI.2 AV6 ENTERING CHLIQ TEMP nvoEntCHWTemp SNVT_temp_p ADF 6 0006 X10 °F °C Entering Chilled Liquid Temperature S S S P12 P13 AI.3 AV7 LEAVING COND WATER TEMP nvoLvgCNDTemp SNVT_temp_p ADF 7 0007 X10 °F °C Leaving Condenser Liquid Temperature S S S P13 P14 AI.4 AVS ENTERING COND WATER TEMP nvoEntCNDTemp SNVT_temp_p ADF 8 0008 X10 °F °C Entering Condenser Liquid Temperature S S S P14 P15 AI.5 AV9 EVAPORATOR PRESSURE nvoEvapPress SNVT_press ADF 9 0009 X10 PSIG kPaG Evaporator Pressure S S S P15 P16 A1.6 AV10 CONDENSER PRESSURE nvoCondPress SNVT.press ADF 10 0010 X10 PSIG kPaG Condenser Pressure S S S P16 P17 AI.7 AV11 DISCHARGE TEMP nvoDischTemp SNVT_temp_p ADF 11 0011 X10 °F °C Discharge Temperature S S S P17 P18 A1.8 AV12 EVAPREFRIGERANTTEMP nvoEvepRefTenlp SNVT_temp_p ADF 12 0012 X10 °F °C Evaporator Refrigerant Temperature S S S P18 P19 AI.53 AV13 VSD PHASE A OUTPUT CURRENT nvoVSDCurrent_A SNVT_amp ADF 13 0013 X10 Amps Amps VSD Phase A Output Current (RMS) S S S P19 P20 AI.54 AV14 VSD PHASE B OUTPUT CURRENT nvoVSDCurrem_B SNVT_amp ADF 14 0014 X10 Amps Amps VSD Phase B Output Current (RMS) S S S P20 P21 AI.55 AV15 VSD PHASE C OUTPUT CURRENT nvovsocwrent_C SNVT_amp ADF 15 0015 X10 Amps Amps VSD Phase C Output Current (RMS) S S S P21 P22 A AV16 ADF16 0016 X1' P22 P23 AI.79 AV17 VSD RMS INPUT CURRENT L1 nvolnputCur_L1 SNVT_amp ADF 17 0017 X10' Amps Amps VSD L1 Input Current (RMS) S S S P23 P24 AI.80 AVIS VSD RMS INPUT CURRENT L2 nvolnputcurL2 SNVT_amp ADF 18 0018 X10 Amps Amps VSD L2 Input Current (RMS) S S S P24 P25 AI.81 AV19 VSD RMS INPUT CURRENT L3 nvolnputcur_L3 SNVT_arnp ADF 19 0019 X10 Amps Amps VSD L3 Input Current (RMS) S S S P25 P26 AV.1 AV20 LEAVING CH LID TEMP ACT SP nvoActiveSetpt SNVT_temp_p ADF 20 0020 X10 °F °C Leaving Chilled Liquid Setpoint - Selected S S S P26 P27 AV.20 AV21 INPUT CURRENT LMT ACTIVE nvolnptCurLmtAot SNVT_Iev_percent ADF 21 0021 X10 % % Active Input Current Limit S S S P27 P28 AV.6 AV22 EVAP SATURATION TEMP nvoEvapSatTemp SNVT_temp_p ADF 22 0022 X10 °F °C Evaporator Saturation Temperature S S S P28 P29 AV.7 AV23 COND SATURATION TEMP nvoCondSatTemp SNVT_temp_p ADF 23 0023 X10 °F °C Condenser Saturation Temperature S S S P29 P30 AI.97 AV24 INPUT CURRENT PCT FLA nvoActlnputCur SNVT_Iev_percent ADF 24 0024 X10 % % Input % Full Load Amps (use for control see note 7 below) S S S P30 P31 A1.35 AV25 GOND REFRIGERANT LEVEL nvoRefLvIPos SNVT_Iev_percent ADF 25 0025 X1 " % % Condenser Refrigerant Level S S S P31 P32 AV.15 AV26 OPERATING HOURS nvoRunHours SNVT_tinte_hours ADF 26 0026 X1 * Hr Hr Operating Hours S S S P32 P33 AV.16 AV27 NUMBER OF STARTS nvoSystemstarts SNVT_count ADF 27 0027 X1 * count* count* Number Of Starts S S S P33 P34 A0.1 AV28 HOT GAS BYPASS VLV CMD nvoHtGasBypasCmd SNVT_lev_percent ADF 28 0028 X1 % % Hot Gas Bypass Command (Hot Gas Bypass Option only) S 0 0 P34 P35 AI.11 AV29 MOTOR CURRENT PCT FLA nvoActMirCapacit SNVT_Iev_percent ADF 29 0029 X10 % % Motor % Full Load Amps (Do NOT use for control see note 7 below) S S S P35 P36 B0.1 BV5 COMPR MOTOR STATUS nvoOnOff SNVT_switch BD 5 0065 N/A 0 / 1 0 / 1 Motor Run [0=Off, 1=On] S S S P36 P37 B0.2 BV6 CH LIO PUMP STAT nvoCHPump SNVT_switch BD 6 0066 N/A 0 / 1 0 / 1 Chilled Liquid Pump [0=Off, 1=0n1 S S S P37 P38. BI.38 BV7 VSD COOLING SYS STAT nvoCoolSysStat SNVT_switch BD 7 0067 N/A 0 / 1 0 / 1 VSD Cooling System [O=Off, 1=0n1 S S S P38 P39 BI.4 BV8 RUN PERMISSIVE nvoRunPermissive SNVT_switch BD 8 0068 N/A 0 / 1 0 / 1 Run Permissive [0=Off, 1=On] S S S P39 P40 BI.1 BV9 CH LIO FLOW SWITCH STAT nvoCHFlowSwitch SNVT_switch BD 9 0069 N/A 0 / 1 0 / 1 Chilled Liquid Flow Switch [0=Open, 1=Closed] S S S P40 P41 BI.2 BV10 CND FLOW SWITCH STAT nvoCNDFlowswtch SNVT_switch BD 10 0070 N/A 0 / 1 0 / 1 Condenser Liquid Flow Switch [O=Open, 1=Closed] S S S P41 P42. BV.22 BV11 COND REF LEVEL CNTRL MODE nvoRefLvICtlMode SNVT_switch BD 11 0071 N/A 0 / 1 0 / 1 Condenser Level Control Valve Mode [0=Auto,1=Manual] S S S P42 NOTE: The Appropriate YMC2 Status Code Tables Should Accompany this Document ENG PAGE -REF GPIC Object Type BACnet Object & Instance BACnet Object LON Profile Name LON SNVT Type N2 Metasys Address MODBUS ENG Units ENG PAGE REF POINT LIST CODE: S = STANDARD 0 = OPTIONAL N = NOT AVAILABLE Address Scale IMP SI POINT LIST DESCRIPTION 1 2 3 4 5 6 7 8 9 10 see note ' see notes 2.3 see note 4 P43 B BV12 BD 12 0072 N/A P43 P44 B BV13 BD 13 0073 N/A P44 P45 B BV14 BD 14 0074 N/A P45 P46 B BV15 BD 15 0075 N/A P46 P47 B BV16 BD 16 0076 N/A P47 P48 B BV17 BD 17 0077 N/A P48 P49 B BV18 BD 18 0078 N/A P49 P50 B BV19 BD 19 0079 N/A P50 P51 B BV20 BD 20 0080 N/A P51 P52 B BV21 BD 21 0081 N/A P52 P53 B BV22 BD 22 0082 N/A P53 P54 B BV23 BD 23 0083 N/A P54 P55 B BV24 BD 24 0084 N/A P55 P56 SC.1 MV1 /AV401 UNIT OPERATION CODE nvoOperCode SNVT_count ADI 1 0030 X1 enum* enum* Unit Operation Code S S S P56 P57 SC.2 MV2 /AV402 UNIT SAFETY FAULT CODE nveSafetyCode SNVT_count ADI 2 0031 X1 enum* enum* Unit Safety Fault Code S S S P57 P58 SC.3 MV3 /AV403 UNIT CYCLING FAULT CODE nvoCyclingFault SNVT_count ADI 3 0032 X1 enum* enum* Unit Cycling Fault Code S S S P58 P59 SC.4 MV4/AV404 UNIT WARNING CODE nvoWamFault SNVT_count ADI 4 0033 X1 enum* enum* Unit Warning Code S S S P59 P60 SC.5 MV5 /AV405 UNIT CONTROL SOURCE nvoUnitCtrISrce SNVT_count ADI 5 0034 X1 enum* enum* Unit Control Source (O.Local, 1=ISN (BAS), 2=Analog. 3=Digital, 4=Modem] S S S P60 P61 SC.12 MV6 /AV406 UNIT MOD RUN CODE nvoModRunFault SNVT_count ADI 6 0035 X1 enum* enum* Unit Modified Run Code S S S P61 P62 SC.13 MV7/AV407 UNIT START INHIBIT CODE nvolnhibitFault SNVT_count ADI 7 0036 X1 enum* enum* Unit Start Inhibit Code S S S P62 P63 SC.14 MV8 /AV408 UNIT INTERNAL FAULT CODE nvolnternalFault SNVT_count ADI 8 0037 X1 enum* enum* Unit Internal Fault Code S S S P63 P64 SC MV9/AV409 ADI 9 0038 X1 P64 P65 SC MV10/AV410 ADI10 0039 X1 P65 P66 AV.90 AV30 VGD CONTROL STATE nvoVGDCntrlState SNVT_count ADF 30 0040 X 1 enum* enum* VGD Control State (Mod A Chillers only) S S N P66 P67 AV.91 AV31 VGD STALL COUNT nvoVGDStaIICnt SNVT_count ADF 31 0041 X 1 count* count* VGD Stall Count (Mod A Chillers only) S S N P67 P68 AV.101 AV32 ACTIVE ANTI SURGE MIN FRED nvoAntiSurMinFq SNVT_freq_hz ADF 32 0042 X1 Hz Hz Active Anti-Surge Minimum Frequency S S S P68 P69 A AV33 ADF 33 0043 X1 P69 P70 AI.51 AV34 VSD OUTPUT VOLTAGE nvoVSDOutputVolt SNVT_volt ADF 34 0044 X10 Volts Volts VSD Output Voltage S S S P70 P71 AV.71 AV35 VSD INPUT POWER nvoVSDlnputPower SNVT_power_kilo ADF 35 0045 X1 * kW kW VSD Input Power S S S P71 P72 AV.72 AV36 VSD INPUT KWH nvoVSDKWH SNVT_elec_kwh ADF 36 0046 X1 * kWh kWh VSD Input Kilowatt Hours S S S P72 P73 AI.56 AV37 vsu DC BUS VOLTAGE nvoVSDDCBusVSIt SNVT_volt ADF 37 0047 X1 * Volts Volts VSD DC Bus Voltage S S S P73 P74 AI.73 AV38 VSD INPUT VOLTAGE LI nvolnputVoltL1 SNVT_volt ADF 38 0048 X1 * Volts Volts VSD L1 Input Voltage (RMS) S S S P74 P75 AV.75 AV39 SURGE COUNT nvoSurgecount SNVT_count ADF 39 0049 X1 * count* count* Surge Count S S S P75 P76 AI.52 AV40 VSD OUTPUT FREQUENCY nvoVSDOutFreq SNVT_freq_hz ADF 40 0050 X1 Hz Hz VSD Output Frequency S S S P76 P77 AI.74 AV41 VSD INPUT VOLTAGE L2 nvolnputVoltL2 SNVT_volt ADF 41 0051 X1 Volts Volts VSD L2 Input Voltage (RMS) S S S P77 P78 AI.75 AV42 VSD INPUT VOLTAGE L3 nvolnputVoltL3 SNVT_volt ADF 42 0052 X1 Volts Volts VSD L3 Input Voltage (RMS) S S S P78 P79 A0.50 AV43 COND LVL CTRL VLV CMD nvoCondLvlCtlVly SNVT_lev_percent ADF 43 0053 X1 % % Condenser Level Control Valve Command S S S P79 P80 B BV25 BD 25 0085 N/A P80 P81 BI.45 BV26 MBC LEVITATION MODE nvoLevitateMode SNVT_switch BD 26 0086 N/A 0 / 1 0 / 1 MBC Levitation Mode [0=Off, 1=On] S S S P81 P82 BI.53 BV27 MBC ROTATION MODE nvoRotateMode SNVT_switch BD 27 0087 N/A 0 / 1 0 / 1 MBC Rotation Mode [0=Off, 1=00] S S S P82 P83 B BV28 BD 28 0088 N/A P83 P84 B BV29 BD 29 0089 N/A P84 NOTES 1 LON SNVTS Used: SNVT_count (8), SNVT_Iev_percent (81), SNVT_temp_p (105), SNVT_switch (95) , SNVT_time_minute (123) , SNVT_freq_hz (76) , SNVT_amp (01) , SNVT_elec_kwh (13) , SNVT_power_kilo (83) , SNVT_volt (44) , SNVT_volt_ac (138), SNVT_press_p (87) 2 Modbus Scaling indicated in BOLD with an (*) asterisk are User Configurable, if necessary, through the USER's Report. See a qualified JCI technician for details. 3 Modbus Function Types Supported (ENG P03-P06 = Types 03, 06, 16) , (ENG P07- P10 = 01, 03, 05, 15, 06, 16), (ENG P11-P35, P56-P79 = 03, 04) , (ENG P36-P55, P80 -P84 = 01, 02, 03). All Modbus values are of the type SIGNED with the exception of the User Configurable values that are all UNSIGNED. 4 BACnet Engineering Units shown with an (*) Asterisk will be assigned a BACnet Eng Unit type of (95) ie NO UNITS. 5 Status Codes: Special Display characters such as (, ), [, ], {, ),/,\,%,< and > are not compatible with Elink N2 formats. Substitute text strings , '-", PCT, GTN will be used . 6 Status Codes: Status Code Text string lengths are limited to 60 total characters (including spaces) 7 Do not use Motor %FLA for current or demand limit control, instead use "INPUT PERCENT FLA" as defined on Section 1, ENG PAGE REF: P30 of this document 8 9 10 NOTE: The Appropriate YMC2 Status Code Tables Should Accompany this Document YMC2 0 tiView Section 2 ELINK YORK TALK 3 Micro Board: 031-02430-xxx ENG PAGE REF GPIC Object Type BACnet Object & Instance BACnet Object Name LON Profile Name LON SNVT Type N2 Metasys Address MODBUS ENG Units ENG PAGE REF POINT LIST CODE: 5 = STANDARD 0 = OPTIONAL N = NOT AVAILABLE Address Scale IMP 1 SI POINT LIST DESCRIPTION 1 2 3 4 5 6 7 8 9 10 see note 1 see notes 2,3 see note 4 P03 A ADF 44 0101 Div 10 P03 PO4 A ADF 45 0102 Div 10 PO4 P05 A ADF 46 0103 Div 10 P05 P06 A ADF 47 0104 Div 10 P06 P07 B BD 30 0161 N/A P07 P08 B BD 31 0162 N/A P08 P09 B BD 32 0163 N/A P09 P10 B ' BD 33 0164 N/A P10 P11 AI.49 AV105 MOTOR HOUSING TEMP nvoMtrHsgTmp SNVT_temp_p ADF 48 0105 X10 °F °C Motor Housing Temp S S S P11 P12 A AV106 ADF 49 0106 X10 P12 P13 AO.2 AV107 MOTOR COOLING VALVE CMD nvoMtrCoolVlvCmd SNVT_temp_p ADF 50 0107 X10 °F °C Motor Cooling Valve Command (Mod A FAB comp & Mod B chillers) N S S P13 P14 AI.96 AV108 VSD INTERNAL AMBIENT TEMP 2 nvoVSDlnterTmp2 SNVT_temp_p ADF 51 0108 X10 °F °C VSD Internal Ambient Temperature 2 S S S P14 P15 AI.48 AV109 MTR WINDING AVG TEMP nvoAvgMWindTemp SNVT_temp_p ADF 52 0109 X1 0 °F °C Average Motor Winding Temperature S S S P15 P16 AI.58 AV110 VSD INTERNAL AMBIENT TEMP 1 nvoVSDInterTmpl SNVT_temp_p ADF 53 0110 X10 °F °C VSD Internal Ambient Temperature 1 S S S P16 P17 AI.32 AV111 VGD POSITION nvoVGDPosition SNVT_Iev_percent ADF 54 0111 X10 % % VGD Position S S S P17 P18 AI.50 AV1 12 PRE ROTATION VANE POS nvoPRVPosition SNVT_Iev_percent ADF 55 0112 X10 % % Pre Rotation Vanes (PRV) Position (Mod A chillers FAA comp only) S N N P18 P19 AV.42 AV113 COND REFRIGERANT LEVEL SP nvoRefLvISP SNVT_Iev_percent ADF 56 0113 X10 % % Condenser Active Level Setpoint S S S P19 P20 AI.10 AV1 14 DROP LEG REFRIG TEMP nvoDropLegTemp SNVT_temp_p ADF 57 0114 X10 °F °C Drop Leg Refrigerant Temperature S S S P20 P21 A AV115 ADF 58 0115 X10 P21 P22 A AV116 ADF 59 0116 X1 * P22 P23 A AV117 ADF 60 0117 X1 * P23 P24 A AV118 ADF 61 0118 X1 P24 P25 A AV119 ADF 62 0119 X1 P25 P26 A AV120 ADF 63 0120 X1 P26 P27 N/A AV1 21 INPUTKWH LO nvoKWHLo SNVT_elec_kwh (13) ADF 64 0121 X1 N/A N/A Input Kilowatt Hours Low (LV and MV SSS only) (see note 11) S S S P27 P28 N/A AV122 INPUT KWH OFFSET nvoKWHOlfset SNVT_elec_kwh (13) ADF 65 0122 XI N/A N/A Input Kilowatt Hours Offset (LV and MV SSS only) (see note 11) S S S P28 P29 N/A AV123 OPERATING HOURS LO nvoOpHrLo SNVT_time_hour (124) ADF 66 0123 X1 N/A N/A Operating Hours Low (see note 12) S S S P29 P30 N/A AV124 OPERATING HOURS OFFSET nvoopHrOffset SNVT_time_hour (124) ADF 67 0124 X1 N/A N/A Operating Hours Offset (see note 12) S S S P30 P31 AI.121 AV125 MBC MOTOR SPEED nvoMotorSpeedHz SNVT_freq_hz ADF 68 0125 X1 * Hz Hz MBC Motor Speed S S S P31 P32 AI.122 AV126 MBC LANDING COUNTER nvoLandingcountr SNVT_count ADF 69 0126 X1 * count* count* MBC Landing Counter (Mod A chillers only) S S N P32 P33 AV.102 AV127 ANTI SURGE MIN PRV POS nvoAntiSurMinPos SNVT_Iev_percent ADF 70 0127 X1 ' % % Active Minimum PRV Position (Mod A chillers FAA comp only) S N N P33 P34 A AV128 ADF 71 0128 X1 P34 P35 A AV129 ADF 72 0129 X1 P35 P36 B BV105 BD 34 0165 N/A P36 P37 B BV106 BD 35 0166 N/A P37 P38 B BV107 BD 36 0167 N/A P38 P39 B BV108 BD 37 0168 N/A P39 P40 B BV109 BD 38 0169 N/A P40 P41 B BV110 BD 39 0170 N/A P41 P42 B BV111 BD 40 0171 N/A P42 NOTES 11 Input Kilowatt Hours = (input Kilowatt Hours Offset x 10,000) + Input Kilowatt Hours Low 12 Operating Hours = (Operating Hours Offset x 10,000) + Operating Hours Low 13 14 15 16' - 17 18 10 - 20 - NOTE: The Appropriate YMC2 Status Code Tables Should Accompany this Document NOTE: The Appropriate YMC2 Status Code Tables Should Accompany this Document W O NNNNNNNNNO CD CO V co CP A W N z rvi y P84 1 6 1 BV129 1 1 1 1 BD 59 1 0189 1 N/A 1 1 1 1 1 1 1 1 1 1 1 1 1 1 P84 1 'D'0-013-0-017-0101)'7 co co W N co co -, O V V CD O V V J O V J O A V J J W N 1310131317-0-0-01717'0'0 J J -• O CO CO W O 0 0 J O 0 0 CP A 0 0 W N O O 0 V-010171713-0-017-0'0131313171717 CP CP W O N N V O N CP 0 A CP co W N" co CP O A A W O A A V O A AA CP A A W 3, mil mm Z T'T GI W W W W >>>>>>>>>>>>>> WOVO0AWN-,OWOVO O O O O W n C) V n 7 Cn nOC Cn Cn 00 W W W W W W W W W W W W W .4O0 0 m» n W W «««««««««o N N O J W W N N O CP D D A A W N-, D D A 0 D D W W W O D D W W V O D D W W CP A D D W W W N-` D D W W 0> 3 "`<< D D > o �o D D➢ n. m < S D a a N VN 0< T D D 4 v a W s««««««< D D a c N W W N N A W W W N N N-` W W N 0 W W W O V W W O 0 W W A W W N W 5-(917j a Q n 7 a 0 0 a BACnet Object Name see note 1 LON Profile Name '< Z o 7,1z i5 llZ WWWWDDDDDDDDDDDDDDDDDDDDDDDDWWWWWWWWWWWWW p p cm cm O p p CP CPJ CP A m m CO CO O CP m m CO CO A W m m CO CO N-L m m CO J O W p O V J O V m m -A-4-.4,1N, O M m p m A W p p OCD p O co J p p O (P p p A W p p N p p N CP W N p p (P O O p p A A (D O p p A A V O p p A A (lt p p A A W N p A am G •+ Z Cp N N `G OM O O O O O V O O O O O CP O O N O W N-4 0 0 CP O 0 0 0 A A CD O 0 0 A A V OCP 0 0 A A A 0 0 A A W N-' 0 0 A A 0 0 0 W W CO O 0 0 W W J O 0 0 W W CP A 0 0 W W W N 0 0 W W -. O 0 0 O O A W 0 0 O 0 N -, 0 0 0 V O (O 0 0 J J O V 0 0 J J O (0 0 0 J J A W see notes 2.3 0172 1 N/A MODBUS Address 1 Scale Z Z DDDD-'-.''''' Z Z X X X X X X » X X X X :.O X X X X X X X X X X X X X X Z Z DDDDDDDDDDDD Z Z Z Z Z Z Z Z Z Z see note 4 ENG Units IMP 1 SI POINT LIST CODE: S = STANDARD 0 = OPTIONAL N = NOT AVAILABLE POINT LIST DESCRIPTION 111213141516171819110 lo1313101013171710101310171717171313131713131317171717-017101710101010131313131717 co co co N—, co co 0 V J CD Co V V J CO J J Cn A J J CO N-4 J V O O O CO Co O O J O CA 0 (P A 0 0 CO N-4 0 0 O CP CP CO CO CP CP J O N N Co A NCP Co N-4 CP CP O A A CD Co A A J co A A O A A W 71 3. m y� Z T m %i YMC2 Status Codes (see notes 5 & 6) ENG PAGE YMC2 Operation Code SC.1 'NOTE: for BACnet MSV values add 1 to number P56 OPER.CODE Max MSV States = 1.60 0 Unit Stopped - Ready To Start 1 Unit Stopped - Local Shutdown 2 Unit Stopped - Remote Shutdown 3 Unit Stopped - Warning Active 4 Unit Stopped - Cycling Shutdown 5 Unit Stopped - Safety Shutdown 6 Unit Start Inhibit 7 Unit Starting 8 Unit Running - No Abnormal Condition 9 Unit Running - Warning Active 10 Unit Running - Soft Shutdown 11 Unit Coastdown 12 Unit Running - Modified Run 13 Unit Stopped - Internal Shutdown ENG PAGE YMC2 Safety Fault Code SC.2 *NOTE: for BACnet MSV values add 1 to number P57 _ SAFETY.FLT Max MSV States = 300 0 NO SAFETY FAULTS PRESENT 1 EVAPORATOR - LOW PRESSURE 2 EVAPORATOR - TRANSDUCER OR LEAVING LIQUID PROBE 3 EVAPORATOR - TRANSDUCER OR TEMPERATURE SENSOR 4 CONDENSER- HIGH PRESSURE SWITCH OPEN 5 CONDENSER- HIGH PRESSURE 6 CONDENSER - PRESSURE TRANSDUCER OUT OF RANGE 7 AUXILIARY SAFETY - CONTACTS CLOSED 8 DISCHARGE - LOW TEMPERATURE 9 DISCHARGE - HIGH TEMPERATURE 10 Reserved 10 11 Reserved 11 12 Reserved 12 13 Reserved 13 14 Reserved 14 _ 15 Reserved 15 16 Reserved 16 17 Reserved 17 18 Reserved 18 19 Reserved 19 20 Reserved 20 21 CONTROL PANEL - PO,WFR FAILURE 22 CONTROL PANEL - LOSS OF CONTROL VOLTAGE 23 UPS — BATTERY NOT CONNECTED 24 UPS — INVERTER LOW BATTERY VOLTAGE 25 Reserved 25 26 Reserved 26 27 Reserved 27 28 Reserved 28 29 _ Reserved 29 30 VSD - 105% MOTOR CURRENT OVERLOAD 31 Reserved 31 _ 32 Reserved 32 33 Reserved 33 34 Reserved 34 35 VSD- PRECHARGE LOCKOUT 36 Reserved 36 37 Reserved 37 38 Reserved 38 39 Reserved 39 40 Reserved 40 41 Reserved 41 42 Reserved 42 43 Reserved 43 44 Reserved 44 45 Reserved 45 46 Reserved 46 47 Reserved 47 48 Reserved 48 49 Reserved 49 50 Reserved 50 ENG PAGE YMC2 Safety Fault Code SC.2 (cont) 'NOTE: for BACnet MSV values add 1 to number P57 SAFETY.FLT Max MSV States = 300 51 EVAPORATOR - LOW PRESSURE 52 EVAPORATOR - LOW PRESSURE- SMART FREEZE 53 SURGE PROTECTION - EXCESS SURGE 54 Reserved 54 55 Reserved 55 56 Reserved 56 57 Reserved 57 58 Reserved 58 59 Reserved 59 60 Reserved 60 61 MOTOR - HIGH WINDING TEMPERATURE 62 MOTOR — HIGH ROTOR TEMPERATURE 63 Reserved 63 64 Reserved 64 65 Reserved 65 66 VSD - MOTOR CURRENT IMBALANCE 67 CONDENSER - HIGH PRESSURE -STOPPED 68 MBC — DSP UNAUTHORIZED ROTATION 69 MBC — SPV UNAUTHORIZED ROTATION 70 MBC — AMP COMMUNICATION 71 MBC — AMP WATCHDOG 72 Resorvod 72 73 MBC — LOW RADIAL OSCILLATOR VOLTAGE 74 Reserved 74 75 MBC — LOW AXIAL OSCILLATOR VOLTAGE 76 MBC — ROTOR CONTRACTION 77 MBC—HIGH INPUT VOLTAGE 78 Reserved 78 79 MBC— INTERNAL FAULT 80 VGD ACTUATOR FAULT 81 VGD POSITIONING FAULT 82 MBC,. POWER FAIL LANDING 83 Reserved 83 84 Reserved 84 85 Reserved 85 86 Reserved 86 87 Reserved 87 88 Reserved 88 89 Reserved 89 90 Reserved 90 91 Reserved 91 92 Reserved 92 93 Reserved 93 94 Reserved 94 95 VSD - LOGIC BOARD PLUG 96 VSD - INPUT CURRENT OVERLOAD 97 VSD - HIGH PHASE A INPUT BASEPLATE TEMPERATURE 98 VSD - HIGH PHASE B INPUT BASEPLATE TEMPERATURE 99 VSD - HIGH PHASE C INPUT BASEPLATE TEMPERATURE 100 VSD - HIGH PHASE A MOTOR BASEPLATE TEMPERATURE 01 01 N —, 01 A O CO A A CO V A A 01 01 ..pp A A CO A A 10— A W O (D W W 03 V W W 0) 01 W W 4, CO W W N-4 W N 0 W 10 10 CO V N N 0 01 N N A co N N 10 -- N O W —L—,—,—,—• CO V 0) 01 A co —•-4 10 — 0 O tD 0 0 co V 0 0 01 01 0 0 A CO 0 0 N-. �m 01 D Z v m 0 MBC - FAULT CODEX MBC - NO LEVITATION MBC - POWER SUPPLY FAULT MBC - UNAUTHORIZED ROTATION MBC - HIGH BEARING CURRENT MBC - OSCILLATOR FAULT MBC - OVERSPEED FAULT MBC- ROTOR ELONGATION MBC - CABLE FAULT MBC - SPEED SIGNAL FAULT MBC - HIGH BEARING Z1 TEMPERATURE MBC - HIGH BEARING Z2 TEMPERATURE MBC - DSP WATCHDOG MBC - DATA ACQUISITION FAULT MBC - INTERNAL FAULT 13 MBC - INTERNAL FAULT 14 MBC - INTERNAL FAULT 11 MBC - INTERNAL FAULT 12 MBC -EEPROM MBC - FLASH MEMORY FULL MBC - FLASH MEMORY CLEAR MBC - FLASH MEMORY WRITE MBC - DSP COMMUNICATION MBC - DSP INTEGRITY MBC - HIGH AMPLIFIER TEMPERATURE MBC - HIGH DC/DC TEMPERATURE VSD - INVERTER PROGRAM FAULT MBC - DSP INITIALIZATION Reserved 123 VSD - RECTIFIER PROGRAM FAULT VSD - HIGH PHASE C MOTOR CURRENT VSD - MOTOR CURRENT THD FAULT VSD - HIGH PHASE A MOTOR CURRENT VSD - HIGH PHASE B MOTOR CURRENT VSD - HIGH PHASE B INPUT CURRENT VSD - HIGH PHASE C INPUT CURRENT Reserved 115 VSD - HIGH PHASE A INPUT CURRENT VSD - DC BUS LOCKOUT - DO NOT CYCLE POWER VSD - INPUT DCCT OFFSET LOCKOUT LSD - HIGH TOTAL DEMAND DISTORTION Reserved 112 VSD - PHASE B INPUT DCCT VSD - PHASE C INPUT DCCT VSD - PHASE C MOTOR DCCT VSD - PHASE A INPUT DCCT VSD - PHASE A MOTOR DCCT VSD - PHASE B MOTOR DCCT VSD - DC BUS PRE -REGULATION LOCKOUT VSD- GROUND FAULT VSD - HIGH PHASE B MOTOR BASEPLATE TEMPERATURE VSD - HIGH PHASE C MOTOR BASEPLATE TEMPERATURE YMC2 Safety Fault Code SC.2 (cont) `NOTE: for BACnet MSV values add 1 to number SAFETY.FLT Max MSV States = 300 1101 O A A O 01 A A V 0) A AA 01 A A A W 10 A A —• O W W CO 00 CO W -J 0) W W U1 A W W W N W CO —4 0 N N (D Co 10 10 V 0) N 10m 01 A N W N N N —4 O -+ —4-4-4-4-4-4 W 00 -1 O) 01 A W N —4 -L O 0) 0) W NJ 0) 0) 0 (.1) 01 (D COCO1 01 01 01 01 A 01 ((l ID II rn D-, m Z Reserved 48 Reserved 49 Reserved 46 Reserved 47 Reserved 44 Reserved 45 Reserved 42 Reserved 43 VSD - SERIAL RECEIVE VSD - FAULT CONTACTS OPEN Reserved 38 VSD - RUN SIGNAL Reserved 36 VSD - PRECHARGE - LOW DC BUS VOLTAGE 1 Reserved 34 Reserved 35 Reserved 32 Reserved 33 VSD - HIGH INTERNAL AMBIENT TEMPERATURE Reserved 31 VSD - LOW DC BUS VOLTAGE Reserved 29 VSD - HIGH DC BUS VOLTAGE VSD - LOGIC BOARD POWER SUPPLY Reserved 24 VSD - SINGLE PHASE INPUT POWER Reserved 22 Reserved 23 UPS— LINE LOW BATTERY VOLTAGE Reserved 21 VSD SHUTDOWN - REQUESTING FAULT DATA... VGD ACTUATOR - SERIAL COMMUNICATIONS Reserved 16 VSD - INITIALIZATION FAILED Reserved 14 Reserved 15 CONTROL PANEL -SCHEDULE Reserved 13 Reserved 10 Reserved 11 CONDENSER- FLOW SWITCH OPEN Reserved 9 VOHARDWARE ISOLATION CV -NOT OPENED VSD - LINE VOLTAGE PHASE ROTATION VSD - PHASE 1 QQGftED LOOP - MOTOR - HIGH HOUSING TEMPERATURE SALES ORDER - INVALID COMPRESSOR MODEL Reserved 156 MBC - CUSTOMER SERIAL LINK DISABLED MBC- EXCESSIVE SHUTDOWNS SAFETY STOP SAFETY.FLT Max MSV States = 300 MBC - STARTUP FAILURE YMC2 Safety Fault Code SC.2 (cont) *NOTE: for BACnet MSV values add 1 to number 1101 O A A O 01 A A V 0) A AA 01 A A A W 10 A A —• O W W CO 00 CO W -J 0) W W U1 A W W W N W CO —4 0 N N (D Co 10 10 V 0) N 10m 01 A N W N N N —4 O -+ —4-4-4-4-4-4 W 00 -1 O) 01 A W N —4 -L O O Co J O) 01 A CO N—. 0 71 24 n Z 01 C) 61 M Reserved 50 Reserved 51 Reserved 48 Reserved 49 Reserved 46 Reserved 47 Reserved 44 Reserved 45 Reserved 42 Reserved 43 VSD - SERIAL RECEIVE VSD - FAULT CONTACTS OPEN Reserved 38 VSD - RUN SIGNAL Reserved 36 VSD - PRECHARGE - LOW DC BUS VOLTAGE 1 Reserved 34 Reserved 35 Reserved 32 Reserved 33 VSD - HIGH INTERNAL AMBIENT TEMPERATURE Reserved 31 VSD - LOW DC BUS VOLTAGE Reserved 29 VSD - HIGH DC BUS VOLTAGE VSD - LOGIC BOARD POWER SUPPLY Reserved 24 VSD - SINGLE PHASE INPUT POWER Reserved 22 Reserved 23 UPS— LINE LOW BATTERY VOLTAGE Reserved 21 VSD SHUTDOWN - REQUESTING FAULT DATA... VGD ACTUATOR - SERIAL COMMUNICATIONS Reserved 16 VSD - INITIALIZATION FAILED Reserved 14 Reserved 15 CONTROL PANEL -SCHEDULE Reserved 13 Reserved 10 Reserved 11 CONDENSER- FLOW SWITCH OPEN Reserved 9 LEAVING CHILLED LIQUID - LOW TEMPERATURE CHILLED LIQUID - FLOW SWITCH OPEN Reserved 4 CONTROL PANEL - POWER FAILURE SYSTEM CYCLING - CONTACTS OPEN Reserved 3 NO CYCLING FAULTS PRESENT MULTIUNIT CYCLING - CONTACTS OPEN YMC2 Cycling Fault Code SC.3 `NOTE: for BACnet MSV values add 1 to number CYCLING.FLT Max MSV States = 300 Sapo3 snWa3S a3WA (9 rg g salou Gas) O 0, O O N_. O O 0 VJ O O CO V O O 0) Cn O O A W O (0 N O CO O (0 CO CO W V CO CO 0) VI 00 00 A W CO CO N -+ 00 V O O V V 0o V V V 0) VI V V A W V V N—, V W O CO 0) O CO V 0) 0 0) V) 0) 0) A W 0 0) N—• 0) N O (D V 1 N CO V V I VIN O VI N(0 A CO N D m 0 M m 0 (1 °0 m 0 z 2 YMC2 Cycling Fault Code SC.3 (cont) *NOTE: for BACnet MSV values add 1 to number CYCLING.FLT Max MSV States = 300 Reserved 52 Reserved 53 Reserved 54 Reserved 55 Reserved 56 Reserved 57 Reserved 58 Reserved 59 Reserved 60 Reserved 61 Reserved 62 Reserved 63 Reserved 64 Reserved 65 Reserved 66 Reserved 67 Reserved 68 Reserved 69 Reserved 70 Reserved 71 Reserved 72 Reserved 73 Reserved 74 Reserved 75 Reserved 76 Reserved 77 Reserved 78 Reserved 79 Reserved 80 Reserved 81 Reserved 82 Reserved 83 Reserved 84 Reserved 85 Reserved 86 Reserved 87 Reserved 88 Reserved 89 Reserved 90 Reserved 91 Reserved 92 Reserved 93 Reserved 94 Reserved 95 Reserved 96 Reserved 97 Reserved 98 Reserved 99 VSD - SERIAL COMMUNICATIONS MBC - V13 POSITION MBC - W13 POSITION VI VI UI VI A W VI VI N—, 01 A O (D A A 0o V A A O) VI A A 41.411V—IO A A A (0 cO W (J 0o V 00 W 0) VI W W A (0(0—I W W 00 (0 O O N N 0o V 0) N 0)VI N N A (0(0—c N IV N O (D 00 V 0) VI 43.03 IV—cO 0 0J 0 0 m V 0) 0 0) VI 0 cnn A 0o D Z ii1 0 m VSD - PHASE A INPUT DCCT OFFSET Reserved 153 VSD - NOT RUNNING VSD - DC BUS PRE -REGULATION VSD - LOGIC BOARD PROCESSOR VSD - LOW PHASE C MOTOR BASEPLATE TEMPERATURE Reserved 150 VSD - LOW PHASE A MOTOR BASEPLATE TEMPERATURE VSD - LOW PHASE B MOTOR BASEPLATE TEMPERATURE VSD - LOW PHASE B INPUT BASEPLATE TEMPERATURE VSD - LOW PHASE C INPUT BASEPLATE TEMPERATURE VSD - PHASE C MOTOR GATE DRIVER VSD - LOW PHASE A INPUT BASEPLATE TEMPERATURE VSD - PHASE A MOTOR GATE DRIVER VSD - PHASE B MOTOR GATE DRIVER VSD - PHASE B INPUT GATE DRIVER VSD - PHASE C INPUT GATE DRIVER VSD - HIGH PHASE C MOTOR CURRENT VSD - PHASE A INPUT GATE DRIVER VSD - HIGH PHASE A MOTOR CURRENT VSD - HIGH PHASE B MOTOR CURRENT VSD - HIGH PHASE B INPUT CURRENT VSD - HIGH PHASE C INPUT CURRENT Reserved 131 VSD - HIGH PHASE A INPUT CURRENT CONTROL PANEL - LOSS OF CONTROL VOLTAGE EXPANSION I/O - SERIAL COMMUNICATIONS Reserved 127 EVAPORATOR - LOW PRESSURE eserved 125 Reserved 126 reserved 123 Reserved 124 MBC — UNKNOWN PARAMETER FILE MBC — LOW INPUT VOLTAGE MBC - FAULT CONTACTS OPEN MBC - STARTUP FAILURE MBC - SPEED SIGNAL FAULT MBC SHUTDOWN - REQUESTING FAULT DATA... MBC - HIGH DC/DC TEMPERATURE MBC - SERIAL COMMUNICATIONS MBC - Z12 VIBRATION MBC - HIGH AMPLIFIER TEMPERATURE MBC - V W 13 VIBRATION MBC - VW24 VIBRATION MBC - W24 LOW FREQUENCY DISPLACEMENT MBC - Z12 LOW FREQUENCY DISPLACEMENT MBC - W13 LOW FREQUENCY DISPLACEMENT MBC - V24 LOW FREQUENCY DISPLACEMENT MBC - Z12 POSITION MBC - V13 LOW FREQUENCY DISPLACEMENT rCYCLING.FLT Max MSV States = 300 MBC - W24 POSITION YMC2 Cycling Fault Code SC.3 (cont) `NOTE: for BACnet MSV values add 1 to number sapo3 sn3e;S z3WA (g 'g g salou aas) 0)0)01 0O (0 0)0101{0) 00 V 0) Oo v aZ n1 Li M ISOLATION VALVES - NOT CLOSED VSD - INVALID SETPOINTS CONDENSER- FREEZE THREAT - FLOW SWITCH OPEN VSD - PHASE C INPUT DCCT OFFSET VSD - PRECHARGE - LOW DC BUS VOLTAGE 2 CYCLING.FLT Max MSV States = 300 VSD - PHASE B INPUT DCCT OFFSET YMC2 Cycling Fault Code SC.3 (cont) "NOTE: tor BACnet MSV values add 1 to number sapo3 sn3e;S z3WA (g 'g g salou aas) N A O 0 A A CO V A A 01 A A W A A N -, A W O (D W W COn V W W 01 0 CO W A COW CO CO N -, CO N O (D N N OD V N N m 01 N N A W NNN"4-4--� N -, 0 0 COm V 01 W A GO N -.L u, O OD JmUtA No Modified Run Conditions Present Reserved 1 YMC2 Modified Run Code SC.12 *NOTE: for BACnet MSV values add 1 to number MODRUN.FLT Max MSV States - 140 NCO c2ii). Z Z m Reserved 49 Reserved 50 Reserved 47 WARNING MBC - LANDING COUNTER HIGH Reserved 45 Reserved 46 Reserved 43 WARNING - VSD - INPUT VOLTAGE IMBALANCE WARNING — MOTOR — HIGH ROTOR TEMPERATURE Reserved 42 Reserved 39 WARNING - MOTOR - HIGH WINDING TEMPERATURE Reserved 37 Reserved 38 Reserved 35 Reserved 36 Reserved 33 WARNING - CONDENSER OR VGD SENSOR FAILURE Reserved 31 Reserved 32 WARNING - SURGE PROTECTION - EXCESS SURGE LIMIT WARNING - EXCESS SURGE DETECTED Reserved 27 Reserved 28 Reserved 25 Reserved 26 WARNING — UPS — CHECK BATTERY CONNECTION WARNING — UPS — BATTERY TEST FAILED WARNING — UPS — LINE LOW BATTERY VOLTAGE WARNING — UPS — BATTERY NOT CONNECTED Reserved 19 WARNING — UPS — NOT CHARGING Reserved 17 Reserved 18 Reserved 15 Reserved 16 Reserved 13 Reserved 14 Reserved 11 Reserved 12 Reserved 9 Reserved 10 Reserved 7 Reserved 8 WARNING - CONDENSER - HIGH PRESSURE LIMIT Reserved 6 WARNING - CONDENSER OR EVAPORATOR XDCR ERROR WARNING - EVAPORATOR - LOW PRESSURE LIMIT WARNING - REAL TIME CLOCK FAILURE WARNING - SETPOINT OVERRIDE WARNING.FLT Max MSV States = 160 NO WARNINGS PRESENT YMC2 Warning Code SC.4 `NOTE: for BACnet MSV values add 1 to number sapoo SflW S a3WA (g '8 g salou aas) • .i.immmmmmmmmmcnNmmcncncncnm O 0 CO--Jm I cn A W N -+ cn A W N -, O mm C. y DA N-. Dz a' 6) M WARNING - CONDENSER - FREEZE THREAT FROM LOW PRESSURE WARNING - LIQUID LEVEL SETPOINT NOT ACHIEVED WARNING - LOSS OF SUBCOOLER LIQUID SEAL WARNING - MOTOR - HIGH HOUSING TEMPERATURE WARNING - VSD - DC BUS ACTIVE WARNING - MBC - ROTATION MODE OFF WARNING - MOTOR - HIGH CURRENT LIMIT VSD - INPUT PULLDOWN LIMIT VSD - HIGH INPUT CURRENT LIMIT Reserved 2 Reserved 3 No Modified Run Conditions Present Reserved 1 YMC2 Modified Run Code SC.12 *NOTE: for BACnet MSV values add 1 to number MODRUN.FLT Max MSV States - 140 sapoo SflW S a3WA (g '8 g salou aas) • .i.immmmmmmmmmcnNmmcncncncnm O 0 CO--Jm I cn A W N -+ 0) A W N -+ O mm OC) Z w00 0 N-. Dz a' 6) M WARNING - CONDENSER - FREEZE THREAT FROM LOW PRESSURE WARNING - LIQUID LEVEL SETPOINT NOT ACHIEVED WARNING - LOSS OF SUBCOOLER LIQUID SEAL WARNING - MOTOR - HIGH HOUSING TEMPERATURE WARNING - VSD - DC BUS ACTIVE WARNING - MBC - ROTATION MODE OFF WARNING - MOTOR - HIGH CURRENT LIMIT INTERNAL ERROR - CANNOT REGISTER CONTROL INTERNAL ERROR - INVALID BRAM WATCHDOG - SOFTWARE REBOOT INTERNAL ERROR - CANNOT CREATE TASK No Internal Faults Present INTERNAL ERROR - NO TIMER HANDLES AVAILABLE YMC2 Internal Fault Code SC.14 *NOTE: for BACnet MSV values add 1 to number WARNING.FLT Max MSV States = 140 sapoo SflW S a3WA (g '8 g salou aas) • .i.immmmmmmmmmcnNmmcncncncnm O 0 CO--Jm I cn A W N -+ O ¢0 m J m N A W N-. Dz a' 6) M WARNING - CONDENSER - FREEZE THREAT FROM LOW PRESSURE WARNING - LIQUID LEVEL SETPOINT NOT ACHIEVED WARNING - LOSS OF SUBCOOLER LIQUID SEAL WARNING - MOTOR - HIGH HOUSING TEMPERATURE WARNING - VSD - DC BUS ACTIVE WARNING - MBC - ROTATION MODE OFF WARNING - MOTOR - HIGH CURRENT LIMIT Reserved 63 Reserved 64 Reserved 61 Reserved 62 WARNING - MBC - HIGH RADIAL QPCILLATOR VQLTp,GE WARNING — MBC — HIGH AXIAL OSCILLATOR VOLTAGE WARNING — MBC — AMP WATCHDOG WARNING — MBC — INTERNAL ALARM WARNING — MBC — CHECKSUM CENTERING WARNING — MBC — DSP WATCHDOG Reserved 53 Reserved 54 Reserved 51 Reserved 52 YMC2 Warning Code SC.4 (cont) "NOTE: for BACnet MSV values add 1 to number WARNING.FLT Max MSV States = 160 sapoo SflW S a3WA (g '8 g salou aas) • A CO N- 0 co m J m (n A W N- O 13 rn 0r10Z N m LINE FREQUENCY NOT SET VGD NOT CALIBRATED LINE VOLTAGE NOT SET PRV NOT CALIBRATED Reserved 11 Reserved 8 Reserved 9 Reserved 6 Reserved 7 VGD FEEDBACK NOT CALIBRATED Reserved 5 MBC — INITIALIZATION FAILURE VGD STROKE NOT CALIBRATED No Inhibit Faults Present ANTI -RECYCLE YMC2 Start Inhibit Code SC.13 *NOTE: for BACnet MSV values add 1 to number INHIBIT.FLT Max MSV States = 160 sapoo SflW S a3WA (g '8 g salou aas) • CUSTOM MECHANICAL SOLUTIONS SUBMITTAL WIRING DIAGRAMS & ELECTRICAL DETAILS CUSTOM MECHANICAL SOLUTIONS -2517 Eastlake Ave, Suite 200- Seattle, WA 98102 Ph: (206) 973-3900 Fax: (206) 299-9730 p yoRK BY JOHNSON CONTROLS Supercedes: 160.78-PW1 (813) Form 160.78-PW1 (913) FIELD CONNECTIONS DIAGRAM FOR MODEL YMC2 CHILLER WITH MI COMPRESSOR WIRING DIAGRAMS CONTRACTOR PURCHASER ORDER NO. JOB NAME YORK CONTRACT NO. LOCATION YORK ORDER NO. ENGINEER APPROVAL DATE ■ REFERENCE DATE I ■ I ■ CONSTRUCTION DATE JOB DATA: CHILLER MODEL NO. YMC2 NO. OF UNITS MOTORNARIABLE SPEED DRIVE POWER: 460V, 60Hz; 380V, 60Hz; 415V, 50Hz or 400V, 50Hz Issue Date: September 27, 2013 IMPORTANT! READ BEFORE PROCEEDING! GENERAL SAFETY GUIDELINES This equipment is a relatively complicated apparatus. During installation, operation, maintenance or service, individuals may be exposed to certain components or conditions including, but not limited to: refrigerants, oils, materials under pressure, rotating components, and both high and low voltage. Each of these items has the potential, if misused or handled improperly, to cause bodily injury or death. It is the obligation and respon- sibility of operating/service personnel to identify and recognize these inherent hazards, protect themselves, and proceed safely in completing their tasks. Failure to comply with any of these requirements could result in serious damage to the equipment and the property in which it is situated, as well as severe personal injury or death to themselves and people at the site. FORM 160.78-PW1 (913) This document is intended for use by owner -authorized operating/service personnel. It is expected that this individual possesses independent training that will en- able them to perform their assigned tasks properly and safely. It is essential that, prior to performing any task on this equipment, this individual shall have read and understood this document and any referenced materials. This individual shall also be familiar with and comply with all applicable governmental standards and regula- tions pertaining to the task in question. SAFETY SYMBOLS The following symbols are used in this document to alert the reader to areas of potential hazard: DANGER DANGER indicates an imminently hazardous situation which, if not avoided, will result in death or seri- ous injury. WARNING indicates a potentially hazardous situation which, if not avoided, could result in death or seri- ous injury. CAUTION CAUTION identifies a hazard which could lead to damage to the machine, damage to other equipment and/or environmental pollution. Usually an instruction will be given, together with a brief explanation. NOTE is used to highlight additional information which may be helpful to you. External wiring, unless specified as an optional connection in the manufacturer's product line, is NOT to be connected inside the equipments cabinet. Devices such as relays, switches, transducers and controls may NOT be installed inside the equipments panel. NO external wiring is allowed to be run through the panel. All wiring must be in accordance with YORK/ Johnson Controls published specifications and must be performed ONLY by qualified YORK/ Johnson Controls personnel. Johnson Controls will not be responsible for damages/problems resulting from improper connections to the controls or application of improper control sig- nals. Failure to follow this will void the manufacturer's warranty and cause serious damage to property or injury to persons. JOHNSON CONTROLS FORM 160.78-PW1 (91) , VARIABLE SPEED DRIVE (490A) 10. Automatic control of the chilled water pump by the control center is shown. Chilled water pump motor starter (5M) holding coil to be furnished for 115V — 50/60 Hz. The power requirements for the water pump starter (5M) must be a maximum of 1 Amp holding and 8 Amps inrush. If power requirements exceed this value, furnish coil for line voltage, and control relay with 115V coil (see Note 20). • The pumps operate during compressor operation & during cycling shutdown. • For manual chilled water pump control, connect a manual start/stop switch as shown in the Field Connections diagram for 115VAC coils only. TABLE 2 - CONDUIT DETAILS NOTES: 1. All field wiring shall be done in accordance with the NEC codes listed within this manual. NEC articles and paragraphs cited are for reference only and may not be current NEC code. 2. Variable Speed Drive (VSD) shall be grounded in accordance with the 2008 N.E.C. (Paragraph 250- 118) for equipment grounding. Flexible conduit is required for final connection to the VSD. A separate grounding conductor is required, it must be a copper conductor only and sized per the N.E.C. (Table 250- 122). Per the 2008 N.E.C. (Paragraph 250-122(f)), where multiple (parallel) conduits are used each must contain a grounding conductor. See TABLE 1 for grounding lug wire range. 3. Wiring, electrical conduit, junction boxes, fused dis- connect switches (FDS), or circuit breakers, starters (M), pushbutton stations (PB), manual -off -automatic switch (S), flow switch (FLS), and control relays fur- nished by others unless otherwise specified. 4. Items marked * furnished by Johnson Controls. 5. Items marked ** available from Johnson Controls at additional cost. 6. Control power supply 115V - 50/60 Hz, 2.0 KVA capacity for control center only, is supplied by (1)-2.0 KVA control power transformers (1T) mounted Inside the VSD, they are factory wired. 7. A removable cover plate with pilot knockouts is sup- plied for connection of power supply conduits. VSD power conduit connection removable cover plate (cut holes to suit) locations per FIGURE 1. Flexible conduit must be used for final connections to VSD. Multiple conduits shall contain an equal number of wires from each phase in each conduit to prevent overheating per the 2008 N.E.C. (Paragraph 300- 20(a)). Use copper conductors only; DO NOT USE aluminum conductors. See TABLE 1 for factory furnished VSD terminal lug wire ranges and conduit connection provisions. 8. The following terminal lugs are factory furnished for field wiring supply connections. All lugs are rated AL9CU. 9. Condenser water pump motor starter (3M) holding coil to be furnished for 115V - 50/60 Hz. The power requirements for the water pump starter (3M) must be a max. of 1 Amp holding and 10 Amps inrush. If power requirements exceed this value, furnish coil for line voltage, and control relay with 115V coil (see Note 20). TABLE 1 - LUG DETAILS Input Voltage/ Frequency Chiller Motor Code Max. No. of Conduits 380/460 60 Hz 400/415 50 Hz M1 (2) 3 in. 11. Units shipped knocked down require field connection of harnesses to control center, power wiring between compressor motor and VSD. These harnesses and power wiring are furnished by Johnson Controls for field assembly and consist of proper lengths of flex- ible conduit with necessary connectors, and contain the wires (shown in Note 12) properly terminated and marked. 12. Wire #14 AWG copper for one way distance of less than 175 feet. Wire #12 AWG copper for one way distance of more than 175 feet, but less than 300 feet. 13. Wiring diagram for YORK control center and Field Con- trol Modifications Form 160.78-PW2. Wiring diagrams for YORK Variable Speed Drive Form 50.70-PW2. 15.The branch circuit overcurrent protection device for the YORK VSD must be a time delay type with a rating which is the standard fuse/circuit breaker size required to protect the field supply wiring conduc- tors per the N.E.C. 16. The YORK Variable Speed Drive power supply wiring ampacity shall be calculated as follows. Model YMC2 minimum circuit ampacity: Ampacity = 1.25 (Job FLA) Option Input Voltage/ Frequency Line Side Lugs BBL Per Terminal Wire Range Grounding Lug Wire Range, Qty. 380/460 60 Hz Circuit Breaker 2 2/0 - 350 mcm #14-2/0, 2 bbl 400/415 50 Hz Disconnect 380/460 60 Hz 2 2/0 - 350 mcm #14-2/0, 2 bbl 400/415 50 Hz JOHNSON CONTROLS VARIABLE SPEED DRIVE (490A) Where 125% factor per 2008 N.E.C. (Para. 440-33). 17. The VSD is equipped with a U.L. Listed rotary discon- nect switch or optional circuit breaker. In both cases, fast acting semiconductor fuses, downstream of the disconnecting device, to provide additional protection to the VSD. Ground fault is employed on both circuit breaker and disconnect switch models via the VSD logic control board using a hall effect current sensor one per phase. Ground fault protec- tion is also provided as part of the circuit breaker protection. 18.The minimum value of line impedance shall be determined by the case in which the VSD is fed from a transformer whose kVA rating is equal to 5 times rated power of the VSD. The transformer shall be specified to have 3% impedance. The supply volt- age, at VSD input terminals, during start-up must be maintained above 391 volts for 440V/460V/480V 60 Hz units, above 323 volts for 380V/400V 50/60 Hz units, above 353 volts for 415V 50 Hz units. The following Table provides allowable supply voltage range during normal operation. TABLE 3 - VOLTAGE RANGES Input Voltage Voltage Range 380/400V 50/60 Hz 342-423 415V 50 Hz 374-456 440/460V 60 Hz 414-508 19.Maximum line voltage imbalance (calculated as the difference between any of the three line volt- ages and the average of the three line voltages, and multiplied by 100%) will be 5%. Maximum line voltage total harmonic distortion (THD) will be 5% per phase (from n=2nd to n=50th harmonic) when line impedance is specified as follows: • Minimum value of line impedance will be deter- mined by the case in which the VSD is fed from a transformer whose kVA rating is equal to 5 times the rated power of the VSD. The transformer will be specified to have 3% impedance. JOHNSON CONTROLS FORM 160.78-PW1 (913) • Maximum value of line impedance will be deter- mined by the case in which the VSD is fed from a transformer whose kVA rating is equal to the rated power of the VSD. The transformer will be specified to have 7% impedance. The VSD will comply with IEEE Std. 519-1992 sec- tion 10.3. 20. Each 115VAC field -connected inductive load, i.e. relay coil, motor starter coil, etc. will have a transient suppressor wired (by others) in parallel with its coil, physically located at the coil. Spare transient sup- pressors are factory supplied in a bag attached to the keypad cable clamp in the OptiView Control Center. 21.All switches and circuit breakers used as switches will be located so they may be operated from a read- ily accessible place. They will be installed per 2008 N.E.C. (Para. 404.8).Switches and circuit breakers installed adjacent (close -coupled) to motors, appli- ances, or other equipment that they supply shall be permitted to be located higher than 6'-7" (2m) and to be accessible by portable means per 2008 N.E.C. (Para. 404.8 Exception No. 2). FORM 160.78-PW1 (913) VARIABLE SPEED DRIVE (490A) Input Voltage/ Frequency Chiller Motor Code VSD Circuit Breaker Rating @ 480VAC, 60 Hz or 400VAC, 50 Hz Semiconductor Fuse Rating (Amps) @ 660 VAC Ground Fault Trip Trip Withstand 380/460 60 Hz M1 450A 100,000*t 550A 40A 400/415 50 Hz * Per U.L. Listing of VSD t RMS Symmetrical Amperes 25-1/4" (638mm) n 0 n n TOP VIEW n nn 26-3/8" 24-1/4" (670mm) (616mm) 9.. (229mm) 1 INPUT AI 4-1/2" ° v (112mm) 0 40 1-1/8" - (28.5mm) 38-1/8" (968mm) APPROX. OVERALL OF DOOR I APPROX. OVERALL OF DOOR 21-1/2" {-- 31" (546mm)55-1/4" (787mm) (1403mm) Johnson Controls CIRCUIT BREAKER (OPTIONAL) FRONT VIEW n 1 15-1/8" (384mm) 1 14-1/4" (363mm) SEE NOTE 2'1 DISCONNECT SWITCH - FIGURE 1 - VARIABLE SPEED DRIVE (490A) LD14634 JOHNSON CONTROLS FIELD SUPPLIED FDS5 CDL SEE NOTE 20 FORM 160.78-PW1 (913) FIELD CONNECTIONS J J L() J J N J J 1) 5M SEE NOTE /< 21 07 CHILLED WATER PUMP MOTOR FDS3 TS 15 J J M J J. M M - J J 3M S WIRE # 14 AWG COPPER NOTE 11 WIRE # 14 AWG COPPER NOTES 11 & 18 M LL OAUTO 1 0' 0 OMAN SEE NOTE NOTE 21 9 CONDENSER WATER PUMP MOTOR TB4* TB2* 9511 82111 11311 11`11 131121112011911 8 7111 44145155156126127 42143 4014 1115011511 FIGURE 3 - FIELD CONNECTIONS OPTIVIEW CONTROL CENTER 0 0 GRD. SCREWS* 0000000 0000000 LD14566 JOHNSON CONTROLS FORM 160.78-tT1 (913) FIELD CONNECTIONS (CONT'D) POWER SUPPLY (NOTE 19) L1 VOLT L2 PHASE 3 L3 HERTZ FDS4 N -J J CO J -J 4M b 0— b co COOLING TOWER FAN MOTOR FIELD SUPPLIED TB2* 152 153 1541155115611571164136 34 151314 15 6 TB6* 2412515311111 111 ILILI 21212121 WIRE #14 AWG COPPER, NOTE 11 OPTIVIEW CONTROL CENTER * FIGURE 3 (CONT'D) - FIELD CONNECTIONS JOHNSON CONTROLS FDS2** NOTES 5 & 15 N -J -J N NOTE 7, 16 COPPER CONDUCTORS ONLY DO NOT USE ALUMINUM CONDUCTORS. 000 NOTE 8 GRD L1 L2 L3 NOTES 2 & 8 2M YORK VSD CHILLER MOTOR NOTES 4 & 6 T1 T2 T3 T1* T2* T3* COMPRESSOR MOTOR* LD14567 all• • CUSTOM MECHANICAL SOLUTIONS SUBMITTAL WARRANTY DOCUMENTS CUSTOM MECHANICAL SOLUTIONS -2517 Eastlake Ave, Suite 200 - Seattle, WA 98102 Ph: (206) 973-3900 Fax: (206) 299-9730 " Johnson gip Controls STANDARD LIMITED WARRANTY ENGINEERED SYSTEMS EQUIPMENT SERVICE POLICY Supersedes: 50.05-NM2 (812) Form 50.05-NM2 (1212) POLICY STATEMENT Johnson Controls (JCI) warrants all equipment and associat- ed factory supplied materials or start-up services pertbnned by Johnson Controls in connection therewith. against defects in workmanship and material for a period of eighteen (18) months froni date of shipment, or twelve (12) months from date of start up, whichever occurs first. Subject to the exclu- sions listed below. Johnson Controls, at its option, will repair or replace, FOB point of shipment. such products or compo- nents as it finds defective. .Except for recipmcating replacement compressors. which Johnson Controls warrants for a period of twelve (12) months from date of shipment, Johnson Controls warrants Johnson Controls reconditioned or replacement materials, or installa- tion or start-up services performed by Johnson Controls in connection therewith, against defects in workmanship and material for a period of (90) days from date of shipment. The above represents the minimum warranty policy John- son Controls will extend to customers. Additional product specific coverage is provided as out:ined in related warranty policies. No warranty repairs or replacements will be made until payment for all equipment, materials, or components has been received by Johnson Controls. EXCLUSIONS: Unless specifically agreed to in the contract documents, this warranty does not include the following costs and expenses: 1. Labor to remove or reinstall any equipment, materials or components. 2. Shipping. handling or transportation charges, includ- ing cranes, safety walks or other safety requirements specific to jobsites. 3. Cost of refrigerant. 4. Freight damage. 5. Field applied coatings added to any surface or heat ex- changer. 6. Rental Chillers. Copyright© 2012 Johnson Controls. Inc. ALL WARRANTIES ARE VOID IF: 1. Equipment is used with refrigerants, oil, additives, or antifreeze agents other than those authorized by sup- plying factory. 2. Equipment is used with any material or any equipment such as evaporators, tubing, other low side equipment or refrigerant controls not approved by supplying fac- tory. 3. Equipment has been damaged by freezing because it was not properly protected during cold weather or damaged by fire or any other conditions not ordinarily encountered. 4. Equipment is not installed, operated, maintained and serviced in accordance with instructions issued by Johnson Controls. 5. Equipment is damaged due to dirt. air, moisture. or other foreign matter entering the refrigerant system. 6. Equipment is not properly stored, protected, or inspect- ed by the customer during the period from date of ship- ment to date of initial start-up. 7. Field coating of coil has occurred. 8. Equipment is damaged due to acts of god, abuse. in- cluding shipping damage, neglect, sabotage, or acts of terrorists. 9. Equipment has modifications carried out that have an effect on the original design of the product without such work being authorized by the Iactory. Any on site design changes or unit modification/replacement shall be authorized in advance by the factory. THIS WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES AND LIABILITIES. EXPRESS OR IMPLIED IN LAW OR IN FACT. INCLUD- ING TI IL. WARRANTIES OF MERCI IANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Tl IF. WARRANTIES CONTAINED IIERL- IN SET FORTH BUYER'S SOLE AND EXCLUSIVE REMEDY IN TIIE EVENT OF A DEFECT IN WORKMANSHIP OR MATERIALS. IN NO EVENT SI IALL JOHNSON CONTROLS' LIABILFY FOR DIRECT OR COMPENSATORY DAMAGES EXCEED THE PAYMENTS RECEIVED B' .AOIINSON CONTROLS FROM BUYER FOR 'HIE MATERIAL OR EQUIPMENT INVOLVED. NOR SHALL JOHNSON CONTROLS BE LIABLE FOR ANY SPECIAL, INCIDENTAL. OR CONSEQUENTIAL DANIACiES. TI IESE LIMITATIONS ON LIABILITY AND DAMAGES SHALL APPLY UNDER ALL TIIEORIES OF LIABILITY OR CAUSES OF ACTION. INCLUDING BUT NOT LIMITED TO. CONTRACT. WAR- RANTY, TORT. (INCLUDING NEGLIGENCE) OR STRICT LIABILITY. TETE ABOVE LIMITATIONS SHALL INURE TO TAIL BENEFIT OF JOI INSON CONTROLS SUPPLIERS AND SUBCONTRACTORS. Johnson ,k Controls P.O Box 423, Milwaukee, WI 53203 Reference: BOS 03-23.105.BEGTM www johnsoncontrols.com Printed in USA 50.05-NM2 (1212) Replaces: 50.05-NM2 (812) OPTIONAL 66 MONTH (5 YEARS) PARTS & LABOR WARRANTY FOR THE DRIVELINE JOHNSON CONTROLS/YORK INTERNATIONAL CORPORATION ENGINEERED SYSTEMS - YORK PA PRODUCT TYPE: YMC2 CHILLER COMPRESSOR SERIAL NUMBER(S): YORK CONTRACT NO.: UNIT MODEL NUMBER: YMC2-S1319AA UNIT SERIAL NUMBER: UNIT TAG ID: CH -1,2,3 UNIT LOCATION: PROJECT NAME: INSTALLATION ADDRESS: AUBURN REG MED CENTER- CUP The term of this agreement is 66 months, commencing and expires LIMITED WARRANTY Shipping Date WHEN PROPERLY ENDORSED, THIS PROTECTION PLAN BETWEEN JOHNSON CONTROLS, INCORPORATED (JCI) AND CUSTOMER, WARRANTS, TO THE CUSTOMER NAMED HEREIN, PARTS AND LABOR FOR THE DRIVELINE ONLY. IT DOES NOT COVER REFRIGERANT COST, FREIGHT CHARGES, OR ANY OTHER COSTS. THIS WARRANTY EXCLUDES IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, AND WE DO NOT ASSUME, OR AUTHORIZE ANY OTHER PERSON TO ASSUME OTHER WARRANTIES FOR US. THIS WARRANTY IS OFFERED AS AN EXTENSION TO THE STANDARD LIMITED WARRANTY (FORM 50.05-NM2) AND IS SUBJECT TO THE SAME LIMITATIONS AND EXCLUSIONS, EXCEPT WHERE NOTED. THIS PROTECTION PLAN DOES NOT COVER FAILURE OR DAMAGE RESULTING FROM FIRE, FLOOD, ABUSE, OR ACT OF GOD. ALSO EXCLUDED ARE DAMAGES OR FAILURES CAUSED BY INSTALLATION, OPERATION, OR MAINTENANCE CONTRARY TO YORK RECOMMENDATIONS, OR THOSE OF THE MANUFACTURER IF OTHER THAN YORK. IN NO EVENT SHALL YORK BE LIABLE FOR CONSEQUENTIAL, INCIDENTAL, OR INDIRECT DAMAGE, LOSS, OR INJURY. WARRANTY SERVICE SHALL BE AVAILABLE THROUGH THE SERVICER LISTED HEREIN DURING NORMAL WORKING HOURS. DISTRICT SERVICE OFFICE: OFFERED BY: APPROVED BY: ACCEPTED BY: JCIfYork Selling Representative Print/Sign Date JCl/York Area Service Manager Print/Sign Date Customer Signature Date (Manufacturer's Use Only) AUTHORIZED BY: Johnson Controls Quality Department, Customer Support Manager Product Code Ref: 8511 2/16/2017 at 15:11 Date 0,1 6=0 6=0 00S ■Deva no,`,`»>_«,z 20%0(z§ om;em )e®`\2(\)%2a-\a,{%\>n ;;/;,6<! §* mR83na, n k9orn\j)§j2*mk)§ )`111 -0/2§) o 4%,,717,00',.0m0. �Jn§%a]2/z9 , §»m§>:%:e:� ! wo_!m/9%;m% o §f:lz,F,—o < • ,=l:»\77/j } `}OOOo < � 3 [z:9kbo�=, 4,;-a � g!/c) zo,^ 2 <>G§ > `far,>%`mmz Z 2r;Z_ , , t°>< \\ ) ( >\ • `\ \no ! )/\ ` {0 :1S11 1N3NOd W OJ ""3>*®32¥\££>2' B,�g= g!0,=279 -7@\/j 3K222m00K-uc 9 „ee,E,;;n,z2, [)§§lmgo2$m/$\ §m«^#k%\«7$,=J ,8+§§§¥@§!*o, SgRT94" _2=\( _� ,m. o,2§®!G B\»2i< «»,�);- �l,>Y, 7a/=a; 22m=7 O-:•' ,nKmo m ®- m2>0 ��5 ' 0 }�j >n ` Co //{ } - ) 0 -1 *D D } 9 Tower System Media Filters Carbon Tank System (CTS) Carbon Steel Epoxy Coated Media Filters for Cooling Towers Exceeds industry specifications for k cooling water systems free of troublesome contaminants. Removes particles and floating debris. Controls buitd-up in tower basins and remote sumps. Helps maintain optimum operating conditions for reduced maintenanc servicing, downtime, energy costs, water loss and enhances chemical performance. LAKOS CTS Tower System Media Filters designed exclusively for the demands of cooling tower operations. Filtration down to 5 micron is available as standard. Options for filtration down to 0.5 micron are available (consult factory). Either for side stream or full stream applications, Tower System Media Fitters offer a full range of systems to meet your specific needs. High pressure ratings and ASME code options are available, please contact the factory. Filtration efficiency of 90% removal by volume of particles down to 5 micron Uniform, high porosity media for consistent, reliable performance at a low pressure toss. Epoxy -coated carbon steel tanks Durable, long-lasting and affordable. Backwash options Durable butterfly valves, mechanically linked via heavy-duty linkage rods operated by either pneumatic or electric actuators. Piping configurations for backwashing with system water or city/other water source. Effective underdrain design Encourages uniform flow through the sand media. Low pressure loss. Field -serviceable. Provides uniform backwashing for thorough media cleaning cycles. Prevents residual build-up and excessive backwash frequency. Packaged Carbon Tank Systems (CTS) Include: Filter vessel, valves, NEMA 4x - UL Listed Control Panel, end -suction single stage, TEFC motor; centrifugal pump (electric motor driven), and piping on a rigid skid. Standard 5 micron media is included as standard. Refer to page 2 for more details. Includes pump, piping, and skid 90 -Inch Model Shown Here Flow range: 192 - 1,006 U.S. gpm (43 - 229 m3/hr) For higher flow rates, consult factory Tank sizes: 42" to 96" diameter 20 U.S. gpm/sq. ft. (4.5 m3/hr) LAKOS is a proud member of the U.S. Green Building Council L-AKCIS Separators and Filtration Solutions Typical Side Stream Filtration Installations Condensed Water Piping Side Stream Filtration Flow '; Main System Flow Close-up View: �le Use"dirt leg"tee to �1 Side enhance solids Stream removal efficiencies - 111000 1111 1,1i/e 3 ft mininum spacing Main System Flow CTS CTS Cooling Tower Side Stream Filtration Filtered water to chillers/ heat exchangers Page 2 Standard Configuration Grooved -Type Coupling For Ease of Installation and Maintenance NEMA 4X / UL Listed Control Panel with PLC Option Available — Backwash Outlet CTS System Diagram (CTS -48 and Smaller) Auto Vent Manway (Top) Epoxy coated, carbon steel vessel Four (4) Mechanically -Linked, Electrically -Activated Butterfly Valves with Premium Linkage Assembly and Single Actuator PVC V -Slotted Underdrain Centrifugal Pump and Motor Pump Inlet \ Filter Outlet 304 Stainless Steel Mounting Skid *Two (2) Pneumatic Actuated Butterfly Valves with Premium Linkage Assembly NEMA 4X / UL Listed Control Panel with PLC Option Available Carbon Steel Piping CTS System Diagram (CTS -54 and Larger) Backwash Outlet Automatic Air Vent PVC Overdrain Manway (Top and Side) Epoxy Coated Carbon Steel Vessel Centrifugal Pump and Motor Pump Inlet Filter Outlet PVC V -Slotted Underdrain Coated Carbon Steel Skid *CTS units up to the CTS -48 model have electrical actuators, while larger units have the pneumatic actuator shown above How It Works The Basic Steps of Media Filtration Operation d Unfiltered system water enters pump INLET. • Water is pumped to top and is uniformly dispersed over the media bed. Water passes through the media bed, leaving debris behind. Filtered water exits the OUTLET. Q The media bed is cleaned through a backwash cycle at specified intervals or differential pressure. The backwash cycle runs for 3 minutes. © System returns to normal filter mode. for 42"-48" Tanks CTS Filter Model CTS -42-192 CTS -48-252 Surface Flow Rate Media Loading Area ® 20 (Cu.( Ft.) General Specifications Weight (lbs.) Pump H.P. Pump Inlet Sq. Ft. GPM/Sq. Ft. MediaGem475 MediaGem55 Filter Media Shipping Operating 5 3 NPT 9.62 192 11.0 1015 1100 2115 3629 5 3 NPT *For filtration down to 2 microns, consult LAKOS. 12.6 252 13.0 906 1300 2206 AUTO AIR VENT 4129 M (When fillec with MediaGem5 CTS Filter Model CTS -42 CTS -48 A Al B C D Dimensions E F M 42.00 46.38 69.00 66.75 51.38 20.13 15.13 21.13 48.00 55.81 74.00 66.75 51.38 20.13 15.13 21.50 Page 3 for 54" and Larger Tanks CTS Filter Model Surface Flow Rate Area 20 Media Loading (Cu. Ft.) Pump H.P. Pump Inlet Sq. Ft. GPM/Sq. Ft. MediaGem475 MediaGem55 General Specifications Fitter Weight (lbs.) Media Shipping Operating CTS -54-318 7.5 4 FLG 15.9 318 18.00 34.00 2339 5434 7773 12,215 CTS -60-392 7.5 5 FLG 19.6 392 23.00 42.00 2716 6758 9474 14,993 CTS -66-474 10 5 FLG 23.8 474 29.00 51.00 2962 8397 11,359 18,209 CTS -72-566 10 5 FLG 28.3 566 37.00 64.00 3362 10,374 13,736 22,444 CTS -78.664 15 5 FLG 33.2 664 47.00 75.00 3752 12,261 16,013 26,855 CTS -84-770 15 6 FLG 38.5 770 56.00 87.00 4216 14,783 18,999 31,296 CTS -90-884 15 6 FLG 44.2 884 68.00 100.00 4345 17,346 21,691 36,088 CTS -96-1006 20 6 FLG 50.2 1006 81.00 136.00 6034 22,430 28,464 42,654 *For filtration down to 2 micron, consult your LAKOS representative. M (MediaGem85) L (MediaGem475) 14" x 18" MANWAY B E 14" x 18" MANWAY D PRESSURE GAUGES (2X) PNEUMATIC ACTUATOR AUTO AIR VENT 3/4" MANUAL AIR VENT F BACKWASH OUTLET FLG CENTRIFUGAL PUMP CTS Filter Model A B C D E F G H 1 Dimensions J K L M CTS -54 54 43.50 93.00 102.69 61.19 4.00 91.00 19.69 68.19 32.19 11.50 17.06 25.66 CTS -60 60 48.00 98.00 108.88 62.00 4.00 91.75 19.69 68.19 32.19 11.50 17.06 25.71 CTS -66 66 52.00 103.00 114.88 66.19 4.00 93.50 19.81 68.19 32.19 11.50 17.06 25.71 CTS -72 72 56.38 106.00 118.75 72.00 6.00 96.50 15.38 69.19 33.19 12.81 20.32 27.13 CTS -78 78 60.50 113.00 126.63 78.00 6.00 97.25 17.25 69.19 33.19 12.81 20.32 27.10 CTS -84 84 66.50 118.18 131.81 84.00 6.00 103.88 18.94 75.19 39.19 14.19 20.32 27.11 CTS -90 90 71.00 126.18 140.69 90.00 6.00 105.69 20.69 76.19 40.19 14.19 20.32 27.14 CTS -96 96 77.50 142.50 156.75 96.00 8.00 115.69 25.56 84.38 43.38 16.38 22.72 32.50 Page 4 Basin Sweeping Options CTS-SWP System Diagram Filtered water flows to HydroBoosters t' Contaminants are directed to CTS system Filtered water to chillers/heat exchangers HydroBoosters LAKOS Offers CTS-SWP Systems For Basin Sweeping With Higher Head (Pressure) Pumps. Consult LAKOS for the Appropriate Pump (Head and Horsepower) Selection for Your Application. Directed turbulence maximizes cleaning efficiency in the tower basin/remote sump. LAKOS HydroBoosters provide turbulence with patented vortexing action as shown. Swivel clips are available as shown in the picture below. Many cooling tower manufacturers offer factory -installed basin sweeping piping. Please consult LAKOS for proper equipment selection. Backwash/Holding tank options available - consult your LAKOS representative. Connection Extension Size Flow Model Size (inches) (minimum) Input and Output HB -10-K 3/4" male NPT 3/4" 10 US gpm and 60 US gpm 2 m3/hr and 12 m3/hr H13 -18-K 3/4" male NPT 1" 18 US gpm and 108 US gpm 4 m3/hr and 24 m3/hr HB -35-K 1" male NPT 1 1/4" 35 US gpm and 210 US gpm 8 m3/hr and 48 m3/hr *TSN -0025-B 1/4" male NPT 4.2 US gpm 1 m3/hr NOTE: These flow rates are based on an input pressure of 20 psi (1.4 bar) Minimum water level above centerline of HydroBooster should be 2 inches This is a flat -fan spray nozzle (brass) for use in applications with a shallow deck in the basin. May be combined with HydroBoosters Page 5 Flow boosted to 6 U.S. gpm through HydroBooster 1 U.S. gpm enters HydroBooster HydroBoosters in action Limited Warranty All products manufactured and marketed by this corporation are warranted to be free of defects in material or workmanship for 12 months from date of installation; if installed 6 months or more after ship date, warranty shall be a maximum of 18 months from ship date. If a fault develops, notify us, giving a complete description of the alleged malfunction. Include the model number(s), date of delivery and operating conditions of subject product(s). We will subsequently review this information and, at our option, supply you with either servicing data or shipping instruction and returned materials authorization. Upon prepaid receipt of subject product(s) at the instructed destination, we will then either repair or replace such product(s), at our option, and if determined to be a warranted defect, we will perform such necessary product repairs or replace such product(s) at our expense. This limited warranty does not cover any products, damages or injuries resulting from misuse, neglect, normal expected wear, chemically -caused corrosion, improper installation or operation contrary to factory recommendation. Nor does it cover equipment that has been modified, tampered with or altered without authorization. No other extended liabilities are stated or implied and this warranty in no event covers incidental or consequential damages, injuries or costs resulting from any such defective product(s). 1365 North Clovis Avenue Fresno, California 93727 USA Telephone: (559) 255-1601 FAX: (559) 255-8093 Toll Free: (800) 344-7205 (USA, Mexico and Canada) Internet: www.lakos.com E-mail: info@lakos.com Filtration Type & Performance The removal of specific unwanted contaminants from a pumped/pressurized fluid flow system shall be accomplished with a sand media filtration package. Performance shalt be specified for particulate as fine as 2 microns, based on the specific sand media supplied. Filtration System Design & Function System shall be designed/sized for a flow rate of 20 gallons per minute per square foot of filter media surface area. A system -matched pump directs the fluid through a butterfly valve into the inlet of a sand media filter tank. Flow is evenly distributed across the sand media bed, allowing the fluid to pass through the sand media and capturing the contaminants on the surface and upper layer of the sand media. Fluid flow continues through the sand media to the filter tank's integral underdrain, directing water to the fitter system's outlet. The underdrain shall feature a full-size manifold with serviceable removal lateral design to ensure that filter flow and backwash flow are uniform across and throughout the sand media bed. Each unit shall be equipped with a man -way located on the top of the unit, and on the tank side. A pressure gauge and air relief assembly shall also be provided. Backwashing/Contaminant Removal The accumulation of contaminants on the sand media surface shall be monitored via pressure differential from inlet to outlet. At a prescribed pressure differential or a given period of time or operator discretion, the filter system shall backwash the captured contaminants to desired waste. This function shall be a) automatically controlled via a pressure differential gauge and clock timer, or b) manual, monitored and initiated by an operator. The butterfly valve at the inlet shall be actuated pneumatically or electrically to interrupt system flow and provide a backwash discharge outlet. Backwash flow shall come from either a) the system flow, redirected through fitter tank's outlet and underdrain, or b) a separate flow source, such as city water, directed through the fitter tank's outlet and underdrain. Backwash flow and pressure shall be sufficient to fluidize the sand media bed and cause the surface contaminants to rise in suspension and discharge via the flanged butterfly valve to desired waste. Upon completion of the backwashing cycle, the inlet's butterfly valve shall again return to its operating position, allowing system flow to enter the fitter tank, simultaneously interrupting backwash discharge. This allows the sand media bed to again settle, forming the filtration surface for further contaminant removal. Filter System Details A. Inlet shall be flanged 150# or grooved rated size: B. Outlet shall be flanged 150# or grooved rated connection, size: C. Backwash discharge outlet shall be flanged 150# or grooved rated connection, size: D. Backwash supply line (if not using redirected system flow) shall be flanged 150# or grooved rated connection, size: E. The filter system shalt operate at a flow rate of: Filter System Construction Filter tank - ASTM -carbon -steel, all welded construction, with flanged or grooved inlet / outlet, threaded drain and air release connections. Tank shall be suitable for a working pressure of 80 psi on 48" and smatter, and 50 PSI on 54" and larger. Higher pressure rating and/or ASME Code available as an option. The tank will be provided with an epoxy interior lining and two coats of enamel paint on the exterior. Overdrain/Underdrain - Schedule 80 PVC pipe. Piping: CTS -48" and smaller - Galvanized steel with grooved coupling. CTs -54" and larger Carbon steel welded. Pump - End -suction, single stage; TEFC motor; cast iron housing; iron impeller; bronze shaft sleeve; BUNA-N mechanical shaft seat. Pump to be rated for 20 gallons per square foot of filter media surface area at 50 feet TDH. Flooded suction required. Backwash valves - Butterfly valves; Ductile iron bodies; EPDM valve seats; 416 series stainless steel shaft; Nickel plated ductile iron disc. Valves shalt be mechanically linked via heavy duty linkage rods. Actuator are as follows: Pneumatic - Actuators shall be driven by floating stem pneumatic actuator with spring return diaphragm for fail safe operation (CTS -54 a Larger). A minimum 15 psi air supply is required for operation. Electrical - Actuators shall be electric and shall incorporate an electric brake to prevent back -drive (CTS -42 a CTS -48). Pressure Gauges The filter shalt have inlet and outlet pressure gauges. Control Panel - IEC starter with overload module; HOA selector switch; NEMA -4X enclosure; UL listed; re-set/disconnect/trip switch; 120 volt, single phase control voltage; manual backwash switch; pressure differential switch (factory set to backwash filter); backwash cycle timer; 24-hour backwash clock. Filter media: Multi Media (standard) - Filtration efficiency of 90% removal by volume of particles 5 micron and larger (MediaGem 475 + MediaGem 55). Multi Media (optional) - Filtration down to 0.5 micron consult factory for system design/selection based on specific application and filtration efficiency. Skid - Carbon steel with epoxy coating (CTS -54 a larger). StainlessSteel - 3/16 -inch minimum thickness (CTS -42 a CTS -48) PLC Option - Allen Bradley "Pico" PLC (Standard) • Programmable logic relay • Pre-programmed at factory • Can be programmed for multiple operating/monitoring functions Consult Lakos for applications and more information. Lakos Separators are marufactured and sold under one or more of the following U.S. Patents: 5,320,747; 5,338,341; 5,368,735; 5,425,876; 5,571,416; 5,578,203; 5,622,545; 5,653,874; 5,894,995; 6,090,276; 6,143,175; 6,167,960; 6,202,543; 7,000,782; 7,032,760 and corresponding foreign patents, other U.S. and foreign patents pending. Printed on recycled paper LS -720D (rev. 1/11) LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Introduction LAKOS® filtration equipment has been designed to give long, trouble-free service when properly installed, operated and maintained. This manual contains important installation procedures and should be read prior to installing. This manual is also a guide for proper filter operation maintenance and winterizing. It is important that maintenance personnel review this manual carefully, including the Safety Precautions and Warnings before performing any maintenance on this sand media water filter. Note that the recommendations on the frequency service are minimums, and where operating conditions are severe, the service should be performed more often. For each required service, follow the procedures outlined under the Maintenance Procedures section in this manual. If additional information beyond the scope of this manual is required, contact your local LAKOS® Representative or the factory. General Description The CT/CTS Series Sand Media Filters are permanent media type units specifically designed to clean process water. The filters may be used for both side -stream and full stream applications in pressurized and non -pressurized systems. Standard CT/CTS series filter vessels are rated for 80 psig (5.5 bar) for the 42" and 48" tanks, and 50 PSI (3.5 bar) for the 54" thru 96" tanks. All pressure ratings are based on a maximum temperature of 100 degrees Fahrenheit. LAKOS® can provide tanks with higher pressure ratings, as well as ASME Code design and construction. Please contact the factory for details and pricing. CT systems are provided with a tank, valves w/face piping, and control panel for backwash valve operation. CTS systems are provided with a tank, valves w/face piping, pump/motor, and control panel for backwash & pump operation. CT systems are available in sizes from 54" thru 96". CTS systems are available in sizes from 42" thru 90". Filter Operation Water from the system is pumped through the over -drain assembly at the top of the filter tank and distributed evenly over the media. Unfiltered water flows downward through the filter media where suspended particles are trapped. The filtered water then passes through the vessel and out the under -drain assembly at the bottom of the filter and returns to the system. When the trapped particles cause the pressure differential across the media bed to reach a pre -determined pressure of approximately 7-10 PSI flow is reversed through the tank by repositioning the valves automatically or manually. The media is backwashed with a rigorous scouring action, releasing trapped particles within the media. The dirty water passes from the filter vessel through the over -drain assembly at the top of the vessel and flows to drain. After the backwash cycle (field adjustable and factory pre-set at 3 minutes), the filter valves are again repositioned and the filtration cycle is resumed. Installation Before you begin.... CAUTION!!! Water sources vary and may contain impurities that can adversely affect a filter system. Minerals, biological microbes and other impurities must be identified and addressed by each user on a case-by-case basis. Contact your filtration system dealer for addition information and recommendations. CAUTION!!! Please review installation and operations manuals of individual parts within the system. This manual may not cover all processes and/or procedures of these parts. Unpacking When the LAKOS® Industrial Media Filter is delivered to the jobsite, it should be inspected thoroughly to ensure that all required items have been received and that filter equipment is free of any damage that may have occurred in transit. Any damage must be noted on the bill of lading at the time of receipt. Otherwise, there is no recourse to recover the cost of damaged goods. The filter model number appears on a nameplate located on the unit and should be checked against the invoice/packing list. Rieging CT/CTS filters should be lifted with a forklift or overhead crane. If these units are lifted with an overhead crane, lifting straps must be located below the filter skid and should not come in contact with the filter components. If no skid is supplied, lift from the lifting lugs located on the filter vessel top. LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance All LAKOS® CT/CTS sand media filters should be rigidly anchored to the floor or support steel by means of anchor bolts. All CT/CTS filters have an anchoring provision. Once the filter in installed in its permanent location, the pressure gauge and air relief valves should be installed on the top of the filter tank (some units will have these items already installed). The sand media is loaded into the filter next. Refer to the section in this manual "Loading the Media" for the proper loading procedure and the appropriate quantity of media necessary for each size filter vessel. Piping The CT/ CTS should be installed using the pipe size indicated in Table 2. Connect the unfiltered source water from the system sump or piping to the connection labeled "Inlet". NOTE: All CTS systems have end suction centrifugal style pumps that require flooded suction for proper operation. Piping to the pump suction inlet should be plumbed to ensure the pipe is full of water at all times. Connect the return line from the connection labeled "Outlet" to the system sump or filtered water return piping. A service or isolation valve should be installed on the inlet, outlet and city water line (if city water is used) to allow filter servicing. For units using a backwash source other than the system sump, refer to Table 3 for the required backwash flow rate. The maximum city water backwash supply pressure on the CT/CTS filter vessel should never exceed the vessel pressure rating (50 PSI as standard). If public or municipal water is used for backwash, a back/low prevention device or check valve is required on the city water line (in accordance with local or other goveming codes). A Backwash Throttle Valve should be placed on the backwash discharge manifold to control the volume of water that can escape during backwash. Obtaining the proper flow rate of the backwash water is essential for effective flushing of the media. Too high of a flow will flush all of the media out of the tank. Too low of a flow will not allow the media to gently lift, fluidize and flush filtered particulates from the media in the system. The proper flow rate is dependent on the size of the tank being flushed. The most common way to adjust the backwash throttle valve is to manually set the filter(s) to backwash with the throttle valve fully closed. Slowly open the throttle valve until small amounts of media are evident in the backwash discharge. It is desirable to have a slight amount of media discharge during backwash. You should expect to lose several inches of sand per year with proper backwashing. Although the media fills 2/3`d of the tank, it makes most sense to try to keep the contamination in the tcp two inches of the media bed. This will allow you to quickly rinse the sand during the backwash sequence. If the media contamination reaches depths bellow two inches, it will take a much longer backwash to rinse the media. This can also cause contamination of the under drain of your filter system. Proper backwash frequency must be determined to minimize contamination and clogged under drains. Refer to Table 3 for the minimum and maximum backwash flow rates. Note: if the drain is not large enough to handle the volume of water during backwash, it may be necessary to use a backwash water holding tank to buffer the backwash flow rate from the filter to the waste drain. A valve can be used to regulate the flow from the holding tank at a reduced flow rate that is suitable for the drain. Do not reduce the waste line pipe to regulate backwash flow rate as this will adversely affect the backwash cycle and cause accumulated waste in the filter vessel. All inter -connecting piping, fitting, valves, or other accessories connected to the filter system (whether supplied by LAKOS® or others) must be independently supported to eliminate stress on piping. Check with local or other governmental authority to ensure compliance with applicable codes. All CT/CTS filter vessels have a drain plug located on the bottom. Electrical It is highly recommended that all electrical hook-ups to the CT/CTS system be done by a qualified electrician. The control panel supplied on each LAKOS CT/CTS system will have a wiring diagram inside which reference all electrical power requirements (voltage, hertz, etc..) and should be used by the electrician. If your system does not have this paperwork, please contact the factory for a copy before any further work is performed. Table 5A & 5B can be used as a reference for CTS pump motors, but always check and use the supplied pump motor nameplate values. These values will vary between all motor manufacturers. Loading the Filter Media The special sand media used in CT/CTS media filters is shipped in once cubic foot bags and each bag weights 100 lbs. Refer to Table 3 for media loading quantities. Media quantity may vary with vessel pressure ratings. Correct quantities will be noted on the shipping and inspection records for each filter system. ! Important ! To avoid damage to the filter under -drain, the filter vessel must be filled with water (1/3 —'/a full) before loading media into the vessel. The under -drain support media is loaded first (see note below). For single applications, the silica sand is loaded next. Check filter internals for damage before loading the media. LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance NOTE: The CTS -42 & CTS -48 do not require a separate under -drain support media. These tanks only use the silica sand for operation. Start-up & Operation Initial and Seasonal Start-ua Before initial start-up or after a down period, the filter should be thoroughly inspected and cleaned. ! Caution, Safety First ! The first five steps in the following procedure must be performed with the electric power off, locked and tagged at the main panel. Maintenance personnel should follow the recommended safety precautions found in the Safety Precautions section in the manual prior to initial and seasonal start-up. CT Tanks (tanks only — no pump) 1. Loosen the access port and man hole covers and lubricate the bolts if necessary. 2. Inspect the over -drain assembly and media. If the media is contaminated, remove the foreign material or replace the media. Replace the access port and manway covers. 3. Open the air relief valve on top of the filter tank and start flow from source. 4. Set pneumatic regulator to 15 PSI as indicated by the gauge on the regulator. Run a test on the valve operation to ensure that enough air and pressure is available. 5. Differential pressure switch comes set from the factory at 13 PSI. 6. With the air relief valve open, check the shut-off valves in the filter inlet and outlet water lines to verify they are open. Allow the filter vessel to fill. Close the manual air relief valve on op of the vessel after all air has been vented from the vessel. 7. Check the voltage and current to the control panel for proper voltage and amps. 8. Check the unit for any air or water leaks. Any air leaks in the pump suction piping must be found and repaired. Failure to do so could result in poor performance and/or personal injury. 9. Backwash the filter 3-4 times initially to remove any fine grit or contaminants that may be in the media. After backwashing the filter, check the pressure gauge on top of the filter tank and record the clean media operatingpressure gauge (inlet gauge). The media should be backwashed whenever the pressure drop across the filter media reaches 13 psig, or every 24 hours, whichever occurs first. CTS System (tank and pump) 1. CTS filter with pre -strainers: Make sure water supply to pump suction is shut off to prevent flooding. Loosen the bolts around the pump pre -strainer tank lid. Remove the lid, inspect the 0 -ring seal and lubricate. Remove debris from the pump pre -strainer basket. Replace the basket, lid and bolts. Open water supply shut off valve to ensure pump suction is flooded. 2. Turn the pump and motor shaft by hand to ensure free rotation. 3. Loosen the access port and manway covers and lubricate the bolts if necessary. 4. Inspect the over -drain assembly and media. If the media is contaminated, remove the foreign material or replace the media. Replace the access port and manway covers. 5. Open the air relief valve on top of the filter tank. Start the pump motor briefly and check the arrow on the pump volute for proper rotation. Turn the pump motor off. Do not operate the aunty for an extended period of time with the pump rotating backwards! If rotation is backward, have a qualified electrician change pump motor leads to correct rotation. 6. Set pneumatic regulator to 15 PSI as indicated by the gauge on the regulator. Run a test on the valve operation to ensure that enough air and pressure is available. 7. Differential pressure switch comes set from the factory at 13 PSI. LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance 8. With the air relief valve open, check the shut-off valves in the filter inlet and outlet water lines to verify they are open. Make sure the purnp is primed. Start the pump and allow the filter vessel to fill. Close the manual air relief valve on op of the vessel after all air has been vented from the vessel. 9. Check the voltage and current of all leads on the pump motor. The current draw should not exceed the pump motor nameplate rating. Check for any unusual noise or vibrations. 10. Check the unit for any air or water leaks. Any air leaks in the pump suction piping must be found and repaired. Failure to do so could result in poor performance and/or personal injury. 11. Backwash the filter 3-4 times initially to remove any fine grit or contaminants that may be in the media. After backwashing the filter, check the pressure gauge on top of the filter tank and record the clean media operating pressure gauge (inlet gauge). The media should be backwashed whenever the pressure drop across the filter media reaches 13 psig, or every 24 hours, whichever occurs first. After First Hour of Operation 1. With the filter pump running, open the air relief valve on top of the filter vessel. Close the valve after the air has been purged from the system. Excessive air release generally indicates a leak, which must be repaired. Air accumulation in the filter vessel can result in an unsafe condition due to the stored high energy potential of any compressed air within the vessel. 2. Again, check the unit for any unusual noise or vibration. 3. Again, check unit for any air or water leaks. Operation During operation, to ensure long term dependable operation, the filter should be inspected, cleaned and lubricated on a regular basis. The required service functions and recommended frequency (minimums) for each are shown in the Operating and Maintenance Table 1. If any problems occur, please refer to Table 7 for Trouble Shooting Procedures. If you have any questions, please contact the factory. Cold Weather Operation LAKOS® industrial media filters that will be exposed to below freezing ambient temperatures require protection to prevent freezing. Installation in a heated indoor space is the best means of preventing water from freezing in a filter. When indoor installation is impractical because of filter location or space limitations, supplemental head must be supplied through the use of electrical heater tape and insulation. The parts of the fiilter that must be head traced and insulated are: pump, pump pre -strainer, pump piping and valves, differential pressure switch tubing and filter vessel. The unit should be drained when it is to be shut down for any period of time. Refer to the following (Seasonal Shutdown) section in this manual for recommendations. Seasonal Shutdown The following services should be performed when the unit is to be taken out of service for an extended time period. 1. Shut off all electrical power. 2. Close the shut-off valves in the filter inlet and outlet water lines. For units using a backwash source other than the system, close the shut off valve in the line from that source also. 3. Drain all external piping to and from the filter. 4. Loosen the bolts that hold the filter vessel access covers in place and remove the cover. Lubricate the bolts if necessary. Replace the cover gaskets if necessary. 5. Inspect the over -drain assembly and media pack. If the media in contaminated, remove the foreign material and replace the filter media if necessary. Replace the filter vessel access covers and secure the bolts. LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Maintenance Procedures Refer to Table 1 for suggested operation and maintenance schedules of LAKOS® CT/CTS systems. Pump Pre -strainer (if equipped) Warning: Disconnect all electrical power prior to performing pump maintenance. The filter pre -strainer basket on the pump inlet must be checked regularly and kept free of debris. Failure to do so may damage the pump and/or motor. Shut off the power, close the valves, open the manual air relief valve, and remove bolts and the pre -strainer cover. Lift the basket out of the housing and remove any foreign material. Replace the basket, lubricate the 0 -ring, install the cover and tighten the bolts. Backwashing Differential pressure across the filter media progressively increases as trapped particulate accumulate in the filter media bed. On filter equipped with automatic backwash, the backwash cycle is initiated upon reaching a 13 psig pressure differential. Since units with automatic controls perform this function as necessary, a detailed backwash procedure is only provided for manual units. However, automatic units can be manually backwashed by pressing the manual push-button switch located on the control panel. The backwash cycle is field adjustable on most units and is factory set at three minutes. To prevent unfiltered water from "short circuiting" through the media and to extend media life, the filter should be backwashed regularly; at least once every 24-48 hours, For manual backwash filters using backwash water source other than the unfiltered source water (e.g. city water): Filter Vessel The filter vessel internal components should be visually inspected annually or whenever backwashing does not reduce the pressure of the filter tank to the starting media gauge pressure. Remove the access port on the top of the tank t o inspect the internal components. Note: Always use care and follow proper shut -down procedures. Inspect the over -drain assembly for any debris, blockage or damage, and clean or replace if necessary. Remove and inspect the media. The CT/CTS filters have manyway parts located on the side of the tank ofr easy removal of the media and inspection of the under -drain assembly. Over a period of time, foreign matter may become embedded in the media pack that cannot be removed by backwashing. Contaminated media should be disposed in accordance with state and federal requirements. Unscrew the under -drain laterals and inspect for blockage or damage. Clean or replace if necessary. If replacement of one or more laterals is necessary, it is recommended to replace all laterals in the under -drain. Refill the vessel with the proper amount of new media, following the procedure for media loading. Water Treatment Filtration is an effective way of reducing and managing the level of contamination in a fluid system. Still, there are other components of equal importance in a water treatment program. For closed loop systems, often the water must be further treated to inhibit or prevent the deposition of dissolved solids on heat transfer surfaces. As water evaporates, without proper treatment, the concentration of dissolved solids increases and will result in scale build-up on heat transfer surfaces. Additionally, water often requires treatment for the control of corrosion, bacteria (including Legionella) and other biological contaminants. To control all potential contaminants, a comprehensive water treatment program must be developed and employed. In some cases, a simple bleed -off in the system may be adequate for sale control. The filter backwash constitutes a portion of the bleed. For specific recommendations on water treatment, a water treatment professional should be consulted. Factory Authorized Parts Factory authorized parts are available through your LAKOS® representative. Please refer to Table 6 for replacement parts. Contact the factory if assistance is required. Be sure to include the filter serial number and model when ordering parts. To facilitate servicing the unit, it is suggested that the following spare parts be carried on hand: 1. 0 -ring or gasket for filter tank access port and man hole 2. 0 -ring seal or gasket for pump pre -strainer lid (if applicable). 3. Pump Repair Kit (mechanical seal) — for CTS systems only LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Safety Precautions All electrical, mechanical and rotating machinery constitute a potential hazard; particularly for those not familiar with design, construction, and operation. Accordingly, adequate safeguards (including use of protective enclosures when necessary) should be taken with this equipment both to safeguard the public from injury ant to prevent damage to the filtration equipment and the premesis. Filter system operation, maintenance and repair should be undertaken only by trained and qualified personnel. All such personnel should be thoroughly familiar with the equipment, the associated system and controls, and the procedures set forth in this manual. Proper care, procedures, and tools must be used n handling, lifting, installing, operating, maintaining, and repairing this equipment, to prevent personal injury and/or property damage. For the protection of authorized service and maintenance personnel, the pump motor associated with this equipment should be installed with a lockable disconnect switch located in close proximity and within sight of the filtration system. No service work should be performed on or near the pump motors without first ensuring that the pump motor has been electrically disconnected and locked out. The re -circulating water system may contain chemicals or biological contaminants that could be harmful if inhaled or ingested. Accordingly, personnel that may be exposed directly to the mist produced by water jets or compressed air (if these are used to clean portions or components of the filter) should wear respirators with HEPA filters, NIOSH/MSHA approved number TC-21C-142/TC-21C- 182. Warranty Policy LAKOS® warrants all products to be manufactured free from defects in material and workmanship for a period of 12 months after star -up or 18 months from the date of shipment, whichever occurs first. In the event of nay such defect and at the factory's option, LAKOS® will either repair or provide a replacement free of charge. Replacement parts will be F.O.B. factory. In any event, LAKOS® will not be responsible for consequential damages. LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 1 CT/CTS Operation and Maintenance Schedule Type of Service Start U 1 Monthly Semi-annually Shutdown Annually General Condition of Unit X X Drain Condensate from air line to pneumatic actuator (if applicable) As Required As Required As Required As Required As Required Clean pre -strainer basket As Required As Required As Required As Required As Required Inspect gaskets X X X Check pump shaft for free rotation X X Check operation of valves X X X Check, lubricate clamp on filter tank access port X X Inspect over -drain assembly & media pack X X X Check pump motor for proper rotation X Check motor voltage & current X X X Prime Pump X Check pressure gauge reading (top of filter) X X Check unit for unusual noise or vibration X X Check unit for leaks X X Drain filter & piping X LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 2 - CT/CTS Connection Sizes Filter Model Filter INLET Filter OUTLET Back wash OUTLET Pump INLET (CTS) GPM / 1ps Inches / mm Inches / mm Inches / mm Inches / mm CTS -42 ---- 3/76 3/76 3/76 CTS -48 ---- 3/76 3/76 3/76 CT/CTS-54 4/102 4/102 4/102 3/76 CT/CTS-60 4 / 102 4 / 102 4 / 102 3 / 76 CT/CTS-66 4 / 102 4 / 102 4 / 102 3 / 76 CT/CTS-72 6 / 152 6 i 152 6 / 152 4 / 102 CT/CTS-78 6 / 152 6 / 152 6 / 152 4 / 102 CT/CTS-84 6 / 152 6 / 152 6 / 152 4 / 102 CT/CTS-90 6 / 152 6 / 152 6 / 152 6 / 152 Table 3 - CT/CTS Flow Rates Filter Model Filtration Flow Rate Backwash Flow Rate Backwash Flow Rate GPM / 1ps (minimum) GPM / Ips (maximum) GPM / Ips CTS -42 192 / 144 / 192 / CTS -48 252 / 189 / 252 / CT/CTS-54 318 / 20 254 / 16 318 / 20 CT/CTS-60 392 / 25 314 / 20 392 / 25 CT/CTS-66 474 / 30 380 / 24 474 / 30 CT/CTS-72 566 / 35 453 / 28 566 / 35 CT/CTS-78 664 / 42 530 / 33 664 / 42 CT/CTS-84 770 / 48 616 / 39 770 / 48 CT/CTS-90 884 / 56 707 / 44 884 / 56 LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 4 — Media Quantities for CT/CTS Filter Systems Filter Model Under -drain Support Standard 10 Micron Optional 5 Micron Base Media Filtration Filtration MediaGem475 Cu. Ft. / Pails MediaGem85 Cu. Ft. CTS -42 Not Required 10.0 Contact Factory CTS -48 Not Required 13.0 Contact Factory CT/CTS-54 18.0 / 34.0 Contact Factory CT/CTS-60 23.0 / 42.0 Contact Factory CT/CTS-66 29.0 / 51.0 Contact Factory CT/CTS-72 37.0 64.0 Contact Factory CT/CTS-78 47.0 75.0 Contact Factory CT/CTS-84 56.0 87.0 Contact Factory CT/CTS-90 68.0 100.0 Contact Factory PICTURES OF LOADING REQUIREMENST FROM LIT DRAWING LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 5A - CTS Electrical Requirements - Three Phase, 60 Hz Filter Model Pump Voltage (three phase) Full Load Current ** HP / Kw 60 Hz Amps CTS -42 5/3.7 208/230/460/575 16.8/15.2/7.6/6.1 CTS -48 5/3.7 208/230/460/575 16.8/15.2/7.6/6.1 CTS -54 7.5 / 5.6 208 / 230 / 460 / 575 24.2/22/11/9 CTS -60 10/7.5 208/230/460/575 30.8/28/14/11 CTS -66 15 / 11.2 208 / 230 / 460 / 575 46.2 / 42 / 21 / 17 CTS -72 15/11.2 208/230/460/575 46.2/42/21/17 CTS -78 20 / 15 208 / 230 / 460 / 575 59.4 / 54 / 27 / 22 CTS -84 20 / 15 208 / 230 / 460 / 575 59.4 / 54 / 27 / 22 CTS -90 25 / 18.6 208 / 230 / 460 / 575 74.8 / 68 / 34 / 52 **NOTE: FLA VALUES SHOWN ARE FOR REFERENCE ONLY AND WILL VARY BETWEEN MOTOR MANUFACTURERS. PLEASE REFERENCE MOTOR NAMEPLATE FOR ACTUAL VALUES. Table 5B - CTS Electrical Requirements - Three Phase, 50 Hz Filter Model Pump Voltage (three phase) Full Load Current ** HP / Kw 50 Hz Amps CTS -42 5/3.7 380/415 9.2/8.4 CTS -48 5 / 3.7 380 / 415 9.2 / 8.4 CTS -54 7.5/5.6 380/415 13.3/12.2 CTS -60 7.5 / 5.6 380 / 415 13.3 / 12.2 CTS -66 10 /7.5 380 / 415 17.0 / 15.5 CTS -72 10 / 7.5 380 / 415 17.0 / 15.5 CTS -78 15 / 11.2 380 / 415 25.4 / 23.3 CTS -84 15/11.2 380/415 25.4/23.3 CTS -90 15 /11.2 380 / 415 25.4 / 23.3 **NOTE: FIA VALUES SHOWN ARE FOR REFERENCE ONLY AND WILL VARY BETWEEN MOTOR MANUFACTURERS. PLEASE REFERENCE MOTOR NAMEPLATE FOR ACTUAL VALUES LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 6 — Replacement Parts Over -Drain FILTER MODEL REF # LAKOS PART # MATERIAL CTS -42 CTS -48 CT/CTS-54 1 125802 Schedule 80 PVC CT/CTS-60 1 125803 Schedule 80 PVC CT/CTS-66 1 125804 Schedule 80 PVC CT/CTS-72 1 125805 Schedule 80 PVC CT/CTS-78 1 125806 Schedule 80 PVC CT/CTS-84 1 125807 Schedule 80 PVC CT/CTS-90 1 125808 Schedule 80 PVC CT/CTS-96 1 125809 Schedule 80 PVC Under -Drain (Headers & Laterals) FILTER MODEL REF # LAKOS PART # MATERIAL CTS -42 CTS -48 CT/CTS-54 2 126195 Schedule 80 PVC CT/CTS-60 2 126196 Schedule 80 PVC CT/CTS-66 2 126197 Schedule 80 PVC CT/CTS-72 2 126198 Schedule 80 PVC CT/CTS-78 2 126199 Schedule 80 PVC CT/CTS-84 2 126200 Schedule 80 PVC CT/CTS-90 2 126201 Schedule 80 PVC CT/CTS-96 2 126202 Schedule 80 PVC Butterfly Valve FILTER MODEL REF # LAKOS PART # / Description MATERIAL CT/CTS-54 thru 66 3 126782 / 4" Diameter Ductile Iron / EPDM Seats CT/CTS-72 thru 90 3 125850 / 6" Diameter Ductile Iron / EPDM Seats CT/CTS-96 3 125788 / 8" Diameter Ductile Iron / EPDM Seats LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 6 — Replacement Parts (cont.) Valve Linkage Kits** FILTER MODEL REF # LAKOS PART # / Description MATERIAL CTS -42 & 48 5 126758 / 4" Vendor Standard CT/CTS-72 thru 90 5 125795 / 6" Vendor Standard CT/CTS-54 thru 66 4 126763 Stainless Steel CT/CTS-72 thru 90 4 126764 Stainless Steel CT/CTS-96 ** All Cl/CTS 4 Valve 126765 Linkaee Operation is Automatic — Nn Manual Stainless Steel nntinn is available Actuator — Electric Style FILTER MODEL REF # LAKOS PART # / Description MATERIAL CTS -42 & 48 5 126758 / 4" Vendor Standard Actuator — Pneumatic Style FILTER MODEL REF # LAKOS PART # / Description MATERIAL CT/CTS-54 thru 66 5 126758 / 4" Vendor Standard CT/CTS-72 thru 90 5 125795 / 6" Vendor Standard CT/CTS-96 5 125795 / 8" Vendor Standard Actuator Mounting Bracket FILTER MODEL REF # LAKOS PART # / Description MATERIAL CT/CTS-54 thru 66 6 126739 304L Stainless Steel CT/CTS-72 thru 90 6 125845 304L Stainless Steel CT/CTS-96 6 125794 304L Stainless Steel Differential Pressure Switch FILTER MODEL REF # LAKOS PART # / Description MATERIAL CT/CTS-54 thru 96 7 125453 Vendor Standard Pressure Gauge FILTER MODEL REF # LAKOS PART # / Description MATERIAL CT/CTS-54 thru 96 8 106262 / 100 PSI 2-1/2" Dial SS -Brass / Glycerine Filled •s LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 6 — Replacement Parts (cont.) Man Way Access Cover Gasket FILTER MODEL REF # LAKOS PART # / Description MATERIAL CT/CTS-54 thru 96 9 126740 EPDM Air Vent Kit (Autovent) FILTER MODEL REF # LAKOS PART # / Description MATERIAL CT/CTS -54 thru 96 11 125797 / 150 PSIG Rated Brass Pump Repair Kits FILTER MODEL REF # LAKOS PART # / Description MATERIAL CTS -54 12 104111 /#15 - JM Frame BN -CM Seal CTS -60 12 102784 /#56 - JM Frame BN -CM Seal CTS -66 12 102784 /#56 - JM Frame BN -CM Seal CTS -72 12 104113 /#57 - JM Frame BN -CM Seal CTS -78 12 104113 /#57 - JM Frame BN -CM Seal CTS -84 12 104113 /#57 - JM Frame BN -CM Seal CTS -90 12 104114 /#59 - JM Frame BN -CM Seal CTS -96 12 104114 /#59 - JM Frame BN -CM Seal All kits include: (1) shaft sleeve, (1) impeller retainer, (1) shaft o -ring, (1) flinger, (1) case gasket, (1) mech. seal LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 7 — Troubleshooting CTS Sand Media Systems PROBLEM POSSIBLE CAUSES SOLUTIONS • Excessive flow through filters, causing 1. Install throttling valve to control flow. "coning" of media sand and/or forcing 2. Bleed off trapped air in system. contaminants through filter outlet. 3. Replace with proper media sand. Consult • Air in tank(s) may cause disruption of your LAKOS representative. Poor Filtration the media sand bed. 4. Backwash more often at lower differential • Incorrect media sand. pressure. 5. Add proper sand media to tank(s) to specified • Excessively high pressure differential before backwashing, which forces contaminants through filter bed. level. • Insufficient volume of media in filter, which allows contaminants to pass through the system. • Excessive contaminant Toad restricts flow through the filters and prevents sufficient flow for backwashing. 1. Drain tank and remove manway access ports. Carefully skim away any excess or caked contaminants from the media sand bed's Consistently • Insufficient backwash flow. surface. Return tank to normal service and backwash system. High • Inadequate media sand volume, which may minimize coverage of 2. Check backwash valve linkage for proper Pressurebackwash Differential flow across filter bed, creating dead spots of accumulated contaminants. 3. operation. Add sand media as necessary. LAKOS CT/CTS Series Sand Media Filter IOM Installation / Operation / Maintenance Table 7 - Troubleshooting CTS Sand Media Systems (cont.) Increasing Frequency of Backwash Cycle • • • Backwash flow or duration is not adequate to flush filter tanks of all contaminants. Insufficient sand volume. Increased concentration of contaminants in water supply. 1. 2. 3. Adjust backwash flow or duration. Add media sand to achieve proper volume. Adjust backwash frequency or reduce pressure differential setting to achieve more frequent backwash cycles. • Controller power may be off or circuit fuses tripped. 1. Be sure wiring is connected correctly. Replace circuit fuses. Turn on power. Controller may be faulty and need Automatic Backwash • Improper setting of differential replacement. Fails to Cycle switch. 2. Adjust as necessary. 3. Check connections, clean ports and check • Solenoid malfunctioning. for the sound of the solenoid actuating. Replace solenoid if necessary. 4. Check air regulator for proper adjustment. Check air lines for leaks. • Loss of sufficient pressure to actuate valve(s). Media Sand Appears • Incorrect media sand (i.e. too 1. Replace media with proper sized media. Downstream fine and too small) 2. Repair or replace laterals of the underdrain. • Broken, damaged, or missing lateral. Backwash Valve • Obstruction in the valve seat. 1. Remove the obstruction. Leaks • Rubber seating is worn or 2. Replace Valve. damaged. 3. Replace diaphragm. 4. Adjust linkage • Actuator Diaphragm damaged. • Linkage out of adjustment Water Hammer • Air in tanks. 1. Bleed off trapped air in system. Air vent on • Long backwash line causing system may be required. vacuum. 2. Install vacuum breaker on backwash line. LAKOS. Separators and Filtration Solutions 1365 North Clovis Avenue Fresno, CA 93727-2282 1.559.255.1601 LS -722 (2/2015) %Bell & Gossett a xylem brand SUBMITTAL A -326.8E AS -1, -2 RO LAI RTRO L° Air Separator Flanged Less Strainer Air Control and Elimination DESCRIPTION CONSTRUCTION MATERIALS The Rolairtrol Air Separator is an ASME vessel designed with tangential • Designed and constructed per ASME Section VIII, Division 1 openings to create a low velocity vortex where air is separated and • Shell: Carbon Steel removed from the circulating water. MAXIMUM WORKING PRESSURE 125 PSIG (862 kPa) MAXIMUM OPERATING TEMPERATURE 350°F (177°C) Consult factory for higher working pressures and temperatures. PART NUMBER MODEL NUMBER Capacity GPM (m3/hr) Flanged Tangential Opening in. (mini) TAGGING INFORMATION QUANTITY 5363-03F-12-003 RL -3F 190 (43.2) 3 (76.2) 5363-04F-12-003 RL -4F 300 (68.1) 4 (101.6) 530 5 5363-05F-12-003 RL -5F (120.4) (127.0) 5363-06F-12-003 RL -6F 850 (193.0) 6 (150.0) 5363-08F-12-004 RL -8F 1,900 (431.5) 8 (203.2) 5363-10F-12-003 RL -10F 3,600 (817.6) 10 (254.0) 5363-12F-12-003 RL -12F 4,800 (1090.1) 12 (300.0) 190 3 5363-03F-12-004 RL-3FB (43.2) (76.2) 5363-04F-12-004 RL-4FB 300 (68.1) 4 (101.6) 5363-05F-12-004 RL-5FB 530 (120.4) 5 (127.0) 5363-06F-12-004 RL-6FB 850 (193.0) 6 (150.0) 5363-08F-12-005 RL-8FB 1,900 (431.5) 8 (203.2) 5363-10F-12-004 RL-10FB 3,600 (817.6) 10 (254.0) 5363-12F-12-004 RL-12FB 4,800 (1090.1) 12 (300 0) Model numbers with a B suffix include bracket supports. xylem Let's Solve Water ROLAIVROL - Flanged Less Strainer Outlet A -326.8E Page 2 AS -1, -2 A DIMENSIONS in Inches (mm) AND WEIGHTS in Lbs (ka. MODEL NUMBER A B C D E F G H J L* M* N* Cv Approx. Volume in Gallons (Ltr.) Approx. Shpg. Wt. in Lbs. (Kg) Flood Wt.Less Bracket in Lbs. (Kg) Bracket Wt. in Lbs. (Kg)l- RL -3F (B) 26-7/8 (683) 8 (203) 10- 13/16 (275) 8-1/16 (205) 10-3/4 (273) 22-3/4 (578) 3-5/8 (92) 1-1/4 (32) 2 (51) 13-3/8 (340) 14 (356) 2 (51) 215 7 (26) 115 (52) 173 (79) 9 (4) RL -4F (B)11- 31-7/16 (799) 10 (254) 15/16 (303) 9-1/2 (241) 12-3/4 (324) 20-1/2 (521) 4-1/8 (105) 1-1/2 (38) 2 (51) 15-3/8 (391) 16 (406) 2 (51) 370 13 (49) 155 (70) 263 (119) 9 (4) RL -5F (B) 37 (940) 12 (305) 14-1/16 (357) 15/016 (278) 16 (406) 23-3/4 (603) 5-1/4 (133) 1-1/2 (38) 2 (51) 18-1/2 (470) 19-3/8 (492) 2 (51) 580 25 (95) 205 (93) 414 (188) 9 (4) RL -6F (B) 44-1/16 (1119) 14 (356) 16-13-1/4 (427) (427) (337) 18 (457) 25-3/4 (654) 5-11/16 (144) 1-1/2 (38) 2 (51) 22-1/8 (562) 21-1/4 (540) 2 (51) 850 34 (129) 280 (127) 564 (256) 9 (4) RL -8F (B) 54 (1372) 18 (457) 19-7/16 (494) 16-9/16 (421) 24 (610) 31-3/4 (806) 7-11/16 (195) 2 (51) 2 (51) 26 (660) 29-1/2 (749) 2 (51) 1,445 90 (341) 420 (190) 1,171 (531) 30 (14) RL -10F (B) 64- 11/16 (1643) 22 (559) 22-5/8 (575) 20-1/16 (510) 30 (762) 37-3/4 (959) 9-5/8 (244) 2 (51) 2 (51) 31-5/8 (803) 35-1/2 (902) 2 (51) 2' 340 150 (568) 800 (363) 2,052 (930)14 30 ( ) RL -12F (B) 75-3/8 (1915) 27 (586) 25-3/4 (654) 22-5/8 (575) 36 (914) 46-3/4 (1187) 11-5/8 (295) 2 (51) 2 (51) 37-5/8 (956) 41-1/2 (1054) 2 (51) 3,300 291 (1,101) 1,110 (503) 3,538 (1,605) 30 (14) Indicates measuremen s for models that have optional support brackets tBracket weight should be added to flood weight and approximate shipping weight for models that are being supplied with optional support brackets. Important Note: Dimensions not to be used for construction. IMPORTANT NOTES: 1. Consult IOM A85524 for safety and service instructions. 2. Lifting lugs are for the transportation and installation of the empty vessel, and are not to be used for complete or partial support of the flood vessel. 3. The RL skirt can support flooded vessel weight. 4. Welding to the pressure vessel boundary will void the ASME stamp. 5. Standard Rolairtrol design up to 12" can be hung from the nozzles using hangers. Optional, factory welded, support brackets are available for an additional cost. Xylem Inc. 8200 N. Austin Avenue Morton Grove, IL 60053 Phone: (847)966-3700 Fax: (847)965-8379 www.bellgossett.com Bell & Gossett is a trademark of Xylem Inc. or one of its subsidiaries. © 2015 Xylem Inc. xylem Let's Solve Water ROLAIRTROL - Flanged Less Strainer 20 10 01 Rolairtrol® Air Separator Performance Coverage Chart RL MODELS (WITHOUT STRAINERS) M to co 0) 10 100 FLOW (USGPM) Note: Pressure drops for a range of flow are indicated on this chart. Users should select Rolairtrol using B&G published capacity guidance, and ASHRAE pipe sizing recommendations for optimal performance. 1000 10000 A -326.8E , *Page. 3 AS -1, -2 TYPICAL ROLAIRTROL SPECIFICATIONS Furnish and install, as shown on plans, a centrifugal type air separator. The unit shall have " inlet and outlet flanged connections tangential to the vessel shell. The unit shall have the capability to direct accumulated air to the compression tank (air control system) or air vent (air elimination sys%m) via an NPT vent connection at top of unit. A blowdown connection shall be provided to facilitate routine cleaning. Specify B&G Model MBV-1 Rolairtrol accessory with appropriate fittings for manual blowdown. Refer to submittal A-329 for information on the MBV-1 manual blowdown valve.. Xylem Inc. 8200 N. Austin Avenue Morton Grove, IL 60053 Phone: (847)966-3700 Fax: (847)965-8379 www.bellgossett.com Bell & Gossett is a trademark of Xylem Inc. or one of its subsidiaries. © 2015 Xylem Inc. Vessel shell diameter to be three times the nominal inlet/outlet pipe diameter, with a minimum vessel volume for sufficient velocity reduction. The air separator must be designed, constructed and stamped for 125 psig @ 350°F (862 kPa @ 177°C) in accordance with Section VIII, Division I of the ASME Boiler and Pressure Vessel Code, and registered with the National Board of Boiler and Pressure Vessel Inspectors. The air separator(s) shall be painted with one shop coat of light gray air dry enamel. Each air separator shall be Bell & Gossett Model No. Rolairtrol Air Separator for GPM ( m3), Shell Dia. " ( mm) and Min. Vessel Volume Gal ( liters). xylem Let's Solve Water Pr hminary 12/10/2018 7:10:00 PM ADJUST ©ft DE \ CD 8% ED P; Al A j2) II cr\G Leo Stella TI — Preliminary Air Balance Report 12501 Suite # 1B — Phase #1 DHermanson Prehminary1OMA/OAIQ 7•(1•47Dnn Project Name: Leo Stella TI — Phase#1 Air Balance Address: 12501 East Marginal Way South Tukwila, WA 98168 Design Engineer: Hermanson Company LLP Hermanson Number: 21-18-13166 Preliminary 12/10/2018 7:06:52 PM This is to certify that Hermanson Company, LLP has Tested, Adjusted, and Balanced the systems described herein to their best possible performance capabilities. Data presented is a record of measurements and adjustments at the time the work was performed. This test and the associated balancing was performed in accordance with the TABB Procedural Guide (2003) and other industry standards. This work is warrantied for and expires ninety days from the report date unless otherwise stated in contract documents specific to this project. Submitted and certified by: Kevin R. Gibson, TABB and IAQ Technician Date: 12/10/2018 TABS Technician 081073893T June 30, 2020 07/11/016 Indoor Air Quality Technician 111Q1073893T June 30, 2020 TESTING, ADJUSTING AND BALANCING BUREAU THE PROFESSIONAL'S CHOICE'" »Harma11S011 1221 2nd Avenue North, 'Kent WA 98032 '. Tel 206-575-9700 Fax: 206-575-9800 HERMANSON COM 1) General Information a) This report is based on actual field readings taken during operation unless otherwise noted. Work for Phase #1 was completed on: 12/10/18 b) Equipment is inspected for proper and safe operation unless noted in this summary or the associated data contain herein. c) Work requiring adjustments will be performed to +/-10% of the design value unless other specifications require increased/decreased tolerances and approval by the Engineer of Record (EOR) or Authority Having Jurisdiction (AHJ). Flow rates were measured with calibrated instruments and are listed on the tool summary. d) All suggestions to further improve performance or function need to be fully vetted and verified by all interested parties (i.e. Engineer, Owner, Tenant, Contractor) e) Deficiencies noted throughout this report are the responsibility of the parties having an interest in them and are not to be corrected by the TAB team unless instructed in the contract documents. Notes are added for clarification as applicable. f) Design information is drawn from various sources to include, but not limited to: Drawings, specifications, user manuals, shop drawings, submittals, service history, legacy documents, and oral & photographic information. Additionally, unspecified values may be field determined as required in the absence of engineered values, based on current best practices. 2) Scope of the Project (Overview) a) Inspection of the newly installed equipment: (25) VAV Units, (4) Supply Air Fans, (5) Humidifiers, (1) Fan Coil Unit/HP, and Distech Controls System for proper installation and safe operation b) Verify airflows and offer suggestions as required. c) Correct any deficiencies if possible; Repaired VAV Unit's Factory Wiring. d) Worked with Fire Monitoring Company, Electrical Contractor, and Controls Contractor to determine how best to Interlock all new and old systems. To turn off in a Fire Event, as per Building Fire Code. e) Provide the owner with a certified Preliminary, Phase #1 TAB report, demonstrating the actual airflow. 3) System Description a) 1- Ground Mounted Packaged Heat Pump (Phase #2) b) 25- FP VAV Boxes c) 6- Humidifiers (#H -1B-04: Phase #2) d) 1- Exhaust Fans (Phase #2) e) 4- Supply Fans f) 1- HP / Fan Coil Unit Preliminary 12/10/2018 7:07:34 PM »Hermanson 1221 2nd Avenue North. Kent WA 98032 Tel 206-575-9700 Fax 206-575-9800 HERMANSON COM 4) Findings a) Equipment Not Installed, from Schedule: FP -1B-50, EF -1B-09, EF -1B-10. (Omitted from original contract) b) VAV Units # FP -1B-05: (Serves Clean Room) Supply Air is at 65% of Design, Restriction from supply air 99.97% HEPA, causing supply air to blow out the return air filter opening. (Plans in progress to direct air through the supply filtration by Hermanson) c) VAV Units # FP -1B-28: (Serves Clean Room) Supply Air is at 81% of Design, Restriction from supply air 99.97% HEPA, causing supply air to blow out the return air filter opening. (Plans in progress to direct air through the supply filtration by Hermanson) d) SF -1B-01: (Serves Clean Room) No current Distech Building Controls -Local RIB relay bypassed to allow testing. Circuit Breakers requested to remain OFF until RIB relays are installed at Supply Fan local motor rated switch. (In Progress by Long) e) SF -1B-02: (Serves Clean Room) No current Distech Building Controls -Local RIB relay bypassed to allow testing. Circuit Breakers requested to remain OFF until MB relays are installed at Supply Fan local motor rated switch. (In Progress by Long) f) SF -1B-03: (Serves Clean Room) No current Distech Building Controls -Local MB relay bypassed to allow testing. Circuit Breakers requested to remain OFF until MB relays are installed at Supply Fan local motor rated switch. (In Progress by Long) g) SF -1B-04: (Serves Clean Room) No current Distech Building Controls -Local MB relay bypassed to allow testing. Circuit Breakers requested to remain OFF until RIB relays are installed at Supply Fan local motor rated switch. (In Progress by Long) h) AHU-1 EAST: Distech Building Controls are not complete. (In Progress by Long) i) EF -1B: (Main Restroom Exhaust Fan): No current Distech Building Controls (In Progress by Long) j) Distech Building Controls: Currently Not Completed; Floor Plan, Graphics Page, Summary Page, Distech Controls- Programmed Logic (In Progress by Long) k) Fire Life Safety / Fire Monitoring: No current Controls interlock installed to drop out the 4 - Supply Fans and the 25-VAV Units with a signal from the Fire Control Panel (In Progress by Long) 1) FCU -1B-101: (Serves Bake Out Room) Supply Air is 69% of Design, Fan Motor set to max Static Pressure setpoint. m) FP -1B-08: (Serves SE Open Office) Determined by Long, Zone Sensor or wire to sensor n) fault. (In Progress by Long) o) FP -1B-40: (Serves Clean Room View -Meeting Room) Determined by Long, Zone Sensor or wire to sensor fault. (In Progress by Long) Dp) Phase #2 Air Balance Equipment: (Environmental Testing Chamber -Currently Under Construction) HP -1B -GO, H-1 B-04, EF -1B Preliminary 12/10/2018 7:07:47 PM I »Hermanson 1221 2nd Avenue North. Kent WA 98032 Tel 206-575-9700 Fax 206-575-9800 HERMANSON:COM Phase #2 is planned to be ready for Air Balancing at the end of December. I will return to complete all remaining equipment in Phase #2 at that time. Long Controls, 12/10/18; Are on site to continue installation/programming of the building Distech controls and FLS Monitoring Interlocks. Thank you for the choosing the Hermanson Company, it has been my pleasure to work with you and your team. Please let me know of any questions. Preliminary 12/10/2018 7:07:18 PM Thank you, Kevin Kevin Gibson 1 TABB / Controls / FLS / IAQ / Service Technician Hermanson Company, LLP 1 21440 68th Ave S, Kent, WA 98032 Office 206-575-9700 1 Cell 206-552-4178 www.hermanson.com !r Hermanson *Hermanson 1221 2nd Avenue North. Kent WA 98032 Tel 206-575-9700 Fax 206-575-9800 HER MANSON.COM f ) ermanson 1221 2nd Avenue North, Kent WA 98032 Main Tel: 206-575-9700 Fax: 206-575-9800 http://hermanson.com/ AC or ACU Air Conditioning Unit EAT Entering Air Temperature AP Pressure Drop. AHU Air Handling Unit EF Exhaust Fan PH Phase Ak The area of an opening in sq./ft. EG/ED Exhaust Grille/Diffuser PSI Pounds per Square Inch ATM Atmosphere EMS Energy Management System RA Return Air AVG Average ERU Energy Recovery Unit RAT Return Air Temperature BHP Brake Horsepower FHT Fume Hood Test RF Return Fan CAV Constant Air Volume FPB Fan Powered Box RH Relative Humidity CBV Cal. Balance Valve FPM Feet per Minute RHC Reheat Coil CC Cooling Coil FT Foot, Feet RPM Revolutions per Minute CD Ceiling Diffuser GPM Gallons per Minute RTU Roof Top Unit CFM Cubic Feet per Minute HC Heating Coil SA Supply Air CH Chiller TDH — Total Dynamic Head - Pump SAT Supply Air Temperature CHWS Chilled Water Supply HEPA High Efficiency Particulate Arrestance S.F. Service Factor CHWR Chilled Water Return HP Horsepower SF Smoke/Fire Damper CP Circulating Pump HVAC Heating Ventilation and AC SWG Sidewall Grille CD/CR Ceiling Diffuser/Register HWS Heating Water Supply TAB Test, Adjust & Balance CRAC Computer Room AC HWR Heating Water Return TEMP Temperature CRU Computer Room Unit HX Heat Exchanger TON 12,000 BTUH (Cooling CT Cooling Tower HZ Hertz, cycle/second of current TSTAT Thermostat (T) CU Condenser Unit in.w.g. inches of water gauge TSP Total Static Pressure CUH Cabinet Unit Heater K -factor Correction factor to the free area needed t o calculate CFM UH Unit Heater CWS Condenser Water Supply KW Kilowatts V Volt — Either AC or DC CWR Condenser Water Return LAT Leaving Air Temperature VAV Variable Air Volume box D Discharge LWT Leaving Water Temperature VD Volume Damper DAT Discharge Air Temperature MAU Make-up Air Handling Unit VEL Velocity (usually in FPM) DB Dry Bulb MBH 1,000 BTUH VFD Variable Frequency Drive DDC Direct Digital Controls NT Not Tested VVT Variable Volume Terminal DP Differential Pressure OSA Outside Air W.G. Water Gauge DNA Data not available or given OBD Opposed Blade Damper WB Wet Bulb DNV Data Not Visible OD Outside Diameter 1) TAB — Test the quantitative performance according to the design 2) Flowhood — Instrument used by 3) Total Static Pressure - Difference 4) Economizer — Components and controls cooling to save energy and provide 5) Total Dynamic Head - The difference 6) Design Tolerance — Specified by the 7) Ratio of Tolerance - Used to verify of design if design was 250 then of a system then regulate it to a specific rate and a Balancer to capture air and measures and reports in in pressure from the inlet to the discharge of a fan added that allow an air handler to effectively use outside building pressurization between the pressure of a fluid entering a pump vs designer or +/-10% that terminals and/or the system are within Design .90/1.10=1.22 and flow between 275CFM-225CFM would o w E o to the proportion the CFM together air instead of mechanical exiting added together Tolerance; Example 90%-110% be acceptable WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS flow - , ADJUSTING AND BALANCING BU ME PROFESSIONAL'S C, w 0 0 0 a ilHermanson Balancing Equipment List: Kevin Gibson Job Number: Date: Equipment Manufacturer Model/Serial Number Calibration Date Capture Hood Evergreen Telemetry CH -15D / 1800224 7/10/2017 DP Manometer Testo 5101 / 49101556 9/19/2017 Amp Probe Fluke 902FC / 40230219WS 02/30/2018 Pressure / Velocity Module Evergreen Telemetry S -PVF -1 / 1600344 1/26/2017 Vane Anemometer Testo 4101 / 49008603 9/19/2017 Hydronic Manometer TSI HM685 / 71722223 8/15/2017 Ultrasonic Flow Meter General Electric Transport PT878 / 10237 Factory Vane Anemometer Testo 417 / 61053074 8/23/2017 Temperature Sensor Evergreen Telemetry PR -T-1 / 1700358 7/5/2017 Flow Hood Dwyer SAH -22 / 01FRDY 5/11/2018 Water Meter TSI 801290 / 71615117 10/18/2016 External Pipe Temperature Testo 1151/462010058 8/23/2017 External Pipe Temperature Testo 1151/462010071 8/23/2017 H/L Refrigerant Pressure Testo 5491/49291848 8/23/2017 H/L Refrigerant Pressure Testo 5491/49291852 8/23/2017 Manometer / Air Flow Meter Fluke 922/39660006 10/1/2017 Remarks: WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS ADJUSTING ANDBALANCING U THE .O.E$.,ONALM- )Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE 12/10/2018 CONTACT: Kevin Gibson AUTHOR Kevin Gibson WE BUILD TRUSTING RELATiONS4IPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing Unit Data Unit Manufacturer Trane Unit Model Number SXHGD1140R86CE7D800100 0000KLONRT0000 Unit Serial Number C00J27357 Unit Discharge Downblast rDesign Airflow Test Data 31000-46000 CFM Tested By: Kevin Gibson Date: 12/10/2018 SYSTEM/UNIT: AHU-Existing/FP-16-03 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733456-C-001 8 920.000 Building Entry AHU-Existing/FP-1B-03 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/10/2018 Term Box Test Data VAV Fan Design VAV Fan Actual Design Max Airflow Design Min Airflow 600 CFM 660 CFM 600 CFM 125 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 North Lobby RD3 Round 10 300 160 53 330 110 key Outlet -02 North Lobby RD3 Round 10 300 370 123 330 110 50% closed Totals: - - 600 530 88 660 110 - Hermanson )Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-04 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-10 18-733456-C-002 10 1480.000 I ncomi ng&Su b -Assembly AHU-Existing/FP-1B-04 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/5/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 730 CFM 730 CFM 230 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Sub -Assembly DT3-Titus MCD 10/10 255 250 98 250 98 Outlet -02 Sub -Assembly DT3-Titus MCD 10/10 240 220 92 230 96 20% closed Outlet -03 Sub -Assembly DT3-Titus MCD 10/10 240 230 96 250 104 key Totals: - - 735 700 95 730 99 - SYSTEM/UNIT: AHU-Existing/FP-1B-05 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS 3-10 18-733456-C-005 10 1474.000 Clean Room(N.Ext) F: 1@16.5/19" Log: Tested By: Kevin Gibson Date: 12/4/2018 Tern Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 840 CFM 840 CFM 250 CFM AHU-Existing/FP-1 B-05 12/10/2018 Kevin Gibson VAV supply not able to make design cfm through the HEPA filters. Supply air @ 65% of Design AHU-Existing/FP-1 B-05 Supply Outlet Summary System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final : Airflow % Final Diff. Remark Outlet -01 Clean Room DT3-Titus MCD 10/10 280 170 61 180 64 Outlet -02 Clean Room DT3- Titus MCD 10/10 280 220 79 190 68 20% closed Outlet -03 Clean Room DT3- Titus MCD 10/10 280 160 57 180 64 key Totals: • - 840 550 65 550 65 - Hermanson 4Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 1015 1,411110,W111.1.1.1.1.111.1.1110•141111101M •Ce DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING REISTIGNSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-18-07 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-12 18-733456-C-004 12 2487.000 Cafeteria (E. EXT.) New Fan Speed @100% Log: Tested By: Kevin Gibson Date: 12/7/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 1065 CFM 1065 CFM 320 CFM AHU-Existing/FP-1 B-07 AHU-Existing/FP-1 B-07 12/7/2018 12/7/2018 Kevin Gibson Kevin Gibson FP -1 B-07 : Cafeteria area Schedule omitted supply outlet in hallway New minimum supply air FP -1 B-07: Cafeteria area Schedule omitted CFM for hallway supply outlet of 180 CFM New supply air maximum AHU-Existing/FP-1B-07 Supply Outlet Summary System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Cafeteria DT1-Titus MCD 10/10 180 110 61 180 100 Outlet -02 Cafeteria DT3-Titus MCD 10/10 295 200 68 295 100 Outlet -03 Cafeteria DT3-Titus MCD 10/10 295 210 71 305 103 Outlet -04 Cafeteria DT3-Titus MCD 10/10 295 210 71 300 102 Totals: - 1065 730 69 1080 101 Hermanson )Hermanson wnr rwsw�u��wu � Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-08 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-14 18-733456-C-005 14 2511.000 Open Office(S.Ext.) New Fan Speed 38% AHU-Existing/FP-1B-08 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Tern Box TestData VAV Fan Design Design Max Airflow Design Min Airflow 940 CFM 940 CFM 390 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 SE Open Office DT3-Titus MCD 10/10 310 380 123 330 106 40% closed Outlet -02 SE Open Office DT3-Titus MCD 10/10 310 440 142 335 108 40% closed Outlet -03 SE Open Office DT3-Titus MCD 10/10 310 305 98 335 108 key Totals: - - 930 1125 121 1000 108 - SYSTEM/UNIT: AHU-Existing/FP-1B-09 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-12 18-733456-C-006 12 1952.000 Open Office AHU-Existing/FP-1B-09 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 925 CFM 925 CFM 290 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 West Open Office DT3-Titus MCD 10/10 310 260 84 310 100 Outlet -02 West Open Office DT3-Titus MCD 10/10 310 280 90 340 110 Outlet -03 West Open Office DT3-Titus MCD 10/10 310 270 87 330 106 Totals: - - 930 810 87 980 105 - Hermanson Nermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson 0 WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-10 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size Remark Nailor Industries D35SE 128910-48 16 Original VAV Tested By: Kevin Gibson Date: 12/6/2018 SYSTEM/UNIT: AHU-Existing/FP-1B-25 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS- 6-14 18-733456-C-007 14 2709.000 Clean Room (Int) AHU-Existing/FP-1 B-25 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/4/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 1580 CFM 1580 CFM 475 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room DT3-Titus MCD 10/10 240 290 121 230 96 closed 50% Outlet -02 Clean Room DT3-Titus MCD 10/10 240 250 104 215 90 closed 40% Outlet -03 Clean Room DT3-Titus MCD 10/10 240 180 75 215 90 key Outlet -04 Clean Room DT3-Titus MCD 10/10 240 215 90 215 90 closed 30% Totals: - - 960 935 97 875 91 - Hermanson )Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1 B-28 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-10 18-733456-C-008 10 1450.000 Fan Maxed flow at72% Log: Tested By: Kevin Gibson Date: 12/4/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 780 CFM 780 CFM 235 CFM AHU-Existing/FP-1 B-28 12/10/2018 Kevin Gibson VAV supply not able to make design cfm through the HEPA filters_ Supply Air @ 81% of Design AHU-Existing/FP-1 B-28 Supply Outlet Summary System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room DT3-Titus MCD 10/10 260 170 65 210 81 key Outlet -02 Clean Room DT3-Titus MCD 10/10 260 240 92 210 81 closed 30% Outlet -03 Clean Room DT3-Titus MCD 10/10 260 225 87 210 81 closed 20% Totals: - - 780 635 81 630 81 - SYSTEM/UNIT: AHU-Existing/FP-1B-29 AREA: lst Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-6 18-733456-C-009 6 360.000 Airlock, 16/20/1", fan off for low design. Log: Tested By: Kevin Gibson Date: 12/7/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 30 CFM 30 CFM 30 CFM AHU-Existing/FP-1 B-29 12/7/2018 Kevin Gibson To be able to maintain the newest print Supply Airflow of 30 cfm, Supply Fan is Disabled and the Valve is Maintaining Airflow AHU-Existing/FP-1 B-29 Supply Outlet Summary System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room DT1-Titus MCD 6/6 30 210 700 30 100 Fan Off, Adjusted Valve CFM for design Totals: - - 30 210 700 30 100 - Hermanson Nermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-30 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733456-C-010 8 969.000 Cafeteria (Int). Fan Speed @42% AHU-Existing/FP-1 B-30 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Term Box Test Data VAV Fan Design VAV Fan Actual Design Max Airflow Actual Max Airflow Design Min Airflow 420 CFM 435 CFM 420 CFM 435 CFM 135 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Cafeteria DT2-Titus MCD 8/8 210 215 102 220 105 key Outlet -02 Cafeteria DT2-Titus MCD 8/8 210 220 105 205 98 Totals: - - 420 435 104 425 101 - SYSTEM/UNIT: AHU-Existing/FP-1B-31 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733456-C-011 8 845.000 Open Office (Int) Fan speed 37% AHU-Existing/FP-1 B-31 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 360 CFM 360 CFM 215 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow %Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 East Open Office DT2-Titus MCD 8/8 180 180 100 195 108 Outlet -02 East Open Office DT2-Titus MCD 8/8 180 160 89 190 106 Totals: - - 360 340 94 385 107 - Hermanson 4Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 APS 1tl1..Y�R1aal Y.&KAMM_W n DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING R'L4TICNSHIFS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-32 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-6 18-733456-C-012 6 609.000 Phone Rooms AHU-Existing/FP-1 B-32 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 120 CFM 120 CFM 65 CFM System/Unit Area Served Outlet Type Size LxW 1 D Design Airflow Prelim Airflow % Prelim ` Diff. Final Airflow % Final Diff. Remark Outlet -01 East Open Office DT2-Titus MCD 8/8 120 160 133 120 100 key Outlet -02 East Open Office DT1-Titus MCD 6/6 25 75 300 80 320 Outlet -03 East Open Office DT1-Titus MCD 6/6 25 40 160 80 320 closed 20% Totals: - - 170 275 162 280 165 - SYSTEM/UNIT: AHU-Existing/FP-1 B-33 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733456-C-013 8 871.000 Open Office (Int) Fan @47% AHU-Existing/FP-1 B-33 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Tern Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 495 CFM 495 CFM 125 CFM System/Unit Area Served Outlet Type Size LxW 1 D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Open Office DT2-Titus MCD 8/8 165 200 121 170 103 key Outlet -02 Open Office DT2-Titus MCD 8/8 165 215 130 175 106 Outlet -03 Open Office DT2-Titus MCD 8/8 165 240 145 165 100 closed 20% Totals: - - 495 655 132 510 103 - Hermanson )Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 11111111116. .111R1110 01.110•111.1111441.1 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-34 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733456-C-014 8 845.000 Equipment & Sub -Assembly 20% fan speed AHU-Existing/FP-1B-34 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/5/2018 Term Box Test Data VAV Fan Design VAV Fan Actual Design Max Airflow Design Min Airflow 270 CFM 295 CFM 270 CFM 125 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Incoming/ Storage DT3-Titus MCD 10/10 270 70 26 295 109 key Outlet -02 Totals: - - 270 70 26 295 109 - SYSTEM/UNIT: AHU-Existing/FP-1B-35 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733456-C-015 8 1035.000 Open Office (Int) AHU-Existing/FP-1B-35 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/5/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 465 CFM 465 CFM 140 CFM System/Unit Area Served Outlet Type Size LxW 1 D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Open Office DT1-Titus MCD 6/6 90 75 83 85 94 key Outlet -02 Open Office DT2-Titus MCD 8/8 150 170 113 165 110 20% closed Outlet -03 Open Office DT2-Titus MCD 8/8 150 180 120 150 100 30% closed Outlet -04 Open Office DT1-Titus MCD 6/6 75 75 100 75 100 25% closed Totals: - 465 500 108 475 102 - Hermanson )Hermanson iune,.wnr.w..u.errww � Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-36 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733457-C-001 8 1108.000 Flat Sat AHU-Existing/FP-1 B-36 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/5/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 165 CFM 165 CFM 125 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Flat Sat DT1-Titus MCD 6/6 85 90 106 90 106 Outlet -02 Flat Sat DT1-Titus MCD 6/6 85 90 106 90 106 - Totals: - - 170 180 106 180 106 - SYSTEM/UNIT: AHU-Existing/FP-1 B-37 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-6 18-733457-C-002 6 639.100 Blg. Security (Exist)@ Minimum Fan Speed for box AHU-Existing/FP-1 B-37 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/5/2018 Tenn Box Test Data VAV Fan Design Design Max Airflow Actual Max Airflow Design Min Airflow 90 CFM 90 CFM 150 CFM 30 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Anal Airflow % Final Diff. Remark Outlet -01 Building Security Station 2WC 5/5 90 150 167 150 167 Totals: - - 90 150 167 150 167 - Hermanson Mermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-38 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733457-C-003 8 958.500 Conference (S. Ext) AHU-Existing/FP-1 B-38 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/5/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 530 CFM 530 CFM 160 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Conference - 101 DT3-Titus MCD 10/10 265 110 42 290 109 100% closed _ Outlet -02 Conference - 101 DT3-Titus MCD 10/10 265 120 45 285 108 90% closed Outlet -03 Totals: - - 530 230 43 575 108 - SYSTEM/UNIT: AHU-Existing/FP-1B-39 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733457-C-004 8 1026.000 Phone Rooms/ Open Office Fan Speed @20% minimum AHU-Existing/FP-1 B-39 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 225 CFM 225 CFM 125 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow %Prelim Diff. Final , Airflow % Final Diff. Remark Outlet -01 West Open Office DT1-Titus MCD 6/6 25 100 400 35 140 100% closed Outlet -02 West Open Office DT1-Titus MCD 6/6 35 225 643 50 143 90% closed Outlet -03 West Open Office DT2-Titus MCD 8/8 165 100 61 190 115 Open Office, key Totals: - - 225 425 189 275 122 - Hermanson Mermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-40 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-733457-C-005 8 827.000 Meeting Room , Fan speed minimum AHU-Existing/FP-1B-40 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 330 CFM 330 CFM 125 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room office DT2-Titus MCD 8/8 155 200 129 170 110 20% closed Outlet -02 Clean Room office DT2-Titus MCD 8/8 155 235 152 170 110 Totals: - - 310 435 140 340 110 - SYSTEM/UNIT: AHU-Existing/FP-1B-44 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-10 18-733457-C-006 10 1552.000 Cafeteria (S. Ext) New Fan Speed @60% AHU-Existing/FP-1 B-44 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/6/2018 Term Box Test Data VAV Fan Design Design Max Airflow Actual Min Airflow 570 CFM 570 CFM 225 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Cafeteria DT4-Titus MCD 12/12 285 440 154 310 109 Outlet -02 Cafeteria DT4-Titus MCD 12/12 285 485 170 300 105 Totals: - - 570 925 162 610 1 107 - Hermanson )Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 AINB 1 111,11••• MARINO AM MILMIC/11.11W) •11,110“1101W,. 011041P 0 DATE'.: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELAl IONSMPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-45 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-10 18-733457-C-008 10 1381.000 Clean Room (N. Ext) @70% rpm AHU-Existing/FP-1 B-45 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/4/2018 Tern Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 560 CFM 560 CFM 225 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room DT3-Titus MCD 10/10 280 240 86 260 93 key Outlet -02 Clean Room DT3-Titus MCD 10/10 280 270 96 260 93 20% closed Totals: - - 560 510 91 520 93 - SYSTEM/UNIT: AHU-Existing/FP-1B-46 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-6 18-733457-C-008 6 483.000 Incoming Storage / @Fan Speed Minimum AHU-Existing/FP-1B-46 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/10/2018 Term Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 110 CFM 110 CFM 65 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Incoming/ Storage DT1—Titus MCD 6/6 55 140 255 135 245 Outlet -02 Incoming/ Storage DT1-Titus MCD 6/6 55 110 200 135 245 Totals: - - 110 250 227 270 245 Hermanson )Hermanson Air Handling Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson 0 WE BUILD TRUSTING RELAT!CUSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: AHU-Existing/FP-1B-48 AREA: 1st Floor Unit Data Manufacturer Model Number Serial Number Box Inlet Size K Factor Remark Krueger KQFS-3-8 18-7333457-C-010 8 892.000 North Lobby / @ Fan Minimum AHU-Existing/FP-1B-48 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/10/2018 Tern Box Test Data VAV Fan Design Design Max Airflow Design Min Airflow 600 CFM 600 CFM 200 CFM System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Central Lobby RD3 Round 10 300 120 40 190 63 Outlet -02 Central Lobby RD3 Round 10 300 120 40 190 63 Outlet -03 Central Lobby DT5-Titus MCD 14/14 600 255 43 405 68 Totals: - - 1200 495 41 785 65 - Hermanson )Hermanson Fan Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 rWNW DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING R:LATICNSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: EF -1B Restroom Exhaust Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity CENTRI MASTER PV200 YYF851203 3105 CFM Test Data Design Airflow 3105 CFM EF -1B Restroom Exhaust Exhaust Inlet Summary Tested By: Kevin Gibson Date: 12/10/2018 Motor Data Motor Manufacturer Motor Frame Motor HP Motor RPM Motor Rated Volts Motor Phase Motor Hertz Not Legible Not Legible 1 HP 924 RPM 230/460 Volts 3 60 Hz System/Unit Area Served Inlet Type Size LxW 1 D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark EF -Inlet -01- Floor -1 Restrooms G1 -Titus 350FL AG- 15 10/10 100 Bike Storage - North EF -Inlet -02- Floor -1 Restrooms G1 -Titus 350FL AG- 15 10/10 30 Bike Storage - Middle EF -Inlet -03- Floor -1 Restrooms G1 -Titus 350FL AG- 15 10/10 100 Bike Storage - South EF -Inlet -04- Floor -1 Restrooms EAR 10/10 300 Women's Restroom - North EF -Inlet -05- Floor -1 Restrooms EAR 10/10 300 Women's Restroom - South EF -Inlet -06- Floor -1 Restrooms EAR 10/10 300 Men's Restroom - North EF -Inlet -07- Floor -1 Restrooms EAR 10/10 300 Men's Restroom - South EF -Inlet -08- Floor -1 Restrooms EAR 8/8 100 Men's Restroom - Janitor's Room Totals: - - 1530 0 0 0 0 - Hermanson 1Hermanson Fan Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 101/1111111. .M &WM= a .n,....a..c O DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSRNG RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: H -1B-01 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Nortec EL Space /RMBP 030/208/3 2289657 656 CFM Test Data Design Airflow Actual Airflow Motor Volts T1-T2 Motor Volts T2-T3 Motor Volts T1-T3 Motor Amps T1 Motor Amps T2 Motor Amps T3 656 CFM 550 high / 320 low CFM 207 Volts 205 Volts 206 Volts 4.20 Amps 4.60 Amps 4.60 Amps Log: Tested By: Kevin Gibson Date: 12/7/2018 Motor Data Motor Rated Volts 208 Volts Motor Phase 3 Motor Hertz 60 Hz H-1 B-01 12/7/2018 Kevin Gibson Humidifier range of operation : 40-60% Set all at 40.5, per request of Leo Stella SYSTEM/UNIT: H -1B-02 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Nortec EL Space/RMBP 030/208/3 2289656 938 CFM Test Data Design Airflow Actual Airflow Motor Volts T1-T2 Motor Volts T2-T3 Motor Volts T1-T3 Motor Amps T1 Motor Amps T2 Motor Amps T3 938 CFM 505 high/350 low CFM 207 Volts 205 Volts 206 Volts 5.70 Amps 5.40 Amps 5.00 Amps Log: Tested By: Kevin Gibson Date: 12/7/2018 Motor Data Motor Rated Volts 208 Volts Motor Phase 3 Motor Hertz 60 Hz H-1 B-02 12/7/2018 Kevin Gibson Condensate pump Hermanson )Hermanson Fan Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING REL+TIDNSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: H -1B-03 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Nortec EL Space/RMBP 030/208/3 2289655 938 CFM Test Data Design Airflow Actual Airflow Motor Volts T1-T2 Motor Volts T2-T3 Motor Volts T1-T3 Motor Amps T1 Motor Amps T2 Motor Amps T3 938 CFM 600 high / 320 low CFM 209 Volts 207 Volts 207 Volts 5.90 Amps 5.90 Amps 5.30 Amps Tested By: Kevin Gibson Date: 12/7/2018 Motor Data Motor Rated Volts 208 Volts Motor Phase 3 Motor Hertz 60 Hz SYSTEM/UNIT: H-1 B-04 AREA: 1st Floor Unit Data Fan Manufacturer Nortec Fan Model Number EL Space 030 Rated Airflow Capacity 679 CFM Tested By: Kevin Gibson Date: 11/5/2018 Motor Data Motor Rated Volts 208 Volts Motor Phase 3 Motor Hertz 60 Hz SYSTEM/UNIT: H-1 B-05 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Nortec EL Space/RMBP 020/208/1 2289653 417 CFM Test Data Design Airflow Actual Airflow Motor Volts T1-T2 Motor Amps T1 417 CFM 525 high / 420 low CFM 205 Volts Total @ 10./10.1 Amps Tested By: Kevin Gibson Date: 12/7/2018 Motor Data Motor Rated Volts 208 Volts Motor Phase 1 Motor Hertz 60 Hz Hermanson )Hermanson Fan Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE:: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: H -1B-06 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Nortec EL Space/ RMBP 010/208/1 2289652 203 CFM Test Data Design Airflow Actual Airflow Motor Volts T1-T2 Motor Amps T1 203 CFM 580 high / 410 low CFM 203 Volts Total 7.1 / 7.2 Amps Tested By: Kevin Gibson Date: 12/7/2018 Motor Data Motor Rated Volts 208 Volts Motor Phase 3 Motor Hertz 60 Hz SYSTEM/UNIT: SF -1B-01 AREA: 1st Floor Unit Data Fan Manufacturer Twin City Fan Fan Model Number DSI-150AE Fan Serial Number 118-00000261900 Rated Airflow Capacity 2300 CFM Test Data Design Airflow Motor Volts T1-T2 Motor Amps T1 2300 CFM 209 Volts 9.8 @ 80% Amps SF -1B-01 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/3/2018 Motor Data Motor Manufacturer Baldor Motor Frame Direct Drive Motor HP 2 HP Motor RPM 1800 RPM Motor Rated Volts 208-230 Volts Motor Phase 1 Motor Hertz 60 Hz Motor FL Amps 12.00 Amps System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room DT5-Titus MCD 14/14 575 575 100 520 90 50% closed Outlet -02 Clean Room DT5-Titus MCD 14/14 575 560 97 520 90 40% closed Outlet -03 Clean Room DT5-Titus MCD 14/14 575 490 85 520 90 15% closed Outlet -04 Clean Room DT5-Titus MCD 14/14 575 430 75 520 90 key Totals: - - 2300 2055 89 - 2080 90 - SF -1B-01 Return Inlet Summary System/Unit Area Served Inlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark RA Inlet -01 Clean Room G2 -Titus 350FL AG - 15 20/20 2300 2410 105 2240 97 Totals: - - 2300 2410 105 - 97 - Hermanson )Hermanson Fan Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: SF -1 B-02 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Twin City Fan DSI-150AE 118-000000261901 2300 CFM Test Data Design Airflow Motor Volts T1-T2 Motor Amps T1 2300 CFM 209 Volts 9.6 @ 70% Amps SF -1 B-02 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/3/2018 Motor Data Motor Manufacturer Motor Frame Motor HP Motor RPM Motor Rated Volts Motor Phase Motor Hertz Motor FL Amps Motor Service Factor Baldor Direct Drive 2 HP 1800 RPM 208-230 Volts 1 60 Hz 12.00 Amps 1.00 System/Unit Area Served Outlet Type Size LxW / D Design Airflow i;. Prelim Airflow % Prelim Diff. Final Airflow . % Final Diff. Remark Outlet -01 Clean Room DT5-Titus MCD 14/14 575 580 101 580 101 Outlet -02 Clean Room DT5-Titus MCD 14/14 575 620 108 620 108 Outlet -03 Clean Room DT5-Titus MCD 14/14 575 520 90 520 90 key Outlet -04 Clean Room DT5-Titus MCD 14/14 575 580 101 580 101 Totals: - - 2300 2300 100 2300 100 SF -1B-02 Return Inlet Summary System/Unit Area Served Inlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark RA Inlet -01 Clean Room G2 -Titus 350FL AG - 15 20/20 2100 2100 100 2100 100 RA Inlet -02 Clean Room EC2-Titus 50F-8 24/24 200 200 100 200 100 Totals: - - 2300 2300 100 - 100 - Hermanson Nermanson Fan Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSIING RELA,TiiCNISHIPS 8 DELIVER INSPIRED RESULTS SYSTEM/UNIT: SF -1 B-03 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Twin City Fan DSI-150AE 118-00000261902 2300 CFM Test Data Design Airflow Actual Airflow Design RPM Motor Volts T1-T2 Motor Amps T1 2300 CFM 2345 CFM 1800 RPM 209 Volts 9.70 Amps SF -1B-03 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/3/2018 Motor Data Motor Manufacturer Baldor Motor Frame Direct Drive Motor HP 2 HP Motor RPM 1800 RPM Motor Rated Volts 208-230 Volts Motor Phase 1 Motor Hertz 60 Hz Motor FL Amps 12.00 Amps Motor Service Factor 1.00 System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room DT5-Titus MCD 14/14 575 580 101 580 101 Outlet -02 Clean Room DT5-Titus MCD 14/14 575 590 103 590 103 key Outlet -03 Clean Room DT5-Titus MCD 14/14 575 575 100 575 100 key Outlet -04 Clean Room DT5-Titus MCD 14/14 575 600 104 600 104 Totals: - - 2300 2345 102 2345 102 - SF -1B-03 Return Inlet Summary System/Unit Area Served Inlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark RA Inlet -01 Clean Room G2 -Titus 350FL AG - 15 20/20 2100 2200 105 2200 105 RA Inlet -02 Clean Room EC2-Titus 50F-8 24/24 200 200 100 200 100 key Totals: - - 2300 2400 104 - 104 - Hermanson tHermanson Fan Unit PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RilL4TICNSNIRS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: SF -1B-04 AREA: 1st Floor Unit Data Fan Manufacturer Fan Model Number Fan Serial Number Rated Airflow Capacity Twin City Fan DSI-150AE 118-00000261903 2300 CFM Test Data Design Airflow Motor Volts T1-T2 2300 CFM 209 Volts SF -1B-04 Supply Outlet Summary Tested By: Kevin Gibson Date: 12/3/2018 Motor Data Motor Manufacturer Motor Frame Motor HP Motor RPM Motor Rated Volts Motor Phase Motor Hertz Motor FL Amps Motor Service Factor Baldor Direct Drive 2 HP 1800 RPM 208-230 Volts 1 60 Hz 12.00 Amps 1.00 System/Unit Area Served Outlet Type Size LxW ! D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Clean Room DT5-Titus MCD 14/14 575 520 90 520 90 Outlet -02 Clean Room DT5-Titus MCD 14/14 575 515 90 515 90 - Outlet -03 Clean Room DT5-Titus MCD 14/14 575 530 92 530 92 Outlet -04 Clean Room DT5-Titus MCD 14/14 575 560 97 560 97 Totals: - - 2300 2125 92 2125 92 - SF -1B-04 Return Inlet Summary System/Unit Area Served Inlet Type Size LxW ! D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Inlet -01 Clean Room G2 -Titus 350FL AG - 15 20 / 20" 2300 2325 101 2325 101 Totals: - - 2300 2325 101 - 101 - Hermanson )Hermanson Heat Pump PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE': 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING REL.TIGNSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: FCU -1B-101 AREA: Suite 1B Unit Data Unit Manufacturer Daikin Unit Model Number FXSQ48TAVJU Unit Serial Number E00182 Unit Discharge Horizontal fCU-1 B-101 /Filter Filter Manufacturer Filter Type Filter Qty - S1 Filter Size - S1 Flanders mery 8 pleat 2 10/25/2" Test Data Design Airflow Actual Airflow Design Outside Airflow Actual Outside Airflow Design Return Airflow Actual Retum Airflow FCU-1B-101/Fan Motor Volts T1-T2 Motor Amps T1 2280 CFM 1500, Fan Max Fan Speed CFM 0 CFM 0 CFM 2280 CFM 1500 CFM 209 Volts 1.60 Amps Log: Tested By: Kevin Gibson Date: 12/4/2018 Motor Data FCU -1 B-101/Fan Motor Manufacturer daikin Motor Frame Direct Drive Motor HP Not Listed HP Motor Rated Volts 208-230 Volts Motor Phase 1 Motor Hertz 60 Hz Motor FL Amps 2.0 Amps Corrected FL Amps 0.89 Amps FCU -1 B-101 12/11/2018 Kevin Gibson Supply Air @ 69% of Design. FCU motor set at max static pressure Daikin control setting. FCU -1B-101 Supply Outlet Summary System/Unit Area Served Outlet Type Size LxW / D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Bakeout DT5-Titus MCD 14/14 570 310 54 375 66 key Outlet -02 Bakeout DT5-Titus MCD 14/14 570 280 49 375 66 20% closed Outlet -03 Bakeout DT5-Titus MCD 14/14 570 240 42 375 66 25% closed Outlet -04 Bakeout DT5-Titus MCD 14/14 570 290 51 375 66 20% closed Totals: - 2280 1120 49 1500 66 - FCU -1B-101 Return Inlet Summary System/Unit Area Served Inlet Type Size LxW / 0 Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark RA Inlet -01 Bakeout EC2-Titus 50F-8 24/24 1140 560 49 750 66 RA Inlet -02 Bakeout EC2-Titus 50F-8 24/24 1140 560 49 750 66 Totals: - - 2280 1120 49 - 66 - Hermanson Nermanson Heat Pump PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 +s�r.rrnww�u��wru � tia wwawwrsows�- O DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTi"G RELATIONSHIPS & DELIVER INSPIRED RESULTS SYSTEM/UNIT: HP -1B-101 Unit Data Unit Manufacturer Daikin Unit Model Number RXTQ48TAVJU Unit Serial Number F003811 Tested By: Kevin Gibson Date: 11/26/2018 SYSTEM/UNIT: HP -G01- Condition 1 Unit Data Unit Manufacturer Unit Model Number Unit Discharge Trane WSC120 Horizontal Test Data Design Airflow Design Outside Airflow Design Return Airflow 3725 CFM 3725 CFM 0 CFM HP -G01- Condition 1 Supply Outlet Summary Tested By: Kevin Gibson Date: 11/5/2018 Motor Data HP -G01- Condition 1/Fart Motor HP 3 HP Motor RPM 1513 RPM Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz System/Unit Area Served Outlet Type Size LxW 1 D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Equipment Test SM1 18/10 745 Outlet -02 Equipment Test SM1 18/10 745 Outlet -03 Equipment Test SM1 18/10 745 Outlet -04 Equipment Test SM1 18/10 745 Outlet -05 Equipment Test SM1 18/10 745 Totals: - - 3725 0 0 0 0 - Hermanson 4Hermanson Heat Pump PROJECT: LEO STELLA TI LOCATION: Tukwila, WA PROJECT #: 21-18-13166 DATE: 12/10/2018 CONTACT: Kevin Gibson AUTHOR: Kevin Gibson WE BUILD TRUSTING RELATIONSHIPS & DELIVER INSP RED RESULTS SYSTEM/UNIT: HP -G01- Condition 2 Unit Data Unit Manufacturer Unit Model Number Unit Discharge Trane WSC120 Horizontal Test Data Design Airflow Design Outside Airflow 2230 CFM 90 CFM HP -G01- Condition 2 Supply Outlet Summary Tested By: Kevin Gibson Date: 11/5/2018 Motor Data JiP-G01- Condition 2/Fan Motor HP 3 HP Motor RPM 1513 RPM Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz System/Unit Area Served Outlet Type . Size LxW 1 D Design Airflow Prelim Airflow % Prelim Diff. Final Airflow % Final Diff. Remark Outlet -01 Equipment Test SM1 18/10 445 Outlet -02 Equipment Test SM1 18/10 445 Outlet -03 Equipment Test SM1 18/10 445 Outlet -04 Equipment Test SM1 18/10 445 Outlet -05 Equipment Test SM1 18/10 445 Totals: - - 2225 0 0 0 0 - Hermanson August 07, 2018 \ City of Tukwila Department of Community Development KAYLENE NELSON 1221 SECOND AVE N KENT, WA 98032 RE: Correction Letter # 1 MECHANICAL Permit Application Number M 18-0094 LEO STELLA - 12501 E MARGINAL WAY S Dear KAYLENE NELSON, Allan Ekberg, Mayor Jack Pace, Director This letter is to inform you of corrections that must be addressed before your development permit can be approved. All correction requests from each department must be addressed at the same time and reflected on your drawings. I have enclosed comments from the following departments: BUILDING - M DEPARTMENT: Allen Johannessen at 206-433-7163 if you have questions regarding these comments. • (GENERAL INFORMATION NOTE) PLAN SUBMITTALS: (Min. size 11x17 to a preferably maximum size of 24x36; all sheets shall be the same size; larger sizes may be negotiable. "New revised" plan sheets shall be the same size sheets as those previously submitted.) "STAMP AND SIGNATURES" (If applicable) For Engineers: "Every page of a plan set must contain the seal/stamp, signature of the licensee(s) who prepared or who had direct supervision over the preparation of the work, and date of signature. Specifications that are prepared by or under the direct supervision of a licensee shall contain the seal/stamp, signature of the licensee and the date of signature. If the "specifications" prepared by a licensee are a portion of a bound specification document that contains specifications other than that of an engineering or land surveying nature, the licensee need only seal/stamp that portion or portions of the documents for which the licensee is responsible." It shall not be required to have each page of "specifications" (calculations) to be stamped and signed; Front page only will be sufficient (WAC 196-23-010 & 196-23-020). Architects: "date" only not required (WAC 308-12-081). (BUILDING REVIEW NOTES) 1. Provide a completed 2015 Washington State Energy Code "MECHANICAL SUMMARY" Compliance Form for Commercial Buildings, available online at: http://www.neec.net/energy-codes (scroll down to center of page "2015 WSEC Commercial Provisions - Compliance Forms"). Note: Contingent on response to these corrections, further plan review may request for additional corrections Please address the comments above in an itemized format with applicable revised plans, specifications, and/or other documentation. The City requires that two (2) sets of revised plan pages, specifications and/or other documentation be resubmitted with the appropriate revision block. In order to better expedite your resubmittal, a 'Revision Submittal Sheet' must accompany every resubmittal. I have enclosed one for your convenience. Corrections/revisions must be made in person and will not be accepted through the mail or by a messenger service. 6300 Southcenter Boulevard Suite #100 • Tukwila Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 Sincerely, Bill Rambo Permit Technician File No. MI 8-0094 6300 Southcenter Boulevard Suite #100 • Tukwila Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 °PERMIT COORD COPY. PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M18-0094 PROJECT NAME: LEO STELLA SITE ADDRESS: 12501 E MARGINAL WAY S Original Plan Submittal Response to Correction Letter # DATE: 09/26/18 Revision # before Permit Issued X Revision # 1 after Permit Issued DEPARTMENTS: Building Division Public Works ,..(5 A vk Af qw_7--r e Fire Prevention Structural Planning Division ❑ ❑ Permit Coordinator ri PRELIMINARY REVIEW: DATE: 09/27/18 Not Applicable ❑ Structural Review Required (no approval/review required) REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved DUE DATE: 10/25/18 Approved with Conditions 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 0 Fire 0 Ping D PW 0 Staff Initials: 12/18/2013 PERMIT COORD COPY PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M18-0094 DATE: 08/14/18 PROJECT NAME: LEO STELLA SITE ADDRESS: 12501 E MARGINAL WAY S Original Plan Submittal X Response to Correction Letter # 1 Revision # before Permit Issued Revision # after Permit Issued DEPARTMENTS: tk-J Awe �a Building Division Public Works r Fire Prevention Structural Planning Division ❑ Permit Coordinator PRELIMINARY REVIEW: Not Applicable n (no approval/review required) DATE: 08/16/18 Structural Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved Corrections Required ❑ Approved with Conditions ❑ Denied (corrections entered in Reviews) (ie: Zoning Issues) Notation: DUE DATE: 09/13/18 REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg 0 Fire 0 Ping ❑ PW 0 Staff Initials: 12/18/2013 r %ERMIT COORD COPY PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M18-0094 DATE: 07/19/18 PROJECT NAME: LEO STELLA SITE ADDRESS: 12501 E MARGINAL WAY S X Original Plan Submittal Response to Correction Letter # Revision # Revision # before Permit Issued after Permit Issued DEPARTMENTS: \'\1� utlding Division Public Works n ' me Fire Prevention Structural Planning Division FlPermit Coordinator PRELIMINARY REVIEW: Not Applicable ❑ (no approval/review required) DATE: 07/24/18 Structural Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: DUE DATE: 08/21/18 Approved n Approved with Conditions ❑ Corrections Required (corrections entered in Reviews) Denied (ie: Zoning Issues) Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only e CORRECTION LETTER MAILED: Departments issued corrections: Bldg Fire ❑ Ping ❑ PW ❑ Staff Initials: 12/18/2013 / PROJECT NAME: IP Q/\ ►k SITE ADDRESS: 1Z5bt MAIM ,1 PERMIT NO: M1(‘' 00°11 -1 -- ORIGINAL ISSUE DATE: REVISION LOG REVISION NO. DATE RECEIVED STAFF IALS ISSUED DATE STAFF INITIALS ( (l) 5 `� GLV ���a N �l �j it V {403 \ I) V -- t/� Summary of Revision: Received by: 0,' 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: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) / City of Tukwila REVISION SUBMITTAL Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Web site: http://www.TukwilaWA.gov Revision submittals Hurst be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: Ol Plan Check/Permit Number: M — O 39 ❑ Response to Incomplete Letter # ❑ Response to Correction Letter # Revision # \ after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner O Deferred Submittal # Project Name: L -e o Project Address: \ 2LSO\ n(10-r()3kna`\ (,oa_ki Contact Person: t (t pAp Ne (son Phone Number: 7/Y7 Summary of Revision: ti c (i nor 3( 5A C M 4- 13,-\46 RECEIVED CITY OF TUKWILA SEP 2 4 N01R PERMIT CENTER Sheet Number(s): "Cloud" or highlight all areas of revision including Received at the City of Tukwila Permit Center by: ❑ Entered in TRAKiT on W:\Fermn Center\Templates\Forms\Revision Submittal Form doc Revised: August 2015 rev. on 1 (111V fir City of Tukwila REVISION SUBMITTAL Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Web site: http://www.TukwilaWA.gov Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the snail, fax, etc. Date: August 9, 2018 Plan Check/Permit Number: M18-0094 ❑ Response to Incomplete Letter # Response to Correction Letter # ❑ Revision # after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner n Deferred Submittal # Project Name: LEO STELLA Project Address: 12501 E MARGINAL WAY S (ec_5(\ Contact Person: Summary of Revision: 2015 Washington State Energy Code "Mechanical Summary" Compliance Form for Commercial Buildings is included. Phone Number: 3 --(2-)Sq.- 7 LP RECEIVED CITY OF TUKWI1 A PERMIT CENTER Sheet Number(s): "Cloud" or highlight al! areas of revision including date 9f re Received at the City of Tukwila Permit Center by: Entered in TRAKiT on W '.Permit C ntei ('atiei Duct 201) 'ision encs (torn d)t)tesi stun Submnt,0 1-oi:11 dos HERMANSON COMPANY LLP � O Washington State Department of Labor & industries 1-Iome Espanol Contact Safety & Health Claims & Insurance Page 1 of 3 Search L&I A-Zindex Help My 1 &'t A.. Workplace Rights Trades & Licensing HERMANSON COMPANY LLP Owner or tradesperson Principals NICOLAISEN, KNUT H, PARTNER/MEMBER BROCK, DANIEL L, PARTNER/MEMBER FOX, DEAN M, PARTNER/MEMBER HENGEL, STEPHEN A, PARTNER/MEMBER DYCKMAN, KENNETH A, PARTNER/MEMBER ROBINETT, PAUL J, PARTNER/MEMBER HERMANSON, RICHARD L, PARTNER/MEMBER ALMON, KEVIN, PARTNER/MEMBER (End: 08/05/2010) MACDONALD, JAMES, PARTNER/MEMBER (End: 08/05/2010) Doing business as HERMANSON COMPANY LLP WA UBI No. 602 004 844 1221 2ND AVE N KENT, WA 98032-2945 206-575-9700 KING County Business type Limited Liability Partnership Governing persons CORP HERMANSON LLC HERMANSON GROUP; License Verify the contractor's active registration / license / certification (depending on trade) and any past violations. Construction Contractor Active. .._..........................._................... Meets current requirements. License specialties GENERAL License no. HERMACLOO5BJ Effective — expiration 01/11/2000— 08/25/2020 Bond WESTERN SURETY CO Bond account no. 929381801 $12,000.00 Received by L&I Effective date 12/01/2005 01/01/2006 Expiration date Until Canceled Help us improve https://secure.lni.wa.gov/verify/Detail.aspx?UBI=602004844&LIC=HERMACL005BJ&SAW= 9/17/2018 HERMANSON COMPANY LLP Insurance ................... Transportation Ins Co Policy no. 6043050846 $1,000,000.00 Received by L&I Effective date 08/16/2018 08/21/2018 Expiration date 08/21/2019 Insurance history Savings No savings accounts during the previous 6 year period. Lawsuits against the bond or savings No lawsuits against the bond or savings accounts during the previous 6 year period. L&I Tax debts No L&I tax debts are recorded for this contractor license during the previous 6 year period, but some debts may be recorded by other agencies. License Violations No license violations during the previous 6 year period. Workers' comp Do you know if the business has employees? If so, verify the business is up-to-date on workers' comp premiums. L&I Account ID Account is current. 409,648-01 Doing business as HERMANSON COMPANY LLP Estimated workers reported Quarter 2 of Year 2018 "Greater than 100 Workers" L&I account contact T4 / TERRI MADISON (360)902-4654 - Email: KIRT235@Ini.wa.gov Public Works Strikes and Debarments Verify the contractor is eligible to perform work on public works projects. Contractor Strikes No strikes have been issued against this contractor. Contractors not allowed to bid No debarments have been issued against this contractor. Workplace safety and health Check for any past safety and health violations found on jobsites this business was responsible for. Inspection results date 03/05/2018 Inspection no. 317948149 Location 635 Park Ave N Renton, WA 98057 Inspection results date 02/23/2016 Inspection no. 317939295 Location 15580 NE 31st St. Redmond, WA 98052 Inspection results date 05/21/2015 Inspection no. 317935231 No violations No violations No violations Page 2 of 3 Help us improve https://secure.lni.wa.gov/verify/Detail.aspx?UBI=602004844&LIC=HERMACL005BJ&SAW= 9/17/2018 HERMANSON COMPANY LLP Location \ 4480 154th PI NE Redmond, WA 98052 Inspection results date 12/10/2014 Inspection no. 317424935 Location 21601 76th Ave W. Edmonds, WA 98026 Inspection results date 05/17/2013 Inspection no. 316772151 Location 955 Broadway Tacoma, WA 98402 No violations Violations Page 3 of 3 Washington State Dept. of Labor & Industries. Use of this site is subject to the laws of the state of Washington. Help us improve https://secure.lni.wa.gov/verify/Detail.aspx?UBI=602004844&LIC=HERMACL005BJ&SAW= 9/17/2018