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Home My WebLink AboutPermit M19-0143 - TRU BY HILTON - MECHANICAL AND HVAC FOR NEW HOTELTRU BY HILTON 395 CORPORATE DR S Apn: 2623049075 FINALED 02/04/2021 M19-0143 y\ City °~fTukwila Department mfCommunity Development VJ""="""center "L)"".="a."'S".`=i^"" Tukwila, Washington 9Q18Q ~~ Phone'aos~uax-a67n '-------- Inspection Request Line: 206+438-9350 Web site: http://www.TukwilaWA.Rov Parcel No: Address: MECHANICAL PERMIT 2623049075 Permit Number: 395 CORPORATE DR S Issue Date: Permit Expires On: Owner: Name: Contact Person; Name: Contractor: License No: Lender Address: SEATAC HOTEL GROUP LLC 4813SAINT CHARiESDR, REDD|N{i WA, 96002 DAN|[iORR Z1ZNE83RD3T,VAN[OUVEP,WA, 98665 COWDREY MECHANICAL SYSTEMS LLC 1O4O6NE1U7ST,VAN[OUVER,WA, 98662 ''' Phone (360)694'2552 Phone: (360) 953'0201 Expiration Date: 9/12/2020 DESCRIPTION OF WORK: MECHANICAL/HVAC FOR A NEW 92 UNIT, 5 STORY HOTEL Valuation ofWork: $555,000.00 Type ofWork: NEW Fees Collected: $6147.18 Electrical Service Provided by: PUGET SOUND ENERGY Water District: TUKVV|LA Sewer District: TUKWILA Current Codes adopted bythe City ofTukwila: International Building Code Edition: International Residential Code Edition: International Mechanical Code Edition: Uniform Plumbing Code Edition: international Fuel Gas Code: Permit Center Authorized Signature: ZUIE 2015 2015 2015 2015 National Electrical Code: VVACities Electrical Code: VVAC296-46B: Code: 41 ` .' |hearbycertify that | have read and examined this permit and know the same tubetrue 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 orlocal laws regulating construction orthe performance ofwork. |amauthorized tosign and obtain this development permit and agree tnthe conditions attached tothis permit. Signature: Print Name: � C6 Date��^� �«� I-- -Z-4 /T 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: 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. Z: All permits, inspection record card and approved construction documents shall be kept at the site of work and shall be open to inspection by the Building Inspector until final inspection approval is granted. 3: All construction shall be done in conformance with the Washington State Building Code and the Washington State Energy Code. 4: There shall be no occupancy of a building until final inspection has been completed and approved by Tukwila building inspector. No exception, 5: 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 onsatisfactory completion ufthis requirement. 6: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the City ofTukwila Building Department (2U6431']670). 7: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center. 8: VALIDITY OFPERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation ofany ofthe provisions of the building code orofany other ordinances nfthe City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances ofthe City ofTukwila shall not bevalid. The issuance ofapermit based onconstruction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 9: * "MECHANICAL PERMIT [OND|7lONS**~ 10: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/43l'S67O). 11: Manufacturers installation instructions shall beavailable onthe job site atthe time ofinspection. IZ: AS PART OF THIS MECHANICAL PERMIT, ALL ITEMS IN THE APPROVED SMOKE CONTROL PERMIT WILL APPLY. 13: The attached set of mechanical plans have been reviewed by The Tukwila Fire Marshals Office and are acceptable with the following concerns: 14: H.V.AI. units rated atgreater than 2'000chn requireauto'shuLdown devices. These devices shall be separately zoned in the alarm panel and local U,L, central station supervision is required. (City Ordinance #Z437) IE: H.KAI. systems supplying air in excess of3,00Ocubic feet per minute toenclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished byinterrupting the power source of the air -moving equipment upon detection of smoke in the main return -air duct served by such equipment. Smoke detectors shaU be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (|M[606.1,606ll) 16: Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #Z437) 17: Duct detectors shall send a supervisory signal only upon activation. (City Ordinance #2437) 18: All new fire alarm systems ormodifications toexisting systems shall have the written approval ufThe Tukwila Fire Prevention Bureau. NVwork shall commence until afire department permit has been obtained. (City Ordinance #2437)(IF[9U1.Z) 19: An electrical permit from the City of Tukwila Building Department Permit Center (206-431-3670) is required for this project. ZO: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #Z43Gand #Z437) 21: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of -svchcondidonorvio|ation. 22: These plans were reviewed byInspector 511. ifyou have any questions, please call Tukwila Fire Prevention Bureau at(2O6)S7544U7. PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (286)43Q'935O 1400 FIRE FINAL 0703 ME[HEQUIP EFF 1800 MECHANICAL FINAL 0609 P|PE/DU[T|NSUL4T|ON 0705 REFRIGERATION EQUIP 0701 RUUGH'|NK4ECHAm|CAL 0704 SMOKE CONTROL TEST 0703 SMOKE DETECTOR TEST CITY OF TIIKWIL__, Community Development Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http://www.TukwilaWA.gov Mechanical Permit No. Project No. Date Application Accepted: Date Application Expires: (For office use only) MECHANICAL PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. **please print** SITE LOCATION Site Address: 395 CorporateDrive S. Tenant Name: ifq Y‘ King Co Assessor's Tax No.: 2623049075 Suite Number: Floor: New Tenant: .....Yes El _No PROPERTY OWNER Name: Seatac Hotel Group Address: 4813 St. Charles Drive citY: Redding State: CA Zip: 96002 CONTACT PERSON — person receiving all project communication Name: Daniel Orr/Integrity Structures LLC Address: 212 NE 83rd St. City: Vancouver State: WA Zip: 98665 Phone: (360) 694-2552 Fax: (360) 694-7337 Email: dorr@isbld.com MECHANICAL CONTRACTOR INFORMATION Company Name: Cowdrey Mechanical Address: 10406 NE 107th St. City: Vancouver State: WA Zip: 98662 Phone: (360) 953-0201 Fax: Contr Reg No.: COWDRMS8820a Exp Date: 09/12/2020 Tukwila Business License No.: Pending Valuation of project (contractor's bid price): $ 555,000 Describe the scope of work in detail: Mechanical/HVAC for a new 92 unit ,5-story Hotel Use: Residential: New Replacement LJ Commercial: New Replacement El Fuel Type: Electric Ca Gas Other: HAApplicationsWorms-Applications On Line \2016 ApplicationsWeebanical Permit Application Revised 1-4-16.docx Revised: January 2016 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 1 Floor furnace Suspended/wall/floor mounted heater Appliance vent Repair or addition to heat/refrig/cooling system Air handling unit 2 <10,000 cfin Unit Type Qty Air handling unit >10,000 cfm Evaporator cooler Ventilation fan connected to single duct 94 Ventilation system 1 Hood and duct Incinerator — domestic Incinerator — comm/industrial Unit Type Qty Fire damper pp Diffuser 27 Thermostat 103 Wood/gas stove Emergency generator 1 Other mechanical equipment Boiler/Compressor Qty 0-3 hp/100,000 btu 3-15 hp/500,000 btu 15-30 hp/1,000,000 btu 30-50 hp/1,750,000 btu 50+ hp/1,750,000 btu Noise: Mechanical units need to be in compliance with the Tukwila Noise Code. Maximum permissible sound levels are based on from where the sound is created and where the sound is heard. Additionally, if sound can be heard from within a house at night in a residential zone it may not be allowed. For more details, see TMC 8.22 District of Sound Producing Source District of Receiving Property Residential, Daytime* Residential, Nighttime Commercial Industrial Residential 55 dB(A) 45 dB(A) 57 dB(A) 60 dB(A) Commercial 57 dB(A) 47 dB(A) 60 dB(A) 65 dB(A) Industrial 60 dB(A) 50 dB(A) 65 dB(A) 70 dB(A) *Daytime means 7AM-10PM, Monday through Friday and 8AM-10PM, Saturday, Sunday and State -recognized holidays. A few sounds are exempt from the noise code, including: • Waming devices; • Construction and property maintenance during the daytime hours (7am-l0pm); • Testing of backup generators during the day. 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 STA11, OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Signature: Print Name: fit;L-brEv Mailing Address: 4 2-35-SC g arwi si-ye.gq Date: 1- 2-7 - 22)l Day Telephone: - 5 10 - 94 el IC3 Ne-LO CC:0'4i" le. PJA % os- City State Zip liMpplicationaonns-Applications On Line \2016 ApplicationsWechanical Permit Application Revised 1-4-16.does Revised: January 2016 bh Page 2 of 2 Cash Register Receipt City of Tukwila Receipt Number DESCRIPTIONS ACCOUNT QUANTITY PAID PermitTRAK 4,93655 M 19-014 Address: 395 CORPORATE DR S Apn: 2623049075 4,936.E MECHANICAL 4,701.48 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $33.15 PERMIT FEE R000.322.100.00.00 0.00 4,668.33 TECHNOLOGY FEE 235.07 TECHNOLOGY FEE R000.322.900.04.00 0.00 $235.07 TOTAL FEES PAID BY RECEIPT: R19004 $4,936.55 Date Paid: Tuesday, November 05, 2019 Paid By: SEATAC HOTEL GROUP LLC Pay Method: CHECK 1009 Printed: Tuesday. November 05. 2019 11:41 AM 1 of 1 Receipt Number DESCRIPTIONS ACCOUNT QUANTITY ;' PAID PerrnitTRAK $5,196.46 EL19-0686 Address 395 CORPORATE DR S Apn: 2623049075 $2,330.36 Credit Card Fee $67.87 Credit Card Fee R000.369.908,00.00 0.00 $67.87 ELECTRICAL $2,262.49 PLAN CHECK FEE R000.345.832.00.00 0.00 $2,262,49 M19-0143 Address: 395 CORPORATE DR S Apn: 2623049075 $1,210.63 Credit Card Fee $35.26 Credit Card Fee . R000.369.908.00.00 0.00 $35.26 MECHANICAL $1,175.37 PLAN CHECK FEE R000,322.102.00.00 0.00 $1,175.37 PG19-0120 Address: 395 CORPORATE DR S Apn: 2623049075 $1,655.47 Credit Card Fee $48.22 Credit Card Fee ROO . 69.908.00.00 0.00 $48.22 GAS $40.75 PLAN CHECK FEE R000.322.103.00.00 0.00 $40.75 PLUMBING $1,566.50 PLAN CHECK FEE TOTAL FEES PAID BY RECEIPT: R18429 R000,322,103,00.00 0.00 $1,566,50 $5,196.46 Date Paid: Tuesday, August 27, 2019 Paid By: BALDEV DHUGGE Pay Method: CREDIT CARD 05353D Printed: Tuesday, August 27, 2019 4:00 PM 1 of 1 SYSTEMS CO TUoWILA ETnuKIT 6200 8]UTH[ENTER BLVD TUxwzLA, WA 98188 200'4]]'1870 CITY OF TUKWILA 0817340000802374464580 Date: 08/27/2019 04:08:09 pn CREDIT CARD SALE VISA CARD NUMBER: ~*********3285 K TKxN AMOUNT: $5,195.46 APPROVAL [o: 05353D RECORD #: 000 cLcxx ID: Bill X {CARDHOLDER'S SIGNATUREJ I AGREE TO PAY THE ABOVE TOTAL AMOUNT ACCORDING TO THE CARD ISSUER AGREEMENT (MERCHANT AGREEMENT IF CREDIT VOUCHER) Thank you! Merchant Copy Permit Number: M19-0143 Applied: 8/27/2019 Approved: 10/29/2019 Issued: 11/5/2019 Finaled: 2/4/2021 Status: FINALED Parent Permit: Parent Project: Details: MECHANICAL/HVAC FOR A NEW 92 UNIT, 5 STORY HOTEL Description: TRU BY HILTON Site Address: 395 CORPORATE DR S City, State Zip Code:TUKWILA, WA 98188 Applicant: TRU BY HILTON Owner: SEATAC HOTEL GROUP LLC Contractor: COWDREY MECHANICAL SYSTEMS LLC 1LOIV3 NSPE TIO S SCHEDULED DATE COMPLETED DATE TYPE INSPECTOR RESULT REMARKS SMOKE CONTROL TEST Bill Centen Notes: PIPE_DUCT INSULATION BiIII Centen 9077750215 Notes: MECH EQUIP EFF Bill Centen 9077750215 Michael Henderson Notes: 5/14/2020 AM 5/14/2020 ROUGH -IN MECHANICAL Lee Sipe 1 PARTIAL APPROVAL 593188 Notes: P/A Approved L2-5 mechanical rough -in. 6/11/2020 AM 6/11/2020 ROUGH -IN MECHANICAL 1 Lee Sipe PARTIAL APPROVAL 282174 Notes: P/A Approved: L5 Ductwork bathrooms NOTE: do not cover bathroom ceilings, need fire stopping. 6/29/2020 AM 6/29/2020 ROUGH -IN MECHANICAL Lee Sipe PARTIAL APPROVAL 36908 Notes: P/A approved L4 Mechanical rough -in Printed: Thursday, 18 November, 2021 1 of 3 SUPERION 0��8��i�U��u�u"t~��k�� - - -----v----- Inspections City of Tukwila ' AM ��D� ROUGH -IN MECHANICAL Lee Sipe APPROVAL 332334 Notes: P/Aappmved: Bexhaust fan duct, nnnot cover w/wutfire stop inspection approval. 7/17/2020 AM 7y17/ nouaH-|m MECHANICAL Lee Sipe PARTIAL�OZO APPROVAL 15189 mmec approved Bunits only OKtocover, 8/4/2020 AM8/^/2n2o ROUGH -IN MECHANICAL Lee Sipe PARTIAL APPROVAL 373747 Notes: r/A u-Belevator, mechanical shaft 5vvu. Oexhaust fan duct. 9/14/2020 AM 9/14/ REFRIGERATION�VZO EQUIP 8iU[enten APPROVED 571435 Notes: nonftopo*P&|*PUnits 1-9aneontpst@400ps.i. ok y/zs/zozo Am y/zs/zozo PIPE -DUCT p|pE_ INSULATION Bill p^nPARTIALcen�en APPROVAL 584033 Notes; *Duct insulation isapproved on1st floo,-vk ��/�Ozn A� 9/ ��OQV �� xOVGV-|m xxscnAm|[AL Bi||[enten APPROVED 575961 Notes: ` *Floors 2 swas approved bvLee 5ilpeon$z4/zOzO. ~zstfloor bapproved hyBill centenon9/zS/202o. Rough inMechanical isnow approved (all Ooors}. 10/13/2020 pw - 10/13/2020 PIPE —DUCT INSULATION Graham oa,,i"sm pxnr/AL APPROVAL 9077750215 Notes: Leve|1stairwell zmetal duct shaft liner 1I/2/ V20 PM 12/2/ Vzo wEC*EQUIP EFF Bi||Centen NOT APPROVED yn777somzSMichael Henderson Notes: Need (vmmisivm^aand Air Balance report 12/22/2020 PM 12/22/2020 MECHANICAL FINAL oamnGrvham CxmCsuso 3604870004 Notes: 1/13/2021 AM 1/13/2021 MECHANICAL FINAL si||centen NOT APPROVED 36*487'0004 Notes: z.moinspection performed. Need Fire Alarm and Smoke Control approvals homrisoepartme,tbefo,caUmgnmmMe,hanio,|pinai Printed: Thursday, 18November, 2021 'Ilk j PA oupsmow ��r��h�'d~�°��'� . ~~' '~- .-�_~�"~~~"~._'-� ��vv m�� K��v�x^U�� ~~� ~�. �_..~~.. 2/3/2021 2/3/2021 FIRE ALARM oAnumx]Hws0N| APPROVED - Notes: See Fire Alarm permit approval vmseparatepirexlampennb 2/3/2021 2/3/2021 FIRE wPERMIT FINAL *AnowJoHwSOw xrpxovso Notes: Fire alarm and Smoke Control approved byFire Marshals office under applicable permits. 2/4/2021 z/u/- ouz SMOKE DETECTOR TEST ui||crnten APrxovso Notes: Verified hvFire Department through Fire alarm and smoke control inspections - oaz ' %/4/zuzz SMOKE CONTROL TEST oi||centen PARTIALz/*/ o»pnovAL wmec Smoke Control Test was inspected aandapprovcd through Fire Department 2/4/2021 2/4/2021 MECHANICAL FINAL BiUcenu,n | xppxovco 360-487n004 Printed: Thursday, 18November, Z0Z1 3of3 "A rk supcmow 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Summary MECH-SUM 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 8 R3 over 3 stories and all R1 Revised January 2017 Project Information Project Title: HILTON - TRU HOTEL Date 12/6/2018 Applicant information. Provide contact information for individual who can respond to inquiries about compliance form information provided. For Building Dept. Use Company Name: Company Address: Applicant Name: RFViEWED FOR Applicant Phone. CODE COMP Project Description Briefly describe mechanical systems in the text box provided ❑ Total Bldg Performance (TBP) This path includes all mandatory provisions per C401.2 Option 2. MECH-SUM, MECH-CHK, and C407 Energy Analysis forms required, ��[dNCE 0 New Building ❑ Building Addition ❑ Tenant Improvement ❑ SyAr lh" J o Syste Changes SPLIT HEAT PUMPS V V ', OCT 2 8 2019 - - City, of iukwi�a1/p� BUILDING Design Load Calculations D�i5i0 0Load calculation summary ❑ MECH-LOAD-CALL F IY Provide design load calculations for all mechanical systems and equipment serving the building heating, cooling or ventilating needs. If a load calculation summary is provided with the permit documents that includes all applicable compliance information then the MECH-LOAD-CALC form is not required, Mechanical Schedules .r❑ Mechanical Plans ❑ MECH-EQ Forms (TBD) Indicate location of equipment compliance information. If provided on plans then MECH-EQ forms are not required, however, include on plans all applicable compliance information listed in MECI+EQ tables. Dedicated Outdoor Air System Requirements and High Efficiency VAV Alternate ❑ DOAS is required per C403.6 effective July 1, 2017 (office, retail, education, library and fire station occupancies) All occupied, conditioned areas shall be served by a DOAS that delivers required ventilation air in a manner that does not require space conditioning fan operation. Space conditioning fans cycled off when no heating or cooling is required. ❑ Ventilation provided via natural ventilation per 2015 IMC in lieu of DOAS (C403.6, Exception 1) ❑ Ventilation and space conditioning provided by a HEVAV system per C403.7 in lieu of DOAS (C403.6, Exception 2) ❑s DOAS included in project, although not required (occupancy not office, retail, education, library or fire station) ❑ DOAS related allowances included in project: ❑ Prescriptive vertical fenestration maximum area allowance increased to 40% per C402.4.1.4 with 100% of conditioned floor area in building served by DOAS. ❑ Exception to air economizer per C403.3 Exception 1, include MECH-ECONO form. Fan Power ❑ Project includes HVAC air distribution systems that provide heating and/or cooling If yes, provide a MECH-FANSYS -SUM form, ❑ For one or more systems, the total fan motor nameplate hp of all fans in HVAC system exceeds 5hp. If yes, provide a seperate MECH-FANSYS form for each HVAC system exceeding the 5 horsepower threshold. Refer to Section C403.2.11 and MECH-FANSYS-DOC for requirements and exceptions. HVAC Hydronic Systems ❑ Hydronic chilled water ❑ Water -loop heat pump ❑ No hydronic systems ❑ Hydronic heating water ❑ Geothermal C406 Additional Efficiency Options - Mechanical ❑ 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) or air -to -water heat pumps and heat recovery chillers. All equipment listed in tables C403.2.3(1)-(7) must be 15% more efficient than minimum requirements. All stand alone supply, return, and exhaust fans over 1hp must have FEQ >- 71 and must be selected within 10% of maximum total or static pressure. El C406.6 Dedicated outdoor air system (DOAS) RECEIVEt Requires 90% of conditioned floor area to be served by a DOAS per C403.6 that deer ls'�ciuie�en�i i �M manner that does not require space conditioning fan operation. ❑ C406.7 Reduced energy in service water heating rr��r�, Requires 90% of floor area be in occupancy types listed in C406.7.1 and that 60% of annual 6at2 7el'r3Np a be provided by heat pump, waste heat recovery or solar water -heating systems, MI 0 3 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 RI Revised January 20 7 Service Water Heating Systems Equipment Type (s) _ Hot water heating tank(s) _ Instantaneous No service water systems _ Dedicated boiler — Heat exchange from space heat boiler or central hot water/steam Distribution Type (s) _ Circulation System _ On -demand Commissioning Commissioning is required for: [i] Mechanical systems per C408.2 _ Service water heating systems per C408.4 If required, commissioning shall be performed for all applicable systems regardless of individual equipment capacity, Exceptions to commissioning requirements: 0 Total output capacity of all mechanical space conditioning systems in the building do not exceed 240,000 Btulh cooling or 300,000 Btulh heating. Mechanical systems commissioning not required, — Capacity of largest service water heating system in building does not exceed 200,000 Btulh. Service water heating — systems commissioning not required. 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, Bluth (Note 4) Cooling Capacity, Btu/h (Note 5) Peak Space Conditioning Capacity, Btulhif Compliance Check — Notes Note 4 - Provide total installed heating output capacity of systems serving Low Energy o 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. Intalled peak space conditioning capacity, heating or cooling, may not exceed 3,4 Btu/hisf, 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 Btulh'sf. Only systems without electric resistance heating and no cooling are eligible for the wall insulation exception under semi -heated, 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 1 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January2017 Project Title: HILTON - TRU HOTEL Date 12/6/2018 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions, Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes Equipment - Sizing, Performance and Type NA C403.1 Exempt process equipment Identify equipment to be used in manufacturing, industrial or commercial processes that do not provide space conditioning; identify provisions applicable to this equipment per 0403.1 exception Yes 0403.2.1 Load calculations Provide load calculations performed per ASHRAE Std 183 or equivalent, using design parameters per 0302 and Appendix C; include load adjustments to account for energy recovery attached Yes C403.2.2 Equipment and system sizing Indicate that output capacities of heating and cooling equipment and systems are no greater than the smallest available equipment size that exceeds the calculated loads; note exceptions taken Yes C403.2.3 C403.2.3.2 C403.2.13.1 HVAC equipment performance requirements (efficiency) Provide equipment schedules on plans or complete MECH-EQ forms indicating type, capacity, rated and WSEC minimum efficiencies for all heating and cooling equipment; include supply and OSA cfms and operating hours for all air systems; identify heating and cooling equipment that does not have a corresponding WSEC minimum efficiency (manufacturer rated) M1.0 NA C405.8 C403.2.14 Electric motor efficiency List all motors 1/12 hp (that are not integral to a rated piece of equipment) in the mechanical or electrical equipment schedules on plans; indicate hp, rpm, number of poles and rated efficiency, or exception applied For fractional hp motors (1/12 - 1 hp), indicate whether they are an electronically commutated motor, have rated efficiency of at least 70%, or exception taken NA C403.2.11.1 Fan power limitation For all HVAC fan systems that provide heating and / or cooling, provide system total nameplate hp in MECH-FANSYS-SUM form For all applicable HVAC systems with total fan motor hp > 5hp, verify fan system motor hp or bhp complies with fan power limits per equations in Table C403.2.11.1(1), provide MECH- FANSYS form for each system NA 0403.2.11.2 Motor nameplate hp For all applicable HVAC systems with total fan motor hp > 5hp, indicate fan motors specified are the smallest available motor hp size greater than fan bhp, note exceptions taken NA 0403.2.11.3 Fan efficiency For all applicable HVAC systems with total fan motor hp > 5hp, identify in equipment schedule all fans required to comply with fan efficiency grade and indicate rated FEG is .>. 67, or exception taken; indicate these fans are sized so total efficiency is within 15% of the fan maximum total efficiency NA C403.2.11.4 Group R occupancy exhaust fan efficacy For all exhaust fans < 400 cfm in Group R occupancies, indicate in equipment schedule the fan flaw rate and efficacy (cfm/watt), or exception taken; refer to Table C403.2.11.4 (CE-57) NA 0403.2.13 Variable flow capacity - fans For fan motors 7.5 hp, indicate method of variable flow control (VSD or equivalent method) in equipment schedule, or exception taken; for equivalent method for an HVAC system refer to HVAC System Controls for additional requirements NA 0403.2.3 Maximum air cooled chiller capacity For chilled water plants and buildings with > 500 tons of cooling capacity, indicate air-cooled chiller capacity is s 100 tons, or exception taken NA C403.4 Large capacity cooling systems For buildings with a 300 tons of cooling capacity, indicate method of multi -stage or variable capacity control (VSD, multiple staged compressors, or max capacity of any single unit < 66% of the total) NA 0403.2.3.1 Non-standard water-cooled centrifugal chillers For water-cooled centrifugal chillers not designed for operation at standard conditions, provide calculations documenting maximum full load and part load rated equipment performance requirements NA C403.2.13.1 C403,4.3.2 Centrifugal fan open -circuit cooling towers For open -circuit centrifugal fan cooling towers with .?. 1,100 gpm capacity, indicate cooling towers comply with efficiency requirements for axial fan open circuit cooling towers NA C403.4.2 C403.4.2.5 Large capacity boiler systems For single boilers with > 500,000 Btu/h capacity, indicate multi -stage or modulating burner For boiler system (single or multiple) with > 1,000,000 Btu/h capacity, indicate turndown ratio per Table 0403.4.2.5 and method (multiple single input boilers, modulating boilers, or combination) NA 0403.2.13 Variable flow capacity - pumps For pump motors 7.5 hp, indicate method of variable flow control (VSD or equivalent method) in equipment schedule, or exception taken; for equivalent method for a hydronic system refer to Hydronic System Controls for additional requirements NA 0403.2.3 Gas and oil -fired forced air furnace and unit heaters For forced air furnaces with capacity 0225,000 Btu/h and all unit heaters, indicate in equipment schedule intermittent ignition or HD, flue or draft damper, and rated jacket loss Yes 0403.2.4.8 Combustion heating equipment For combustion heating equipment with output capacity > 225,000 Btu/h, indicate modulating or staged combustion control M1.0 NA 0403.2.3.3 Packaged electric heating / cooling equipment Verify all packaged electric equipment with > 6,000 Btu/h cooling capacity and any amount of heating is a heat pump; include in equipment schedules M1.0 NA 0403.2.12 Heating outside a building Indicate systems providing heating in non -enclosed outdoor occupied spaces are radiant systems; refer to HVAC System Controls for additional requirements NA 0403.2.7.1 Kitchen exhaust hoods Indicate on plans the type, duty and exhaust air rate of each kitchen hood, refer to HVAC System Controls for additional requirements Yes 0403.2.4.3 Outdoor supply air, exhaust and relief dampers Indicate locations of OSA intake, and exhaust and relief outlet dampers on plans; indicate whether dampers are Class 1 motorized, or gravity and exception taken (include leakage rating, cfm/sf); refer to HVAC System Controls for additional requirements for OSA dampers M2.0/M3.0 Yes 0403.2.4.3 Return air dampers Indicate locations of return air dampers that are integral to economizer operation; verify dampers are motorized; indicate whether dampers are Class 1, or within packaged equipment eligible for leakage rating exception (include leakage rating, cfm/sf) M2.0-M4.0 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 2 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January2017 Project Title: HILTON - TRU HOTEL Date 12/6/2018 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.2.4.3 Stairway and shaft vent dampers Indicate location of stairway and shaft vent dampers on plans; verify dampers are Class 1 motorized; refer to HVAC System Controls for additional requirements NA C403.2.4.4 Zone isolation dampers For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non -simultaneously; identify isolation zone areas on plans and locations of associated isolation dampers in HVAC distribution system; refer to HVAC System Controls for additional requirements NA C403.2.3.4 Humidification For cooling systems with humidification equipment that are also required to have air economizer, indicate humidifier is adiabatic (direct evaporative or fog atomization), or exception taken Additional Efficiency Package Option, More Efficient HVAC Equipment & Fan Performance - Must comply with all 3 provisions to be eligible NA C406.2.1 C403.2.3 HVAC system selection To comply with additional efficiency package option, calculate the percentage of heating and cooling equipment in the project (based on output capacity) that do not have a corresponding WSEC listed efficiency; shall be less than 10% to comply NA C406.2.2 C403.2.3 Minimum equipment efficiency To comply with additional efficiency package option, indicate that all listed heating and cooling equipment have a rated efficiency that exceeds WSEC listed efficiency by at least 15% NA C406.2.3 C403.2.11.3 Minimum fan efficiency To comply with additional efficiency package option, indicate rated FEG of stand alone fans is 71; indicate these fans are sized so the fan efficiency at design conditions is within 10% of the maximum total or static efficiency HVAC System Controls Yes 0403.2.4.1 Thermostatic controls (thermostats and humidistats) Indicate locations of thermostatic and humidity control devices and the zones they serve on plans, including perimeter system zones M2.0-M4.0 Where adjacent (neighboring) zones are controlled by separate thermostats (including perimeter systems used to offset heat gain or loss), and are connected by permanent openings > 10% of either zone sf area, indicate controls configured to prevent adjacent zones from operating in conflicting modes (one in heat, other in cool); applies to adjacent perimeter zones, adjacent nonperimeter zones, and adjacent perimeter and nonperimeter zones If applying Exception 2 to nonperimeter zones adjacent to perimeter zones, indicate that setpoints and deadband settings in these zones are coordinated so cooling in a nonperimeter zone does not occur until the temperature in that zone is 5°F higher than the adjacent perimeter zone temperature in heating NA 0403.2.4.1.1 Heat pump supplementary heat Indicate staged heating operation with compression as the first stage of heating and supplemental heating controlled with outdoor lock -out temperature set to 40°F or less Yes 0403.2.4.1.2 Deadband Indicate zone thermostatic controls configured with 5°F minimum deadband for systems that control both heating and cooling M1.0 Yes 0403.2.4.1.3 Setpoint overlap restriction (thermostats) If separate heating and cooling systems with separate thermostatic control devices are used to serve a zone, indicate locations of both thermostatic control devices and the zone they serve on plans M1.0 Indicate a limit switch, mechanical stop or DDC control with programming to prevent simultaneous heating and cooling Yes C403.2.4.2 0403.2.4.2.1 C403.2.4.2.2 Automatic setback and shutdown Indicate zone thermostatic controls configured with required automatic setback and manual override functions, setback temperatures, and control method (automatic time clock or programmable controls); note exceptions taken M1.0 NA 0403.2.4.2.3 Automatic (optimum) start Indicate system controls that adjust equipment start time required to bring each area served up to design temperature just prior to scheduled occupancy Yes 0403.2.4.3 Outdoor supply air dampers Indicate automatic controls configured to close OSA damper during unoccupied equipment operation; not including economizer cooling, night flush or IMC required OSA / exhaust M1.0 NA 0403.2.4.3 Stairway and shaft vent dampers Indicate method of activation of stairway and shaft vent dampers (fire alarm or interruption of power) NA 0403.2.4.4 Zone isolation controls For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non -simultaneously; indicate controls that allow for independent space conditioning of isolation zones; or exception taken NA 0403.2.12 Heating outside a building Indicate occupancy sensing or timer switch controls configured to automatically shut off heating system when area served is unoccupied NA 0403.2.4.5 Snow melt systems Indicate automatic controls configured to shut off system when pavement temperature exceeds 50°F and no precipitation is falling, and when outdoor air temperature exceeds 40°F NA 0403.2.4.6 Freeze protection system controls Indicate automatic controls to shut off system when outdoor temperature exceeds 40°F, or conditions protect fluid from freezing NA 0403.2.4.9 Group RI hotel / motel guest rooms For hotels and motels with over 50 guest rooms, indicate automatic controls serving guest rooms that are capable of setback (heating) and set-up (cooling) of temperature setpoint by at least 5°F; indicate control method - activated by room entry or occupancy sensor 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 3 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings includingR2 & R3 over 3 stories and all R1 Project Title: HILTON - TRU HOTEL Date 12/6/2018 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na). Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.2.4.10 C403.2.4.11 Group R2 / R3 dwelling units, Group R2 sleeping units For primary space conditioning system, indicate 5-2 programmable thermostats capable of two setback periods per day: for all thermostats indicate purpose (heating only, cooling only, or both), required temperature range and at minimum a 10°F deadband; or exception taken Yes C403.2.6 C403.2.11.4 Ventilation Indicate method of ventilation air delivery (natural or mechanical) for each zone M1.0 If mechanically delivered, indicate that systems are configured to provide not more than 150% of, but at least the minimum required volume of outdoor air to each zone per IMC, ASHRAE 62.1 or other applicable code (WAC, OSHA, etc); or exception taken If delivered via natural ventilation, identify required elements per IMC including minimum openable area to the outdoors or qualifying adjoining spaces NA C403.2.6.2 Demand controlled ventilation Identify spaces > 500 sf with occupant load > 25 people/1,000 sf per IMC; for each space indicate whether it is served by an HVAC system with total design OSA > 3,000 cfm, and / or the system has airside economizer or automatic modulating OSA damper; indicate OSA controls are configured to provide demand controlled ventilation or provide supporting documentation for applied exception NA 0403.2.6.3 Occupancy sensors For gyms, classrooms, auditoriums and conference rooms > 500 sf, indicate occupancy -based OSA control when space is unoccupied and method (closes OSA damper or shuts -off equipment); or alternate means provided to automatically reduce OSA when space is partially occupied NA C403.2.6.4 0403.2.6.4.1 Enclosed loading dock ventilation For enclosed loading docks, indicate ventilation / exhaust system method of activation (gas detection system for CO and NO2, or occupancy sensors), and control method (staged or modulating) NA C403.2.6.4 C403.2.6.4.2 Enclosed parking garage ventilation For enclosed parking garages, indicate ventilation / exhaust system activated by gas detection system for CO and NO2, and control method (staged or modulating); or exception taken NA C403.2.7.1 Kitchen exhaust hoods Provide calculations that show a balanced accounting of total kitchen exhaust (include all hoods) with % of: supply air, transfer air from adjacent spaces, and make-up air; if applicable, indicate that direct make-up air to each hood does not exceed 10% of hood exhaust For kitchens with total hood exhaust exceeding 2,000 cfm, indicate exhaust air rate per Table C403.2.7.1 and compliance method (DCV, energy recovery, or transfer air that would otherwise be exhausted) NA 0403.2.7.2 Laboratory exhaust systems Refer to Systems Requiring Energy Recovery for requirements NA C403.2.13 Variable flow capacity - HVAC system fans For HVAC fan motors ? 7,5 hp, indicate method of variable flow control (VSD, or equivalent control method that reduces design air volume by 50% at 1/3 static design pressure); note exception taken NA C403.3.1 DX air handler variable cooling control (Under Integrated Economizer) For DX air handlers with economizer and cooling capacity 5 65,000 Btu/h, indicate number of cooling stages provided and method (multiple compressors and / or variable speed compressors); indicate minimum displacement (capacity reduction) as % of full load Indicate control method (cooling capacity controlled in response to space temperature, space temperature controlled by modulating supply airflow, or both) NA 0403.2.11.5 Fan airflow control For DX air handling units with cooling capacity 565,000 Btufh and evaporative and chilled water air handling units with fan ?. 0.25 hp, indicate whether system is single zone or multiple zone and related control method (cooling capacity controlled in response to space temperature, space temperature is controlled by modulating supply airflow, or both) For mechanical cooling systems (includes DX and chilled water coils) that control cooling capacity in response to space temperature - Provide a minimum of two stages of fan control; indicate minimum fan speed is 5. 66% of full speed drawing s 40% of full speed fan power during periods of low cooling or ventilation only For other mechanical cooling systems (includes DX and chilled water coils) that control space temperature by modulating airflow (in lieu of, or in addition to, controlling capacity in response to space temperature) - Provide fan controls for modulating supply airflow; indicate minimum fan speed is s 50% of full speed drawing 5 30% of full speed fan power during periods of low cooling or ventilation only; or exception taken NA C403.2.4.12 DDC system capabilities Provide central and zone level DDC controls as required based on system application, capacity or size thresholds and other qualification per Table C403.2.4.12.1 Identify all DDC system input / output control points; indicate capability for trending and graphical display Ducting Systems YesDuct C403.2.8.1 C403.2.8.3 construction Indicate on plans that all ductwork is constructed and sealed per IMC M1.0 For OSA ductwork, also indicate on plans that ductwork meets air leakage requirements per C402.5 and vapor retarder requirements per the IBC M2.0-M4.0 Yes C403.2.8.3 Duct pressure classifications Identify location of low, medium and high pressure ductwork on plans NA C403.2.8.3.3 High pressure duct leakage test Indicate high pressure duct leakage testing requirements on plans; provide test results to jurisdiction when completed 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 4 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings ncluding includingR2 & R3 over 3 stories and all R1 Revised January2017 Project Title: HILTON - TRU HOTEL Date 1.2/6/2018 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes Yes C403.2.8.1 C403.2.8.2 Duct insulation For supply and return ductwork located in unconditioned space or outdoors, indicate R-value of insulation on ductwork on plans; identify climate zone; note exceptions taken For supply ductwork located in conditioned space, identify if design supply temperature is < 55°F or > 105°F and indicate R-value of insulation on this ductwork on plans; note exception taken M2.0-M4.0 For OSA ductwork, shafts and plenums, indicate R-value of insulation on these elements on plans per Table C402.1.3 for steel -framed walls; note exception taken Piping Systems NA C403.2.9 Piping insulation Indicate design temperature range of fluid conveyed in piping and thickness of insulation (in inches) on hydronic piping plans; or exception taken NA C403.2.9.1 Piping insulation exposed to weather Indicate method of protection of pipe insulation from damage / degradation on hydronic piping plans Economizers NA C403.3 Air economizer required Identify in equipment schedules on plans or in MECH-EQ forms all cooling systems requiring air economizer controls Provide MECH-ECONO form indicating systems utilizing air economizer exceptions, including those with water -side economizer in lieu of air economizer; Indicate on plans eligible exception(s) taken and measures to comply with exception(s) NA C403.3.1 Integrated economizer operation - air and water Indicate air and water -side economizers are configured for partial cooling operation even where additional mechanical cooling is required to meet the load NA C403.3.2 Economizer heating system impact - air and water Verify control method of HVAC systems with economizers does not increase building heating energy usage during normal operation NA C403.3.3.1 Air economizer capacity Indicate modulating OSA and return air dampers are configured to provide up to 100% OSA for cooling NA C403.3.1 .3.3. C4032 Integrated air economizer Verify mechanical cooling controls are interlocked with air economizer controls so the outside air damper remains in 100% open position when mechanical cooling is also required to meet the cooling load, until the leaving air temperature is < 45°F For systems with cooling capacity 65,000 Btu/h, verify that control of economizer dampers is not based only on mixed air temperature; or exception taken NA C403.3.3.3 Air economizer high limit controls Indicate high limit shut-off control method and required high limit per Table C403.3.3.3 NA C403,3.4.1 Water economizer capacity For eligible systems where water -side economizer may be provided in lieu of air economizer, indicate system is capable of 100% design cooling capacity at 50°F db / 45°F wb OSA temperatures NA C403.3.4.2 Water economizer maximum pressure drop Indicate pressure drop across precooling coils and heat exchangers in water economizer system do not exceed pressure drop limit NA C403.3.1 DX air handling equipment control For DX air handlers with economizer and cooling capacity 565,000 Btu/h, refer to HVAC System Controls for requirements NA C403.2.4.7 DX equipment economizer fault detection and diagnostics For DX air handlers with economizer and cooling capacity z 54,000 Btu/h, provide a fault detection and diagnostics (FDD) system to monitor economizer system operation and report faults Systems Requiring Energy Recovery NA C403.5.1 Energy recovery (ER) - ventilation / exhaust systems For systems with design OSA > 5,000 cfm, or design supply air cfm and % OSA exceeding the values in Tables C403.5.1(1) or (2), indicate exhaust air ER method; or exception taken with supporting calculations For rooms served by multiple systems with aggregate design OSA > 5,000 cfm, or aggregate design supply air cfm and % OSA exceeding the values in Tables C403.5.1(1) or (2), indicate exhaust air ER method; or exception taken with supporting calculations Indicate ER rated effectiveness that increases OSA enthalpy by 5 50% based on delta between OSA and retum air enthalpies at design conditions NA C403.2.7.2 Laboratory exhaust systems (energy recovery) For buildings with total lab exhaust > 5,000 cfm, indicate method of energy recovery used to pre -condition laboratory make-up air; ER effectiveness (min 25°F); or alternative method per exception (VAV exhaust, semi -conditioned makeup, or GERM calculation) NA C404,10.4 (under C404.11) Pools and permanent spas exhaust systems (energy recovery) For buildings with pools or spas with water surface area > 200 sf, indicate exhaust air ER method and use of waste heat (preheat ventilation air, pool water or service hot water); or exception taken Indicate ER system has the rated effectiveness and is configured to decrease the exhaust air temperature at design conditions by ? 36°F NA .5 2 C403' Energy recovery - steam condensate systems For buildings with on -site steam heating systems, indicate condensate water ER For buildings that use off -site generated steam where condensate is not retumed to the source, indicate on -site condensate water ER 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 5 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January2017 Project Title: HILTON - TRU HOTEL Date 12/6/2018 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.5.3 Energy recovery - cooler / freezer condensers For buildings with food service, meat or deli departments that have 5500,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy (service water heating, space heating, or dehumidification reheating) For buildings with ?. 40,000 sf conditioned floor area and with ..• 1,000,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy for service water heating and also for space heating, or dehumidification reheating NA 0403.5.4 Energy recovery - condenser systems For buildings with 24-hour operation and with > 1,500,000 Btu/h of heat rejection capacity and design service hot water load > 250,000 Btu/h, indicate condenser ER to pre -heat service water; or exception taken. Provide calculations showing the amount of recovered heat that is utilized (60% of peak heat rejection load or pre -heat service water to 85°F). Hydronic System Controls NA C403.2.13 C403.4.2.7 Variable flow control - hydronic system pumps For hydronic system pump motors 57.5 hp, indicate method of variable flow control (VSD or equivalent method that requires 5 30% design wattage at 50% design fluid flow); note exception taken Identify whether hydronic coils have DDC controls and associated manner of pump speed control (differential pressure, zone hydronic demand, etc) NA C403,2,5 C403.4.2.4 Hydronic system setback and part load controls For boilers that provide building heating, indicate controls that provide heating water temperature setback based on outdoor temperature For heating and chilled water systems ?.. 300,000 Btu/h, indicate systems are configured to automatically reset supply water temperature based upon demand; or exception taken. If system pump motor hp 53 hp, also indicate controls automatically reduce flow by 5 50%. For chilled water systems 300,000 Btu/h, pump motor hp 53 hp) that serve water-cooled unitary air conditioners, indicate VSD or staged pumps in chilled water system and heat rejection loop that reduce pump flow so that one control valve is nearly wide open, or to maintain a minimum differential pressure; or exception taken NA C403.4.2 Boiler sequencing Indicate automatic controls that sequence operation of multiple boilers NA C403.4.6 Hot gas bypass limitation For cooling equipment with hot gas bypass, provide either multiple step unloading or continuous capacity modulation; indicate bypass capacity per Table C403.4.6 NA 0403.4.2.2 Two -pipe changeover systems Indicate changeover deadband (min 15°F), heating / cooling mode scheduling and changeover temperature range (limit 30°F) NA 0403.4.2.6 Chiller / boiler plant pump isolation Indicate controls are configured to automatically reduce overall plant flow and shut-off flow through individual chillers and boilers when not in use NA C403.2.13.1.1 C403.4.3.1.1 C403.4.3.1.2 Heat rejection equipment - variable flow control For cooling towers with fan motors 7.5 hp, indicate VSD and method to adjust fan speed (adjusted based on leaving fluid temperature or condenser temperature / pressure of heat rejection device) For multiple -cell heat rejection equipment with VSD, indicate controls that ramp all fans in unison NA 0403.4.3.3 Heat rejection equipment - cooling tower flow turndown Indicate open -circuit cooling towers with multiple pumps or VSD control are designed so all cells can be run in parallel NA C403.4.2.3.1 Water loop heat pump - deadband Indicate capability of central equipment to provide minimum 20°F water supply temperature deadband between heat rejection and heat addition modes; or exception taken NA 0403.4.2.3.2.1 Water loop heat pump - heat rejection equipment, Zone 4 Indicate type of cooling tower (open- or closed-circuit) in equipment schedule; indicate method used to limit system heat loss when heat rejection is not needed NA 0403.4.2.3.2.2 Water loop heat pump - heat rejection equipment, Zone 5 For open- or closed-circuit cooling towers, provide a heat exchanger that separates the cooling tower and heat pump loop NA 0403.4.2.3.3 Water loop heat pump - isolation valves For hydronic heat pump systems with total system power > 10 hp, indicate 2-way isolation valves on each heat pump and variable flow system control Dedicated Outdoor Air Systems (DOAS) - Optional through 6/30/16, Prescriptive 7/1/2016 NA C403.6 C403.6.3 Dedicated outdoor air systems For buildings with office, retail, education, library and fire station spaces, identify these spaces on plans; indicate that ventilation air in each occupied space is provided via a DOAS system; or document compliance with 0403.6.3 Impracticality; or exception taken (buildings complying with C402.4.1,4 or 0406.6 may not utilize exceptions) M1.0 NA C403,6.1 Energy recovery ventilation with DOAS For all DOAS systems, indicate exhaust air ER method; or exception taken with supporting calculations. Indicate ER rated effectiveness that increases OSA enthalpy by ., 50% based on delta between OSA and return air enthalpies at design conditions. NA 0403.6.2 Heating / cooling system controls with DOAS Indicate equipment associated with the delivery of zone level heating and cooling (fans, hydronic pumps, primary air dampers, etc) are configured to shut off, and central equipment is configured to turn down, when there is no call for heating or cooling in the zone they serve If applying Exception to heating / cooling fans used for air mixing in the space during deadband periods, include fan watts per cfm in equipment schedule 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 6 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January2017 Project Title: HILTON - TRU HOTEL Date 12/6/2018 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions, Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C402.4.1.4 C403.6 Increased prescriptive maximum vertical fenestration area with DOAS Indicate that all occupied, conditioned spaces are served by a DOAS per C403.6 Additional Efficiency Package Option, Dedicated Outside Air Systems (DOAS) NA C406.6 Building provided with DOAS To comply with additional efficiency package option, indicate that 90% or more of all occupied, conditioned spaces are served by a DOAS per C403.6 Multiple Zone Air Systems NA C403.4.4 Air systems serving multiple zones Identify supply air systems serving multiple zones and the zones they serve on plans; indicate whether system is VAV and method of primary air control; or provide supporting documentation for applied exception to VAV NA C403.4.4 VAV systems serving multiple zones Provide equipment schedules on plans or MECH-EQ form that list all VAV air terminals and types For each air terminal include: maximum airflow rates for primary supply air during zone peak heating and zone peak cooling; maximum airflow during reheating, recooling or mixing; minimum airflow rate to maintain required ventilation, and the basis for these values; if IMC or ASHRAE 62.1 multiple zone equation is basis for minimum flow rates, provide calculation on plans NA C403.4.4.1 Single duct VAV terminal units Indicate single duct terminal units are configured to reduce primary supply air before reheating or recooling C403.4.4.2 Dual duct systems - terminal units For systems with separate warm air and cool air ducts, indicate terminal units are configured to reduce the flow from one duct to minimum before mixing with air from the other duct NA C403.4.1.1 C403• 4• 1 • 2 VAV system static pressure sensors - sensors and DDC set points Indicate locations of duct static pressure sensors on plans; include at least one sensor per major duct branch; verify controller setpoint pressure at each sensor is 5 1.2 inch w.g. For systems with zone level DDC, indicate controls are configured to monitor zone damper positions and reset static pressure setpoint based on the zone requiring most pressure; include control logic that automatically detects and generates an alarm if any zone excessively drives reset logic, and allows building operators to exclude zones from reset logic NA C403.4.4.3 Multiple -zone VAV system ventilation optimization controls For systems with zone level DDC controls, indicate controls are configured to automatically reduce outdoor airflow in response to changes in system ventilation efficiency; or exception taken NA C403.4.4.4 VAV system supply air reset Indicate controls automatically reset supply air temperature in response to building loads or outdoor air temperature; or exception taken Multiple Zone HVAC Systems, High Efficiency VAV - Required for systems utilizing C403.6 DOAS Exception 2, must comply with all 16 provisions NA C403.7, Item 1 Air economizer Indicate system is configured for 100% air economizer operation and complies with all related economizer requirements per 0403.3 (without economizer exceptions) NA C403.7, Item 2 Direct digital controls (DDC) Provide DDC controls for all components of system; identify all DDC system input / output control points; indicate capability for trending and graphical display NA C403.7, Item 3 Outdoor airflow measurement and reduction For systems with minimum OSA > 2,500 cfm, indicate outdoor airflow monitoring station that measures OSA intake under all load conditions; indicate control sequence that increases or reduces system OSA cfm based on VAV terminal feedback of ventilation efficiency (per C403.4.4.3 without exceptions) or DCV (per C403.2.6.2) NA C403.7, Item 4 Supply airflow measurement For systems with minimum OSA > 2,500 cfm, indicate supply airflow monitoring station capable of measuring supply air delivered to VAV terminals under all load conditions NA C403.7, Item 5 Zone isolation and maximum area served Verify maximum area served by a single HEVAV system is 5 50,000 sf, or one entire floor, whichever is greater; in addition if a system serves > 25,000 sf, that includes areas that are expected to be occupied non -simultaneously, indicate zone isolation controls per 0403.2.4.4 NA C403.7, Item 6 Interior / exterior zone design supply air temperature Verify that VAV terminals serving interior cooling driven loads are sized per design supply air temperature that is 5°F higher than VAV terminals serving exterior zones NA C403.7, Item 7 Maximum air terminal inlet velocity Identify air terminals with minimum primary airflow setpoints > 50% of maximum setpoint in equipment schedule or MECH-EQ form; indicate air terminal inlet velocity does not exceed 900 fpm NA C403.7, Item 8 Sequence of operation Indicate DDC system sequences of operation are designed and configured per ASHRAE GPC 36 NA C403.7, Item 9 Maximum allowable system brake horsepower Verify fan system bhp is 5 90% of the bhp limit per Option 2 equation in Table C403.2.11.1(1), provide MECH-FANSYS form for each system NA C403.7, Item 10 Fan -powered terminal unit motor and control Indicate all series and parallel terminal fans have electronically commutated motors; indicate DDC control system is configured to vary air terminal fan speed as a function of the load; indicate fan speed during periods of low heating, low cooling, or ventilation only is 5 66% of peak design airflow or provide supporting documentation for applied exception 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 7 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 8 R3 over 3 stories and all R1 Revised January2017 Project Title: HILTON - TRU HOTEL Date 12/6/2018 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.7' Item 11 Application of single duct and fan -powered terminal units Indicate VAV terminal types on plans; verify fan -powered terminal units only serve perimeter zones with envelope loads; verify all other zones are served by single duct terminal units NA C403.7, Item 12 Fan -powered terminal unit primary air reset Indicate DDC controls are configured to automatically reset the primary supply air cfm setpoint of all fan -powered terminal units to the minimum required to maintain ventilation during occupied heating or deadband, based upon the VAV air handling unit OSA ventilation fraction NA C403.7, Item 13 High occupancy space controls For spaces > 150 sf with occupant density z 25 people / 1000 sf, indicate space is served by a dedicated terminal unit with DCV control that resets terminal unit ventilation setpoint; also indicate occupancy sensor control that automatically reduces minimum ventilation to zero and sets back room heating and cooling setpoints by z 5°F NA C403.7' Item 14 Dedicated HVAC systems For server, electronic equipment, telecom or similar spaces with cooling loads > 5 W/sf, indicate spaces are served by independent HVAC systems that are separate from HPVAV systems serving rest of building; indicate dedicated HVAC systems have air economizer controls or energy recovery per C403.3 Exception 9 NA C403.7' Item 15 Central plant efficiency Indicate whether systems are served by a high efficiency heating water plant, or a high efficiency chilled water plant If complying via high efficiency heating water plant: Indicate all VAV terminals have hydronic heating coils served by heating water system with either gas -fired boiler(s) with thermal efficiency z 90%, air -to -water heat pumps, or heat recovery chillers If complying via high efficiency chilled water plant: Indicate all VAV air handlers have cooling coils served by chillers with rated IPLV efficiency that exceeds WSEC listed IPLV by at least 25% per Table C403.2.3(7) (note water-cooled IPLV is max, all others are min); indicate smallest chiller or compressor in plant is .5. 20% of total plant capacity, or provide thermal storage sized for 5 20% of total plant capacity NA C403.7, Item 16 Fault detection and diagnostics Indicate DDC system includes a fault detection and diagnostics (FDD) system configured to monitor operation and provide fault reporting of required parameters for all VAV air handlers and VAV air terminal units in the HPVAV system HVAC Equipment Energy Use Metering NA C409.3.1 HVAC equipment energy use metering For new buildings > 50,000 sf and building additions > 25,000 sf, verify energy use metering of all equipment used to provide space heating and cooling, dehumidification and ventilation will be provided per 0409; indicate equipment eligible for exception Documentation and System Specific Requirement To Support Commissioning Yes C408'2 Scope of mechanical systems commissioning Indicate that all mechanical systems, equipment, and controls for which the WSEC requires control functions and / or configuration to perform specific functions are required to be commissioned; M1.0 For buildings with z 240,000 Btu/h total output cooling capacity or Z 300,000 Btu/h total output heating capacity, indicate that all mechanical systems regardless of individual capacity are required to be commissioned; or provide building heating / cooling capacity calculation demonstrating eligibility for exception Yes C403.2.10 C408.1.1 C408.1.2 C408.1.4.2 C103.6 Commissioning requirements in construction documents Indicate in plans and specifications that Cx per C408 is required for all applicable mechanical systems; M1.0 Include general summary with at a minimum of Items 1 thru 4 of the Cx plan per 0408.1.2 including: narrative description of activities, responsibilities of the Cx team, schedule of activities including verification of project close out documentation per 0103.6, and conflict of interest plan (ifrequired); Include in general summary that a Cx project report or Compliance Checklist (Figure C408.1.4.2) shall be completed by the Certified Cx Professional and provided to the owner prior to the final mechanical inspection. Yes 0408.2.2 Air system and hydronic system balancing Indicate in plans that air and fluid flow rates shall be tested and balanced within the tolerances defined in the specifications; indicate systems shall be balanced in a manner to first minimize throttling losses, then adjusted to meet design flow conditions M2.0-M4.0 Yes 0408.2.2.1 Air system balancing devices Indicate devices that provide the capability to balance all supply air outlets, zone terminals and air handling equipment requiring system balancing M2.0-M4.0 NA 0408.2.2.2 Hydronic system balancing devices Indicate devices that provide the capability to isolate, balance and measure flow across all hydronic equipment requiring system balancing including heating and cooling coils and pumps Yes 0408.2.3 Functional performance testing criteria Identtfy in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing -to -remain systems M2.0-M4.0 Project Close Out Documentation Yes 0103.6 Documentation and project close out submittal requirements Indicate in plans that project close out documentation and training of building operations personnel is required for all mechanical components, equipment and systems governed by this code; indicate close out documentation shall include: record documents, O&M manuals, applicable WSEC compliance forms and calculations M1.0 Chvac . 'Full Commercial *V4CLoads Calculation Program te Software Development, Inc. AbonsoinEngineering LLC FI Kodmond.VVA VVO52 Page Building Summary Loads Building peaks inJuly at4pm. Bldg Load Area Sen %Tot L8t SeO Net %Net []eSc[iDtiODS [}UaO Loss LOSG Gain Gain Gain Gain Roof U O 0.00 O U 0 0�08 VVa|| 197 689 9.07 0 505 505 5.15 | Glass 33 642 8.44 0 2.789 | Floor Slab O O 0.00 O 0 2.789 0 28A8 0.00 Skin Loads 1.331 17.51 O 3.284 3.294 33.64 UohUnD 741 O 0.00 U 3.034 3.034 30.98 Equipment O O 0.00 O O O 0�00 Pool Latent 0 O 0.00 O O 8 0.00 People 2 0 O�OU 400 600 1.000 1021 Partition 741 551 726 U 276 276 2.82 CooiPret. U O 0.00 0 U O 8.00 Heat. Pret. 0 0 0.00 O O 0 0.00 Cool. Vent. 45 0 0.00 402 585 887 10.08 Heat, Vent. 45 2.587 34.04 U 0 0 0.00 Cooi|nfii 45 O 0.00 394 722 1.118 11.39 HaeL(nfii 45 3.131 41.20 0 O O 0.00 Draw-ThruFon U D 0.00 0 85 85 0.87 Blow-Thnu Fan O O O�DU O O O 0.00 Reserve Cap. U O 0�00 O U O 0,00 Reheat Cap. 0 O 0.00 0 0 0 0�80 Supply Duct U O 0.00 0 O O O�OU Return Duct 0 O 0.00 O D 0 0.00 Misc. Supply 0 O 0.00 O 0 U 0.00 Misc. Return 0 O 0.00 O O O 0�00 Building Totals 7.600 100.00 1.186 8.586 9.792 100.00 ' - SeD Building Sen %TDt Lat Net %Net Sunl[Ma[V Loss _ Loss Gain Gain Gain Gain Ventilation 2.587 34.04 402 585 987 10.88 Infiltration 3.131 41.20 394 722 1.116 11.39 Pretreated Air U 0.00 O U 8 0.00 Room Loads 1.882 2477 400 7.204 7.804 77.65 Plenum Loads O 0.00 U O O 0.00 Fan/DuoUyNinoLoodn O U�UO U 85 85 0.87 Building Totals 7.600 100.00 1.108 8.596 9.782 100�00 Check Fi"��- ' ^ Total Building Supply Air(based on ^EWEFOR 362 CF& Total Building Vent. Air (12.44% ofSupp"QODE COMPLIANCE 45 CFM Total Conditioned �� APPROVED "~`=°°~~~ 741 Sq.ft Supply Air Per Unit Area: , 8.480 CFK8/Sq.ft Area Per Cooling Capacity: OCT 2 8 2019 908.1 Gq,fUTon ��8��V�K� � Cooling Capacity Per Area: Heating Capacity Per Area: D]0O11 ' 1"�26 Tons/Sq ft � Btuh/Sq�� " "^~~^,~' ° �^^ y8 8� �~Ul7Y� �� ^�~��/ ��~ CITY " ��" " »�^~^~^ ��~�m��-n�ww&m Tukwila Total Heating Required VVkh Outside Air `~'`' ~~` 7.800 Btuh �� Total Cooling Required With Outside Air BUILDING ��V�� K�Y��U�� 0.82 Tons AUG�»r� r�w ^~ v ��'� I Lt " PERMIT "~"=~""" CENTER ulp% ~_~_�, O:t21OV42VColc'Meoh0HEAT LOSS & GAIN CALCSV]vVELLL|NGUN|TGV]N|T52*/CHO UNIT 523"52},515,5l3,5}l,509 Chvmx'Full Commercial HVACLoads Calculation Program 1111KIIIIIIII Elite Software Development Inc. AbnosoinEngineering LU: Redmond, WA 88052 ��11 ��K�� _ �� = Summary Loads -Bldg Load Area SSO %Tnt Lgt SeD Net %Net Descriptions C}uaO Loss Loss Gain Gain Gain Gain Roof 286 500 8.87 0 -14 -14 '0.26 VVaU 116 408 8.09 O 152 152 2,84 Glass 34 081 13.17 U 2982 2.882 51.67 Floor Slab O O 0.00 0 U O 0�00 Skin Loads 1.567 31.24 O 3.119 3.119 54.05 Lighting 286 O 0.00 O 1.171 1.171 20,29 Equipment O O 0.00 O 0 O 0.08 | Pnn| Latent O O 0.00 0 O O 0.00 � ' People 2 U 0.00 400 GOO 1.000 17.33 Partition U O 0.00 U O O 0�00 CooiPnet O U 0�00 O U O 0.08 Heot, Pret. O 0 0.00 0 O O 0.80 Cool. Vent. 48 O 0.00 541 '217 324 5,61 Heat. Vent. 40 2.298 45.83 O O O 0�00 Cooi|nfii 17 O 0.00 225 '119 106 1,84 HeeL|nfii 17 1.151 22.84 U 0 O 0.00 Drow'ThruFan 0 O 0.00 U 50 50 0.87 Blow-Thru Fan O D 0�00 0 O O 0.00 Reserve Cap. 0 O 0.00 U O O 0.00 Reheat Cap. O O 0.00 U O O 0,00 Supply Duct 8 O 0.00 U U O 0.08 Return Duct U O 0.00 U O 0 0D8 Misc. Supply O 0 0.00 0 0 O 0.00 Misc. Return D O 0.00 0 0 O 0.00 Building Totals 5.017 100,00 1.166 4.605 5.771 100.00 Building SSO %Tot Lat Sen Net 96Net SVOnRlGFy Loss Loss Gain Gain Gain Gain Ventilation 2.299 45.83 541 '217 324 5.81 Infiltration 1.151 22.94 225 '119 106 1.84 Pretreated Air O 0.00 U 0 U O�UU Room Loads 1.567 3124 400 4.890 5.290 91�68 Plenum Loads 0 0.00 U O U 8.00 Fen/Duot./N1iouLoado O 0.00 D 50 50 U.87 Building Totals 5.017 100�00 1.166 4.605 5.771 ' 100.00 '-heck Figures - - Total Building Supply Air (based on a 21~ TD): 212 CFN1 Total Building Vent. Air (18.8Q%cfGupply): 40 CFK8 Total Conditioned Air Space: 286 8q.ft Supply Air Per Unit Area: 07404 CFM/Sqjf Area Per Cooling Capacity: 5947 Gq.fVTon Cooling Capacity Per Area: 0,0017 Tono/8q,ft Heating Capacity Per Area: 17.54 Btuh/3q,ff Total Heating Required With Outside Air: 5.017 Btuh Total Cooling Required With Outside Air: 0.48 Tons -'D6vox'-Full Commercial MvACLoads Calculation Program Elite Software Development, Inc. AboaoonEngineering LLC Redmond, YV4 98052 Page ads Building Loads ~" Building peaks inJuly et6pm. Bldg Load Area SeO %TCt - - Lat SeO Net %Net Descriptions [}uan LOSG Loss Gain Gain Gain Gain Roof 236 413 9.00 8 151 151 2.17 VVaU 76 266 5�80 O 208 208 2.89 Glass 34 661 14A0 U 3,351 3.351 48.26 Floor Slab O 0 0�00 U 0 O 0�00 Skin Loads 1.340 29.20 O 3.710 3.710 53.43 Lighting 236 O 0.00 0 866 866 13.92 Equipment U O 0.00 O O O 0.00 Pool Latent O O 0.00 O 0 O 0.00 People 2 U 0.00 400 600 1.000 14.40 Partition O O 0.00 U O O O�DO Cool. Pmt. 0 O 0�00 U O O 0.00 Heat. Pret. D O 0.00 0 U U 0.00 Cool. Vent. 40 O 0.00 444 434 877 12.64 Heat. Vent. 40 2.299 50.11 0 U O 0.00 Cooi|nfi|. 14 0 0.00 147 186 333 4.79 Heet.|nfii 14 950 20�68 0 O U 0�00 Uraw'ThruFmn D 0 O�OO U 57 57 0.82 B|ow'Thnu Fan U 0 0.00 O 0 D 0,00 Reserve Cap, O U 0�00 O O O 0.00 Reheat Cap. O O 0.00 O O O 0,00 Supply Duct O O 0.00 O 0 O 0�00 Return Duct O O 0.00 U 0 O 0.00 N1iac.Supply O 0 0.00 O O O U�OU Misc. Return O O 0.00 U O U 0.00 Building Totals 4.588 100.00 890 5.853 6.044 180.00 Building SeO %TOt Lat 5en Net Y6Net SuDlDl@n/ Loss Loss Gain Gain Gain Gain Ventilation 2.290 5011 444 434 877 1264 Infiltration 860 20.60 147 188 333 4�79 Pretreated Air U 0.00 0 O O 0.00 Room Loads 1.340 2820 400 5.276 5.676 81.74 Plenum Loads 0 0.00 O 0 U 0,00 Fen/DucUyNiocLoads 0 0.00 U 57 57 0.82 Building Totals 4.589 100.00 SSO 5.953 6.844 100�00 Check Figures Total Building Supply Air (based ona21"TO): 242 CFN1 Total Building Vent. Air (16.509& of Supply): 40 CFyN Total Conditioned Air Space: 238 Gq�ft Supply Air Per Unit Area: 1�0271 CFK8/8q,ft Area Per Cooling Capacity: 407,8 Gqft/Tnn Cooling Capacity Per Area: 0.0025 Tons/Sq.ft Heating Capacity Per Area: 19.44 Btuh/8q.ft Total Heating Required With Outside Air: 4.589 Btuh Total Cooling Required With Outside Air: 8.58 Tons Chvuu'Full Commercial MVACLoads Calculation Program Elite Software Development, Inc. AhoxsainEngineering LLC Redmond, WA 98852 p�!qe I � ��8�� Loads �� - ~, Summary Bui|ding peaks in July at 9om. -Bldg Load Area Sen %T0t Lat Sen Net %N6- [>8sc[iptiODS {}u8n Loss L08S Gain Gain Gain Gain Roof 282 493 9.78 U 14 -14 '0.24 VVa|| 131 458 8�08 O 172 172 2.97 Glass 34 661 13.10 U 2.982 2.982 51.65 Floor Slab D O 0.00 U U O 0,00 Skin Loads 1.613 31.96 0 3.139 3.139 54.38 Lighting 282 0 0.00 0 1.155 1.165 20D0 Equipment O O 0.00 O 0 O 0�00 Pool Latent O O 0.00 U U O 0.00 People 2 O O�DO 400 SUU 1.000 17�32 Partition O U 8.00 8 0 0 0.00 CooiPneL O 0 0,00 U 0 O 0.00 Heat, Pvet. U O 0.00 U O O 0.80 Cool, Vent. 40 O 0.00 541 '217 324 5.61 Heat. Vent. 40 2.298 45.56 O 0 O U�OU Cool. |nfii 16 O 0.00 222 -117 105 1.82 HeaL/nfii 18 1.135 22.48 O 0 O 0.00 Urow'ThruFmn U O 0.00 U 50 50 0.87 B|ow'Thru Fan 8 O 0.00 O O 0 O�OO Reserve Cap. O U U�OU U O O U�OU Reheat Cap. 0 O 0.00 O O 0 0.80 Supply Duct O 0 0.00 O O 0 0.00 Return Duct U O 0.00 O O 0 O�OO N1ino. Supply D O 0.00 U O U 0.08 Misc. Return O O 0.00 O U U 0.00 Building Totals 5.047 100.00 1.162 4.610 5.773 100.00 Building - Sen %Tot L@t Sen Net - %Net SUDlrnan/ Loss Loss Gain Gain Gain Gain Ventilation 2.299 45.56 541 '217 324 5�61 Infiltration 1.135 22,48 222 -117 105 1.82 Pretreated Air O 0.00 0 0 O O�OO Room Loads 1.613 31�96 400 4.884 5.294 9171 Plenum Loads O 0.00 O 0 0 0.00 Fan/DuuUN1iaoLoada O 0.00 8 50 50 0.87 Building Totals 5.047 180.00 1.162 4.610 5.773 100.00 Check Figures Total Building Supply Air (based ona21^TO): 212 CFK8 Total Building Vent. Air(18.87Y6 of Supply): 40 CF[N Total Conditioned Air Space: 282 Sq.M Supply Air Per Unit Area: 07517 CFyN/Sq.ft Area Per Cooling Capacity: 586.2 Sq.ft/Ton Cooling Capacity Per Area: 0.0017 Tono/Sq.ft Heating Capacity Per Area: 17�90 Btuh/GqM Total Heating Required With Outside Air: 5.047 Btuh Total Cooling Required With Outside Air: 0.48 Tons UNIT 5l8,5}6,5U3"5O2 Chvan- Full Commercial *VACLoads Calculation Program Elite Software Development, Inc. AbooseinEngineering LU: Rodmond.VVA 98052 Page Building � Summary � Loads - Building peaks in July at 5p Bldg Load Area Sen %Tnt- Lat Sen Net %Net Descriptions C]V8O Loss Loss Gain Gain Gain Gain Roof 284 497 9.85 0 182 182 2.49 VVaU 132 462 9.16 0 360 360 4.04 Glass 33 642 12.72 U 3.253 3.253 44,58 Floor Slab O O 0.00 O D O 0,00 Skin Loads 1.600 3174 0 3.795 3.785 5101 Lighting 284 0 0.00 0 1.163 1.163 15.94 Equipment O 0 0.00 0 O O 0.00 Pool Latent O O 0.00 O 0 O 0.00 People 2 O 0.00 400 800 1.000 1371 Partition 0 U 0.00 0 O 0 0.00 CooLPrei O O 0.00 O O O U�DU HoatPreL O O 0.00 O 0 O 0.00 Cool. Vent. 40 O 0.00 444 434 877 12.03 Heat. Vent. 40 2.288 45.60 0 O O 0.00 Cooi|nfii 17 0 0.00 176 224 401 5A9 Heat.|nfii 17 1.143 22.66 O 0 U U�UO Draw-ThnuFan U 0 0.00 O 61 81 0�83 Blow-ThnuFan O O 0�00 0 U 0 0.00 Reserve Cap. 0 U 0.00 O O U 0,00 Reheat Cap. O 0 0.00 O 0 O 8.00 Supply Duct O 0 0.00 0 O 0 0.00 Return Duct U O 0.00 O O U 0.00 PWisc, Supply O O 0.00 O 0 O 0.00 Misc. Return O O 0.00 8 O U 0.00 Building Totals 5.042 100,00 1.020 6.276 7.296 100.00 ' !Building 0en %Jot LGt 8eO Net %@St !Summary Loss Loss Gain Gain Gain Gain Ventilation 2.298 45.60 444 434 877 12.03 Infiltration 1.143 22,66 176 224 401 5,49 Pretreated Air O 0.00 O 0 O 0.00 Room Loads 1.600 3174 400 5.558 5.858 81.65 Plenum Loads O 0.00 U O D 0.00 Fon/Dud/yNiscLoodo U 0.00 O 61 61 0.83 - Building Totals 5.042 108.00 1.020 6.276 7.296 100.00 Check Figures Total Building Supply Air (based on n 21^ TD): 257 CF[N Total Building Vent. Air(15.5Q96 of Supply): 40 CFyN Total Conditioned Air Space: 284 Sq.ft Supply Air Per Unit Area: 0,9034 CFN1/8q,M Area Per Cooling Capacity: 487.1 8q.fVTon Cooling Capacity Per Area: O�0021 Tono/Sq.ft Heating Capacity Per Area: 1775 Btuh/8q,# Total Heating Required With Outside Air: 5.042 B<uh Tpbe| Cooling Required With Outside Air: 0.61 Tons S:\21LOSS &GAN NG UNITS\UNITS18516503502.CH8 Monday, November 1�2018, 07:51AM UNIT 224 348,474 Chvac'Full Commercial MVACLoads Calculation Program Elite Software Development, Inc. 8bonoainEngineering LU} Redmond, WA 90052 Page Building Summary Loads Building peaks in July at Spm Bldg Load Area SeO %Tot Lgt SeD Net %Net Descriptions [}uaO LOSS Loss Gain Gain Gain Gain Roof 0 0 0.00 O O O 0.00 VVa|| 311 1.088 21.77 O 837 637 8.81 Glass 34 681 13.22 O 3'351 3.351 46.39 Floor Slab O 0 0.00 0 U 0 0.00 Skin Loads 1.749 35.00 O 3.988 3.988 55.20 Lighting 236 0 0.00 O 966 SGG 1138 Equipment O O 0.00 O O O 0.00 Pool Latent 0 O 0.00 O O 0 0.00 People 2 0 0.00 400 GOO 1.000 13.84 Partition 0 8 OOD O O 0 O�OO Coo|.Pret. O U ODO O O O UOO Heat. PreL O U 0.00 U O O 0.00 Cool. Vent. 40 O UOU 444 434 877 12.14 Heat. Vent. 40 2.299 46.00 O 0 O 0.00 Coo|.|nfi|. 14 0 0.00 147 186 333 4,81 Hoat.|nfii 14 850 18.00 O O O 0.00 Draw-ThruFmn O O 0.00 O SO 80 O�83 B|om+Thru Fan O 0 0.00 O O O 8.00 Reserve Cap. O O 0.00 U O O O�OO Reheat Cap. 8 O 0.00 8 0 O 0,00 Supply Duct 0 O 0.08 0 O U 0�00 Return Duct U O 0.00 O O O 0.00 [Nino. Supply O O 0.00 O O O 0.00 Misc. Return D O 0.00 O O O 0.00 Building Totals 4.808 100.00 990 6.234 7.225 100.00 Building SGn %TOt [at Sen Net %yN / Summary Loss Loss Gain Gain Gain {3BiO Ventilation 2.209 48.00 444 434 877 12.14 Infiltration 950 19.00 147 188 333 4.61 Pretreated Air O 0.00 U 0 U 0.00 Room Loads 1.749 35.00 400 5.554 5'954 82A1 Plenum Loads 0 0.00 O U 0 0�00 Fan/DuoVN1iaoLnodo O 0.00 U 60 GO 0.83 Building Totals 4.898 100.00 990 6.234 7.225 100.00 | | Check Figures Total Building Supply Air (based on o 21° TO): 255 CFN1 Total Building Vent. Air (157O96ofGuppk): 40 CFN1 Total Conditioned Air Space: 236 Sq,ft Supply Air Per Unit Area: 1.8794 CFyW/Gq.ft Area Per Cooling Capacity: 382�O Sq,ft/[on Cooling Capacity Per Area: 0.0026 Tona/Sqh Heating Capacity Per Area: 21.18 Btuh/Sqft Total Heating Required With Outside Air: 4.908 Btuh Total Cooling Required With Outside Air: 0.60 Tons &�21VV42VCalc'MachU-IEAT LOSS & GAIN CALCSV]VVELLL|NGUNIT8V]N|T22*_34O_424.CH8 Fhduy, November 16,2018.04:11 PM Chvac''Full Commercial MV4C Loads Calculation Program Elite Software Development, Inc. AbnsonnEngineering LLC Redmond, WA 88052 Building �� Loads = Summary �� - - Building peaks inJuly atSam. Bldg Load Area S8O %TCt L@t SeO Net %Net Descriptions [>UaO Loss Loss Gain Gain Gain Gain Roof U O 0.00 O U 0 0.00 VVoU 116 406 8,99 O 152 152 2.63 Glass 34 661 14�63 O 2.982 2.982 51.54 Floor Slab Q O 0.00 0 0 O 0.00 Skin Loads 1.067 23.62 0 3.134 3.134 64.17 Lighting 288 O 0.00 O 1.171 1.171 2024 Equipment O 0 0.00 O O O 0.00 Pool Latent O O 0.00 0 0 U 0.00 People 2 O O�OU 400 GUO 1.000 1729 Partition O U 0.00 O O 0 0.00 Cool. PreL O 0 0.00 D O O 0.00 Heat. Pvet. 0 O 0.00 0 O O 0.00 Cool. Vent. 40 O 0.00 541 -217 324 6�60 Heat, Vent. 40 2.299 50.90 O O 0 0.00 Cool, |nfii 17 O 0.00 225 -119 106 1.84 Heat. |nfii 17 1.151 25.48 0 O O 0.00 Draw-Th,u Fan U U D�OO O 50 50 0.87 B|nw'Thpu Fan 0 D 0.00 O O 0 0.00 Reserve Cop. 0 U U�UO U O O 0.00 Reheat Cap. U O 0.00 O 0 O 8.08 Supply Duct O O 0.00 0 0 U 0.00 Return Duct U O 0.00 O O 0 0.00 K8iac, Supply O O 0.00 0 O O 0.00 Misc. Return O O 0.00 0 0 0 0.00 Building Totals 4`517 100.00 1.166 4.619 5.785 100i00 �Building 8en - %TO1 L@t SeO Net 96yNet SW00a[V Loss Loss Gain Gain Gain Gain Ventilation 2298 50.90 541 '217 324 6.60 Infiltration 1.151 25.48 225 '119 106 1.84 Pretreated Air O 0.00 O O O 0.00 Room Loads 1.087 23.62 400 4.905 5.305 8170 Plenum Loads U 0.00 U 0 O 0�00 Fon/Dud/yNisc Loads O 0.00 O 50 60 0.87 Building Totals 4.517 100.00 1.166 4.019 5.785 180�00 rChech Figures- -- Total Building Supply Air (based ona21°TCA: 212 CF[N Total Building Vend. Air (18.83Y6 of Supply): 40 CFyN Total Conditioned Air Space: 286 Sq.ft Supply Air Per Unit A 0.7426 CFN1/Gq.ft Area Per Cooling Capacity: 5913 Sq.fbTon Cooling Capacity Per Area: U�0017 Tona/Gq,ft Heating Capacity Per Area: 1570 Btuh/Sq.ft Total Heating Required With Outside Air: 4.517 8tuh Total Cooling Required With Outside Air: 0.48 Tons S:\'. \UN|T225 221 215 213 211 209.CH8 UNIT l471473?0374q}2,3l0,302 [44l2,4]0402 Chvac''Full Commercial HVAC Loads Calculation Program Elite Software Development, Inc. AboyaeinEngineering LLC Redmond, WA VOV5�________ N�J�� ____ __ _____ Page | J��/�� K�� Loads Building -" Summary �- - - Building peaks in July at 5pm. Bldg Load Area SeO %TOt L8t Sen Net 616N et Descriptions [}uan Loss [OSS Gain Gain Gain Gain Roof 0 0 0.00 O U O 0.00 VVaU TG 266 &37 O 208 208 106 Glass 34 661 15.83 O 3`351 3.351 40.35 Floor Slab 0 0 0.00 O O 0 0.00 Skin Loads 927 22.20 O 3'559 3.559 52.40 Lighting 236 0 0,00 O 866 SGG 14.23 Equipment 0 O 0.00 O 0 O 0.00 Pool Latent O O 0.00 O 0 O 0.00 People 2 0 0.00 400 GOU 1.000 1473 Partition U O 0.00 O U O 0.00 Cool. Pnet. 0 O 0.00 U O O 0.00 Heat, Prat. U O 0.00 0 0 O 0.00 Cool. Vent. 40 D 0.00 444 434 877 12�92 Heat. Vent. 40 2.299 55.06 O O 0 000 Cool. |nfii 14 0 0.00 147 188 333 4�80 Heat. |nfii 14 850 2274 U O 0 0.00 Dnaw'Thru Fan O U 0�00 O 56 56 0,82 B|ow'Thru Fan O O 0.00 O D O U�UO Reserve Cop. O 0 0.00 O U 0 0.00 Reheat Cap. O 0 0.00 O U 0 O�OO Supply Duct 0 U 0.00 O 0 O 0,00 Return Duct 0 0 0.00 U 0 0 0�00 Misc. Supply O O 0.00 0 O O U�OO Misc. Return O O 0.00 U O U 0.00 Building Totals 4.176 100.80 990 5,801 6.791 100.00 Building - - Sen %Tnt Lat- - Sen Net 0/oNetl SUnl[nap/ Loss Loss Gain Gain Gain C; In Ventilation 2.299 55.06 444 434 877 12.92 Infiltration 950 2274 147 186 333 4.00 Pretreated Air U 0.00 O O 8 0.00 Room Loads 927 22.20 400 5.125 6'525 81.36 Plenum Loads U 0.00 U O O 0�00 Fon/Duct/N1imo Loads O 0.00 U 56 56 0.82 Building Totals 4.176 100.00 990 5.801 6.781 100.00 - -- Chech Figures - | / Total Building Supply Air (based on a 21' TD): 236 CFN1 Total Building Vent. Air(1G.U796 of Supply): 40 CF[N Total Conditioned Air Space: 236 Sq.ft Supply Air Per Unit Area: 0.8987 CFyNXSq.ft Area Per Cooling Capacity: 417.0 Sq.fVTon Cooling Capacity Per Area: 0,0024 Tona/Sq.ft Heating Capacity Per Area: 17.69 Btuh/8q.ft Tnbs| Heating Required With Outside Air: 4.176 Btuh ' Total Cooling Required With Outside Air: 0.57 Tons UNIT 219,217,207,205,203,201,319,317,307,305,303,301 Chvoc'Full Commercial MV4CLoads Calculation Program Elite Software Development, AbunsoinEngineering LLC .Redmond, WA 98052 ___page 1] =°��,"="""�� Building Summary L Building peaks inJuly atSam. Bldg '--- 'Load Area - - Se- '%TVt -- Lat Sen ' -- Net Descriptions [}U@O LqyS LOSS Gain Gain Gain Gain Roof O 0 0.00 0 O O 0.00 VVaU 131 458 10.07 O 172 172 2.97 Glass 34 661 14.52 O 2.982 2.982 51.52 Floor Slab O O 0.00 U 0 O 0.00 Skin Loads 1.118 24.58 U 3.163 3.163 54A9 Lighting 282 O 0.00 O 1.155 1.155 18�96 Equipment 0 O 0.00 0 O U O�OU Pnn| Latent 0 O 0.00 0 O 0 0.00 People 2 O 0.00 400 600 1.000 1718 Partition O U 0.00 O U O 0,00 Cool. PnaL O O 0.00 O O U 0.00 Heat. Pret. O O 0.00 O 0 U 0.00 Cool. Vent. 40 0 0.00 541 -217 324 5.60 Heat. Vent. 40 2.299 50.50 U 0 O 0�00 Cnoi|nfii 16 O 0.00 222 '117 105 1�81 Heat, |nfii 16 1.135 24.92 O U O 0.00 Draw-ThruFan 8 O 0.00 U 50 50 U�87 B|mw'Thru Fan 0 U 0.00 O O U 0.00 Reserve Cap. O 0 0.00 O U O OUO Reheat Cap. O O 0.00 0 O 0 0.00 Supply Duct O O 0.00 0 O O 0.00 Return Duct 8 O 0.00 O O O O�OO N1ino. Supply 0 O 0.00 0 0 O 0.08 Misc. Return D O 0.00 0 0 O 0.00 Building Totals 4.553 100.00 1.162 4.624 5.787 100.00 'Building Sen - 96Tot Lat Sen Net Summary Loss Loss Gain Gain Gain Gain Ventilation 2.288 50.50 541 '217 324 5,60 Infiltration 1.135 24,82 222 417 105 1.81 Pretreated Air O 0.00 O O U 0.00 Room Loads 1.118 24.58 400 4.908 5.308 8172 Plenum Loads O 0�00 O 0 U 0.00 Fon/Dunt/MieoLoado O 0.00 U 50 50 0.87 Building Totals 4.563 108.80 1.162 4.624 5.787 100.00 Check Figures Total Building Supply Air (based ona21^TD): 213 CF[N Total Building Vent. Air (1O.81Y6 of Supply): 40 CF[N Total Conditioned Air Space: 282 Sq.ft Supply Air Per Unit Area: 07539 CFN1/Sq.ft Area Per Cooling Capocity� 584.8 Sq.fVTon Cooling Capacity Per Area: 0,0017 Tonm/Sq# Heating Capacity Per Area: 16,15 Btuh/Gq.ft Total Heating Required With Outside Air: 4.553 Btuh Total Cooling Required With Outside Air: 048 Tone Wnday November 1�2018,UG:02 AM UNIT 218,216,203,202,302,304,316,318,402,404,416,418 Chvac'Full Commercial *VACLpadmCalcvlationPrng,am Elite Software Development, Inc. AbuoseinEngineering LLC Redmond, WA 98052 Page - �� Loads =�""�"""�� ~°8�� --' -- Building peaks inJuly at5pm. Bldg Load Area SeO %TOt LatSen Net %Net Descriptions [}Uan Loss LOSS Gain Gain Gain Gain Roof 0 U 0.00 U O U 0.00 VVaU 132 482 10,16 O 380 360 6.07 (3|ena 33 642 14.11 0 3.253 3.253 45.73 Floor Slab O 0 0�00 O O U 0.00 Skin Loads 1.103 24.28 O 3.613 3.613 50.80 Lighting 284 U 0.00 0 1.163 1.163 16.35 Equipment O O 0.00 O 0 O 0.00 Pool Latent 0 O 0.00 O O O 0.00 People 3 O 0.00 400 600 1.000 14.06 Partition O U 0�00 U O 0 8�00 Cool. Pn»L U O 0.00 O U 0 0.00 Heat. Pred. 0 Q 0.00 0 O O 0.00 Cool. Vent. 40 O 0.00 444 434 877 12.34 Heat, Vent. 40 2.299 50.58 O 0 0 0.00 Cooi|nfii 17 O 0.00 176 224 401 5.63 HeaL|n5i 17 1.143 25.14 O 0 O 0.00 Orew'ThruFon 0 O O�OO O 59 59 0.83 B|ow'ThnuFan O O 0�00 O O O 0.00 Reserve Cap. O U 0.00 O O 0 0.00 Reheat Cap. 0 O 0�00 O U D 0.00 Supply Duct O 0 0.00 O 0 O ODO Return Duct O O 0.00 O O U 0.00 Misc. Supply 0 O 0.00 O 0 O 0�00 N1isc.Retum O 0 0.00 O O O 0.00 Building Totals 4.545 100.00 1.020 6.092 7.113 10000 8`--ng Sen � %Tot Lat -Sen Net - %Net Sunlnnan/ Loss Loss Gain Gain Gain Gain Ventilation 2.299 50.58 444 434 877 12.34 Infiltration 1.143 2514 176 324 401 5.63 Pretreated Air 0 8.00 0 O U 0.00 Room Loads 1.103 24.28 400 5.376 5.776 81.21 Plenum Loads O 0.00 0 O O 0�08 Fon/Duut/0iacLoods O 0.00 O 58 50 0.83 Building Totals 4.545 100.00 1.020 8.092 7.113 100.00 Check Figures Total Building Supply Air (based ona21~TO): 249 CFyN Total Building Vent. Air (16.1OY6ofSupp|y): 40 CFW1 Total Conditioned Air Space: 284 Sq.ft Supply Air Per Unit Area: 0.8750 CFN;/Gq.ft Area Per Cooling Capacity: 479.1 Sq.ft/Tun Cooling Capacity Per Area: 0,0021 Tono/Sq.ft Heating Capacity Per Area: 16.01 8tuh/Sq.ft Total Heating Required With Outside Air: 4.545 Btuh Total Cooling Required With Outside Air: 0.59 Tons SA'. \VNIT 218_215-_416�41gI]H0 Fhday, November 16.2O18.0t42PN UNIT 200,300,400 Chvac'Full Commercial MVACLoads Calculation Program Elite Software Development, Inc. Abno*einEngineering LLC �0U� Redmond, WA 98052_ 0��m�_ _ Page ��/K� �� Loads Building Summary _ - - Building peaks in July at 5pm. - Bldg Load Area Sen %TOt L@t Sen Net %Net [)eSC[iptiOOS QUaD Loss Loss Gain Gain Gain Gain Roof 0 O 0.00 0 O U 0.00 VVa|| 302 1.057 20.19 O 458 458 6.50 Glass 33 842 12.26 0 3.253 3.253 46,11 Floor Slab O O 0.00 0 U 0 0.00 Skin Loads 1.688 32.44 O 3.711 3.711 52.60 Lighting 236 O 0.00 O 866 SGG 1170 Equipment D O 0.00 O O O 0.00 Pool Latent 0 O 0.00 U 0 U 0.00 People 2 O 0.00 400 600 1.000 14.17 Partition O 0 0.00 O U U 0.00 Cool. Pret. O 0 0.00 U O D 0�80 Heat. Pret. D O 0.00 O U O 0.00 Cool. Vent. 46 O 0.00 499 488 887 13.89 Heat, Vent. 46 2.587 49.42 O O U 0.00 Cool, |nfii 14 O 0.00 147 186 333 4.72 Heat. /nfii 14 850 18.14 O O O 0.00 Draw-ThnuFan O O 0,00 O 57 57 0.81 Blow-Thnu Fan O O 0.00 O O O 0.00 Reserve Cap. O O 0.00 O O O 0.00 Reheat Cap. U U 0.00 O U O 0,00 Supply Duct O O 0.00 0 0 O 0.00 Return Duct D O 0.00 0 O U 0.00 Misc. Supply 0 O 0.00 U O O 0.00 Misc. Return U O 0.00 O O O 0.00 Building Totals 5.235 100.00 1.046 8.009 7.055 100.00 Building Sen Y6Tot - Lat Sen Net - 96Net Summary Loos Lnoo Gain Gain Gain | Gain i Ventilation 2.587 40.42 489 488 987 13.99 Infiltration 950 18.14 147 186 333 472 Pretreated Air O 0.00 O O O 0.00 Room Loads 1.698 32.44 400 5.277 5'677 80.48 Plenum Loads O 0.00 0 O O 0.00 Fan/Duct/Mioc Loads O 0.00 O 57 57 0.81 Building Totals 5.235 100.00 1.046 6,009 7.055 100�00 Check Figures Total Building Supply Air (based on m 21" TO): 242 CF[N Total Building Vent, /\ir(18.5GY6 of Supply): 45 CFyN Total Conditioned Air Space: 236 Sqjt Supply Air Per Unit Area: 1,0274 CFWY/8q.ft Area Per Cooling Capacity: 401.4 Gq.fVTon Cooling Capacity Per Area: 0,0025 Tona/Sq.ft Heating Capacity Per Area: 22.18 Btuh/Gq.ft Total Heating Required With Outside Air: 5.235 Btuh Total Cooling Required With Outside Air: 0.59 Tons S:\21 LOSS &GAIN NGUND&UNIT Friday, November 16,208,&t53PM HOUSEKEEPING 206,306,406 Chvuc'Full Commercial MV4CLoads Calculation Program Elite Software Development, Inc. xboxsenEngineering LLG H Redmond.YVA SOO52 Page Building Summary Loads = Building peaks inJuly atSpm. Bldg Load Area - '-O %J'qt L8t SeO Net - %Net Descriptions {}Uan LOS8 Loss Gain Gain Gain Gain Roof O O 0.00 U O O 0.00 VVa|| 137 478 10,54 O 374 374 5.27 Glass 33 642 14.11 U 3.253 3.253 45.78 Floor Slab O O 0�00 O D O 0.00 Skin Loads 1.121 24.65 O 3.827 3.627 51�05 ' Lighting 280 O 0.00 O 1.146 1.146 1814 Equipment O O 0.00 O O O 0.00 Pool Latent O 0 0.00 O O O 0.00 People 2 O 0,00 400 600 1.000 14.08 Partition D O 0.00 U 0 O O�OO CooiPneL O 0 0�00 O O 0 U�OO Heat. PreL O O 0.00 U O 0 0�80 Cool, Vent, 40 O 0.00 444 434 877 12.35 Heat. Vent. 40 2.299 50.57 O O U 0.00 Cooi|n@ 16 O 0.00 174 221 386 5.56 HeaL|nfii 16 1.127 2478 O O O U�OO Dnaw'ThruFon O O O�OO O 59 59 0.83 B|ow'ThruFan O O 0.00 O O 0 0.00 Reserve Cap. U O U�OO O O O O�OU Reheat Cap, 8 O 0.00 O O D O.00 Supply Duct 0 0 0.00 U O O 0.00 Return Duct D O 0.00 O D U 0.00 Misc. Supply O O 0.00 O O O U�OO Misc. Return Q O 0.00 U O U 0.00 Building Totals 4.547 100�00 1.018 6.087 7.104 100.00 Building �SeO %Tot� L8t S8n � Net Y&Net Summary Loss Loss Gain Gain � Gain Gain Ventilation 2.298 50.57 444 434 877 12.35 Infiltration 1.127 2478 174 221 395 5.56 Pretreated Air O 0.00 0 O O 0.00 Room Loads 1.121 24.65 400 5.373 5.773 81.26 Plenum Loads 0 0.00 U O 0 0.00 Fmn/Dud/N1iocLoads U 0.00 U 59 59 0.83 Building Tuto|o 4.547 100.08 1.018 6.087 7.104 180�00 Check Figures Total Building Supply Air (based on a 21~ TO): 248 CFN1 Total Building Vent. Air (16.1196ofSupp|y): 40 CF[N Total Conditioned Air Space: 280 Sq.ft Supply Air Per Unit A,ea� 0.8866 CFyN/8q.ft Area Per Cooling Capacity: 473.0 Sq.fVTon Cooling Capacity Per Area: O�0821 Tonn/8qft Heating Capacity Per Area: 16.24 Btuh/Sq.ft Total Heating Required With Outside Air: 4.547 Bhuh Total Cooling Required With Outside Air: 0.50 Tons SA ... MOUGEKEEP|NG2VO.30g.4OOCM8 PANTRYl76 Chvac'Full Commercial MV4CLoadoCalculaiionProgram Elite Software Development, Inc. AbooseinEngineehngLLC Redmond, WA 98052 Building Summary Loads Building peaks inJuly at 5pm. Bldg Load Area Sen %Tot Lat 'SeD Net %Net Descriptions [}U@O Loss Loss Gain Gain Gain Gain Roof O O 0.00 U O O 0.08 VVoU 06 336 7,52 O 262 262 2.01 Glass O 0 0.00 O U O 000 Floor Slab 8 O 0�00 D O O 0.00 Skin Loads 338 7.62 O 262 282 2.01 Lighting 458 O 0.00 0 1.867 1.867 14�29 Equipment 3.000 0 0.00 100 8.189 8.289 63.45 Pool Latent O O 0.00 O 0 U 0.00 People 2 O 0�00 400 600 1.000 7.85 Partition O O 0.00 U U O 0.00 CuoiPnet. O U 0.00 U 0 O 0.00 Haet, Pret. U 0 0.00 U O 0 0.00 Cool, Vent. 40 U 0.00 444 434 877 672 Heat. Vent. 40 2.299 51.44 O 0 O 0�00 Cpoi|nfii 27 0 0.00 283 360 643 4.92 Heat. |nfii 27 1.835 41.06 O 0 O 0.00 Draw-ThruFan O O 0.00 O 124 124 O�95 B|mm'Thru Fan U O 0.00 U U 0 O�OO Reserve Cap. U U 0.00 O O 0 U�UU Reheat Cap. 0 O 0.00 O U O 0.00 Supply Duct O 0 0.00 O O U 0.00 Return Duct U O 0.00 0 O O 0.00 Misc. Supply O O 0.00 0 U U 0.00 Misc. Return O O 0.00 U O O 0.00 Building Totals 4.470 100�00 1.227 11.836 13.084 100.00 Building- �SeO L8t SeO Net -%�yJet Summary Loss Loss Gain Gain Gain Gain Ventilation 2.299 51.44 444 434 877 672 Infiltration 1.835 41.05 283 360 643 4.32 Pretreated Air O 0.00 O O 0 0.00 Room Loads 336 7.52 500 10.918 11.418 87.41 Plenum Loads O 0.00 0 O O 0�00 Fan/Ouut./[NinuLoads O 0.00 U 124 124 0.85 Building Totals 4.470 100.80 1.227 11.836 13.064 100.00 Check Figures Total Building Supply Air (based on a 20^ TO): 527 CF[N Total Building Vent. 4Jr(7.5Q96 of Supply): 40 CFN1 Total Conditioned Air Space: 456 Sq,M Supply Air Per Unit Area: 1.1654 CFN1/Gq.ft Area Per Cooling Capacity: 418.9 Sq.fUTon Cooling Capacity Per Area: 0D024 Tono/Sq.ft Heating Capacity Per Area: 9,80 Btuh/8q.ft Total Heating Required With Outside Air: 4.470 Btuh Total Cooling Required With Outside Air 1.08 Tons S:x218042VCo|c-MeohVHEAT LOSS & GAIN CALCSVCOMMONAREAS\,ANTRY128,CH8 Monday, November 19.2018.01:51 PM LOUNGE 102,WORKZ(]NE 104 Chvao'Full Commercial MVAC Loads Calculation Program Elite Software Development, Inc. AbuonoinEngineering LLC Redmond, WA 88052 Page �� Summary � �� =�� == Building peaks inJuly ot9am. ' 6-|dg Load Area SeO %Tot L8t Sen Net%Net Descriptions [}UaO Loss Loss Gain Gain Gain Gain Roof O O 0.00 O O O 0.00 VVe|| 728 2.547 16.82 U 954 854 4.18 Glass 108 2.748 18,25 O 9.208 9.206 40.30 Floor Slab O U 0�00 O O O 0.00 Skin Loads 5.295 35.18 0 10.181 10.161 44.58 Lighting 282 O 0.00 O 1.155 1'155 5�07 Equipment O O 0.00 O O 0 0.00 Pool Latent O O 0,00 O 0 U 000 People 20 0 0�00 4.000 6,000 10.000 4187 Partition O 0 0.00 U O U 0,00 Cool. Prat. O U 0.00 O O O 0�80 HeaLPnsL O 0 0.00 U O O 0.00 Cool. Vent. 150 O 0.00 2.028 -813 1.215 6�33 Heat. Vent. 150 8.822 57.28 U 0 0 0.00 Cooi|nfii 16 0 0.00 222 -117 105 0.46 HeeL|nfii 16 1.135 7.54 O O O 0.00 Draw-ThruFan O D 0�00 O 158 158 0.89 Blow-Thru Fan O O 0.00 U 0 O 0�00 Reserve Cap. 0 0 0.00 U O O 0.00 RahontCap. 8 O 0.00 O U 0 0.08 Supply Duct U O 0.00 O O D O�OU Return Duct 0 V 0.00 U 0 O 0.00 K8iao. Supply O O 0.00 U O 0 0�00 [Nisc, Return O O 0.00 O U 0 0.00 Building Totals 15.052 100,00 6.249 16.543 22.792 100�00 Building 8eD %Tot Lat Sen Net %Net Summary Loss Loss Gain Gain Gain Gain Ventilation 8.632 57.28 2.028 '813 1.215 5.33 Infiltration 1.135 7.54 222 417 105 0.46 Pretreated Air O 0.00 U O U 0.00 Room Loads 5.295 35.18 4.000 17.315 31.315 83.52 Plenum Loads 0 0.00 U O O 0.00 Fon/Duct/N1iaoLnoda O O�OO O 158 158 0.69 Building Totals 15.052 100�00 6.240 16.543 22.792 108.00 /- '= /(�heCk F|gu[e3 Total Building Supply Air (based on e24° TD): 667 CF[N Total Building Vent. Air(22.4SY6 of Supply): 150 CF[N Total Conditioned Air Space: 282 SqA Supply Air Per Unit Area: 2.3652 CFW1/5q.ft Area Per Cooling Capacity: 148.5 8q.fVTon Cooling Capacity Per Area: 0.0067 Tono/Sq.ft Heating Capacity Per Area: 53.88 8tuh/Sqft Total Heating Required With Outside Air: 15.052 Btuh Total Cooling Required With Outside Air: 1.90 Tons S:\... LOUNGE1O2-WORKZONE 1U4l]H8 Monday, November 19.2V1V.08:5OAN G[N MGRl30OFFICE l20 ChvaE-Full Commercial MVACLoads Calculation Program Elite Software Development, Inc. AbooueinEngineering LLC Redmond, WA 88052 Page Building Summary Loads Building peaks inSeptember at1pm. Bldg Load Area SeD %Tot Lat SeO Net %Net Descriptions [)U8O Loss LOSS Gain Gain Gain Gain Roof O O 0.00 O O U U�OO VVa|| 335 1.172 12.01 O 250 250 0.97 Glass 253 4.918 50.38 O 22.366 22.366 86.75 Floor Slab 0 O 0.00 O O O 0.00 Skin Loads 6.091 62.39 O 22,616 22.618 87.72 Lighting 841 0 0,00 O 1.396 1.396 5.42 Equipment O O 0.00 U O O 0.00 Pool Latent O O 0.00 D O O 0.00 People 2 0 0.00 400 GOO 1.000 3.88 Partition U O 0.00 0 O 0 O�OO Cool. Pret. O O 0.00 0 0 0 0.00 HeaLPreL 0 O 0.00 O U U 0.80 Cool. Vent. 40 0 0.00 238 87 324 126 Heat. Vent. 40 2.289 23.55 0 0 O 0.00 Cool. |nfi|. 20 0 0.00 115 55 170 0.86 Hoat.|nfii 20 1.372 14.06 U U O 0.00 Draw'ThnuFan O O 0.00 O 275 275 1.07 B|ow'ThmFon 0 0 0.00 O O 0 0.00 Reserve Cap. O U 0.00 O O U 0.00 Reheat Cap. O 0 0.00 O 0 O 0.00 Supply Duct 0 0 0.00 O 0 0 0.00 Return Duct O 0 0.00 O 0 O 0.00 K8iou.Supp|y 0 0 0.00 O O U 0.00 Misc. Return 0 0 0.00 O 0 0 0.00 Building Totals 9.762 100.00 753 25,029 25.781 100.00 Building S8D 96TOt L@t � Sen Net %NEt SUDl[Oa[y Loss LOSS Gain Gain Gain Gain Ventilation 2.290 23.55 238 87 324 1.26 Infiltration 1.372 14.08 115 55 170 0.86 Pretreated Air O 0.00 O O U 0.00 Room Loads 6.091 62.39 400 24.612 25.012 97.02 Plenum Loads U 0.00 U O O 0.00 Fan/Duct/N1ieoLoads O 0.00 O 276 375 1.07 Building Totals 9.762 100.00 753 25.029 25.781 100.00 LCheck - Total Building Supply Air (based ona2O"TD): 1.168 CF&1 Total Building Vent. Air(3.4496 of Supply): 40 CFPN Total Conditioned Air Space: 341 Sq,ft Supply Air Per Unit Area: 3,4109 CFN1/8q.ft Area Per Cooling Capacity: 158.7 Sq.fh7on Cooling Capacity Per Area: 0.0063 Tons/8q.ft Heating Capacity Per Area: 28.63 8tuh/Sq.ft Total Heating Required With Outside Air: 0.762 8huh Total Cooling Required With Outside Air: 2.15 Tons GA'. \3EwMGn1y0_Orr|Cse1ra.CHo FITNESS CENTER 108 Chvat - Full Commercial HVAC Loads Calculation Program Elite Software Development, Inc. ,Redmond, YVA 98052 _ 0�^�� _ Page Building Summary Loads Building peaks in July ot9am, Bldg Load Area GeD %Tot L@t Sen Net Y6Net Descriptions C}VGO Loss Loss Gain Gain Gain Gain | Roof O 0 0.00 0 0 U 0.00 | VVeU 262 817 3.73 O 343 343 077 Glass 338 6.571 2676 O 29.640 29.640 66�50 Floor Slab O U 0.00 U 0 O 0.00 Skin Loads 7.488 30.50 O 29.983 29.983 67.27 Lighting 558 O 0.00 O 2.285 2.285 613 Equipment 1.000 0 0.00 O 4.005 4.085 918 Pool Loberd D O 0.00 O O O O�DO People 11 O 0.00 2.200 3.300 5.500 12�34 Partition O Q 0.00 O U 0 O�OO Cool. PnaL 8 O 0.00 0 0 0 0.00 Heat, Pret O O 0.00 U O 0 0.00 Cool, Vent. 250 O 0.00 3.370 '1.355 2.024 4.54 Heat. Vent. 250 14.371 58.53 O O O 0�00 Cooi|nfii 33 O 0.00 627 -277 248 0.56 HooL|nfii 38 2.684 10.87 O O 0 0.00 Draw'ThruFan 0 O 0,00 O 434 434 0.97 Blow-ThruFan 0 O 0.00 O U 0 0,00 Reserve Cap. U 0 0�00 O U O O�OO Reheat Cap. O O 0.00 0 O O 0�00 Supply Duct 0 O 0.00 0 O O 0.00 Return Duct 0 O 0.00 0 O O 0.00 Misc. Supply O O 0.00 O O 8 O�OU Misc. Return 0 U 0.00 O O O 0.00 Building Totals 24.562 100�80 6.106 38.483 44.568 100�00 Building Sen Y6T01 L8t Sem Net %Net Sunln1an/ Loss Loss Gain Gain Gain Gain Ventilation 14.371 58.53 3.379 1.355 2.024 4,54 Infiltration 2.694 10.97 527 -277 249 0.56 Pretreated Air U 0.00 0 0 8 0.00 Room Loads 7.488 30.50 2.200 39.662 41.882 93.03 Plenum Loads 0 0.00 O U O 0.00 Fan/Duot/N1iao Loads O 0.00 O 434 434 0.87 Building Totals 24.552 180.00 6.108 38.463 44.560 100.00 Check Figures Total Building Supply Air (based on a 20' TO): 1.836 CFN1 Total Building Vent. Air (13.6196 of Supply): 250 CF[N Total Conditioned Air Space: 658 Sq.ft Supply Air Per Unit Area: 32908 CFM/8q.ft Area Per Cooling Capacity: 150.2 Sq.ft[Ton Cooling Capacity Per A 0.0067 Tono/Sq.ft Heating Capacity Per Area: 44.00 Btuh/8q.ft Total Heating Required With Outside Air: 24.552 Btuh Total Cooling Required With Outside Air: 371 Tons G:\21OV42VCu|o~MeukV1EAT LOSS & GAIN CALCOVCOMMONAREAG\FITNESOCENTER 108.CH8 EMPLOYEE BREAKROOM 118 Chvac'Full Commercial HVACLoads Elite Software Development, Inc. AhooaonEngineering LLC Redmond, WA 98052 Page � oads Building Loads � = Building peaks in July at5pm Bldg Load Area SeO %TOt L@t Sen Net %yJSt Descriptions [)U@n Loss LDGG Gain Gain Gain Gain Roof O O 0.00 8 0 O 0�00 VVa|| 387 1.389 25�90 O 1.084 1.084 11,82 Glass 35 680 12.68 U 3`450 3.450 37.60 Floor Slab D O 0.00 D O U U�OO Skin Loads 2.070 38.59 0 4.534 4'534 49.42 Lighting 208 D 0.00 O 843 843 8�19 Equipment 0 O 0.00 O O U 0�08 Pool Latent O O 0.00 0 U O 0�00 People 6 U 0.00 1.000 1.500 2,500 27.25 Partition O O 0.00 O O U 0.00 ConiPreL U O 0.00 O O O D.OU Heat, Pret O 0 0.00 0 O 0 0�00 Cool, Vent. 40 O 0.00 444 434 877 0.58 Heat Vent. 40 2.299 42.87 O O O 0�00 Cool, |nfii 14 O 0.00 154 195 349 3.80 Heat. |nfii 14 995 18.55 U O O 0�00 Draw-ThnuFon O O O�OU O 71 71 0.77 Blow-ThnuFon O O 0.00 U 0 O 0.00 Reserve Cap, O 0 0.00 O O O 0.00 Reheat Cap. O O 0�00 O 0 O 0�80 Supply Duct 0 O 0.00 0 O 0 0.00 Return Duct 0 O 0.00 0 O O U�OO Misc. Supply 0 U 0.00 U O O 0.00 Misc. Return O O 0.00 U O O 0,00 Building Totals 5.364 100.00 1.597 7.577 9.174 100.00 Building -- SeO %TOt '-Lmt Sen - Net 96Net 'SuFDD1@[V LOSS LOGS Gain Gain Gain Gain Ventilation 2.299 42.87 444 434 877 0.56 Infiltration 985 18.55 154 195 340 3.80 Pretreated Air 0 0.00 U 0 U U�OO Room Loads 2.070 38.50 1.000 6.877 7'877 85�86 Plenum Loads U 0�00 O O O 0D0 Fen/Dud/K8iacLoadm O 0.00 0 71 71 O.77 Building Toby|o 5.364 108.00 1.597 7.677 9.174 100,00 LCheck Figures Total Building Supply Air (based on a 22° TD): 200 CFW1 Total Building Vent. Air (13.3GY6cfSupp|y): 40 CFN1 Total Conditioned Air Space: 206 Gq.ft Supply Air Per Unit Area: 1A536 CFK8XBqA Area Per Cooling Capacity: 269.5 Sq.fhTon Cooling Capacity Per Area: 0,0037 Tono/Sq.ft Heating Capacity Per Area: 26.04 Btuh/Sq.ft Total Heating Required With Outside Air: 5.364 Btuh Total Cooling Required With Outside Air: 0.76 Tons BREAKFAST }05,DINING l06,GAME AREA l07,COMMAND CENTER Chvarc'Full Commercial MVAC Loads Calculation Program Elite Software Develop "'nc, Abooae�En�noehngLUC �U�U� � �� Summary � �� =�� =� Building peaks inJuly et5pm. [ B:Idg Load Area S8n' D e::s:c ]ri Op t i o n S (]u@n Loss %.--------otLat -en LOSS Gain Gain Net Gain oNe�t Gain Roof D 0 0.00 Q 0 U 0.00 VVa|| 732 2.668 709 0 2.082 2.082 111 Glass 300 6.075 16.14 U 30.801 30.801 46.03 Floor Slab O O 0,00 8 O O 0.00 Skin Loads 8.743 23.23 0 32.884 32.884 48.14 Lighting 1.749 O 0.00 O 7.447 7.447 11A3 Equipment O 0 0.00 O U O 0�00 Pool Latent O U 0.00 U O O 0.00 People 30 U 0.00 6.000 9.375 16.375 22,37 Partition O O 0.00 O 0 Q 000 Cool. Pat. 0 O O�OU U O O 0.00 Heat. Pred. O O 0.00 O O O 8,00 Cool. Vent. 350 O 0.00 3.883 3,795 7.677 11.47 Heat. Vent. 350 20.119 53.45 U O O 0,00 Coni|nfii 122 0 0.00 1.302 1^723 3.026 4.52 HomL|nfii 122 8.782 23.33 U O 0 0.80 Draw-ThnuFan O 0 0.00 0 514 514 0.77 B|ow'Thru Fan 0 O 0.00 O 0 O 0,00 Reserve Cap. U O 0�00 U U 0 0.00 Reheat Cap. 8 O 0.00 0 O O 000 Supply Duct 0 O 0.00 0 O 0 O�DU Return Duct U O 0.00 O 0 U 0.00 Misc. Supply O 0 0.00 O 0 0 0�00 Misc. Return 0 O 0.00 0 0 O 0.00 Building Totals 37.844 100.00 11.185 55.737 66.922 100�00 Building Sen %Tod LGt Se0 Net %Net Summary Loss Loss Gain Gain Gain Gain Ventilation 20.113 53.45 3.883 3.795 7.677 11.47 Infiltration 8.782 23,33 1.302 1.723 3.025 4.52 Pretreated Air 0 0.00 O 0 U 0.00 Room Loads 8.743 2323 6.000 49.705 55.705 83.24 Plenum Loads O 0.00 8 U O 0�00 Fan/DuuUyNisoLoodn 0 0�00 O 514 514 077 Building Totals 37.644 180.00 11.185 55.737 86.922 100.08 Check Figures Total Building Bui|ding Supply Air (based on a22^ TO): 2.178 CFyN Total Building Vent. Air(16.O796 of Supply): 350 CFN1 Total Conditioned Air Space: 1.746 Sq.ft Supply Air Per Unit Area: 1,2472 CFN1/Sq.ft Area Per Cooling Capacity: 313A Sq.frTon Cooling Capacity Per Area: O�0032 Tons/Sq.h Heating Capacity Per Area: 21,58 Otuh/Gq.ft Total Heating Required With Outside Air: 37.644 Btuh Total Cooling Required With Outside Air: 5.58 Tons Kbnday, November 19,208, 1217PM PERMIT COORD COPY PLAN REVIEW/ROUTM G SLIP PERMIT NUMBER: M19-0143 DATE: 08/27/19 PROJECT NAME: TRU BY HILTON SITE ADDRESS: 395 CORPORATE DR S X Original Plan Submittal Revision # before Permit Issued Response to Correction Letter # Revision # after Permit Issued DEPARTMENTS: NO (149\ Building Division Public Works r Fire Prevention Structural iv* Planning Division Permit Coordinator PRELIMINARY REVIEW: Not Applicable (no approval/review required) DATE: 08/29/19 Structural Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved Corrections Required (corrections entered in Reviews) Approved with Conditions Denied (ie: Zoning Issues) DUE DATE: 09/26/19 Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg El Fire E] Ping PW 0 Staff Initials: 12/18/2013 )tabor & Industries (hit,siiini.wa,crwi ontractors COWDREY MECHANICAL SYSTEMS LLC Owner or tradesperson Principals COWDREY, MICHAEL JOSEPH, PARTNER/MEMBER COWDREY, MINDIE RAE, PARTNER/MEMBER Doing business as COWDREY MECHANICAL SYSTEMS LLC WA UBI No 603 236 165 10406 NE 107th Street VANCOUVER, WA 98662 360-953-0201 CLARK County Business type Limited Liability Company Governing persons MINDIE RAE COWDREY MIKE JOSEPH COWDREY; 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, COWDRMS8820K Effective — expiration 09/12/2012— 09/12/2020 Bond Western Surety Co Bond account no 63795200 Received by L&I 10/29/2018 $12,000.00 Effective date 09/11/2018 Expiration date Until Canceled Bond history lnsurance Mid -Century Ins Co $1,000,000.00 Policy no. 606705125 Received by L&I Effective date 06/11/2019 07/01/2019 Expiration date 07/01/2020 Truck Ins Exchange $1,000,000.00 Policy no. 606705128 Received by L&I Effective date 06/11/2019 07/01/2018 1) COMPLETE INSTALLATION OF THE MECHANICAL SYSTEM SHALL BE PER THE MOST CURRENT BUILDING, MECHANICAL, ENERGY, PLUMBING, FIRE AND HEALTH CODES AND REGULATIONS AS ADOPTED BY THE LOCAL JURISDICTIONS. 2) ALL AIR—CONDITIONING UNITS WITHOUT INTERNAL TRAP SHALL HAVE A P—TRAP FOR THE CONDENSATE PAN WITH PLUG TEES FOR CLEANING AND CONDENSATE PIPES SHALL BE DISCHARGED TO EXISTING CONDENSATE WASTE PIPING. VERIFY SIZE AND LOCATION AT SITE. 3) MECHANICAL CONTRACTOR SHALL COORDINATE DIFFUSER LOCATIONS AND DUCT ROUTING CLEARANCES WITH THE STRUCTURAL, REFLECTED CEILING AND LIGHTING PLANS. 4) PLUMBING CONTRACTOR SHALL COORDINATE PLUMBING VENT STACKS WITH THE EQUIPMENT TO MAINTAIN A MINIMUM OF 10 FT. FROM THE OUTSIDE AIR INTAKES. 5) ALL FIRE RATED STRUCTURE SHALL BE FIRE DAMPERED. VERIFY WITH THE ARCHITECTURAL AND INSTALL PER THE LOCAL JURISDICTIONS. 6) ALL AIR DISTRIBUTION OUTLETS SHALL HAVE VOLUME CONTROL DEVICES. 7) ALL VOLUME DAMPERS IN NON —ACCESSIBLE CEILINGS SHALL HAVE A CONTROL ARM EXTENDED TO AN ACCESSIBLE LOCATION ('YOUNG" REGULATORS OR ROTO—TWIST). EXACT LOCATION OF CONTROL DEVICES VISIBLE IN FINISHED SPACES SHALL BE COORDINATED WITH THE ARCHITECT. 8) ALL 90 DEGREE TRUNK DUCT ELBOWS SHALL BE SMOOTH —ROUND OR SQUARE WITH TURNING VANES. 9) MECHANICAL CONTRACTOR SHALL LOCATE AND COORDINATE EXACT LOCATION OF PIPING AND DUCTWORK AND PENETRATIONS WITH THE STRUCTURE. 10) MAXIMUM LENGTH OF FLEXIBLE DUCTS SHALL BE 6' OR AS SHOWN ON DRAWINGS. 11) ALL DUCTWORK, EQUIPMENT AND PIPING SHALL BE SEISMICALLY SUPPORTED PER SMACNA AND LOCAL REGULATIONS. 12) ALL AIR FILTERS SHALL HAVE EFFICIENCY BASED ON THE ASHRAE STANDARD 52-76 (ATMOSPHERIC DUST SPOT). 13) ALL MECHANICAL EQUIPMENT SHALL CONFORM TO SMACNA AND LOCAL REGULATIONS FOR SEISMIC RESTRAINT (INCLUDING PIPING AND DUCTWORK). 14) ALL EQUIPMENT AND ACCESSORIES IN CONCEALED SPACES REQUIRING ACCESS SHALL HAVE ACCESS DOORS. 15) TOTAL SYSTEM SHALL BE WARRANTED FOR ONE YEAR; STARTING FROM THE TIME OF OWNER/ENGINEER'S FINAL ACCEPTANCE. 16) HVAC NOTES: A) PROVIDE FLEXIBLE CONNECTION IN ALL DUCTS CONNECTING TO AIR MOVING EQUIPMENT AS CLOSE TO FAN AS POSSIBLE. FLEXIBLE CONNECTION SHALL CONSIST OF 6" OR MORE OF AIR TIGHT, FIREPROOF FLEXIBLE NEOPRENE COATED WOVEN FIBROUS GLASS MATERIAL. VENT FABRICS, INC. B) ALL DUCTWORK SHALL BE SHEET METAL. SOUND LINED RECTANGULAR SUPPLY AND RETURN DUCTS WITHIN 10 FEET FROM THE UNIT OPENINGS. SOUNDLINING SHALL BE CLOSED CELL ELASTOMERIC. C) ALL SUPPLY AND RETURN FLEXIBLE DUCTS SHALL BE CONSTRUCTED OF DOUBLE LAMINATION OF POLYESTER ENCAPSULATED STEEL WIRE HELIX FOR INNER CORE HIGH DENSITY FIBERGLASS INSULATION AND GRAY POLYESTER FILM WITH SPIRAL REINFORCEMENTS EQUAL TO "ATCO-70 SERIES" (MIN. POS. PRESS. = 6" W.G., NEG. PRESS = 0.75" W.C.). D) PROVIDE LOCKABLE VOLUME DAMPERS IN ALL AIR DISTRIBUTION OUTLETS. E) DUCT HANGERS, SUPPORTS AND METHODS OF INSTALLATION SHALL CONFORM TO ASHRAE AND SMACNA RECOMMENDATIONS. F) DUCT SIZES SHOWN ON PLANS INDICATE INSIDE FREE AREA, G) ALL DUCTWORK SHALL BE CLASS 1 AIR DUCT AS APPROVED BY U.L.-181. H) DUCTS — SHEET METAL DUCTS SHALL BE INSULATED WITH THE INSULATION AND THICKNESSES AS SHOWN HEREIN (REDUCE THE INSULATION THICKNESS BY THERMAL VALUE OF SOUND LINING). 1. SUPPLY AIR DUCTS IN HEATED SPACE; NO INSULATION REQUIRED IF SOUNDUNED, OTHERWISE 1" THICK K = 0.23 ® 75 DEGREES F. 2. SUPPLY AIR DUCTS IN NON —HEATED SPACE; APPROXIMATELY 3" THICK K=0.23 0 75 DEGREES F., TO PROVIDE A MINIMUM THERMAL RESISTANCE VALUE OF MINIMUM R-11. 3. SUPPLY AIR DUCTS OUTSIDE OF BUILDING SAME AS CONDITIONED SPACE EXCEPT WITH WEATHERPROOF BARRIER. 4. RETURN AIR DUCTS; SHALL HAVE SAME INSULATION AS THE SUPPLY AIR DUCTS. 5. EXHAUST AIR DUCTS; NO INSULATION REQUIRED. 6. INDOOR DUCTS HANDLING OUTSIDE AIR SHALL BE CLOSED CELL ELASTOMERIC WITH VAPOR BARRIER JACKET ASJ, 1" THICK, K = 0.23 0 75 DEGREES F. (ALL DUCTWORK FOR THE BUILDING SUPPLY FAN AND OUTSIDE AIR INTAKES TO INDIVIDUAL HEAT PUMPS). 17) THE CONTRACTOR SHALL NOT OPERATE THE EQUIPMENT FOR TEMPORARY HEATING OR VENTILATION DURING THE CONSTRUCTION. (ALL EQUIPMENT SHALL RUN FOR TESTING AND BALANCING PURPOSES ONLY). NOTIFY THE ENGINEER 48 HOURS (MINIMUM) IN ADVANCE TO ARRANGE A FINAL FIELD INSPECTION PRIOR TO COVERING UP THE CEILING. 18) EACH FAN UNIT OVER 2000 CFM SHALL HAVE A DUCT/SMOKE DETECTOR PER 2012 IMC 606 IN RETURN DUCTS AS REQUIRED BY THE JURISDICTIONS. UNIT SHALL SHUT DOWN UPON SMOKE DETECTION (COORDINATE WITH FIRE ALARM CONSULTANT/CONTRACTOR PRIOR TO BIDDING/ CONSTRUCTION). 19) CONTRACTOR IS TO BRING UP THE DISCREPANCIES AND ITEMS WHICH ARE NOT SPECIFICALLY CALLED FOR OR SHOWN BUT ARE REQUIRED FOR A COMPLETE MECHANICAL SYSTEM AND AFFECT HIS CONTRACT PRIOR TO ENTERING AND SIGNING THE CONTRACT, AFTER AWARDING THE CONTRACT ALL SUCH ITEMS REQUIRED FOR A COMPLETE SYSTEM READY FOR THE OWNER'S BENEFICIAL USE SHALL BE FURNISHED AND INSTALLED INCLUDING ALL SUCH DISCREPANCY ITEMS MENTIONED ABOVE, AT NO ADDITIONAL COST TO THE OWNER AND PER LOCAL CODES. MANUFACTURER'S RECOMMENDATIONS AND APPLICABLE STANDARDS WITH THE ARCHITECT/ENGINEER'S APPROVAL. 20) ALL EQUIPMENT SUPPLIED FOR THESE SPECIFICATIONS SHALL BE FREE FROM DEFECTS IN MATERIAL, WORKMANSHIP, AND TITLE, AND SHALL BE OF THE KIND AND QUALITY DESCRIBED HEREIN. IF IT APPEARS WITHIN ONE YEAR FROM DATE OF FINAL ACCEPTANCE THAT EQUIPMENT DOES NOT MEET THE WARRANTIES ABOVE, THE CONTRACTOR SHALL IMMEDIATELY CORRECT ANY DEFECT AND SHALL RESTORE THE SYSTEM TO THE ORIGINAL SATISFACTORY CONDITIONS AT HIS EXPENSE. THE FOREGOING WARRANTY IS EXCLUSIVE AND IN UEU OF OTHER WARRANTIES, WHETHER WRITTEN, ORAL, IMPLIED OR STATUTORY. NO WARRANTY OF MERCHANT ABILITY OF FITNESS FOR PURPOSE SHALL APPLY. (THE WARRANTY SHALL START FROM THE TIME OF ARCHITECT/ENGINEER'S FINAL ACCEPTANCE.) 21) ENTIRE INSTALLATION OF ALL EQUIPMENT, CONTROL, PIPING, DUCTWORK AND RELATED ACCESSORIES SHALL BE PER BASIC OWNERS' STANDARDS. MECHANICAL CONTRACTOR IS TO FAMILIARIZE HIMSELF WITH THESE STANDARDS. 22) MECHANICAL CONTRACTOR SHALL VISIT THE SITE AND VERIFY THE ROUTING AND INSTALLATION FEASIBILITY OF ALL EQUIPMENT, PIPING AND DUCTWORK PRIOR TO SUBMITTING HIS BID AND INCLUDE IN HIS BID ADDITIONAL PIPING, DUCTWORK, FITTINGS, OFFSETS, ETC. WHICH MIGHT BE REQUIRED FOR A COMPLETE SYSTEM READY FOR OWNER'S BENEFICIAL USE. 23) COORDINATE THE CONSTRUCTION SCHEDULE WITH THE ARCHITECT AND PERFORM ALL REQUIRED WORK IN STRICT ACCORDANCE WITH THE OWNER'S SCHEDULE. 24) MECHANICAL CONTRACTOR SHALL PAY FOR AND OBTAIN ALL REQUIRED PERMITS AND CERTIFICATES REQUIRED BY THE AUTHORITIES HAVING JURISDICTION. 25) ADJUST ALL EQUIPMENT AND PERFORM A COMPLETE AIR —BALANCING AND PUT ALL MECHANICAL SYSTEMS IN OPERATION AND SUBMIT MINIMUM 4 COPIES OF BALANCING REPORTS TO THE OWNER/ARCHITECT. INSTRUCTION TO BIDDERS: 1) VERIFY WITH THE GENERAL CONTRACTOR FOR FIRE ALARM (SMOKE/FIRE DAMPERS, ETC.) PRIOR TO BIDDING. 2) CONTRACTOR TO VERIFY ALL OWNER FURNISHED AND OWNER INSTALLED EQUIPMENT. 3) CONTRACTOR TO VERIFY AND EXCLUDE IN THE BID ALL EQUIPMENT AND INSTALLATION BY ALL BIDDER DESIGNED SUB —CONTRACTORS (I.E. FIRE SPRINKLER SYSTEM, ETC) 4) CONTRACTOR TO PROVIDE AN "ADD" IN THE BID FOR RTU-2 (1007. OSA UNIT) TO HAVE COOLING. BASIS OF DESIGN SHALL BE MON RN SERIES, HORIZONTAL DISCHARGE, GAS HEAT, DX COOLING, SPRING ROOF CURB, MERV 8 FILTERS, VFD MOTOR AND CONTROLLER. ALL REQUIRED INTERFACES WITH SMOKE CONTROL PANEL. 5) CONTRACTOR TO PROVIDE A "DEDUCT" FOR GUEST ROOM WIRELESS WALL MOUNTED THERMOSTATS. THE DEFAULT SHALL BE HARD WIRED THERMOSTATS. VOLTAGE 208 208 208 208 208 208 208 208 208 208 208 208 PHASE 1 1 1 1 1 1 1 1 i 1 1 1 11 1 YMEK)HT OMB 69 153 186 450 106 214 62 100 22 1 119 1 69 1153 REMARKS: 1 2 4 7 3 4 6 1 2 4 7 3 4 6 1 2 4 7 8 3 4 6 1 2 4 7 8 3 4 6 (1)(3) (2)(3) 1 2 4 7 3 4 6 (1) "KW" RATED AS LISTED BY THE MANUFACTURER. SEE SPEC FOR ALTERNATE ACCEPTABLE MANUFACTURERS. ACCEPTABLE MANUFACTURERS: DAIKIN, (2) INSTALL UNIT AS SHOWN AND AS RECOMMENDED BY THE MANUFACTURER AND IN COMPLIANCE WITH LOCAL CODES. (3) R410A REFRIGERANT, COMPRESSOR SHORT CYCLE PROTECTOR, HIGH/LOW PRESS. SWITCH, DEFROST CONTROL, FILTER DRIER AND LIQUID SOLENOID VALVE, THERMOSTATIC EXPANSION VALVE, SINGLE POINT ELECTRICAL CONNECTION CONSULT MANUFACTURER FOR ACCESSORIES REQUIRED DUE TO LOCATION OF INDOOR/OUTDOOR UNITS. (4) EACH INDOOR/OUTDOOR UNIT SHALL HAVE THE STATE ENERGY CODE APPROVED CERTIFICATIONS IN ORDER TO MEET THE REQUIRED ENERGY RATINGS, TESTS & CERTIFICATIONS AS COMBINED UNITS. (6) INCLUDE HARD WIRED CONTROLLER OR 7—DAY PROGRAMMABLE THERMOSTAT, UNIT HUN FROM STRUCTURE WITH ALL THREAD ROD AND SPRING ISOLATORS. INCLUDE CONDENSATE SWITCH FOR SECONDARY CONDENSATE REQUIREMENT, FILTER BOX W/1" PLEATED FILTERS (MERV 8). (7) ECONOMIZER EXCEPTION C403.3, EXCEPTON 1. (8) INCLUDE FILTER BOX ACCESSORY AND MERV 8 FILTER. NOTE: CONTRACTOR SHALL USE REFRIGERANT LONG LINE GUIDE FOR PIPE SIZING PER MANUFACTURER WHEN LINES EXCEED 50 FT IN LENGTH. VERIFY WITH MFG FOR EXACT SIZES. SPLIT SYSTEM (1) "KW" RATED AS LISTED BY THE MANUFACTURER. SEE SPEC FOR ALTERNATE ACCEPTABLE MANUFACTURERS. ACCEPTABLE MANUFACTURERS: DAIKIN, (2) INSTALL UNIT AS SHOWN AND AS RECOMMENDED BY THE MANUFACTURER AND IN COMPLIANCE WITH LOCAL CODES. (3) R410A REFRIGERANT, COMPRESSOR SHORT CYCLE PROTECTOR, HIGH/LOW PRESS. SWITCH, DEFROST CONTROL, FILTER DRIER AND LIQUID SOLENOID VALVE, THERMOSTATIC EXPANSION VALVE, SINGLE POINT ELECTRICAL CONNECTION CONSULT MANUFACTURER FOR ACCESSORIES REQUIRED DUE TO LOCATION OF INDOOR/OUTDOOR UNITS. (4) EACH INDOOR/OUTDOOR UNIT SHALL HAVE THE STATE ENERGY CODE APPROVED CERTIFICATIONS IN ORDER TO MEET THE REQUIRED ENERGY RATINGS, TESTS & CERTIFICATIONS AS COMBINED UNITS. (6) INCLUDE HARD WIRED CONTROLLER OR 7—DAY PROGRAMMABLE THERMOSTAT, UNIT HUN FROM STRUCTURE WITH ALL THREAD ROD AND SPRING ISOLATORS. INCLUDE CONDENSATE SWITCH FOR SECONDARY CONDENSATE REQUIREMENT, FILTER BOX W/1" PLEATED FILTERS (MERV 8). (7) ECONOMIZER EXCEPTION C403.3, EXCEPTON 1. NOTE: CONTRACTOR SHALL USE REFRIGERANT LONG LINE GUIDE FOR PIPE SIZING PER MANUFACTURER WHEN LINES EXCEED 50 FT IN LENGTH. VERIFY WITH MFG FOR EXACT SIZES. PACKAGED THROUGH WALL HEAT PUMP SCHEDULE DESIGNATION: PTHP-1 ZONE: GUEST ROOM MANUFACTURER: AMANA MODEL PTH073G UNIT: WALL MOUNTED COOLING • ARI (MBH): 7600 EE.R: 12.0 HEATING • ARI (MBH)r 6800 CFM HI/LO: 290 MIN. OSA CFM -- AUALLARY HEAT (KW): 2.1 MCA/MOCP 14/15 VOLTAGE 208 PHASE: 1 -RECEPTACLE: ----- WEK3iT (LBS): 112 REMARKS (1)(2) (1) WITH ALUMINUM ARCHITECTURAL OUTDOOR GRILLE, WALL SLEEVE, COMPLETE WITH ROOM CABINET, SUB —BASE KIT, POWER DISCONNECT SWITCH, INSTALL KIT, CASING, CHASSIS, CONDENSATE DRAIN KIT, AMANA OCCUPANCY SENSOR ACCESSORY, LOW VOLTAGE WIRE HARNESS, PLUG—IN PIG TAIL,HARD WIRE KIT, LEVELING LEGS, AND REMOTE THERMOSTAT CONTROL (AMANA OR EQUAL)(COORD. WITH ELEC'L). COORDINATE AVAILABLE UNIT GRILLE COLORS WITH ARCHITECT AND OWNER. (2) DRAIN KIT TO BE USED FOR CONCEALED CONDENSATE PIPING & DISCHARGE TO PLUMBING DRAIN RISER. DESIGN CODES: ALL CODES WITH WASHINGTON STATE AMENDMENTS 2015 WASHINGTON STATE ENERGY CODE 2015 INTERNATIONAL MECHANICAL CODE 2015 UNIFORM PLUMBING CODE 2015 INTERNATIONAL FIRE CODE DUCTWORK W/ TURNING VANE AND • VOLUMEDAMPER ©� SMOKE DAMPER CEILING RADIATION FIRE DAMPER ROUND Mr_34=�� SQUARE CEILING DIFFUSER W0161 g 10121A MOTORIZED DAMPER -�ABOVE FINISHED FLOOR "••- PLAN INDEX M1.0 GENERAL NOTES, SCHEDULE AND LEGEND M1.1 GENERAL NOTES, SCHEDULE AND LEGEND M2.0 LEVEL 1 & 2 FLOOR PLAN — HVAC M3.0 LEVEL 3 & 4 FLOOR PLAN — HVAC M4.0 LEVEL 5 & ROOF FLOOR PLAN — HVAC M5.0 MECHANICAL DETAILS VA FILE G 1- Y Permit of Pfan review approva +s SUGtect to errorS an' omissions Appra•ra: or InIsuucnan 00cantems rues 1Cr au1nD�,z2 zr,f 'l.or. 35 an, 111,Ved COOF o' iro.nance Re c aocrovP . e!c C Y at!d F OR IANCE D�ila SION PECEIVEn CI:Y OF- UlK ILA AUG 27 2019 PERMIT CENTER M1q,-,01q3 �M1.0 /1REAS SHALL HAVE CABLE DAMPER, RADIAL DAMPER 12X12 LVR AbJUST' THRU FACE OF I 3)8"4 DRYER VENTS ABOSSEIN ZIFUSER OR ALDES CARII €TH WALL CAP 22 �22 COMBUSTION AIR/ EUP CKDRAFT DAMPER , j �AIRLVR W/BIRDSCREEN, I LOCK ENGINEERING AUTO DAMPERS (NO OBD'S) { 1 �y W� VERIFY VENT MO ORIZED DAMPER WITH D R. --------- VESTIBULE .: s _- . _ LLC lit 8 LVR 1'` s 100 i 1 �' _ . MECHANICAL - ELECTRICAL (� 1 x .. W _ _ _...a - FF! T_- .. C Cl�'IL - LEID -STRUCTURAL " _ 12 0�� r„,IIg-"3:,..�.-,.. IHP- FIRE PROTECTION KEYED PLAN NOTES: -M714)F' ! I 1OCFM _11 i i = L „ 66 F j 18465 NE 68TH ST. ]4'4 1250CFM L_ OCFMA' 'ti 1,, 4 OA DUCTWORK SHALL BE FABRICATED AND SUPPORTED PER SMACNA; 24x24 $"0 T �' \ i I 1' t L♦ C 21�`FM `,, a Cr lI# L 1 g gg L_77:1 SUITE 200 LATEST EDITION OF DUCT CONSTRUCTION STANDARDS. C 80 o- _.- -- CFM i I (3 ' i fl D T„<, " i I TYY r I �SsI 4 REDMOND, WA 98052 [_I1 (8"� " I .": ci R " A DR`ff __., E 1H 119 ' OFFICE: 425 462-9441 € � 1 CFM 6"0 E - e 7 s.. ) f, _« E- I 30CFM€€ ( ) 20CFM i 24x10 1 0 a - -•- Q ( x } I �� _� 0 ` FAX: (425) 462-9451 7, f - B FlD( DUCT MAXIMUM 6 FT. (TYPICAL) F x O _� � � y)� - � ` I p �K ,£ - " U -. C DUCTWORK WITH 1" R-5 INSULATION FOR SUPPLY AND - -`-`- _ 6 O E o RETURN DUCTS (TYP). E g"� K 8 i --_ �i _. _ _ ; ! ® -.. E i c 0 8"� - 4 0 3 4 \ F ,� _- OCFMi ti 4oX2o UP I ' E4 (.,.,dd 0 m-� �'� CServi a®abossein.com 100CFM P o F 18X10 UP t 1.6N :I� ,I @ 7-DAY PROGRAMMABLE THERMOSTAT WITH TAMPERPROOF IHP 40CI �A " u "=! ' - !' a 1 `F' A „ , . _ . w _- _ :T: E WEBSITE: �, I: -�� [" . www.abossein.com FEATURES. 8 20CFM ® b i 210CFM 1 C 21DCFM r8"� I [ 1 }j' 185:FH E 5 4"0 ® / } a 20X3 , (1 4"0 I EO FLEXIBLE CONNECTION. VENTFABRICS OR EQUAL (TYP).lyxlu F - W : € a a 8"�85C _ 0 1400CFM 20X36 a L..2"s, ( - 18X1O G.2 g' 0 14 10 I _., _,_. __ _-..(500._GFM,.CORRU)OR FO 1" SOUNDLINING ON SUPPLY AND RETURN FOR FIRST 10FT OF D. F J.- 1fl�� 8"0 6OCFM �T� 4� DUCTWORK. f 24X24 I i �� OG FAN COIL UNIT HUNG FROM STRUCTURE WITH ALL THREAD �," _.. - a mow. _ ,j-1 ig f STAIR w. fi N �. a 0._ a; 1 1' 31it D:.,. AmIIEI 7 I �i • 24XTZ : c :k' . ROD, UNI-STRUT AND SPRING VIBRATION ISOLATORS. SEE 24X METAL' a' 40 -_ n I) 3KW WALL H ..._ ` LINE6~S�;FT (ABOVE „ 740CFM . - a 155CFM1 OHW INTEGRAL COLIN `" ... .. x • i _ ' SHEET METAL LINED SHAFT UP TO ROOF WITH ROOF CAP AND / I 24z12 8 0 O F ( 6"� a (\�' �e �j} 15S iOII ' t000C� pm EF HP KW WALL HTR 0� pFC 1aso4 BIRD SCREEN. T'STAT BY ELECL `"�' """"`"�'I'AOCFM �- "�.: y( `�._./ t I 1 f, e ®I _.... 4 INTEGRAL siE ., I � 1 ; 24)T12 3 � ["°< 3 i � 210CFM / �AI�I4LEtA 70CFM 60CFhM (J m r STAT..(BY ELEC'L) Oj THERMOSTATICALLY CONTROLLED DAMPER (JACKSON SYSTEMS OR EQUAL). „x gKf`� �,0 8"4 # IHP m� Cox >ON1 to 6"� _ «�,� J 30X36 EGG CRATE ALUM. 5000 CFM SMOKE EXHAUST MODE g ! I1wt€70CF 8"4 --.' :, Q ( )( ) rt K ZONE° I CE 10"4 _ i I IRE 120CFM� , .< �. ...' Cad-=".�. .a waa.,..._ '� I ! "�..,. t L ! I �`F S E 3 i GCIAIRO I. I VESTIBULE �. - < -' t7 -- 0"m eI ( � - co 155CFM " " i EF Ri3C1M .3000 16 21 a z- a...._ - F _ a L.Em E �A E �r _ G ( 3 11tWW HTR _1 x14 LVR 8 t i j j jjij I MT WjBuD T'STAT (BY ELEC') 3"0 PVC VENT AND 1.4 COMB AIR. TERMINATE FLUE 1-4 j I FT ABOVE DOOR -_ ______o • -- • WITH CONCENTRIC VENT E-- WI I a � w H o x 0 x o I is 2 3 4 5 6 7 8 � It? I I i2 I3 l4 i4a 15 � � EVEL 1 1F LAN - HV C - - ----- --- - --- -- �----- I ------------- I ---------- I - ------ I ----------- I ----- - i---------- I --------- % S ALE: 1 8" = 1'-0" y r - I- - - - I- - - I - - i- _ -f - F - NOTE: #71tAi10Nt FOR... - - - E - - - - - - I- - --- - - - -------------- {----- - T - A -r---_--_-_------NORTH � O - GUEST ROOMS SHALLIBE j I a VIA VENTILATION DOOR ON 1 i i i A i ( i I PTAC UNITS (60 CFM) VERIFY j TTHH i TH i i I O i I i i j I DOORS ARE IN OPEN POSITION. -- i TH I U I - - ---- - _ _ - - - - --- - - L _ _. - _ _ _ i _A _ _ _ - i- a-_ ?....._ 1 1 _-------------_-_----------_..._._.__._-__ a� arm- - - - - --- - I- - - ----- 6 � - _ - ` -- -j------_-_---_ I LVR `I I ._ TH C13 CJ -/ I \-/ i 1 lI l i j V- 1_ X8 6"0 \ I - ♦ v /�� I®%��_.-„ i THERMOSTATS j I 11 I 1 - i C I' 1-It� 3�I. .I _. _ " i iI � 4` I rSFI�'dedPa €s 6EE KING ING X-WIDE KING DBL, QUEEN/ 43L, QUEEN t KING ELEVATOR 2� 06 I i i I i I KING K1Ai? j i°' ACC. F';,3 _ -1RI I BL. c=.EN ! KING i t !I 1 t I LOBBY ! I I� s'I i zz4 i zzz zzc� �' B E 2ia % E I I z1a'; I �1z 210 % zo II�Jur. /.• 2;a j zoo j KEYED PLAN NOTES:° ...`, .. .. `I _j 2`` '� ..,,I ' ., >,.,y �' A THRU WALL HEAT PUMP IN WALL SLEEVE. OUTSIDE AIR DOOR TO REMAIN OPEN. q - I �.. 1 IS '_. - ! r E/MID _- '..I i 4oX20 UP ITT"g iE i t: 3 -+- _ , OUNR WITH REMOTE T'STAT, HARDWIRED SUB -BASE KIT AND CONDENSATE DRAIN KIT. 0 (TYP i 3iftI Ix n 1, R 18X10 UNIT TO ENERGIZE VIA OCCUPANCY SENSOR OR KEY CARD (VERIFY W/OWNER) (TYPICAL) ' ' U I 1 Ji€t1. g : ;� ;... ", +, e .,`'" t 1 rw k7T; 1,•, _ - I •~~.,,� . e..21 36 ` E%v I (. '' € •'`,,.,~ j I¢ @WALL MOUNTED THERMOSTAT. MOUNT AT 48 AFF IN ADA UNITS. (TYPICAL) I L I3I�,e r• . Ao�:, € I I {„ _.,. _ 1 --- G) 1000CFM-20X36 -- € D ? D - 1400CFM-2 X36 © SHAFT SHALL BE SHEET METAL LINED (TYPICAL) r ' C CitcI iSrx I FE_p I SEE D�gAIL 3500 CFM ORRIDOR j - " _ l (5000 CFM SMOKE I I `' ( I �T€ 24X24 SHEET METAL I I D/M5.01 PRESS. MODE I I is EXHAUST MODE) F° LINED SHAFT ) @ FRONT ACCESS TYPE COMBINATION FIRE SMOKE DAMPER. OVERSIZE SUPPLY GRILLE ------------- Alt"-. ___ W- SPIT __.. P CONCEAL AT P (TYPICAL). -------- _:. \ TO 0 CEAL ACTUATOR COMPARTMENT (TlP ) F d F . / -F L _ _ F __": , I _----- � ' ✓>; � i.,- ! E j ., ✓ _ ( `T j"r' 1 .: I i #' I ', :ti 7 4 `I / I 1 1 I._ _. I ! 1'! ` ' \ I• € I `g n. ;° _, 11� _ ,...> '4"0 (TYP) ry . ....u_ - D Ie. 4a°S.F!tl y- i ! KING X-WIDE / \ I I KING \ I / KII•4G B i KING ' / KING \ KING IIIg:� 1 I �s I % i t I i O. - LIEENd n1 I zzs � �a 1r�..�.€�1 / ! � 1 j �1� i..� _ E13,.. CJi9i:Eli\ , \ % I'? CL1FF.:F _ = J .._ ., �E a , t ♦ F----- --- ----_ -_ ----- _� --- I s TH TH TH TH TH I T , D TH I TH i- j - A ! 1 TH I rH I ' ( I REVIEWED FOR PERMIT SET tE ; TH iH 4 ! CODE COMPLIANCE DATE: 09/10/2018 i APPROVED I Ia ( ) ( ) LEVEL 2 PLAN - HVAC SCALE: 1/8" = 1'-0" 4 ) (5 ) is ) (7 ) (8 ) { (IO } (II ) (I2 JOB N0. 218C i I OCT 2 8 2019 NO. DATE REVISIOD 02-28-2019 SITE LIGHTIN z 03-12-2019 PERMIT I I ! I City of Tukwila RESPONSE I j I I BUILDING DIVISION a 06-28-2019 ELEC ADDEN i I i 07-24-2019 PSE MEETIN( REa 07-30-2019 MECH CHAN( 13 I4 14 I5 4c1ytF�3 :,� CI1 Y Ur 't r•(;ti�.LA AUG 27 2019 PEWAIT CENTER C M 2. NORTH KEYED PLAN NOTES: O THRU WALL HEAT PUMP IN WALL SLEEVE. OUTSIDE AIR DOOR TO REMAIN OPEN. UNIT WITH REMOTE T'STAT, HARDWIRED SUB -BASE KIT AND CONDENSATE DRAIN KIT. UNIT TO ENERGIZE VIA OCCUPANCY SENSOR OR KEY CARD (VERIFY W/OWNER) (TYPICAL) @ WALL MOUNTED THERMOSTAT. MOUNT AT 48" AFF IN ADA UNITS. (TYPICAL) © SHAFT SHALL BE SHEET METAL LINED (TYPICAL) @FRONT ACCESS TYPE COMBINATION FIRE/SMOKE DAMPER. OVERSIZE SUPPLY GRILLE TO CONCEAL ACTUATOR COMPARTMENT (TYPICAL). LEVEL 3 PLAN - HVAC SCALE: 1/8" = 1'-0" I GUEST ROOMS SHALU BE I MT ! TH 1 I VIA VENTILATION DOOO ON j I I j PTAC UNITS (60 CFM). VERIFY 1 j 1 TH- DOOR-S--ARE-4N--OPEN POSITION-— TYPICAL 8X8 LVR 6^0_._ \ 1 I-------- ---------imi I-7—I / MOUE ---------- i, ABOSSEIN 18465 NE 68TH ST. SUITE 200 REDMOND, WA 98052 OFFICE: (425) 462-9441 FAX: (425) 462-9451 EMAIL: CService@abossein.com WEBSITE: www.abossein.com { I I( ( S ". ;.TEEN I �. I / { 1 IGe FLFVATOR j I KEEPING 1 ID BL. GIUEEN I KING ( FTG �••I1tIDE I�3Nc� DBL.(IE,:FEN' �' 1 VlIC1E KING 1 KINwb t Fdll�t� �! Lt}SC3e; � � �Ca X'�IDF EtL.CiIIEEN! I�iNa l �.. I �2�e; I ago a� % I \� !j �1� j a�z10o� I / — Y{� 40 1 �r °7 or j _—__ KEYED PLAN NOTES: \'\ 1\ \,', \'\ T %/ ! \� _._ 1 //�.. E'� e I SEE AIL ®THRU WALL HEAT PUMP IN WALL SLEEVE. OUTSIDE AIR DOOR TO REMAIN OPEN. UNIT WITH REMOTE T'STAT, HARDWIRED SUB -BASE KIT AND CONDENSATE ORAIN KIT. 1ja i " I-E/M'II UNIT TO ENERGIZE VIA OCCUPANCY SENSOR OR KEY CARD (VERIFY W/OWNER) (TYPICAL) ; l i I 40X20 UP I I l�: r.I k j @ WALL MOUNTED THERMOSTAT. MOUNT AT 48" AFF IN ADA UNITS. (TYPICAL) 1- ¢ _ J I \ s a"m (TYP) ; Ig( I I D'UP L 1 I F s•ii EF F '., / _ EF , i , I f IP s €( j t 18X1 n C SHAFT SHALL BE SHEET METAL LINED (TYPICAL) _______---_--__---.m_-_ ,, �`i.._.. _._,._. I r_......_. �, I .,� „� �.�.._..®.m--. _ e n.- - FE-z !rIOR j �E z j ! 1400CFM-2®X36 I E-zj @ FRONT ACCESS TYPE COMBINATION FIRE/SMOKE DAMPER. OVERSIZE SUPPLY GRILLE # I D i ? R SEE DETAIL 1 (3500 CFM (CORRIDOR 1 j TO CONCEAL ACTUATOR COMPARTMENT (TYPICAL). 720CFM 14X14 UP ( D/M5.0 PRESS. MODE) ! { 720CFM 14X14 SF ____________---_ �.. - � 1 _-_-______-- 1 i _F / E_F EE EF .' tl -- 1 P. ' ( s 1 try _ i CL7 ....'°" j1 �e 4"0 (nP) �� I �°� 011 I DBL. QUE: QUEEN , W ��: �.. —uiKING X2-WIDE IDE I1 lM._.I"N--G I UB QUEEN, �.. QUEEN,1 1•; j/WIDE ! i KIN, G. jIIi;• i1 KING j1 ii Ii KING r ,EEN\ D1AL. QUEEN �i WI -DE 8L. O-US, FN// �1-1-1 — �;II 1 _ I W I� g - --------- ------------ __-_®_ L_-_-__------ , 1 I I TH I TH U L TH TH - I mY - - - - ( I —__ _ —_--- j-I------ r---_ _ _ _ j �1 — (___—�___ 1 ___j .�—j---__— _ i i i i i i i 1 A I .n i i E w i PERMIT SET ! 1 I I I I I I 1 I ! TH I TH j TH j TH I I I i 1 I j 1 j TH I 1 DATE: 09/10/2( j I j j j JOB NO. 218C I REVIEWED FOR 01\ CODE COMPLIANCE NO. DATE REVISI I I III! 1 II i I 1 I II I 1 1 APPROVED I ) ( 2 ) ( 3 ) ( 4 ) ( 5 ? ( 6 ) ( 7 ) �5) to I I 12 (!3 i I4 14�15 a (1CT2� 2019 LEVEL 4 PLAN - HVAC SCALE: 1/8" = 1'-0" City of Tukwila BUILDING DIVISION nt Ec' E i V E -0 pA CI s Y Lei' ,i l•:1tdi:.f1 AUG 27 2019 M 3. 0 PERNUT CENTER NORTH 1 A _ _ _ ..�. - - _ N07E .N71LApOt . AIILFOR__.... _ - _ �_�-------------_�_-_------_� __-----}-------I_ - _ _ _ _ _ _�_ _ _ _ _-�- GUEST ROOMS S pLL 8E i -1 - _ _—__ _— _ _ _° _—__� ------ IT ABOSSEIN VIA VENTILATION DOOR ON E i I I I I ( I I I PTAC UNITS (60 FM). VERIFY I TH I TH j I j TH TH DOORS ARE IN OPEN POSITION. 1 ' TH ' ENGINEERING 1 I f t t ,.. I i I P i i TYPICAL _a ..,_._ ., t . _ __ I _ _ _ _ --_ I- - - - _ _ -—__t-____.---- L.L.0 t MECHANICAL - ELECTRICAL ri( _- ..„ - LE®- 51T2UCfURAL L�HER N��DTaB AFF f - �rr IEOLSEiFIRE PROTECTION CAL) 1 _ _ t €� t KEEPING P1TdG / I• I DBL. C UEEN I I"LEVATOR kl I I 18465 NE 68TH ST. I y I ; 606 UBL. tUEEN l I KING ' K€ 1C P4 ace ' " z OF E3Y �® I X-WIDDE ' SUITE 200 ICING I ICa �{-UV1Lil KING L'BL. C$UI EA ' WIDE l r f.TBL . QUEEN KING f I I 4I n I REDMOND, TPA 98052 55 5z2 �2a I �:= s1 I lz stcf` 5oa� au. 500 I € to l I , �_ I-� I, �I x I_j o OFFICE: (425) 462_9441 I 1 I I II I sla r I FAX: (425) 462 9451 W j - 1 _�=1 U 3 �I :., ) I 4oX20 UP t a I - CService®abossein.com KEYED PLAN NOTES. M 1 _ . �- II �: -- ---I f ( j n: i �. ( [ .ICJ t;. •r., ,/ I c� I 7 Y ._.,' !34•0 (TYP) OA THRU WALL HEAT PUMP IN WALL SLEEVE. OUTSIDE AIR DOOR TO REMAIN OPEN.' I „. I y 1ig' I u _ ,,I b I WEBSITE: ! x UNIT WITH REMOTE T'STAT, HARDWIRED SUB -BASE KR AND CONDENSATE DRAIN KIT. �' 9EF i 1, _ d ` I �" 2 36 ' '•" E EF ¢ , ww�v.abossein.com 11 UNIT TO ENERGIZE VIA OCCUPANCY SENSOR OR KEY CARD (VERIFY W/OWNER) (TYPICAL) \ v ... �9 © WALL MOUNTED THERMOSTAT. MOUNT AT 48" AFF IN ADA UNITS. (TYPICAL) FE COT F 1L <".1e$ J 1400CFM-20X36 i 5 �T 9 SEE DETAIL I (3500 CFM ORRIDOR r I D M5.0 PRESS. MO 720CFIA � 14X14 UP / ) t P A _ _ _ _ _ _ _ _ _ uz_ . w.x © SHAFT SHALL BE SHEET METAL LINED (TYPICAL) E 14X14_ ' I Fr m VO4 '�T- TO I Afir { FRONT ACCESS TYPE COMBINATION FIRE/SMOKE DAMPER. OVERSIZE SUPPLY GRILLE_ , °sT ✓' ° ..._1- e Ig# , If CONCEAL ACTUATOR COMPARTMENT (TYPICAL). STlaI( E`- #la rt Ii.. I r tt 2 ..,.It ^r 21ss1 �. i n'.. r ✓ - 'O GI RE :''. Y]L a / ice.,*.°' .�•� ! i�..IYI .' I isz,,.vu i ..... I STE 104 . € / 4 01 (TYP) vJ'bNAL F1� a. I \ / / r BL UTAy ...__._ " KING X-WIDE �: KING KING KINGS WIDE i KIWI KING KING , €# i' ,NG �� DOL.. QUEEtJ � s/�L QUEEN �;� x-vvIDE � ' � BL. OUF�PIq � I 523 1 I j ,;10 617 I 11- I 51 i Q9 I 507 � I L'Q5 ; S03 [5U1 - - - - - - - - - - I I TH I TH ,{ r w i-�,...,,_ .. I TH TH I TH - .. TH _ .eM t-..-.»ltitl - _ '..__ .5; I P I I I TH I TH I I I , I TH I TH I TH � i I i i i 7 i E i I a i a i i la 2 3 4 5 6 7 8 9 IO II 12 !3 I4 I4 15 Q a w � x 0 x o LEVEL 5 PLAN - HVAC W w SCALE: 1/8" = 1'-0" NORTH � �..D _-___-_---I------- I--_-----_ -____ -------- ------- I ----I------- I------- I------- I--_- I---___..--a-_-------r I _ --_I-_-----4------ 1 . ,._.....n..®... ems. . ...........—... DUCTWORK AND PIPING 24x24 Dow VENT P OHP 0 P ' ROOF CURB, BIRDSCREEy I j SUPPORT SYSTEM SHALL AND C. MOTORIZED (AMP R-�- NOT PENETRATE ROOF FAIL D- ' MEMBRANE. B-LINE ° TYPE. ' I FLEX CO + it r r UNIT MOUNTED I ON STRIP CURB I SEE DETAIL I I I DURA-BLOK OR EQ+L. I i - i RTU ° WITH SPRING a /M5.0 ° , (TYPICAL) , OHP 2 , yy MOUNTED , yl ISOLATORS (TYP) ( I I SEE �ETAIL I 5 ' L ac I ( 1\I ONRSTRIP �URB I 1 ELV A I I WITH SPRIG E E P I A/M510 I P I ' 1 I OLATORS; (TYP) = I �OHP I OHP ® ( ® I ® ( ® I I +�� I GDI- I I1 I ® I P� j° r P E 4OX20 ON 11 I SEF I I I i I I I ( 18X10 DN ! I \\ I I I p ^� 1 f ; f ° �„✓ ° I i tea+ ° - 20X , 1,, NOTE:\ROOFTOP UNITS WA{i SPRING i 1 ; _ _ _ _ _ • LOADED RCOF.C[IRBM IAIUM - - - - - - NTENANCE, NEC Cott ^x 9F 2-9F DEFLECTIONNDER P(2)4'0 DRYER NT' - ! i �D C _ DUCTWORK INTER Y LOADED CONDITIONS. ( ) WITH DRYER R �a r/�-' r \; INSUiA7EF)-WIT�112 -- -- r_ � EET METAL �\ f r i f r E \ �\ �.' f \\ I �•..-......,..,_ ' � F"+-1 �d ...—..... _ ...._... — _ RUST .. _ — _ — _ VENTS ». — ®..m.... ....._._. � \ \ / ,r...._ ..... XIAU 1 E a'm EXHAUST I-__.._.._.._-...._-I--------I----- �i- i € (_ � � � \ OFFSET ON ROOF LBOW i i i i ? 1 1 \\`' /�\I ° 0 ET WITH ELBOW ✓ rr HAUST B. I� a AND CAP. DUCT PPORTB UNDER AN CAP. SUPPORTS � I OOF CURB. HIAND \ VENTING. I I E OUNTE AS REQUIRED \ 1 I II , UNDER VENTING. �_ �__ jj PRESS. FAN INTAKE SHALL BE A PF I O8P 01 I I I I ( I\\ \\\ 4I"0 ! j \j\ I I / EX ST VENTS THR I E1f�1AUST OF 20 FT FROM \\ t RO F CURB. FLASH AND GUARDRAIL OR r 1 i\ 1 f i I ,R�q,}, i CQUNTERFLASH AS REQUIRED SPF \ I 42" PARAPET I - 4}-kf' I I I I ( HP \ \�\ t ��'��' \\ OH �� 1 I I I II I , s a I i f P a f a3 �r I 4 '® I 3 i' GUARDRAL OR 42" PARAPET I I ; THI FAN MOUNTED 8FT VERTICALLY - I 0.4 UIIR MOU I I 40--FT-41ORIZONTALLY-FROM NEAREST I I •• 0 STRIP RBI ' ' 1 I a STRIP CURB a to EXIHHH{��UST I I s t 4 { _ L- SPRING��---`-----__L_-_� _�. -. �_----- ' F 1) ` _ TH SPRI _ ORS __ _ _.EGGCRATE, n....._,..._.._... GRILLE TO MATCH i I F. w SUPPLY OPENING PERMIT SET z_ 1 1 VIEWED FOR DATE: 09 10 26 8 FAN INTAKE L )BE A CjSDE COMPLIANCE JOB NO. / 218042 MINIMUM OF 20 Fr'FROM I I ( I C € \ I I EXHAUST 1 r f f f a APPROVED � N0. DATE REVISION !C' 2 - 2919 --�/�i'� a �------ , City of Tukwila I I ( I I I I I ( I I I I I I I BUILDING DIVISION I I I I I I I I I I I I I I I I �---• I : i^ a . rwww cl`s'Y 6r AUG 2 7 2019 PER,.tIT CENTER M4.0 ROOF PLAN - HVAC SCALE: 1/8" = 1'-0" / NORTH RECTANGULAR ROOF CAP WITH BIRDSCREEN AND CAULKED JOINTS. DIM. SHALL MATCH DUCT SIZE SHOWN ON PLANS. OPTION TO USE GOOSENECK IN —LIEU OF RECTANGULAR ROOF CAP. 26 GA. G.I. FLASHING OVER 4" CONT. CANT STRIP BY ROOFING CONTRACTOR. 16 GA. CHANNEL 12" HIGH X 2" DEEP PLUS WOOD CURB. 12' __A z I ROOFING OOF DECK STRUCTURAL SUPPORTS. REFERENCE STRUCTURAL DRAWINGS. DUCT DOWN TO EXHAUST FAN EXHAUST ROOF JACK DETAIL A W SdNE I 5.0 COMBINATION FIRE SMOKE DAMPER DETAIL C . w."r 5.0 RUSK/NS 3900 Dr. Gmwes Rd. Kansas City, MO 64030 (816) 761-7476 FAX (816) 765-8955 FSD36FA "FRONT ACCESS" COMBINATION FIRE AND SMOKE DAMPER 1Vh HOURUL555 RATED,ULESItS LEAKAGE:CLASS 2 APPLICATION The FSD36FA is a coortanalio, fire/smoke damper that allows Model FSD36FA meets the requ remenls for tie, smoke antl through the 90a access to the damper, actuator and heat acuated combination fire/woke dampers established by: device. i1 can ties equipped with the mduatry's shortest sleeve aW is • Nalional Fire Prolecdon Assodiatmn NFPA Standards idealy suesd forshaft wsll applications The FSD36FA damps, is 90A 92A 92Band 101 mlad for mauounruelmst, of 2,000 fpm, a-(102) sulk ptessure. BOCA Natlonal Building Codes STANDARD CONSTRUCTION ICBO Uniform Building Codes FRAMMLEEVE SBCCI Stand— Building Codes 20 gage (S) galy m1W steel, standard integral sleeve with ICC Inmrnlionel Building Codes front flange for giiee application and integral acuator cabinet. • New York City (BSA Uain N176- SMi Sleeve is supplied with laotory Installed insulation o, (our sides. See page 3 for rammum sleeve requirements. BLADES 6' (152) wide, 16 it.$) gaga gatvanaed steel. Troia V9move UL CLASSIFIED shaped approximately 6' (152) anent Center,. tdS55 Ueflrp R5531. UL5568 Listing R5531 ACTUATOR CABINET Cabint is W ii52} wkb on demos 14' (356) wide antl larger. Cabinat is a (im2 wide on dampers lase Than 14' (366) wide. LINKAGE ¢¢j SEECpMPLFYE FM Appmvsm Concealed in Items. dui PRODUCT SpetS -lien Tested Product BEARINGS (Option) Staimess sami sleeve, pressad into items. JAMB SEALS FEATURES Simimess Bred, gexihw metal —pr—im, we. BLADE SEALS The FS036FA filers: Silicon edge type for smoke east to 450-F (232°C) and galva- EFL (Ekctrio Fuse Link) or PFL (Pneumatic Fuse Link) hear. actuated release tl rail controdeal rather Than instania. nized LU for CLOSURE Seel to C EAT-C). Pe CONTROLLED CLOSURE standard DEVICE1(HEAT-ACTUATED) ago, t e dam though to a the tlanger mope, elor The EFL antl PFL EFL 165'F (74°C) 19 slantlerd 212"F (100•C). 2501F (121•C}. a allow the damper f I ucor reopen altar a test. smoke 350°F (1]7°C)ere opmwris. detectionorpower famelure rs with.1a PFL 165°F (74•C) is standad. 212-F (100`C) or 25ST (141) ere EFL is standard an dampers with preurndd, actuators aptiam • PFL is BbMerd on dampers with greumatw eclmiars. • ER:s may be orderetl on dampers won pneumatic actuators but DAMPER SIZES require an Additional EP switch W be ordered. MINIMUM SIZE 12'w x 8T (305 x 203), 14'w x 8'h (366 x 203) with SP100 or TSiso. ERecons damper size is x 8'h(203x203L a— MAXIMUM SIZEface g,e} W'. x 3Wn (915 a 915). Effective damper size is 301w x 361h (762.916). OPTIONS • FM Appr .0 Spomficadah Tmrted Product. •"' �.�' • LangerelaeYeroTaeinepndona '.. • mrS e150 FUs61m ter reopanable opanuam m dynamic smoke n gemem sm ystes. • me Switch Paekege to mmotety molosta damper blade posF I' j ' I llNghl tun,i I • MCP control panels for teen W Tomes w smoke management EE systems. Mo • More Grille depth iW DBD. NOTES i. Dampers /umnshetl actual size. Z Dimermions shown In parentbases ( ) Indicate nepimeters. \ iHr) STEEL RLE BY pTMERERe Spec FSWBFwllaaeWa<es F9aFN-r�W ALL St4TFO Sh'cisK.argNB 4FlE5eeJERTa CwnxGEw?NOUrxer¢'EOm p9UBAnx. On�p.n ]JOr COMBINATION FIRE/SMOKE DAMPER DETAIL FRONT ACCESS D W 5.0 SHEET METAL ENCLOSURE (HOOD) SHEET METAL SCREW ON BOTH SIDES TO W/ REMOVABLE TOP. CROSS BRFAI(� PROVIDE HINGE TYPE AFFECT OR SLOPE FOR DRAINAGE SHEET METAL OR FLEX -TUBE COLLAR. FUTURE LINE EXTEND HOOD BACK TO SETS SHALL BE ROUTED THROUGH COLLAR AND ALLOW HOOD TO BE OPENED DOWN INTO CONDUIT. PROVIDE 2' SIDES ON HOOD PROVIDE INSULATION IN VOID EXTENDING TO TOP OF CURB 5-PVC CONDUIT, OPEN ENDED, 2X WOOD BLOCKING EXTENDING 6" ABOVE ROOF SURFACE CONTINUOUS FLASHING WOOD CANT ADHERED EPDM FASTENER CONTINUOUS PROVIDE SHEET METAL TO HOLD INSULATION IN PLACE ADHERED EPDM CONDUIT SHALL BE ROUTED IN A STRAIGHT LINE DOWN THROUGH THE ROOF AND INTO THE RETAIL SPACES BELOW. COORDINATE EXACT LOCATIONS IN BUILDING WrrH ARCH. DRAWINGS. ROOF PENETRATION FOR REFRIGERANT LINE SETS B W F 5.0 A [:2 2 L--A to s SECTION AA 1. W.UAwwm bly-71w 1.2kf WjopaurabmVdstedwaI1a bly atNgbeaesb.�d ff.uxImstaaud in Ow mA a spowfiai dr—dbdeal E300, UsWorV400 Sort. Wag Bad P to Design in the I IL Fie Fe. state Dir c ry anddmll irclmtethe following amsmmaion fezhsec A Sleds- WWI Sapesguay mneuloyeilhrcwwds kOf Wlchauml Ste& Wood staW toonhsuof—Iby 4 in.(51 by 102 must 1umWspaai lGm i4061mm)OC.Swelsuaisl be 1 m.i99 )wmdeasdmpecai n4T 24in f610nm)DQ 0. Gypsam Beard•-TmCamces,type, naxnbnoflayers adf stxnasas�n'utluUmdividuallYatlaWPatrtlion Design. Diamef apammsto bemms2 m. i5i any bryr`r dtanOD atskalAmtt(Ibm2) Max dianafalcnad{is 14 ei.056mnb Tee beady F Redagofdks,Saseapsyvsa•iseq sal. Be, b ady Bra rating dithe was —My I. wMeY His busted. 2. Sled DW-Nma12u. (305 mm) diam(a nulla)Nu.2GPup (orhaav 01ptalwomd or loss Bea ph, pas) duaThe dultiball ho wnskuded And aanforwNmamnbn ,wiitSNIACNA Cot 1—lbort"adunb.A.W.sp—bmwucaducl and pvrsipheiyofoponrig,W W mm 0iu_(PYoatoonlaM) tomor2 (11 m), DhottoNIrgbly anppotalon both skksofUc-0 assambh,. 3. FICVMdor( Wty Material•-Saah,at-Min 5f9in(16nan)thuammoffilimslenalgplwdwilmwulus, Rinhwith both auhceaot' wallasaamby.At point onmad Imadoh,min IA m. (6 man) dtumbca3offillmatonal applied Asfoei duWgypsuuboad mambo, on bA earfar—f-IL 3M COMPANY 3M FIRE PRCITECRON PRODUCTS -IC 15WB 1,CP 25WBa aP&3000W T5cda t 'Beamgmhc ULCIa gin Mark Reprinkci ftomthe Online Comfcdims, DiactorywiBf Permission from Lhnk mlmv LaboraoriCs )nc. Copyright 02010 Viodomda. Larboamdaa I-V 3MFireProtectiotiProducts d-7196�IDj7~ `'I I$'%moa3 t6E www,31moom/itrestog DUCTWORK FIRE CAULKING DETAIL E ka - 5.0 REVIEWED FOR CODE COMPLIANCE APPROVED OCT 2 3 2019 City of Tukwila BUILDING DIVISION ABOSSEIN ENGINEERING MECHANICAL — MCTRICAL CAM — LEED — STRUCTURAL FEE PROTECTION 18465 NE 68TH ST. SUITE 200 REDMOND, WA 98052 OFFICE: (425) 462-9441 FAX: (425) 462-9451 EMAIL: CService@abossein.com WEBSITE: www.abossein.com V1 Hi ^W �H F E_ WW x PERMIT SET i F:Erri,YfE:s w AUG 27 2019 M5.0 J W PEFt IT CENTER 0