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Permit M17-0038 - GUITAR CENTER - ROOFTOP PACKAGED GAS PACKS
GUITAR CENTER 240 ANDOVER PARK W M17-0038 Parcel No: Address: City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Inspection Request Line: 206-438-9350 Web site: http://www.TukwilaWA.gov MECHANICAL PERMIT 0223100070 Permit Number: M17-0038 240 ANDOVER PARK W Project Name: GUITAR CENTER Issue Date: 4/20/2017 Permit Expires On: 10/17/2017 Owner: Name: Address: GARFIELD-SOUTHCENTER L L C PO BOX 529 , EUGENE, WA, 97440 Contact Person: Name: PETER CRELLEY Address: PO BOX 33370 , SEATTLE, WA, 98133 Contractor: Name: PRO STAFF MECHANICAL INC Address: PO BOX 33370 , SEATTLE, WA, 98133 License No: PROSTMI072NG Lender: Name: Address: 11/ Phone: (206) 361-0071 Phone: (206) 361-0071 Expiration Date: 7/2/2018 DESCRIPTION OF WORK: REPLACE (3) EXISTING 10 -TON ROOFTOP PACKAGED GAS PACKS WITH NEW Valuation of Work: $41,200.00 Type of Work: REPLACEMENT Fuel type: GAS Fees Collected: $757.16 Electrical Service Provided by: PUGEST SOUND ENERGY Water District: TUKWILA Sewer District: TUKWILA Current Codes adopted by the City of Tukwila: International Building Code Edition: International Residential Code Edition: International Mechanical Code Edition: Uniform Plumbing Code Edition: International Fuel Gas Code: Permit Center Authorized Signature: 2015 2015 2015 2015 2015 National Electrical Code: WA Cities Electrical Code: WAC 296-46B: WA State Energy Code: 2014 2014 2014 2015 Date: 1A-2-0-1 7 I hearby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws r lating construction or the performance of work. I am authorized to sign and obtain this development per n agree to th nditions attached to this permit. Signature: ( Date: `I 17 = / Print Name: )— � �-�=(—Lel 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: ***MECHANICAL PERMIT CONDITIONS*** 2: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431-3670). 3: 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. 4: Manufacturers installation instructions shall be available on the job site at the time of inspection. 5: No changes shall be made to applicable plans and specifications unless prior approval is obtained from the Tukwila Building Division. 6: The attached set of mechanical plans have been reviewed by The Tukwila Fire Marshals Office and are acceptable with the following concerns: 7: H.V.A.C. units rated at greater than 2,000 cfm require auto -shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #2437) 8: H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting the power source of the air -moving equipment upon detection of smoke in the main return -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (IMC 606.1, 606.2.1) 9: Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #2437) 10: Duct smoke detectors shall be capable of being reset from a single point near the alarm panel. (City Ordinance #2437) 11: Duct detectors shall send a supervisory signal only upon activation. (City Ordinance #2437) 12: All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #2437) (IFC 901.2) 13: An electrical permit from the City of Tukwila Building Department Permit Center (206-431-3670) is required for this project. 14: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #2436 and #2437) 15: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 16: These plans were reviewed by Inspector 511. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575-4407. PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (206) 438-9350 1400 FIRE FINAL 1800 MECHANICAL FINAL 0701 ROUGH -IN MECHANICAL 0702 SMOKE DETECTOR TEST CITY OF TUKWILA Comnutnity .Development Department Permit Center 6300 Southcenter Blvd, Suite 100 Tukwila, WA 98188 http://www.TukwilaWA.gov Mechanical Permit No. M 1iOO9'' Project No. Date Application Accepted: (1 Date Application Expires: u 1 (For office use onl ) 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: Z-4° ANT> 0 L/ -it ?A IZ King Co Assessor's Tax No.: O2:23i 0 — 0 7 0 Suite Number: 7-39 Floor: i• Tenant Name: 601TAst_ C Ji r 2 PROPERTY OWNER Company Name:%,' ,,vrF il i cC44 4N 1 C 'L Name: 0 fr 1 r=121..fZ.As. Lf_y-• Name: c Ai -F'r (.42-5 N; 2) LLC . Contr Reg No.:, f,MT'J7bN (a Exp Date: 7/212..m Address: 0 .0 x s-2.9 Pho�e04)36%- 007 F (4'L�=,61_,Oi2.i City: Eft) C11= isi... State: O2 • Zip 4'jt o CONTACT PERSON — person receiving all project communication Company Name:%,' ,,vrF il i cC44 4N 1 C 'L Name: 0 fr 1 r=121..fZ.As. Lf_y-• City: sr, A ; t. State: A Zip:9 0` 33 Address: Jr -.3„33370 Contr Reg No.:, f,MT'J7bN (a Exp Date: 7/212..m City:s F A i 71.. ` State: /A Zip 7 Jj 3 Pho�e04)36%- 007 F (4'L�=,61_,Oi2.i Em((ai1:el ra-g- e.?K-d—S"�Ac-1" tcHA•N 1cA1._t"A re New Tenant: ❑ Yes X..No MECHANICAL CONTRACTOR INFORMATION Company Name:%,' ,,vrF il i cC44 4N 1 C 'L Address:Q x 3 3_570 , City: sr, A ; t. State: A Zip:9 0` 33 rii.61:‘,)3e,)— 0071F72,00361—ort-Ni Contr Reg No.:, f,MT'J7bN (a Exp Date: 7/212..m Tukwila Business License No.:13U5 — 0 r1 `i _3s,.., S� 7 f Valuation of project (contractor's bid price): $ I, 2-00, Describe the scope of work in detail: • g en -ACE. 1141.F_r 1=)( sTlN( )0 —10/4 R-00FTor' PAci<%1-e,G,7 W n-» 1`4G ii/ _ " LIrD2 e74S 1'1E-Gtc s Use: Residential: New ❑ Replacement ❑ ' Commercial: New ❑ Replacement Fuel Type: Electric % Gas. Other: H:\Applications\Pomrs-Applications On Line12016 Applicationsl[vlechanical Permit Application Revised 1-4-16.doat Revised: January 2016 bh Page 1 of 2 Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <IOOk btu Residential, Nighttime Furnace >100k btu Industrial Floor furnace 55 dB(A) Suspended/wall/floor mounted heater 57 dB(A) Appliance vent Commercial Repair or addition to heat/refrig/cooling system 47 dB(A) Air handling unit 65 dB(A) <10,000 cfin 60 dB(A) Unit Type Qty Air handling unit Residential, Nighttime >10,000 cfin Industrial Evaporator cooler 55 dB(A) Ventilation fan connected to single duct 57 dB(A) Ventilation system Commercial Hood and duct 47 dB(A) Incinerator — domestic 65 dB(A) Incinerator — comm/industrial 60 dB(A) Unit Type Qty Fire damper Diffuser Thermostat Wood/gas stove Emergency generator Other mechanical equipment Boiler/Compressor Qty 0-3 hp/100,000 btu 3-15 hp/500,000 btu 15-30 hp/1,000,000 btu 30-50 hp/1,750,000 btu 50+ hp/1,750,000 btu Noise: Mechanical units need to be in compliance with the Tukwila Noise Code. Maximum permissible sound levels are based on from where the sound is created and where the sound is heard. Additionally, if sound can be heard from within a house at night in a residential zone it may not be allowed. For more details, see TMC 8.22 *Daytim 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) A few sounds are exempt from the noise code, including: • Warning devices; • Construction and property maintenance during the daytime hours (7am-10pm); • 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 STATE OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OW R i;- _ UTHORWEI 4GENT: Signature: �" Print Name: a 1 Z L. -jt 5_ LVL Mailing Address: 0. I 0,, 337O 11:'Applications \Forms -Applications On Line\2016 Applications\Mechanical Permit Application Revised 1-4-16.docx Revised: January 2016 bh -3 / 6=A Date: Day Telephone: 7i-0G—.../—c7:7/ Ll/- 9 �'.7I 33 State Zip Page 2 of 2 cAiiu= City Cash Register Receipt City of Tukwila Receipt Number R11097 DESCRIPTIONS PermitTRAK I ACCOUNT QUANTITY PAID $884.18 EL17-0207 Address: 240 ANDOVER PARK W Apn: 0223100070 $127.02 ELECTRICAL $120.97 PERMIT FEE MULTI-FAM/COMM 1 R000.322.101.00.00 0.00 $120.97 TECHNOLOGY FEE $6.05 TECHNOLOGY FEE R000.322.900.04.00 0.00 $6.05 M17-0038 Address: 240 ANDOVER PARK W Apn: 0223100070 - $757.16 MECHANICAL $728.04 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $33.15 PERMIT FEE R000.322.100.00.00 0.00 $549.28 PLAN CHECK FEE R000.322.102.00.00 0.00 $145.61 TECHNOLOGY FEE $29.12 TECHNOLOGY FEE TOTAL FEES PAID BY RECEIPT: R11097 R000.322.900.04.00 0.00 $29.12 $884.18 Date Paid: Thursday, March 16, 2017 Paid By: PRO -STAFF MECHANICAL INC Pay Method: CHECK 16145 Printed: Thursday, March 16, 2017 4:17 PM 1 of 1 Cilli sr wefr SYSTEMS INSPECTION RECORD Retain a copy with permit /1117-6°38 INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION \lf< 6300 Southcenter Blvd., #100, Tukwila. WA 98188 Permit Inspection Request Line (206) 438-9350 (206) 431-3670 Project: LJo -54172 eg—mrR Type of Inspection: /Ht//W/O9 F Address: oVV t PARK 0, Date Called: Special Instructions: Date Wanted: a.m 7-0 --, 7 p.m. Requester: kg0/V Phone No: (P D WJ f — 9277 Approved per applicable codes. Corrections required prior to approval. COMMENTS: 40'k Pti 11&M IN MCC-84U/CH! !— OR 14c.h(c x-700-0,4 sijibrr- D/ 0k igcmi 1cf)-1-- 6ThiAt— Inspector: Date: 7`-4 /7 REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit %til-19U3a INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Project: come c! 'kN R Type of Inspection: SiucKC Ac >clZvQ TS Address: 2) 4#126i£/ P'RK W. Date Called: Special Instructions: Date Wanted: 4—c2 --&-i7 a.m. p.in. Requester: XIAI Phone No: 34 / LtR - 4277 Approved per applicable codes. Corrections required prior to approval. COMMENTS: Inspector: Date: REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 11117- 0038 Project: GUI MA cENi EF Type of Inspection: MEC4ii UIG —L FINAL Address: -iib /-i-NQJi Pt i< (rt)I_ Date Called: Special Instructions: -lin ! it ice' Date Wanted: �_gri1'r■ 12-'27-13 • p.m. Requester: KEZVi111 Phone No: In alTailrr.1 ❑ Approved per applicable codes. LJ Corrections required prior to approval. COMMENTS: Inspector: �s Date: 6-27-/7 REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION NUMBER INSPECTION} RECORD Retain a copy with permit F-/6/ PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: �pj,17y Approved �r Type of Ins ection: F4. HI/# -6 - Address: Suite #: N L�L vra,.- , Contact Person: C% ` ietn/l Special Instructions: Sr.(0w/.A Phone No.: 360 -64,-1/-097-- 4,X29 Approved per applicable codes. Corrections required prior to approval. COMMENTS: Sprinklers: Fire Alarm: Hood & Duct: /2-7-14 ' 5 i Z 3 Se_._ ? "r . t_.e 6----i/i 5o, ,) -t" p g Z , Permits: Occupancy Type: Sr.(0w/.A -- f w 5 T) L 6e -7r 0 4- Xiv� vrJ/Ur. (06177.61%1s art" C//v ?7-' r 0 e / ozp eG t - f, .g /97\4e wk t7t- 7? E I Ml z -r cex-.17 / (E3 , t Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: yr �j'4--- Date: wi-o-- Hrs.: 1 $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 T ec anica ummary 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 MECH-SUM — Revised Revised January 2017 Project Information Project Tifle: GUITAR CENTER, TUKWILA Date 3/3/2017 Applicant Information. Provide contact information for individual who can respond to inquiries about compliance form information provided. For Building Dept. Use Company Name: Pro -Staff Mechanical, Inc. Company Address: PO Box 33370 Applicant Name: Peter Crelley Applicant Phone: 206-361-0071 RECEFbED Project Description Briefly describe mechanical systems in the text box provided ❑ Total Bldg Performance (TBP) This path includes all mandatoryrt MECH-SUM, MECH-CHK, and C407 Energy Analysis forms required. ❑ New Building ❑ Building Addition ❑ Tenant ImprovementC S MAR -provisionsperC401.2Option2.'ERMITC tt "C 1. ii No System Changes tJ n Vy r f{ 1. ,� E:011.:13 Design Load Calculations the building heating, cooling or that includes all applicable Load calculation summary ❑ MECH-LOAD-CALC Form Provide design load calculations for all mechanical systems and equipment serving ventilating needs. If a load calculation summary is provided with the permit documents compliance information then the MECH-LOAD-CALC form is not required. Mechanical Schedules forms are not required, tables. Mechanical Plans ❑ MECH-EQ Forms (TBD) indicate location of equipment compliance information. If provided on plans then MECH-EQ however, include on plans all applicable compliance information listed in MECH-EQ Dedicated Outdoor Air System Requirements and High Efficiency VAV Alternate ❑ DOAS is required per C403.6 effective July 1, 2017 (office, retail, education, library All occupied, conditioned areas shall be served by a DOAS that delivers required ventilation not require space conditioning fan operation. Space conditioning fans cycled off when ❑ Ventilation provided via natural ventilation per 2015 IMC in lieu of DOAS (C403.6, ❑ Ventilation and space conditioning provided by a HEVAV system per C403.7 ❑ DOAS included in project, although not required (occupancy not office, retail, education, ❑ DOAS related allowances included in project: ❑ Prescriptive vertical fenestration maximum area allowance increased to 40 conditioned floor area in building served by DOAS. ❑ Exception to air economizer per C403.3 Exception 1, include MECH-ECO and fire station occupancies) air in a manner that does no heating or cooling is required. Exception 1) in lieu of DOAS (C403.6, Exception library or fire station) REVIEWED FOR o(Pe�:4.1�'�,4 with' ' 00°%pf NCE APPROVED 0 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 hpof all fans in HVAC ❑ Y p if yes, provide a seperate MECH-FANSYS fomr for each HVAC system exceeding Refer to Seton C403.2.11 and MECH-FANSYS-DOC for requirements and etc ,t1 `� Al-* 0 4 �U1 r ystem exceeds 5hp. the S iQ,r epbfveTtlj%rs'Sfitil" ons. r D HVAC Hydronic Systems ❑ Hydronic chilled water ❑Water -loop heat pump ply ❑ Hydronic heating water ❑ Geothermal Lib OF L^Jay�o-hydrvnit, systems -- 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, retum, and exhaust fans over 1hp must have FEQ 2 71 and must be selected within 10% of maximum total or static pressure. ❑ C406.6 Dedicated outdoor air system (DOAS) Requires 90% of conditioned floor area to be served by a DOAS per C403.6 that delivers required ventilation air in a manner that does not require space conditioning fan operation. ❑ C406.7 Reduced energy in service water heating Requires 90% of floor area be in occupancy types listed in C406. 7.1 and that 60% of annual hot water energy use be provided by heat pump, waste heat recovery or solar water -heating systems. tv\l'l' 001/6 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 ec apical Summary, pg. 2 Buildings including R2 & R3 over I 3 stories and at R1 MECH-SUM 2015 Washington State Energy Code Compliance Forms for Commercial Revised January 2017 Service Water Heating Systems Equipment Type (s) ❑ Hot water heating tank(s) ❑ Instantaneous Heat exchange from space heat boiler or ❑ Dedicated boiler ❑ P central hot water/steam Distribution Type (s) ❑ Circulation System ❑ On -demand water systems '1 No service Commissioning Commissioning is required for: per C408.2 ❑ Service water heating systems per C408.4 shall be performed for all applicable systems regardless of individual equipment capacity. requirements: of all mechanical space conditioning systems in the building do not exceed 240,000 Btu/h heating. Mechanical systems commissioning not required. water heating system in building does not exceed 200,000 Btu/h. Service water heating not required. Mechanical systems If required, commissioning Exceptions to commissioning ❑ Total output capacity cooling or 300,000 Btu/h ❑ Capacity of largest service systems commissioning Low �iergy and Semi -Heated Spaces (Note 6 and 7) Space Type --.... "'" "�--. Location in Plan(s) Space(s) Serve--------.sgyar,ee Area Served, feet Heating Capacity, Btu/h (Note 4) Cooling Capacity, Btu/h (Note 5) Peak Space Conditioning Capacity, Btu/h-sf,Cf Compliance � Notes ""`� " pro' °" """,s „.. b� ,y" y Note 4 - Provide total installed heating ou put capacity of systems serving Low Energy or Semi -Heated space(s) in btuh. Note 5 - Provide total installed cooling capaci(y..of-sgsiem serving Low Energy space(s) in Btu/h. Not allowed for semi -heated spaces. En er 0 if no cooling. Note 6 - Refer to Section C402.1,.L.LovrEnergy Building. lntalled peak space conditioning capacity, heating or cooling, may not exceed 3.4 Btu/h`sf. Note 7 - Refer to Section --402 1.1.1 and Semi -Heated Space definition in Chapter 2. Total heating output capacity may not exceed 8 Btu/h `sf. Only systems without electric resistance heating and no cooling are eligible for the wall insulation exception under semi -heated. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 1 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Project Title: GUITAR CENTER, TUKWILA Date 3/3/2017 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 C403.1 exception Yes C403.2.1 Load calculations Provide load calculations performed per ASHRAE Std 183 or equivalent, using design parameters per C302 and Appendix C; include load adjustments to account for energy recovery Htg-CIg Load Calc 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 Toads; note exceptions taken Htg-Clg Load Calc Yes 0403.2.3 0403.2.3.2 0403.2.13.1 HVAC equipment performance requirements (efficiency)and 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 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) M 1-3 NA 0405.8 0403.2.14 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 Integral 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 For all HVAC fan systems that provide heating and / or cooling, provide system total nameplate hp in MECH-FANSYS-SUM form NA 0403.2.11.1 Fan power limitation For at 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 0403.2.11.1(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 2 67, or exception taken; indicate these fans are sized so total efficiency is within 15% of the fan maximum total efficiency NA 0403.2.11.4 Group R occupancy exhaust fan efficacy For all exhaust fans < 400 cfm in Group R occupancies, indicate in equipment schedule the fan flow rate and efficacy (cfm/watt), or exception taken; refer to Table 0403.2.11.4 (CE -57) NA C403.2.13 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 C403.2.3 Maximum air cooled chiller capacity For chilled water plants and buildings with > 500 tons of cooling capacity, indicate air-cooled chiller capacity is s 100 tons, or exception taken NA C403.4 Large capacity cooling systems For buildings with >_ 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 0403.4.3.2 Centrifugal fan open -circuit cooling towers For open -circuit centrifugal fan cooling towers with I. 1,100 gpm capacity, indicate cooling towers comply with efficiency requirements for axial fan open circuit cooling towers For single boilers with > 500,000 Btu/h capacity, indicate multi -stage or modulating bumer NA 0403.4.2 0403.4.2.5 Large capacity boiler systems For boiler system (single or multiple) with > 1,000,000 Btu/h capacity, indicate turndown ratio per Table C403.4.2.5 and method (multiple single input boilers, modulating boilers, or combination) NA C403.2.13 Variable flow capacity - pumps For pump motors >_ 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 fumaces with capacity >_ 225,000 Btu/h and all unit heaters, indicate in equipment schedule intermittent ignition or IID, flue or draft damper, and rated jacket loss NA C403.2.4.8 Combustion heating equipment For combustion heating equipment with output capacity > 225,000 Btu/h, indicate modulating or staged combustion control NA C403.2.3.3 Packaged electric heating / cooling equipment Verify all packaged electric equipment with > 6,000 Btu/h cooling capacity and any amount of heating is a heat pump; include in equipment schedules 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 C403.2.4.3 Outdoor supply air, exhaust and relief dampers Indicate locations of OSA intake, and exhaust and relief outlet dampers on plans; indicate whether dampers are Class 1 motorized, or gravity and exception taken (include leakage rating, cfm/sf); refer to HVAC System Controls for additional requirements for OSA dampers Yes 0403.2.4.3 Return air dampers Indicate locations of retum 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) M 1-3 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 Project Title: GUITAR CENTER, TUKWILA Date 3/3/2017 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 C403.2.4.1 Thermostatic controls (thermostats and humidistats) Indicate locations of thermostatic and humidity control devices and the zones they serve on plans, including perimeter system zones 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 C403.2.4.1.1 Heat pump supplementary heat Indicate staged heating operation with compression as the first stage of heating and supplemental heating controlled with outdoor lock -out temperature set to 40°F or less Yes C403.2.4.1.2 Deadband Indicate zone thermostatic controls configured with 5'F minimum deadband for systems that control both heating and cooling M 1-3 NA C403.2.4.1.3 Setpoint overlap restriction (thermostats) If separate heating and cooling systems with separate thermostatic control devices are used to serve a zone, indicate locations of both thermostatic control devices and the zone they serve on plans Indicate a limit switch, mechanical stop or DDC control with programming to prevent simultaneous heating and cooling Yes C403.2.4.2 C403.2.4.2.1 C403.2.4.2.2 Automatic setback and shutdown Indicate zone thermostatic controls configured with required automatic setback and manual override functions, setback temperatures, and control method (automatic time clock or programmable controls); note exceptions taken M 1-3 Yes C403.2.4.2.3 Automatic (optimum) start Indicate system controls that adjust equipment start time required to bring each area served up to design temperature just prior to scheduled occupancy M 1-2 NA C403.2.4.3 Outdoor supply air dampers Indicate automatic controls configured to close OSA damper during unoccupied equipment operation; not including economizer cooling, night flush or IMC required OSA / exhaust NA C403.2.4.3 Stairway and shaft vent dampers Indicate method of activation of stairway and shaft vent dampers (fire alarm or interruption of power) NA C403.2.4.4 Zone isolation controls For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non -simultaneously; indicate controls that allow for independent space conditioning of isolation zones; or exception taken NA C403.2.12 Heating outside a building Indicate occupancy sensing or timer switch controls configured to automatically shut off heating system when area served is unoccupied NA 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 C403.2.4.6 Freeze protection system controls Indicate automatic controls to shut off system when outdoor temperature exceeds 40°F, or conditions protect fluid from freezing NA C403.2.4.9 Group R1 hotel / motel guest rooms For hotels and motels with over 50 guest rooms, indicate automatic controls serving guest rooms that are capable of setback (heating) and set-up (cooling) of temperature setpoint by at least 5°F; indicate control method - activated by room entry or occupancy sensor 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 3 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Project Title: GUITAR CENTER, TUKWILA Date 3/3/2017 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 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 Vent Work Sheet, M-1 If delivered via natural ventilation, identify required elements per IMC including minimum openable area to the outdoors or qualifying adjoining spaces NA 0403.2.6.2 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 C403.2.6.3 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 altemate means provided to automatically reduce OSA when space is partially occupied NA C403.2.6.4 • C403.2.6.4.1 Enclosed loading dock ventilation For enclosed loading docks, indicate ventilation / exhaust system method of activation (gas detection system for CO and NO2, or occupancy sensors), and control method (staged or modulating) NA 0403.2.6.4 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 C403.2.7.2 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 Yes C403.3.1 DX air handler variable cooling control (Under Integrated Economizer) For DX air handlers with economizer and cooling capacity >_ 65,000 Btu/h, indicate number of cooling stages provided and method (multiple compressors and / or variable speed compressors); indicate minimum displacement (capacity reduction) as % of full load M 1-3 + Submittals Indicate control method (cooling capacity controlled in response to space temperature, space temperature controlled by modulating supply airflow, or both) M 1-3 Yes 0403.2.11.5 Fan airflow control For DX air handling units with cooling capacity >_ 65,000 Btu/h and evaporative and chilled water air handling units with fan >_ 0.25 hp, indicate whether system is single zone or multiple zone and related control method (cooling capacity controlled in response to space temperature, space temperature is controlled by modulating supply airflow, or both) M 1-2 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 <_ 66% of full speed drawing <_ 40% of full speed fan power during periods of low cooling or ventilation only M-3 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 5 50% of full speed drawing <_ 30% of full speed fan power during periods of low cooling or ventilation only; or exception taken M 1-3 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 NA C403.2.8.1 C403.2.8.3 Duct construction Indicate on plans that all ductwork is constructed and sealed per IMC For OSA ductwork, also indicate on plans that ductwork meets air leakage requirements per C402.5 and vapor retarder requirements per the IBC Yes 0403.2.8.3 Duct pressure classifications Identify location of low, medium and high pressure ductwork on plans M-3 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 including R2 & R3 over 3 stories and all R1 Project Title: GUITAR CENTER, TUKWILA Date 3/3/2017 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 0403.2.8.1 0403.2.8.2 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 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 0403.2.9 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 0403.2.9.1 Piping insulation exposed to weather Indicate method of protection of pipe insulation from damage / degradation on hydronic piping plans Economizers Yes C403.3 Air economizer required Identify in equipment schedules on plans or in MECH-EQ forms all cooling systems requiring air economizer controls M 1-3 Provide MECH-ECONO form indicating systems utilizing air economizer exceptions, including those with water -side economizer in lieu of air economizer; indicate on plans eligible exception(s) taken and measures to comply with exception(s) Yes 0403.3.1 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 M-3 Yes 0403.3.2 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 M-3 Yes C403.3.3.1 Air economizer capacity Indicate modulating OSA and retum air dampers are configured to provide up to 100% OSA for cooling M 1-3 Yes 0403.3.1 0403.3.3.2 Integrated air economizer Verify mechanical cooling controls are interlocked with air economizer controls so the outside air damper remains in 100% open position when mechanical cooling is also required to meet the cooling load, until the leaving air temperature is < 45°F M 1-3 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 M-3 Yes C403.3.3.3 Air economizer high limit controls Indicate high limit shut-off control method and required high limit per Table C403.3.3.3 M-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 0403.3.4.2 Water economizer maximum pressure drop Indicate pressure drop across precooling coils and heat exchangers in water economizer system do not exceed pressure drop limit Yes 0403.3.1 DX air handling equipment control For DX air handlers with economizer and cooling capacity >_ 65,000 Btu/h, refer to HVAC System Controls for requirements M-3 Yes 0403.2.4.7 DX equipment economizer fault detection and diagnostics For DX air handlers with economizer and cooling capacity 5 54,000 Btu/h, provide a fault detection and diagnostics (FDD) system to monitor economizer system operation and report faults M-1 & 3 Systems Requiring Energy Recovery NA 0403.5.1 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 0403.5.1(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 0403.5.1(1) or (2), indicate exhaust air ER method; or exception taken with supporting calculations Indicate ER rated effectiveness that increases OSA enthalpy by >_ 50% based on delta between OSA and retum air enthalpies at design conditions No 0403.2.7.2 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 CERM calculation) NA 0404.10.4 (under 0404.11) 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 5 36°F No C403.5.2 Energy recovery - For buildings with on-site steam heating systems, indicate condensate water ER steam condensate systems For buildings that use off-site generated steam where condensate is not returned 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 stori Project Title: GUITAR CENTER,TUKWILA Date 3/3/2017 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 >_ 500,000 Btu/hi' 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 No 0403.2.13 C403.4.2.7 Variable flow control - hydronic system pumps For hydronic system pump motors >_ 7.5 hp, indicate method of variable flow control (VSD or equivalent method that requires >_ 30% design wattage at 50% design fluid flow); note exception taken Identify whether hydronic coils have DDC controls and associated manner of pump speed control (differential pressure. zone hydronic demand, etc) NA C403.2.5 C403.4.2.4 Hydropic 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 >_ 3 hp, also indicate controls automatically reduce flow by >_50%. For chilled water systems (a 300,000 Btu/h, pump motor hp a 3 hp) that serve water-cooled unitary air conditioners, indicate VSD or staged pumps in chilled water system and heat rejection loop that reduce pump flow so that one control valve is nearly wide open, or to maintain a minimum differential pressure; or exception taken NA C403.4.2 Boiler sequencing Indicate automatic controls that sequence operation of multiple boilers NA C403.4.6 Hot gas bypass limitation For cooling equipment with hot gas bypass, provide either multiple step unloading or • continuous capacity modulation; indicate bypass capacity per Table C403.4.6 NA 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 0403.2.13.1.1 C403.4.3.1.1 0403.4.3.1.2 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 tumdown Indicate open -circuit cooling towers with multiple pumps or VSD control are designed so all cells can be run in parallel NA 0403.4.2.3.1 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 0403.6.3 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 C406.6 may not utilize exceptions) NA C403.6.1 Energy recovery ventilation with DOAS For all DOAS systems, indicate exhaust air ER method; or exception taken with supporting calculations. Indicate ER rated effectiveness that increases OSA enthalpy by >_ 50% based on delta between OSA and return air enthalpies at design conditions. NA C403.6.2 Heating / cooling system controls with DOAS Indicate equipment associated with the delivery of zone level heating and cooling (fans, hydronic pumps, primary air dampers, etc) are configured to shut off, and central equipment is configured to turn down, when there is no call for heating or cooling in the zone they serve If applying Exception to heating / cooling fans used for air mixing in the space during deadband periods, include fan watts per cfm in equipment schedule 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 6 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stones and all R1 Project Title: GUITAR CENTER, TUKWILA Date 3/3/2017 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 NA C403.4.4.2 Dual duct systems - terminal units For systems with separate warm air and cool air ducts, indicate terminal units are configured to reduce the flow from one duct to minimum before mixing with air from the other duct NA C403.4.1.1 C403.4.1.2 VAV system static pressure sensors - sensors and DDC set points Indicate locations of duct static pressure sensors on plans; include at least one sensor per major duct branch; verify controller setpoint pressure at each sensor is _s 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 C403.3 (without economizer exceptions) NA C403.7, Item 2 Direct digital controls (DDC) Provide DDC controls for all components of system; identify all DDC system input / output control points; indicate capability for trending and graphical display NA C403.7, Item 3 Outdoor airflow measurement and reduction For systems with minimum OSA > 2,500 cfm, indicate outdoor airflow monitoring station that measures OSA intake under all load conditions; indicate control sequence that increases or reduces system OSA cfm based on VAV terminal feedback of ventilation efficiency (per C403.4.4.3 without exceptions) or DCV (per 0403.2.6.2) 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 <_ 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 <_ 90% of the bhp limit per Option 2 equation in Table 0403.2.11.1(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 <_ 66% of peak design air flow or provide supporting documentation for applied exception 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 7 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: GUITAR CENTER, TUKWILA Date 3/3/2017 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 >_ 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 >_ 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 >_ 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 S 20% of total plant capacity, or provide thermal storage sized for <_ 20% of total plant capacity NA C403.7, Item 16 Fault detection and diagnostics Indicate DDC system includes a fault detection and diagnostics (FDD) system configured to monitor operation and provide fault reporting of required parameters for all VAV air handlers and VAV air terminal units in the HPVAV system HVAC Equipment Energy Use Metering NA C409.3.1 HVAC equipment energy use metering For new buildings > 50,000 sf and building additions > 25,000 sf, verify energy use metering of all equipment used to provide space heating and cooling, dehumidification and ventilation will be provided per C409; indicate equipment eligible for exception Documentation and System Specific Requirement To Support Commissioning Yes C408.2 Scope of mechanical systems commissioning Indicate that all mechanical systems, equipment, and controls for which the WSEC requires control functions and / or configuration to perform specific functions are required to be commissioned; M-3 For buildings with _> 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 M 1-3 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; M-3 Include general summary with at a minimum of Items 1 thru 4 of the Cx plan per C408.1.2 including: narrative description of activities, responsibilities of the Cx team, schedule of activities including verification of project close out documentation per C103.6, and conflict of interest plan (if required); M-3 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. M-3 Yes C408.2.2 Air system and hydronic system balancing Indicate in plans that air and fluid flow rates shall be tested and balanced within the tolerances defined in the specifications; indicate systems shall be balanced in a manner to first minimize throttling losses, then adjusted to meet design flow conditions M-3 Yes C408.2.2.1 Air system balancing devices Indicate devices that provide the capability to balance all supply air outlets, zone terminals and air handling equipment requiring system balancing M-3 NA C408.2.2.2 Hydronic system balancing devices Indicate devices that provide the capability to isolate, balance and measure flow across all hydronic equipment requiring system balancing including heating and cooling coils and pumps Yes C408.2.3 Functional performance testing criteria Identify in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing -to -remain systems M-3 Project Close Out Documentation Yes C103.6 Documentation and project close out submittal requirements Indicate in plans that project close out documentation and training of building operations personnel is required for all mechanical components, equipment and systems governed by this code; indicate close out documentation shall include: record documents, O&M manuals, applicable WSEC compliance forms and calculations M-3 Page 1 Commercial Heat Loss and Heat Gain Calculation 3/7/2017 - Report Prepared By: For: Pro -Staff Mechanical PO Box 33370, Seattle RTU -1: Guitar Center 230 Andover Park West Tukwila, WA 98188 R7 -a Design Conditions: Seattle; Latitude: 47; Time 4:00 PM Indoor: Summer temperature: 75 Winter temperature: 72 Relative humidity: 50 Outdoor: Summer temperature: Winter temperature: Summer grains of moisture: Daily temperature range: 84 24 64 22 Building Component Sensible Gain (BTUH) Latent Total Total Gain Heat Gain Heat Loss (BTUH) (BTUH) (BTUH) Floor 1,880 sq.ft. W Wall 1,200 sq.ft. Door 80 sq.ft. Leakage Summer 220 cfm Leakage Winter 380 cfm Ceiling 4,424 sq.ft. PeopleNent 67 people Ventilation 1,034 cfm Infiltration Summer 236.6667 cfm Infiltration Winter 355 cfm Lights 7,000 watts Miscellaneous Whole Building - All Components I� \ FIT i2 A is c..t_ D T L. Le rt L. l iv r-_. A 0 698 7,066 4,356 0 23,810 16,750 10,237 2,343 _ 0 28,280 9,450 102,990 0 0 0 698 0 7,066 0 4,356 0 0 23,810 13,400 30,150 0 10,237 0 2,343 0 0 0 28,280 0 9,450 13,400 116,390 3,110 10,310 4,224 • 0 40,128 38,223 0 54,595 _-0 18,744 0 0 169,334 HVAC -Calc Commercial 4.0 by HVAC Computer Systems Ltd. Load calculations are estimates only, actual loads may vary due to weather and construction differences. 888 736-1101 Page 1 Commercial Heat Loss and Heat Gain Calculation 3/7/2017 Report Prepared By: For: Pro -Staff Mechanical PO Box 33370, Seattle RTU -2: Guitar Center 230 Andover Park West Tukwila, WA 98188 Design Conditions: Seattle; Latitude: 47; Time 4:00 PM Indoor: Summer temperature:- -75 Winter temperature: 72 Relative humidity: 50 Outdoor: Summer temperature: Winter temperature: Summer grains of moisture: Daily temperature range: 84 24 64 22 Building Component Floor 4,945 sq.ft. W Wall 875 sq.ft. N Wall 2,600 sq.ft. Ceiling 4,945 sq.ft. PeopleNent 72 people Ventilation 1,400 cfm Infiltration Summer 180 cfm Infiltration Winter 270 cfm Lights 5,700 watts Miscellaneous Whole Building - All Components • 4 L1-5 f=l�oi� AcDv3 1(5) , rlf'L,C lir?-% O s Sensible Gain (BTUH) 0 509 0 26,614 18,000 13,860 1,782 0 22,740 25,000 108,505 Latent Gain (BTUH) Total Total Heat Gain Heat Loss (BTUH) (BTUH) 0 14,400 0 0 0 0 0 14,400 HVAC -Calc Commercial 4.0 by HVAC Computer Systems Ltd. 0 509 0 26,614 32,400 13,860 1,782 0 22,740 25,000 122,905 Load calculations are estimates only, actual loads may vary due to weather and construction differences. 5,443 7,518 22,339 42,725 0 73, 920 0 14,256 00 166,201 yr 888 736-1101 Page 1 Commercial Heat Loss and Heat Gain Calculation 3/7/2017 Report Prepared By: For: Design Conditions: JZ-10-3 Pro -Staff Mechanical PO Box 33370, Seattle RTU -3: Guitar Center 230 Andover Park West Tukwila, WA 98188 Seattle; Latitude: 47; Time 4:00 PM Indoor: Summer temperature: Winter temperature: Relative humidity: 75 72 50 Outdoor: Summer temperature: 84 Winter temperature: 24 Summer grains of moisture: 64 Daily temperature range: 22 Building Component Sensible Gain (BTUH) Latent Total Total Gain Heat Gain Heat Loss (BTUH) (BTUH) (BTUH) Floor 7,420 sq.ft. W Wall 988 sq.ft. Door 20 sq.ft. Leakage Summer 10 cfm Leakage Winter 20 cfm Ceiling 7,420 sq.ft. PeopleNent 63 people Ventilation 1,364 cfm Infiltration Summer 180 cfm Infiltration Winter 270 cfm Lights 4,000 watts Miscellaneous Whole Building - All Components ?are c.✓5ial4 .KS\i Art5.7\AI,\ 1 SORA IVl►a6, 0 575 59 99 0 39,934 15,750 13,504 1,782 0 16,400 19,550 107,653 0 0 0 575 0 59 0 99 0 0 39,934 28,350 13,504 1,782 0 16,400 19,550 120,253 0 12,600 0 0 0 0 0 12,600 3,110 8,489 317 0 1,056 64,109 0 72,019 0 14,256 0 0 163,356 HVAC -Calc Commercial 4.0 by HVAC Computer Systems Ltd. Load calculations are estimates only, actual loads may vary due to weather and construction differences. 888 736-1101 PRO -STAFF Mechanical Project: Vi R-- E Tel 206.361.0071 Fax 206.361.0424 pro-staffmechanical.com Pro -Staff Mechanical, Inc. 902 North 127th Street PO Box 33370 Seattle, Washington 98133 Date: 3 • S P.c: C A Lc,t4, 7.-joi- 5 t I I (.____ I 1 g-'1:; + RCt.. Az I ;_. 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SALis vi ,E-s -7s ) 6,-.3 A- ' ! pd -2:- (41--2,-9 I ': .. ...... ,..... 1 1 i.. , , . ___: , 1 , 1 ____, ro-TA-L; 1 , 7-7:-. 3 641- C:J.,-- ri - , i .- . 4 --I--- ' I I- „ ! • . . ; ; • I ' • I i -1, • ,._. • • - I I • . ! : f Commercial HVAC Contractors System Design/Installation Sheet Metal Fabrication 24 Hour Emergency Service Preventive Maintenance Contractors License # PROSTMI072NG C V Ii -1-E ' [looL- �I� 1Z(�I-{ 4-Ih i-4��1 PACKAGED GAS ELECTRIC l� 1-3 (ID-TOH) LGH Energence® Rooftop Units • (Iiew 2- u: S 60 HZ Bulletin No. 210555 PRODUCT SPECIFICATIONS November 2016 Supersedes June 2016 ENE RGENCE® Saving Energy with Intelligence' Envm iron" .t. PRODIGY" CONTROL SYSTEM SMARTWIRE" SYSTEM MAR 1 6 2017 PERM SUNSCUI1T Commercial Energy System MSAV o`er [iiini€iitrjj L Connection' V> MULTI-STAGEAIRVOLUME —� N E T \V 0 R K ASHRAE:9.01 ;COMPLIANT; ENERGY STAR 7.5 to 12.5 Tons Net Cooling Capacity - 90,000 to 136,000 Btuh Gas Input Heat Capacity - 130,000 to 240,000 Btuh MODEL NUMBER IDENTIFICATION Brand/Family L = Energence' Unit Type _G = Packaged Gas Heat w/ Electric Cooling Major Design Sequence H = 1st Generation V MN3c1 LGH12O H4'B S.LY T T Voltage APPROVED Y = 208/230V- l phase-60hz 460V-3 ph se-60hz (� J = 575V-3 ph e-60hz APR f� O 4 201 [ REVIEWED FOR CODE COMPLIANCE Nominal Cooling Capacity - Tons 092 = 7.5 Tons 102 = 8.5 Tons 120=10 Tons 150 = 12.5 Tons Cooling Efficiency H = High Efficiency S = Standard Efficiency „ IMinor Design Sequence 1 = 1st Revision 2 = 2nd Revision 3=3rd Revision BUILDING DIVISION City of Tukwila Heating Type S = Standard Gas Heat, 2 Stage M = Medium Gas Heat, 2 Stage H = High Gas Heat, 2 Stage Blower Type B = Belt Drive, Constant Air Volume (CAV) M = MSAV' (Multi -Stage Air Volume) Supply Air Blower Option, Belt Drive Refrigerant Type 4 = R -410A FEATURES AND BENEFITS ......... Unit shown with optional Economizer with Outdoor Air Hoods Lennox' Energence® packaged rooftop unit product line was created to save energy with intelligence by offering some of the highest energy efficiency ratings available with a powerful, easy to use unit controller. This makes Energence® rooftop units perfect for business owners looking for an HVAC product with the lowest total cost of ownership. Energence® rooftop units feature: • Hinged Access Panels - Provide quick access to components and protect panels and roof from damage during servicing. • Isolated Compressor Compartment - Allows performance check during normal compressor operation without disrupting airflow. • Corrosion -Resistant Removable, Reversible Drain Pan - Provides application flexibility, durability and improved serviceability. • Thermostatic Expansion Valves (High Efficiency Models) - Provide peak cooling performance across the entire application range. • Scroll Compressors - Standard on all units for reliable, long-term operation. • Lennox' Environ TM Coil System - Smaller, lighter condenser coil. • Humiditrol® Dehumidification System - Patented system allows for independent control of temperature and humidity, providing enhanced comfort control. Agallyulti-Stage Air Volume) Supply Air Blower Option -Allows multi -staged air delivery. • Auto-Tensioner for Blower Belt - Factory option ensures blower is delivering the proper airflow for comfort, while maximizing efficiency and belt life. • MERV 13 Filters -Available as factory or field option, provide an enhanced level of indoor air quality, and can help the building qualify for additional LEED credits. Foil -Faced Insulation - Insulation on all internal surfaces that have contact with airflow helps minimize airborne fibers and improve IAQ. Common Components - Many maintenance items are standard throughout the entire product line, reducing the need to carry different parts to the job or maintain in inventory. Prodigy® Control System Standard on every Energence® rooftop unit, the Prodigy® 2.0 unit controller is the center of the Prodigy® Control System. The intuitive user interface makes setup, troubleshooting and service easier than ever. Each unit tracks the runtime V of every major component and records the date and time when service or maintenance is performed. SmartWireTM System The SmartWireTM system simplifies field sensor or thermostat installation through advanced connectors that are keyed and color -coded to help prevent miswiring. Not only is the wire coloring scheme standardized across all models, each connection is intuitively labeled to make troubleshooting and servicing quick and easy. Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 2 FEATURES AND BENEFITS CONTENTS Blower Data 31 Dimensions - Accessories 42 Dimensions - Unit 41 Electrical Data 35 Features And Benefits 2 High Altitude Derate 24 Humiditrol® Dehumidification System Ratings 29 Model Number Identification 1 Optional Conventional Temperature Control Systems 38 Options / Accessories 18 Outdoor Sound Data 37 Prodigy® Control System 8 Ratings 25 Sequence Of Operation - MSAV® (Multi -Stage Air Volume) Models 12 Specifications 22 Specifications - Gas Heat 24 Sunsource® Commercial Energy System 15 Unit Clearances 37 Weight Data 40 APPROVALS AHRI Certified to AHRI Standard 340/360-2007. ETL listed. Efficiency ratings are certified by CSA. Components are bonded for grounding to meet safety standards for servicing required by UL, ULC and National and Canadian Electrical Codes. All models areASHRAE 90.1-2010 compliant. MSAV° models meet California Code of Regulations, Title 24 requirements for staged airflow. ISO 9001 Registered Manufacturing Quality System. ENERGY STAR° certified units are designed to use less energy, help save money on utility bills, and help protect the environment. The ENERGY STAR° Partner of the Year Award signifies that Lennox has made outstanding contributions to design energy efficient units that will lower energy bills, while meeting industry standards for comfort and indoor air quality. Lennox was the first HVAC manufacturer to win this award and has been a four -time recipient since 2003. WARRANTY Limited ten years aluminized heat exchanger, limited fifteen years optional stainless steel heat exchanger. Limited five years on compressors. Limited three years on the Lennox' Environ TM Coil System. Limited three years on Prodigy° 2.0 unit controller. Limited five years on Optional High Performance Economizers. Limited one year all other covered components. HEATING SYSTEM 0 Aluminized steel inshot burners, direct spark ignition, electronic flame sensor, combustion air inducer, redundant automatic dual stage gas valve with manual shut- off. Heat Exchanger Tubular construction, aluminized steel, life cycle tested. Optional Stainless Steel Heat Exchanger is required if mixed air temperature is below 45°F. Electronic Pilot Ignition Electronic spark igniter provides positive direct ignition of burners on each operating cycle. The system permits main gas valve to stay open only when the burners are proven to be lit. Should a loss of flame occur, the gas valve closes, shutting off the gas to the burners. Ignition module has LED to indicate status and aid in troubleshooting. Watchguard circuit on module automatically resets ignition controls after one hour of continuous thermostat demand after unit lockout, eliminating nuisance service calls. Ignition control is factory installed in the gas heating compartment. Limit Controls Factory installed, redundant limit controls with fixed temperature setting. Heat limit controls protect heat exchanger and other components from overheating. Safety Switches Flame roll-out switch, flame sensor and combustion air inducer proving switch protect system operation. Required Selections Gas Input Choice - Order one: Standard Gas Heat, 2 Stage (84,500/130,000 Btuh) Medium Gas Heat, 2 Stage (117,000/180,000 Btuh) High Gas Heat, 2 Stage (156,000/240,000 Btuh) Energence Packaged Gas / Electric 7.5 to 12.5 Ton / Page 3 FEATURES AND BENEFITS HEATING SYSTEM (continued) Options/Accessories Factory Installed Stainless Steel Heat Exchanger Required if mixed air temperature is below 45°F. Factory or Field Installed Bottom Gas Piping Kit Allows bottom gas entry. Field installed only, may be factory ordered to ship with unit. Low Temperature Vestibule Heater Electric heater automatically controls minimum temperature in gas burner compartment when temperature is below -40°F. CSA certified to allow operation of unit down to -60°F. Field Installed Combusti• Air Intake Extensio s Recomm nded for use with existing fl a extension kits in areas where high now areas can block intake air. LPG/Propa - Kits Conversion . it to field change over units from atural Gas to LPG/ Propane. Vertical V-nt Extension Kit Use to ex ust flue gases vertically abe unit. Required when unit ven is too close to fresh air intakes per •uilding codes. The vent kit also pr -vents ice formation on intake louv: rs. Kit contains v: nt transition, vent tee, drain cap nd installation hardware. NOTE - Straig't B -Vent) and ca and must be fie to kit instruction information. vent pipes (4 -in. s are not furnished supplied. Refer for additional COOLING SYSTEM Designed to maximize sensible and latent cooling performance at design conditions. System can operate from 0°F to 125°F without any additional controls. R -410A Refrigerant Non -chlorine based, ozone friendly, R -410A. © Scroll Compressors Scroll compressors on all models for high performance, reliability and quiet operation. Resiliently mounted on rubber grommets for quiet operation. Compressor Crankcase Heaters Protects against refrigerant migration that can occur during low ambient operation. Thermal Expansion Valves (High Efficiency Models) Assures optimal performance throughout the application range. Removable element head. Refrigerant Metering Orifice (Standard Efficiency Models) Accurately meters refrigerant in system. Refrigerant control is accomplished by exact sizing of refrigerant metering orifice. Filter/Driers High capacity filter/drier protects the system from dirt and moisture. High Pressure Switches Protects the compressors from overload conditions such as dirty condenser coils, blocked refrigerant flow, or loss of outdoor fan operation. Low Pressure Switches Protects the compressors from low pressure conditions such as low refrigerant charge, or low/no airflow. Freezestats Protects the evaporator coil from damaging ice build-up due to conditions such as low/no airflow, or low refrigerant charge. Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 4 0 Lennox' Environ TM Coil System Condenser coil features lightweight, all aluminum brazed fin construction. Constructed of three components: a flat extrusion tube, fins in- between the flat extrusion tube and two refrigerant manifolds. EnvironTM Coil System Features: • Improved heat transfer performance due to high primary surface area (flat tubes) versus secondary surface (fins). • Smaller internal volume (reduced refrigerant charge). • High durability (all aluminum construction). • Fewer brazed joints. • Compact design (reduces unit weight). • Easy maintenance/cleaning. Face -split design. Mounting brackets with rubber inserts secure coil to unit providing vibration dampening and corrosion protection. Evaporator Coil Copper tube construction, enhanced rippled -edge aluminum fins, flared shoulder tubing connections, silver soldered construction for improved heat transfer. Cross row circuiting with rifled copper tubing optimizes both sensible and latent cooling capacity. Condensate Drain Pan Plastic pan, sloped to meet drainage requirements per ASHRAE 62.1. Side or bottom drain connections. Reversible to allow connection at back of unit. FEATURES AND BENEFITS 0 Outdoor Coil Fan Motors Thermal overload protected, totally enclosed, permanently lubricated ball bearings, shaft up, wire basket mount. Outdoor Coil Fans PVC coated fan guard furnished. Required Selections Cooling Capacity Specify nominal cooling capacity of the unit Options/Accessories Facto I ailed Conve ional Fin/Tube Conde, ser Coil (repla•es Environ TM Coil Syste Copper t► be construction, enhanced .ppled-edge aluminum fins, flared oulder tubing connections silver soldered constructio NOTE - Reuired if Humiditrol° Dehumidifi ation System is ordered. Service alves Fully se iceable brass valves installe + in discharge & liquid lines. Not ava able for units equipped with EnvlconTM Coil System or Humiditro Dehumidification option. Facto or ield Installed Condensa Drain Trap Available i copper or PVC. Field insta ed only, may be factory ordered to ship with unit. Drain Pa ' Overflow Switch Monitors c ndensate level in drain pan, s uts down unit if drain becomes clogged. CABINET 0 Construction Heavy -gauge steel panels and full perimeter heavy -gauge galvanized steel base rail provides structural integrity for transportation, handling, and installation. Base rails have rigging holes. Three sides of the base rail have forklift slots. Raised edges around duct and power entry openings in the bottom of the unit provide additional protection against water entering the building. Airflow Choice Units are shipped in downflow (vertical) configuration, can be field converted to horizontal airflow with optional Horizontal Discharge Kit. Duct Flanges Provided for horizontal duct attachment. Power/Gas Entry Electrical and gas lines can be brought through the unit base or through horizontal access knock- outs Exterior Panels Constructed of heavy -gauge, galvanized steel with a two -layer enamel paint finish. Insulation All panels adjacent to conditioned air are fully insulated with non- hygroscopic fiberglass insulation. Unit base is fully insulated. The insulation also serves as an air seal to the roof curb, eliminating the need to add a seal during installation. 0 Hinged Access Panels Hinged tool -less access panels are provided for the filter section, blower/heating section and compressor/controls section. All hinged panels have seals and quarter -turn latching handles to provide a tight air and water seal. Required Selections Airflow Configuration Specify downflow or horizontal. Options/Accessories Factory or Field Installed Return Air Adaptor Plate For same size LC/LG/LH and TC/ TG/TH unit replacement. Installs on return air opening in unit to match return air opening on existing roof curbs. Also see Accessory Air Resistance table. Factory Installed Corro on Protection A co pletely flexible immersed _- coati g with an electrodeposited dry fil, process. (AST ElectroFin E -Co_.) Meets Mil Spec MIL -P .3084, ASTM B117 Standa d Method Salt Spray Testing Indoor - Coat - Coat - Pain - Pai orrosion Protection: d coil d reheat coil (Humiditrol®) d blower housing ed base Outd•or Corrosion Protection: - Co ted coil - P_inted base Fi:Id Installed C.mbination Coil/Hail Guards H-=vy gauge steel frame painted to .patch cabinet with expanded met mesh to protect the outdoor coil from damage. Horizo tal Discharge Kit Consist- of duct covers to block off down ow supply and return air openi gs for horizontal applicati.. s. Also incl flanges f economi appiicati es return air duct r end return air when er is used in horizontal ns. NOTE - When configuring unit for hori ontal application with econo izer, a separate Horizontal Barom-tric Relief Damper with Hood o ust be ordered separately for installation in the return air duct. Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 5 FEATURES AND BENEFITS BLOWER A wide selection of supply air blower options are available to meet a variety of airflow requirements. 0 Motor Overload protected, equipped with ball bearings. Belt drive motors are offered on all models and are available in several different sizes to maximize air performance. Motor Efficiency All blower motors 5 hp and above meet minimum energy efficiency standards in accordance with the Energy Independence and Security Act (EISA) of 2007. Supply Air Blower Forward curved blades, double inlet, blower wheel is statically and dynamically balanced. Equipped with ball bearings and adjustable pulley (allows speed change). Blower assembly slides out of unit for servicing. Required Selections Select (CAV) &.MSAV® (Multi -Stage Air Volume) Supply Air Blower Option stant Air Volu kv)t. models, air blower will e a constant volu - air. On MSAV° (Multi -Stage Air Volume) supply air blower option models the supply air blower will stage the amount of airflow according to compressor stages, heating demand, ventilation demand or smoke alarm. NOTE - Units with the MSAV° supply air blower option have the same face split indoor coils as units with the CAV supply air blower option. Part load airflow in cooling mode on MSAV° units should not be set below 220 cfm/ nominal full load ton to reduce the risk of evaporator coil freeze-up. 0 Utilizes a Variable Frequency Drive (VFD) to stage the supply air blower airflow. The VFD alters the frequency and voltage of the power supply to the blower to control blower speed. The amount of airflow for each stage can be set according to a parameter in the Prodigy® 2.0 unit controller. Unit is shipped from the factory with preset airflow. The MSAV° supply air blower option can be ordered with or without an Electronic Bypass Control. If equipped with the bypass control the MSAV® features manual (default) or automatic electronic bypass control of the VFD. In case of a VFD malfunction, a VFD alarm is generated by the Prodigy° 2.0 unit controller. The VFD can be manually bypassed to continue unit operation at full blower speed. Or the unit controller can be set to automatically switch to full blower speed if a VFD alarm is generated. The VFD has an operational range of -40 to 125°F outdoor air ambient temperature. Lower operating costs are obtained when the blower is operated on lower speeds. Ordering Information Specify motor horsepower and drive kit number when base unit is ordered. Options/Accessories Facto I stalled Blower Provides p drive blowe for regular a airflow and Auto-Tensioner per tension to belt belt without the need justments. Maintains roper performance. ELECTRICAL SmartWireTM System Advanced wiring connectors are keyed and color -coded to prevent miswiring. Wire coloring scheme is standardized across all models. Each connection is intuitively labeled to make troubleshooting and servicing quick and easy. Electrical Plugs Positive connection electrical plugs are used to connect common accessories or maintenance parts for easy removal or installation. Energence° Packaged Gas / Electric 7.5 to 12.5 Ton / Page 6 Required Selections Voltage Choice Specify when ordering base unit. Options/Accessories Factory Installed C' cuit Breakers HA type. For overloa circuit pr• ection. F mounted in Current se and short ry wired and wer entry panel. and temperature activ- e.. Manual set. PhaseNoltage Detection (Optional for CAV Models Only) Phase detection monitors power supply to assure phase is correct at unit start-up. If phase is incorrect, the unit will not start and an alarm code is reported to the unit controller. Protects unit from being started with incorrect phasing which could lead to issues such as compressors running backwards. Voltage detection monitors power supply voltage to assure proper voltage. If voltage is not correct (over/under voltage conditions) the unit will not start and an - alarm code is reported to the unit controller. NOTE - Phase/voltage detection is furnished when the MSAV® (Multi -Stage Air Volume) option is ordered. Factory or Field Installed 0 Disconnect Switch Accessible from outside of unit, spring loaded weatherproof cover furnished. GFI Service Outlets (2) 115V ground fault circuit interrupter (GFCI) type, non -powered, field - wired. Field Installed GFI Weatherproof Cover Single -gang cover. Heavy-duty UV -resistant polycarbonate case construction. Hinged base cover with gasket. FEATURES AND BENEFITS INDOOR AIR QUALITY 0 Air Filters Disposable 2 -inch filters furnished as standard. Options/Accessories Facto or 'eld Installed Healthy Climat ® High Efficiency Air Filters Disposable MER 8 or MERV 13 (Minimum Efficie cy Reporting Value based on SHRAE 52.2) efficiency 2 -in pleated filters. Healthy Cli ' ate® UVC Germicidal amps Germicidal amps emit ultra -violet (UV -C) ener , which has been proven to be ective in reducing microbes such as viruses, bacteria, yeasts, and mold. This process either destroys the organism or controls its ability to reproduce. ,UV -C energy greatly reduces the growth and prolifdration of mold and other bioaer. sols (bacteria and viruses) on i uminated surfaces (partic larly coil and drain pan). Lamps are field installed in the blower/evapor_r or coil section. All necessary rdware for installation is in luded. Lamps operate:en 208/230V power supply. Step-do'n transformer must be field suyplied when used with 460V and 5' 5V rooftop units. Magnetic safety interlock terminates powpr when access panels are removed. Approved by ETL. Field nstalled Repl. cement Filter Media Kit With rame Repla s existing pleated filter media. I cludes washable metal mesh scr en and metal frame with clip for holding replaceable non - pleated filt r. Indoor Ai Monitors Prodigy® adjusts e needed. Quality (CO2) Sensors 02 levels, reports to the .0 unit controller which onomizer dampers as Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 7 PRODIGY® CONTROL SYSTEM PRODIGY 2.0 UNIT CONTROLLER DDC Compatible Dirty Filter Switch Input Discharge Air Temperature Control Display/Sensor Readout Economizer Control Options - See Economizer / Outdoor Air / Exhaust Options. Fresh Air Tempering Extensive Unit Diagnostics - Over 100 diagnostic and status _ messages in English. Exhaust Fan Control Modes - Fresh air damper position. Permanent Diagnostic Code Storage Field Adjustable Control Parameters - Over 200 different control settings. Indoor Air Quality Input - Demand Control Ventilation ready Low Ambient Controls - Cooling operation down to 0°F. Gas Valve Time Delay Between First and Second Stage Minimum Compressor Run Time Network Capable - Can be daisy chained to other units or controls. Night Setback Mode Return Air Temperature Limit Control Safety Switch Input -Allows Controller to respond to a external safety switch trip. Service Relay Output Smoke Alarm Mode - Four choices (unit off, positive pressure, negative pressure, purge). Staging - Up to 2 heat/2 cool (standard Prodigy® 2.0 unit controller thermostat input). Up to 3 cool with additional relay. Up to 4 cool with room sensor or network operation. "Strike Three" Protection Gas Reheat Control - Simultaneous heating and cooling operation for controlling humidity for process air applications such as supermarkets. The Prodigy® 2.0 unit controller is a microprocessor -based controller that provides flexible control of all unit functions. Features: LCD Display - Easy to read menu with buttons for menu navigation. during setup and diagnostics. 4 lines x 20 character display. Menu LEDs - Four LEDs (Data, Setup, Service, Settings) aid in menu navigation. Main Menu and Help Buttons - Quick navigation to home screen and built-in help functions. Scroll, Value Adjustment Select and Save Buttons Simplified Setup Procedure - SETUP menu insures proper installation and setup of the rooftop unit. Profile Setup - Copy key settings between units with the same configuration greatly reducing setup time. USB Port -Allows a technician to download and transfer unit information to help verify service was performed. USB drive will also allow updating software on the Prodigy° Control System to obtain enhanced functionality without the need to change components. Unit Controller Software. Unit Self -Test - Unit Controller can perform a rooftop unit self -test to verify individual critical component and system performance. Included is an economizer test function that helps assure the economizer is operating correctly. Time Clock with Run-time Information Built -In Functions Include: Adjustable Blower On/Off Delay Built-in Control Parameter Defaults Compressor Time -Off Delay Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 8 NOTE - Prodigy® Control System features shown vary with the type of rooftop unit the control is installed in. NOTE - See separate Prodigy° Control System Product Sepcifications Bulletin for additional information. On Demand Dehumidification - Monitors and controls condenser hot gas reheat operation with Humiditrol® option. Thermostat Bounce Delay Warm Up Mode Delay LED Indicators PC Interface - Connect to the Prodigy® 2.0 unit controller from a PC with the Lennox Unit Controller Software. "Robin Sensor Operation Controls temperature. Options / Accessories Factory or Field Installed Blower Proving Switch Monitors blower operation, shuts down unit if blower fails. Dirty Filter Switch Senses static pressure increase indicating dirty filter condition. Controls Options Factory or Field Installed Fresh Air Tempering Used in applications with high outside air requirements. The Controller energizes the first stage heat as needed to maintain a minimum supply air temperature for comfort, regardless of the thermostat demand. When ordered as a factory option, the sensor ships with the unit but must be field installed. • oke Detector / F vaLr) Ph..electric type, i,nstalled in suppl -ir section/return air section . both sections. Available with power ..o. rd and single sensor (sup• or return) or power board and o nsors (supply and return). Pibwer bo • located in unit control compartmen Interoperability via BACnet® or LonTalk® Protocols Communication compatible with third -party automation systems that support the BACnet Application Specific Controller device profile, LonMark® Space Comfort Controller functional profile, or LonMark Discharge Air Controller functional profile. Mavr�� OPTIONS / ACCESSORIES Controls Options (Continued) Commercial,Control Systems L Connectio Network Control System Complete • ilding automation control sy em for single or multi-zon= applications. Options include I•cal interface, software for local 'r remote communication, and hard are for networking other cont of functions. See L Connectio ® Network Control System Pr duct Specifications Bulletin fo details. Aftermar et DDC Novara' U it Controller and options. Thermo Control s Aftermark tats tem and thermostat options. unit controller options. Field Instal ed General Pu pose Control Kit Plug-in co rol provides additional analog andigital inputs/outputs for field i tailed options. Humidity 'ensor Kit Humidity . _ nsor required with factory irst-fled Humiditrol® dehumidi ation option or Supermark: t reheat field selectable •ption. D ECONOMIZER OPTIONS Star°rdarti d High Performance Models availa Economizer operation is set and controlled by the Prodigy® 2.0 unit controller. Simple plug-in connections from economizer to unit controller for easy installation. All Energence® rooftop units are equipped with factory installed CEC Title 24 approved sensors for outside, return and discharge air temperature monitoring. Optional sensors may be used instead of unit sensors to determine whether outdoor air is suitable for free cooling. See Options/Accessories table. Factory or Field Installed Economizer (Std High Performance Common Features) Downflow or Horizontal with Outdoor Air Hood. Outdoor Air Hood is included when economizer is factory installed and is furnished with economizer when ordered for field installation. Downflow Barometric Relief Dampers with Exhaust Hood is also furnished. S ndard Economizer (No for Title 24) Gear •riven action, and o door air da in conne tions t bearings, atures r urn air pers, plug - unit, nylon ene seals, 24 -volt, fully-modul_, ng spring return motor. NOTE: he Fre Cooling default sett' • for outdoo . it temperature se .oris 55°F. High Performance Economizer Features Approved for California Title 24 building standards. ASHRAE 90.1-2010 compliant. Gear -driven action, high torque — 24 -volt fully -modulating spring return damper motor, return air and outdoor air dampers, plug-in connections to unit, stainless steel bearings, enhanced neoprene blade edge seals and flexible stainless steel jamb seals to minimize air leakage. NOTE - High Performance Economizers are not approved for use with enthalpy controls in Title 24 applications. NOTE - The Free Cooling setpoint for Title 24 applications must be set based on the Climate Zone where the system is installed. See Section 140.4 "Prescriptive Requirements for Space Conditioning Systems" of the California Energy Commission's 2013 Building Energy Efficiency Standards. Refer to Installation Instructions for complete setup information. Differential Sensible Control Factory setting. Uses outdoor air and return air sensors that are furnished with the unit. The Prodigy® 2.0 unit controller compares outdoor air temperature with return air. When the outdoor air is below the configured setpoint and cooler than return air, the controller activates the economizer. NOTE - Differential Sensible Control can be configured in the field to provide Offset Differential Sensible Control or Single Sensible Control. In Offset Differential Sensible Control mode, the economizer is enabled if the temperature differential (offset) between outdoor air and return air reaches the configured setpoint. In Single Sensible Control mode, the economizer is enabled when outdoor air temperature falls below the configured setpoint. Global Control The unit controller communicates with a DDC system with one global sensor (enthalpy or sensible) to determine whether outside air is suitable for free cooling on all units connected to the control system. Sensor must be field provided. NOTE - Global control with enthalpy is not approved for Title 24 applications. Factory or Field Installed Single Enthalpy Temperature Control (Not for Title 24) Outdoor air enthalpy sensor enables Economizer if the outdoor enthalpy is less than the setpoint of the control. Differential Enthalpy Control (Not for Title 24) Order two Single Enthalpy Controls. One is field installed in the return air section, the other in the outdoor air section. Allows the economizer control to select between outdoor air or return air, whichever has lower enthalpy. Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 9 OPTIONS / ACCESSORIES ECONOMIZER OPTIONS (continued) Field Installed Outdoor Air CFM Control Maintains constant outdoor air volume levels on the supply air fan and varying unit airflows. Using information from a velocity sensor located in the rooftop unit outdoor air section, the Prodigy® 2.0 unit controller changes the economizer position to help minimize the effect of supply fan speed changes on outdoor air volume levels. Setpoint for outdoor air volume is established by field testing. NOTE - Not available with Demand Control Ventilation (CO2 Sensor) or Building Pressure Control. uilding Pressure C.ntrol intains constant • ilding pr sure level. Usininformation rom a differe .'al pres re between the outdoor ant the building air, the Prodigy° '.0 unit controller changes th - onomizer position to help m ntain _ constant building aressure. NOTE Not available ith Demand Cont .l Ventilation (CO2 ensor) or Outdoor Air CFM Control. EXHAUST OPTIONS Factory or Field Installed P wer Exhaust Fans Ins IIs internal to unit for do ii flow appli ations only with Eco mizer option. Provides exhaust' it pressur- relief. Interlo Ked to run whe . supply air . ower is operating, fans ru r when outdoor air dampe . ar- 0% open (adjustable), . otor is overload protected. e•uires Economizer and Dow low arometric Relief Dampe . Fan is ' 0 in. diameter with lades (KIPRE10B) WITH 1/3 p motor. Field Installed Horizontal Low Profile Barometric Relief Dampers For use when unit is configured for horizontal applications requiring an economizer. Allows relief of excess air. Aluminum blade dampers prevent blow back and outdoor air infiltration during off cycle. Field installed in return air duct. Bird screen and exhaust hood furnished. Requires Horizontal Discharge Kit. 0 . TDOOR AIR OPTIONS Fa o or Field Installed Outd • • r Air Damper - ' ownflow or Hori . ontal With Air ood Linked m-chanical dampers, 0 to 25% (fixe.' outdoorair adjustable, installs in u 't. In des outdoor air hood. Automatic mo •> I features fully modulating .pri • return damper motor wit plug -1 connection. Manual'nadel fea damper. Maximum mixed air cooling mode: 100°F. res a slide Energenc0 Packaged Gas / Electric 7.5 to 12.5 Ton / Page 10 mperature in ROOF C RBS Nailer s ip furnished, mates to unit, S National Roofing ' Contr.•ctorsApproved, shipped kno ed down. Hy rid Roof Curbs, Downflow R curb can be assembled using in -docking tabs to fasten corners t.<.ether. No tools required. C rb can also be fastened together wth furnished hardware. A ilable in 8, 14, 18, and 24 inch he hts. See Options/Accessories table. Adjus able Pitch Curb Fully a• ustable pitch curbs (3/4 in. per foot''any direction) provide a level plaform for rooftop units allowing fle ible installations on roofs wit; uneven or sloped angles. Uses interlocking tabs to fasten corners tog her. No tools required. Hardware i furnished to connect upper curbith lower curb. Available i 14 inch height. Adaptor urbs (not shown) Curbs are regionally sourced. Dimensio s will vary based upon the ource. Contact your local sal s representative for a detailed ut sheet with applicable dimensi ns. CEILING DIFFUSERS Ceiling iffusers (Flush r Step -Down) Diffuser ace and grilles with white powder at finish, insulated (UL listed duc\liner), diffuser box with collar for duct connection, fixed blade(flush diffusers) and double deflection blades (step- down diffuser) provisions for suspending, internally sealed (prevents reci culation), removable return air grill , adapts to T -bar ceiling grids r plaster ceilings. Transitions (Supply and Return) Used with d users, installs in roof curb galvanized steel construction, flanges furnished for duct connection to diffusers, fully insulated. SEQUENCE OF OPERATION - MSAV® (MULTI -STAGE AIR VOLUME) MODELS UNIT OPERATION WITH 3 -STAGE THERMOSTAT OR ZONE SENSOR (3 COOL AND 2 HEAT STAGES, Y1, Y2, Y3 AND WI, W2) SUPPLY AIR BLOWER SPEED Unit has following supply air blower speed setting: • Ventilation speed • Cooling Speed - Low • Cooling Speed - High • Heating speed • Smoke speed (Used only in smoke removal option - not discussed) ' UNIT FEATURES AN ECONOMIZER AND OUTDOOR AIR IS SUITABLE Cooling - Thermostat or Zone Sensor Mode (Y1, Y2, Y3) Y1 Demand: All compressors are off, supply air blower is on low cooling speed to minimize blower power consumption, economizer modulates (minimum to maximum open position) to maintain 55°F supply air temperature (default unit controller setting). Y2 Demand: All compressors are off, supply air blower is on high cooling speed providing higher cooling capacity, and economizer modulates to maintain 55°F supply air temperature. If economizer stays at maximum open for 3 minutes, compressor 1 is energized while supply air blower stays on high cooling speed providing maximum cooling capacity. After compressors are energized the economizer stays at maximum open. Y3 Demand: Compressors 1 and 2 are energized while supply air blower stays on high cooling speed. ' Outdoor air suitability is determined by the energy state of outdoor ambient (enthalpy or sensible) and its ability to achieve the desired free cooling effects. Outdoor air suitability can also be determined by a third party controller and provided to the rooftop unit via a network connection. Y • OES emand: Comp Y2 or Y3 All compresso OR OUTD sor 1 operates and supply air blower operates ►- mand: operate and supply air blow DEHUMIDIFICATIO If a unit with Humiditro out. MODE eh umidific o �•_ - ow cooling speed. tJfl BhI , „ operates at high cooling speed. ion Option receives a call for dehumidification, economizer free cooling is locked Call For Dehumidificatio • ,I o Y1, Y2 demand: 1st stage compressor ..erates, upply air blower operates at high cooling speed, and the reheat valve is energized. Y1 Demand Wit Call For Deh •s idification: All compress, s operate, supply air blo -r operates at high cooling speed and the reheat valve is energized. Y2 Or Y Demand With A Call For Dehum • fication: All compressors operate, supply air blower operate at high cooling speed, and the reheat valve is de -energized. Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 13 SEQUENCE OF OPERATION - MSAV® (MULTI -STAGE AIR VOLUME) MODELS HEATING MODE NOTE - HEATING MODE IS THE SAME FOR ALL CONTROL OPTIONS WI Demand: Gas valves are open (stage 1 on units with 2 -stage gas valves) and supply air blower operates at heating speed. W2 Demand: Gas valves are open (stage 2 on units with 2 -stage gas valves) and supply air blower operates at heating speed. G OUT Th inimum damper position for "occupied low blower" and "o -pied high blower" is adjusted during unit setup to provid- inimum fresh air requirements perASHRAE 62.1 - e corresponding supply air blower speeds. • When s• •ply air blower is off or the unit is in unocpied mode, the outdoor air damper is closed. • When unit 1 in occupied mode and supply air speed, the ou ower is operating at a speed below the "midpoint" blower or air damper is at minim "low blower" position. • When unit is in oc •ied mode and su•. y air blower is operating at a speed equal to or above the "midpoint' blower speed, the ou •or air damp- is at minimum "high blower" position. NOTE - The "midpoint" blow sp speed + maximum spe d is an average of the minimum and maximum blower speed (minimum ivided by 2). NOTE - POWER EXHA FOPERATION IS SAME FOR ALL CONTROL OPTIONS Power exhaust blo -r operates when economize tdoor air dampers are 50% open (adjustable) and when supply air blower speed above 70% (adjustable) of full Spee• Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 14 SPECIFICATIONS General Data Nominal Tonnage Model Number Efficiency Type Blower Type 10 Ton 10 Ton 12.5 Ton 12.5 Ton LGH120H4B LGH120H4M LGH150S4B LGH150S4M High High Standard Standard Constant Air Volume CAV MSAV® (Multi- Stage Air Volume) Constant Air Volume CAV MSAV® (Multi - Stage Air Volume) Cooling Gross Cooling Capacity - Btuh Performance ' Net Cooling Capacity - Btuh AHRI Rated Air Flow - cfm Total Unit Power - kW ' EER (Btuh/Watt) 2 IEER (Btuh/Watt) Refrigerant Type 122,000 122,000 142,600 142,600 118,000 118,000 138,000 138,000 3600 3300 4100 4100 9.9 9.8 12.5 12.5 12 12.0 10.8 10.8 13.0 13.8 11.4 13.1 R -410A R -410A R -410A R -410A Refrigerant Environ TM Coil System Circuit 1 Charge Circuit 2 7 lbs. 4 oz. 7 lbs. 4 oz. 7 lbs. 4 oz. 7 lbs. 4 oz. 7 lbs. 8 oz. 7 lbs. 8 oz. 6 lbs. 12 oz. 6 lbs. 12 oz. Conventional Fin/Tube Circuit 1 Coil Option Circuit 2 14 lbs. 8 oz. 14 lbs. 8 oz. 17 lbs. 8 oz. 17 lbs. 8 oz. 13 lbs. 8 oz. 13 lbs. 8 oz. 12 lbs. 12 oz. 12 lbs. 12 oz. Conventional Fin/Tube Circuit 1 With Humiditrol® Circuit 2 18 lbs. 0 oz. 18 lbs. 0 oz. 18 lbs. 8 oz. 18 lbs. 8 oz. 13 lbs. 8 oz. 13 lbs. 8 oz. 14 lbs. 8 oz. 14 lbs. 8 oz. Gas Heating Options Available - See page 24 Standard (2 Stage), Medium (2 Stage), High (2 Stage) Compressor Type (number) Scroll (2) Scroll (2) Scroll (2) Scroll (2) Outdoor Coils Net face area (total) - sq. ft. Environ TM Number of rows (Fin/Tube) Fins per inch 28.0 (29.33) 28.0 (29.33) 28.0 (29.33) 28.0 (29.33) 1 (3) 1 (3) 1 (3) 1 (3) 20 (20) 20 (20) 20 (20) 20 (20) Outdoor Motor- (No.) hp Coil Fans Motor rpm Total Motor watts Diameter - (No.) in. Number of blades Total Air volume - cfm (2) 1/3 (2) 1/3 (2) 1/2 (2) 1/2 1075 1075 1075 1075 800 800 - 1050 1050 (2) 24 (2) 24 (2) 24 (2) 24 3 3 3 3 8800 8800 9700 9700 Indoor Net face area (total) - sq. ft. Coils Tube diameter - in. Number of rows Fins per inch Drain connection - Number and size Expansion device type 13.54 13.54 13.54 13.54 3/8 3/8 3/8 3/8 4 4 4 4 14 14 14 14 (1) 1 in. NPT coupling Balance port TXV, removable head 'Refrigerant Metering Orifice (RFC) 3 Indoor Nominal motor output Blower and Maximum usable motor output Drive (US Only) Selection Motor - Drive kit number Blower wheel nominal diameter x width - in. 2 h� 3 hp, 5 hp 2.3 hp, 3.45 hp, 5.75 hp 2 hp Kit 1 590-890 rpm s and high efficiency) Kit 2 800-1105 rpm (std. and high efficiency) Kit 3 795-1195 rpm (std. and high efficiency) 3hp Kit 4 730-970 rpm (std. efficiency) Kit 5 940-1200 rpm (std. efficiency) Kit 6 1015-1300 rpm (std. efficiency) Kit 7 730-970 rpm (high efficiency) Kit 8 940-1200 rpm (high efficiency) Kit 9 1015-1300 rpm (high efficiency) 5 hp Kit 10 900-1135 rpm (std. efficiency) Kit 11 1040-1315 rpm (std. efficiency) Kit 12 1125-1425 rpm (std. efficiency) (1) 15 X 15 (1) 15 X 15 1 (1) 15 X 15 (1) 15 X 15 Filters Type of filter Number and size - in. Disposable 20 x 25 x 2 Electrical characteristics 208/230V 460V o 575V - 60 hertz - 3 phase NOTE - Net capacity includes evaporator blower motor heat deduction. Gross capacity does not include evaporator blower motor heat deduction. ' AHRI Certified to AHRI Standard 340/360; 95°F outdoor air temperature and 80°F db/67°F wb entering evaporator air; minimum external duct static pressure. 2 Integrated Energy Efficiency Ratio certified and tested according to AHRI Standard 340/360. 3 Using total air volume and system static pressure requirements determine from blower performance tables rpm and motor output required. Maximum usable output of motors fumished are shown. In Canada, nominal motor output is also maximum usable motor output. If motors of comparable output are used, be sure to keep within the service factor limitations outlined on the motor nameplate. •e 150 models ordered with the Humiditrol,' Dehumidification option are equipped with factory installed expansion valves. NOTE — Units equipped with MSAV® (Multi -Stage Air Volume) option are limited to a motor service factor of 1.0. Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 23 SPECIFICATIONS - GAS HEAT Heat Input Type Number of Gas Heat Stages Standard Medium High 2 2 2 Gas Heating Input - Btuh First Stage Performance Second Stage 84,500 117,000 156,000 130,000 180,000 240,000 Output - Btuh Second Stage 104,000 144,000 192,000 Temperature Rise Range - °F 15 - 45 30 - 60 40 - 70 Thermal Efficiency 80% 80% 80% Gas Supply Connections 3/4 in. npt 3/4 in. npt 3/4 in. npt. Recommended Gas Supply Natural Pressure - in. w.g. LPG/Propane 7 in. w.c. 7 in. w.c. 7 in. w.c. 11 in. w.c. 11 in. w.c. 11 in. w.c. H ALTITUDE DERATE stalled at altitudes up to 2000 feet above sea level without an feet, units must be derated to match gas mani it must be derated 2% for each 1 ate for these units Units may At altitudes above At altitudes above 4500 fee NOTE — This is the only permissib dification. - ----- --. pressures shown in table below. eet above sea level. Gas Heat Type Altitude Feet i_ - •' old Pressure 1 , Input Rate - Btuh (Natural Gas or LPG/Propane) Nat _, : Gas LP - .ane Gas First Stage Second Stage Standard 2001-4500 3.4 9.6 84,500 124,000 Medium 2001-4500 3.4 9.6 117,000 172,000 High 2001-,'10 3.4 9.6 156,000 230,000 Energence® Packaged Gas / Electric 7.5 to 12.5 Ton / Page 24 Lennox Industries Inc. - Product Submittal System ID: 10 TON ENERGENCE Package Model: LGH120H4M Description: PKGGE/10TON/CONFIGURABLE HEATING PERFORMANCE Unit Type HIE LowInput H/E LowOutput H/E HighInput H/E HighOutput System HeatOutput Packaged Gas Electric 156000 (Btuh) 124800 (Btuh) 240000 (Btuh) 192000 (Btuh) 192000 (Btuh) Gas Supply Connection H/E Heat Rise AFUE/ ThermalEff Number of Heating Stages Gas Supply Pressure 0.75 (in.) 44.4 (°F) 80 2 7 (in.WC) COOLING PERFORMANCE Refrigerant ARI EER ARI LEER ARI Total Power ARI GrossTotalCool ARI NetTotalCool Environ Refrigerant Charge R -410A 12.0 13.8 9900 (W) 122000 (Btuh) 118000 (Btuh) 14 LBS. 12 OZ. Number Compressors Number of Cooling Stages Condensate Drain Size Cooling OutdoorDB Cooling CondenserDB Cooling MixedDB Cooling MixedWB 2 2 1.00 (in.) 95.0 (°F) 95.0 (°F) 80.0 (°F) 67.0 (°F) SUPPLY FAN PERFORMANCE ExtStaticPress Supply SupplyFan NomPower Supply Fan Type SupplyDrive Min RPM SupplyDrive Max RPM 0.50 (in.WC) 2.00 (hp) MSAV Belt Drive 590 (rpm) 890 (rpm) TotalStaticPress Gas H/E Static Press Economizer Static Press Air Filter Qty Air Filter Length Air Filter Width Air Filter Thickness 0.91 (in.WC) 0.22 (in.WC) 0.19 (in.WC) 4 20.0 (in.) 25.0 (in.) 2.0 (in.) ELECTRICAL Voltage Frequency System MCA System MOCP Compressors RLA Cooling FLA Total Unit Oper Range -Nom Voltage 460V 3Ph 60 (Hz) 24.0 (amp) 30 (amp) 16.0 (amp) 22.0 (amp) +/- 10% SupplyFan FLA CondensingUnit FLA CondenserFan Power 3.4 (amp) 2.6 (amp) 725 (W) DIMENSIONS Cabinet Width Cabinet Length Cabinet Height *..Total Weight 60.1 (in.) 101.3 (in.) 46.9 (in.) Downflow Supply Length Downflow Supply Width Downflow Return Length Downflow Return Width SOUND 20.0 (in.) 28.0 (in.) 24.0 (in.) 27.0 (in.) Outdoor Sound Rating 88 (db) Project: 3000518502 Tukwila Building Quote: 4000621722 Tukwila Building Page 3 of 8 Last Changed: MICHELLE PACK Prepared On: 2015-08-28 Phone: 972-497-7682 Lennox Industries Inc. - Product Submittal System ID: 10 TON ENERGENCE Package Model: LGHI20H4M Description: PKGGE/'10TON/CONFIGURABLE SYSTEM FEATURES Durable Outdoor Enamel Paint Finish Scroll Compressor Pre -charged Refrigeration System Expansion Valves High Capacity Driers Auto reset high & low pressure switch with strike 3 lockout feature in Prodigy unit controller Totally Enclosed Fan Motor PVC Coated Fan Guard Fan and Limit Controls Factory Test Operated Bonded for Grounding Internal Pressure Relief Valve Overload Protection Crankcase Heater Test Timed Off Control AGA -CGA Certified Units will operate cooling down_to 0 degrees F (-17.7 degrees C) without additional controls. Redundant Comb. Gas Control Valve Electronic Flame Sensor Direct Spark Ignition Separate Compressor and Controls Compartment Advanced controls with Prodigy Control System Limited compressor warranty of 5 years Limited warranty on Prodigy Unit Controller of 3 years Limited warranty on Environ Coil System of 3 years Limited warranty on all other components of 1 year See Limited Warranty Certificate included with unit for details INCLUDED SYSTEM OPTIONS - FACTORY INSTALLED SENSIBLE ECONOMIZER MULTI -STAGE AIR VOLUME HINGED ACCESS DOORS ENVIRON COIL SYSTEM BAROMETRIC RELIEF DAMPERS HIGH PERF ECONOMIZER PHASE MONITOR STANDARD CAP 2 IN MERV4 FILTER BAROMETRIC RELIEF DAMPERS Project: 3000518502 Tukwila Building Quote: 4000621722 Tukwila Building Page 4of8 Last Changed: MICHELLE PACK Prepared On: 2015-08-28 Phone: 972-497-7682 Lennox Industries Inc. - Product Submittal System ID: 10 TON ENERGENCE Package Model: LGH120H4M Description: PKGGE/10TON/CONFIGURABLE DIMENSIONS - INCHES (MM) Model No. CORNER WEIGHTS CENTER OF GRAVITY AA BB CC DD EE FF Base Max. Base Max. Base Max. Base Max. Base Max. Base Max. lbs., kg lbs. kg lbs. kg lbs. kg lbs. kg lbs. kg lbs. kg lbs. kg in. mm in. mm In. mm in. mm 092 293 133 338 153 263 119 295 134 286 130 316 143 326 148 370 169 46.5 1131 45.5 1156 24.5 622 25.5 648 1 2 294 134 340 154 265 120 297 135 288 131 318 144 329 149 372 169 46.5 1131 45.5 1156 24.5 622 25.5 648 120 306 139 349 158 275 125 3C5 138 295 134 326 14.8 334 152 382 173 46.5 1131 45.5 11506 24.5 622 25.5 648 150 316 143 359 163 284 129 314 142 304 133 393 178 345 157 393 178 46.5 1131 45.5 1156 24.5 622 25.5 648 Max. Und - The and Nth ALL INTERNAL CPTICNS Instated (Ei nan¢er, Standad Static Power Exhaust Fans, G^narys, etc.). Does not ndude aoessaies grtemal b unt or hign static oc ser exhaust. 53 -Iva ('478) 00 64'19 ('.527) END VIEW Project: 3000518502 Tukwila Building Quote: 4000621722 Tukwila Building Page 5 of 8 AA 8-178 (t56)—.. �1re (156) 27 (886) 60-1,8(11527) + CENiER0F SASE N 4:—,,,,, `1I�, / Oi2Avm BOTTOM 90770M RETURN "I'-—1— POWER POWER ENTRY - AIR OPENING I 5 -?2 (148-.) Da. \` EE --K.}1 1F 7 Ora) y.8- sSrB �-� 24 (6'D) 5-5S (143) BOTTOM JivaP.L.Y /An OPENING (3/ 'PJ;1 28 (273) M (717) (51181 1 / 4 Do 1 4 30"CAI •-++4 v♦ -7 (179) CONDENSATE 14-7.8 —s K ' ) 101-114 SASE (25722) TOP VIEW f25)� f ELECTRIC INLETS 54-174 OPTIONAL atSCONNECT 1252'.) IF.AC; ORI' INSTALLED) 0 B6 C 4&-3 (1191) 11013) J Fc6KUFT SLOTS I (BOTH SIDES) LIFTING HOLES (FCR PIGGING) 101-114 - (2572) SIDE VIEW (Horizontal Openings) Last Changed: MICHELLE PACK Prepared On: 2015-08-28 Phone: 972-497-7682 Lennox Industries Inc. - Product Submittal System ID: 10 TON ENERGENCE Package Model: LGH120H4M1 Description: PKGGE/10TON;CONFIGURABLE ACCESSORY DIMENSIONS - INCHES (MM) OUTDOOR AIR HOOD DETAIL OUTDOOR AIR HOOD (Furnished with Economizer or Outdoor Air Damper) EXHAUST AIR HOOD (Furnished. Field Installed) Project: 3000518502 Tukwila Building Quote: 4000621722 Tukwila Building Page 6 of 8 Last Changed: MICHELLE PACK Prepared On: 2015-08-28 Phone: 972-497-7682 Lennox Industries Inc. - Product Submittal System ID: 10 TON EMERGENCE Package Model: LGH120H4M Description: PKGGE/1OTON/CONFIGURABLE UNIT CLEARANCES - INCHES (MM) 'Unit Clearance OPTIONAL AIR HOOD// 8 .1".i" l �/!! -.,....,. y___.� //�/// in. mm ,,,,,, ////// 'Unit Clearance A 8 C Top Clearance in. mm in. mm in. mm in. mm Service Clearance 60 1524 36 914 36 934 60 1524 Unobstructed Clearance to Combustibles 36 914 1 25 1 25 1 25 Minimum Operation Clearance 36 914 36 914 36 914 36 914 NOT= -Entre perimeter of unit base requires support' when elevated above the mounbng surface. Service Clearance - Required for removal of serviceable parts. Clearance to Combustibles - Required clearance to combustible material. Minimum Operation Clearance - Required clearance for proper unit operaUcn. Project: 3000518502 Tukwila Building Quote: 4000621722 Tukwila Building Page 7 of 8 Last Changed: MICHELLE PACK Prepared On: 2015-08-28 Phone: 972-497-7682 APPROVED 0 U 0 INITIAL DRAWING y c EXISTING CURB LAYOUT 0 r a N 0 W 74. Thursday, November 11, 201 Z W • Q — <0E0 Q ▪ W Z W u-WWH Z020 OZu7 U=m- CoO xm Ouci Q UZQ zI-0� Z ❑ W0Q 00 U=UMZ ZWUZ3 ,00_1 OWZZ0 NN?WO CO w0Wd' Fu UU❑a r3 STRUCTURAL CALCULATIONS Guitar Center 230 Andover Park West Tukwila, WA 98188 CODE: IBC 2015 & ASCE/SEI 7-10 PROJECT NO.: 17-190 DATE: March 13, 2017 D S. Engineering Consulting. Structural Engineers 3121 147th Place SE Mill Creek, WA 98012 T: 425-338-4776 REVIEWED FOR CODE COMPLIANCE APPROVED APR 0 4 2017 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA MAR 1 6 2017 PERMIT CENTER 30'-0' 36'-0' S'-6' CANT. 491-0' 6'-0' 5'-6' CANT. I-- , CANT. Z Ca* Uz ". W 71 73'-9'cn 4 Q -'' � ZfD3 � ��43 nor \ �•.`. 1-u( I EW;. 61 49'-3' i 4 4 IX (X'4, N z 0 0 z E 0 ID 0 z X w J e 11 W 4 u (E) 51'axIS (TYP) (E) 514x21 (TYP) (E) 5""8x2&'2 (TYP) (E) 5''8x13"2 PURLIN ' S'-0' O.C. (TYP) %// REPLACEMENT UNIT (WEIGHT: 1,286 ") BETWEEN UNIT 4 ADAPTER CURB. (1)-"8 HEX -HEAD SCREW a (±) 6' FROM EA. CORNER 4 (1) MIDDLE OF LONGER BAY (TOTAL 8 SCREWS MIN.) BETWEEN ADAPTER CURB 4 (E) CURB: (1) -*8 HEX -HEAD SCREW (±) 6' FROM EA. CORNER 4 (1) ' MIDDLE OF LONGER BAY (TOTAL 8 SCREWS MIN.) a� NO ADDITIONAL CONNECTION REQ'D BETWEEN (E) CURB 4 (E) ROOF STRUCTURES SECTION SCALE: 1°= I'-0' U O O w u 03/13/2Oq Design Analysis e Ear th feet meters 100. U ri 12- 3 A Nt, vett- Wit-A t„ 30 1 Lennox Industries Inc. - System ID: 10 TON ENERGENCE Package Model: LGH120H4M Description: PKGGE/10TON/CONFIGURABLE HEATING PERFORMANCE Unit Type H/E LowInput H/E LowOutput H/E HighInput H/E HighOutput System HeatOutput Packaged Gas Electric 156000 (Btuh) 124800 (Btuh) 240000 (Btuh) 192000 (Btuh) 192000 (Btuh) Gas Supply Connection H/E Heat Rise AFUE/ ThermalEff Number of Heating Stages Gas Supply Pressure 0.75 (in.) 44.4 (°F) 80 2 7 (in.WC) COOLING PERFORMANCE Refrigerant ARI EER ARI IEER ARI Total Power ARI GrossTotalCool ARI NetTotalCool Environ Refrigerant Charge R -410A 12.0 13.8 9900 (W) 122000 (Btuh) 118000 (Btuh) 14 LBS. 12 OZ. Number Compressors Number of Cooling Stages Condensate Drain Size Cooling OutdoorDB Cooling CondenserDB Cooling MixedDB Cooling MixedWB 2 2 1.00 (in.) 95.0 (°F) 95.0 (°F) 80.0 (°F) 67.0 (°F) SUPPLY FAN PERFORMANCE ExtStaticPress Supply SupplyFan NomPower Supply Fan Type SupplyDrive Min RPM SupplyDrive Max RPM 0.50 (in.WC) 2.00 (hp) MSAV Belt Drive 590 (rpm) 890 (rpm) TotalStaticPress Gas H/E Static Press Economizer Static Press Air Filter Qty Air Filter Length Air Filter Width Air Filter Thickness 0.91 (in.WC) 0.22 (in.WC) 0.19 (in.WC) 4 20.0 (in.) 25.0 (in.) 2.0 (in.) ELECTRICAL Voltage Frequency System MCA System MOCP Compressors RLA Cooling FLA Total Unit Oper Range -Nom Voltage 460V 3Ph 60 (Hz) 24.0 (amp) 30 (amp) 16.0 (amp) 22.0 (amp) +/- 10% SupplyFan FLA CondensingUnit FLA CondenserFan Power 3.4 (amp) 2.6 (amp) 725 (W) DIMENSIONS Cabinet Width Cabinet Length Cabinet Height Total Weight 60.1 (in.) 101.3 (in.) 46.9 (in.) 1286 (lb),`:.; Downflow Supply Length Downflow Supply Width Downflow Retum Length Downflow Return Width SOUND 20.0 (in.) 28.0 (in.) 24.0 (in.) 27.0 (in.) Outdoor Sound Rating 88 (db) 5-r 40213 6-0 6614marleoto Project: 3000518502 Tukwila Building Quote: 4000621722 Tukwila Building Page 3 of 8 ip Iieo � niaz Last Changed: MICHELLE PACK Prepared On: 2015-08-28 Phone: 972-497-7682 i 30'-0' 36'-0' 8'-6' CANT. 13'-9' z O w� N ,d. 63'-0' 4- U w z ?O� (E) (E) 5"8x18 (TYP) 6'-0' CANT. i- CANT.' z I' zU+ r - 1' (E) 54x21 (TYP) (E) 634x28"2 (TYP) (E) 514x131/2 PURLIN a 8'-0' O.G. (TYP) Description : (E) pudin with Calculations per Load Combination Set : ASCE 7-10 Material Properties UNIT coAlictO Licensee : D.S. ENGINEERING PC Analysis Method : Allowable Stress Design Load Combination ASCE 7-10 Wood Species Wood Grade : DF/DF : 24F - V4 Fb - Tension Fb - Compr Fc-Pr1I Fc - Perp Fv Ft Beam Bracing : Beam is Fully Braced against lateral -torsional buckling 2400 psi 1850 psi 1650 psi 650 psi 265 psi 1100 psi E : Modulus of Elasticity Ebend- xx Eminbend - xx Ebend- yy Eminbend - yy Density 1800 ksi 950 ksi 1600 ksi 850 ksi 31.20 Servi Uniform Load : D = 0. 20, S = 0.20 , Tributary W Point Load: D=1.20k(a 13.0 ft Maximum Bending Stress Ratio Section used for this span fb : Actual FB : Allowable Load Combination Location of maximum on span Span # where maximum occurs Maximum Deflection Max Downward Transient Deflection Max Upward Transient Deflection Max Downward Total Deflection Max Upward Total Deflection L_ 0.823 1 t Maxi 5.125x13.5 2,220.29 psi 2,697.17psi +p+S+H 12.951 ft Span # 1 0.730 in Ratio = 0.000 in Ratio = 1.461 in Ratio = 0.000 in Ratio = will be applied for calculations. vel^-- ICC -14.4 um Shear Stress Ratio( /' Section used for this spa?F' CAA fv : Actual = Fv : Allowable = Load Combination Location of maximum on span = Span # where maximum occurs = 386 >=360 0 <360 193 >=180 0 <180 0.289: 1 5.125x13.5 88.17 psi 304.75 psi +D+S+H 22.385 ft Span # 1 Load Combination • Span Max. ' " Defl Location in Span Load Combination Overall MAXimum Load Combination 11.922 Support notation : Far left is #1 Support 1 Support 2 Max. '+' Defl Location in Span Overall MlNimum +D+H +D+L+H +D+Lr+H +D+S+H +0+0.750Lr+0.750L+H +D+0.750L+0.750S+H 4.296 1.168 1.946 1.946 1.946 4.296 1.946 3.709 4.424 1.244 2.074 2.074 2.074 4.424 2.074 3.836 4 Description : (E) pudin with Licensee: D . ENGINEERING PC Support notation : Far left is #1 Values in KIPS Load Combination +D+0.60W+11 Support 1 Support 2 +D+0.70E+H +D+0.750Lr+0.750L+0.450W+H +D+0.750L+0.7505+0.450W+H + D+0.750L+0.750S+0.5250E+H + 0.60D+0.60W+0.60H + 0.60D+0.70E+0.60H D Only Lr Onty L Only S Only W Only E Only H Only 1.946 1.946 1.946 3.709 3.709 1.168 1.168 1.946 2.074 2.074 2.074 3.836 3.836 1.244 1.244 2.074 2.350 2.350 L7 Calculations per Load Combination Set : ASCE 7-10 Material Properties Analysis Method : Allowable Stress Design Load Combination ASCE 7-10 Wood Species : DF/DF Wood Grade : 24F - V4 Fb - Tension Fb - Compr Fc - Pr!' Fc - Perp Fv Ft Beam Bracing : Beam is Fully Braced against lateral -torsional buckling 2400 psi 1850 psi 1650 psi 650 psi 265 psi 1100 psi E :; Modulus of Elasticity Ebend- roc Eminbend - xx Ebend- yy Eminbend - yy Density 1800 ksi 950 ksi 1600 ksi 850 ksi 31.2 pcf Beam self weight • = ed an s ed to loads Point Load: D = 2.520, S = 4.20k«i 6.0 ft Point Load : D = 2.880, S = 4.80 k 14.0 ft Ser�erjjpice loads�entered. Load Facto will be applied for crlculations. 5G/)(4- , x.r Maximum Bending Stress Ratio Section used for this span fb : Actual FB : Allowable Load Combination Location of maximum on span Span # where maximum occurs Maximum Deflection Max Downward Transient Deflection Max Upward Transient Deflection Max Downward Total Deflection Max Upward Total Deflection Load Combination 0.863 1 5.125x18 2,'280.64 psi 2,644.10psi +D+S+H 13.967ft Span # 1 Maximum Shear Stress Ratio Section used for this span fv : Actual Fv : Allowable Load Combination Location of maximum on span Span # where maximum occurs 0.591 in Ratio = 0.000 in Ratio = 0.967 in Ratio = 0.000 in Ratio = 436 >=360 0 <360 266 >=180 0 <180 Design OK 0.411 : 1 5.125x18 125.35 psi 304.75 psi +D+S+H 0.000ft Span #1 +D+S+H 1 Max. ' " Defl Location in Span 0.9667 10.828 Support notation : Far left is #1 Load Combination Max. "+" Defl Location in Span 0.0000 Values in KIPS 0.000 Load Combination Overall MAXimum Overall MiNimum +D+H +D+L+H +D+Lr+H +D+S+H +D{0.750Lr+0.750L+11 Support 1 Support2 7.739 7.091 1.822 1.676 3.036 2.793 3.036 2.793 3.036 2.793 7.739 7.091 3.036 2.793 6 Description : (E) GLB Load Combination Support notation : Far left is #1 Values in KIPS +D+0.750L+0.750S+H Support 1 Support 2 +D+0.60W+H +D+0.70E+H +D+0.750Lr+0.750L+0.450W+H +D+0.750L+0.750S+0.450W+H +D+0.750L+0.750S+0.5250E+H +0.60D+0.60W+0.60H +0.60D+0.70E+0.60H D Only Lr Only L Only S Only W Only E Only H Only 6.563 3.036 3.036 3.036 6.563 6.563 1.822 1.822 3.036 4.702 6.017 2.793 2.793 2.793 6.017 6.017 1.676 Lic. # : KW -06010224 Calculations per Load Combination Set : ASCE 7-10 Material Properties Analysis Method : Allowable Stress Design Load Combination ASCE 7-10 Wood Species Wood Grade Beam Bracing r- DF/DF 24F - V4 Fb - Tension Fb - Compr Fc - Prll Fc - Perp Fv Ft Beam is Fully Braced against lateral -torsional buckling 2400 psi 1850 psi 1650 psi 650 psi 265 psi 1100 psi E : Modulus of Elasticity Ebend-roc 1800ksi Eminbend-xx 950ksi Ebend- yy 1600ksi Eminbend - yy 850 ksi Density 31.2 pcf 6.75x28.5 Span = 37.50 ft Service Toads entered. Load Factors will be applied for calculations. Beam self weight calculated . - " added to loads Point Load : D = 2.880, = 4.80 k (cil 7.50 ft Point Load : D = 2.880, S = 4.80 k Point Load : D = 2.880, S = 4.80 k-, O ft Point Load : D = 2.880, S = 4.80 k (d1, 31.50 ft "`, , •:..., Maximum Bending Stress Ratio Section used for this span fb : Actual FB : Allowable Load Combination Location of maximum on span Span # where maximum occurs Maximum Deflection Max Downward Transient Deflection Max Upward Transient Deflection Max Downward Total Deflection Max Upward Total Deflection 0.984 1 Maximum Shear Stress Ratio 6.75x28.5 2,287.30 psi 2,323.81 psi +D+S+H 15.602ft Span # 1 1.134 in Ratio = 0.000 in Ratio = 1.895 in Ratio = 0.000 in Ratio = Section used for this span fv : Actual Fv : Allowable Load Combination Location of maximum on span Span # where maximum occurs 396 >=360 0 <360 237 >=180 0<180 Design OK 0.426: 1 6.75x28.5 129.89 psi 304.75 psi +D+S+H 35.173 ft Span # 1 Load Combination Span Max. "-" Defl Location in Span Load Combination Overall MAXimum Overall MINimum +D+H +D+L+H +D+Lr+H Load Combination 1.8946 18.887 Support notation : Far left is #1 Support 1 Support 2 15.527 16.756 3.787 4.063 6.311 6.772 6.311 6.772 6.311 6.772 Max. "+" Defl Location in Span 0.0000 Values In KIPS 0.000 Lic. # : KW -06010224 Load Combination +D+S+H Support notation : Far left is #1 Values in KIPS Support 1 Support 2 +D+0.750Lr+0.750L+H +D+0.750L+0.750S-41 +D+0.60W+H +D+0.70E+H +D+0.750Lr+0.750L+0.450W+H +D+ 0.750L+0.750S+0.450W+H +D+0.750L+0.750S+0.5250E+H +0.60D+0.60W+0.60H +0.60D+0.70E+0.60H D Only Lr Only LOnly S Only W Only E Onty H Only 15.527 16.756 6.311 6.772 13.223 14.260 6.311 6.772 6.311 6.772 6.311 6.772 13.223 14.260 13.223 14.260 3.787 4.063 3.787 4.063 6.311 9.216 TO Lic. # : KW -06010224 Licensee : D.S. ENGINEERING PC Calculations per Load Combination Set : ASCE 7-10 Material Properties deo r Analysis Method : Allowable Stress Design Load Combination ASCE 7-10 Wood Species Wood Grade DF/DF : 24F - V4 Fb - Tension Fb - Compr Fc - Pr1I Fc - Perp Fv Ft Beam Bracing : Beam is Fully Braced against lateral -torsional buckling 2400 psi 1850 psi 1650 psi 650 psi 265 psi 1100 psi E : Modulus of Elasticity Ebend- xx Eminbend - xx Ebend- yy Eminbend - yy Density 1800.ksi 950 ksi 1600 ksi 850ksi 31.2 pcf D(2.88 S(4.8) D(2.88 S(4.8) D(2.88) S(4.8) D(2.88) S(®. 7 6.75x28.5 Span =37.50ft Beam self weight calculated and egdileeltrItlf Point Load: D=2.880=4.80kno 7.50 ft Point Load : D = 2.880, S = 4.80 k 1 Point Load : D = 2.880, S = 4.80 k 23.50 ft Point Load: D=2.880, S=4.80k(a 31.50 ft Point Load: D = 1.70 k A 33.0 ft w Maximum Bending Stress Ratio Section used for this span fb : Actual FB : Allowable Load Combination Location of maximum on span Span # where maximum occurs Maximum Deflection Max Downward Transient Deflection Max Upward Transient Deflection Max Downward Total Deflection Max Upward Total Deflection Serv'ce loads entered. Load Factors will be applied for calculations. e4- IX �x8 1.002 1 6.75x28.5 2,329.10 psi 2,323.81 psi +D+S+H 15. pan # 1 1.134 in Ratio = 0.000 in Ratio = 1.944 in Ratio = 23 0.000 in Ratio = • um Shear Stress Ratio ection used for this span fv : Actual Fv : Allowable Load Combination Location of maximum on span Span # where maximum occurs 396 >=360 0 <360 0 <180 Design N.G. 0.465: 1 6.75x28.5 141.56 psi 304.75 psi +D+S+H 35.173 ft Span # 1 Load Combination +D+S+H Span Max. "-" Defl Location in Span Load Combination Overall MAXimum Overall MINimum +D+H +D+L+H CGWTA (t. � 1 Load Combinal, n 1.9435 18.887 Support notation : Far left #1 Support 1 Support 2 15.731 3.909 6.515 6.515 18.252 4.961 8.268 8.268 L... t on in St: 1.9435 =- 0.0000 0.000 Values i KIPS Description : (E) GLB W/'RTU-3' Support notation : Far left is #1 Values in KIPS Load Combination Support 1 Support 2 +D+Lr+H +D+S+H +D+0.750Lr+0.750L+H +D+0.750L+0.750S+H +D+0.60W+H +D+0.70E+H +D+0.750Lr+0.750L+0.450W+H +D+0.750L+0.750S+0.450W+H +D+0.750L+0.750S+0.5250E+H +0.60D+0.60W+0.60H +0.600+0.70E+0.60H D Only Lr Only L Only S Only W Only E Only H Only 6.515 8.268 15.731 18.252 6.515 8.268 13.427 15.756 6.515 8.268 6.515 8.268 6.515 8.268 13.427 15.756 13.427 15.756 3.909 4.961 3.909 4.961 6.515 8.268 9.216 9.984 Calculations per Load Combination Set : ASCE 7-10 Material Properties Analysis Method : Allowable Stress Design Load Combination ASCE 7-10 Wood Species Wood Grade Beam Bracing : DF/DF : 24F - V8 Fb - Tension Fb - Compr Fc - Prll Fc - Perp Fv Ft : Beam is Fully Braced against lateral -torsional buckling 2400 psi 2400 psi 1650 psi 650 psi 265 psi 1100 psi E : Modulus of Elasticity Ebend- xx Eminbend - xx Ebend- yy Eminbend - yy Density 1800 ksi 950ksi 1600 ksi 850 ksi 31.2 pcf D(8.772)4(.99194(4.8) 0(3.593) S(4.8) 0(2.88 S(4.8) 0(2.88) S(4.8) D(2.88) S(4.8) D(2.88 S(4.8) DP -131914448298) 5.125x28.5 Span =6.0ft Beam self weight calculated Load for Span Number 1 Point Load : D = 6.772, Point Load : D = 3.093, Load for Span Number 2 Point Load : D = 3.093, Point Load : D = 2.880, Point Load : D = 2.880, Point Load : D = 2.880, Point Load : D = 2.880, Load for Span Number 3 Point Load : D = 2.880, Point Load : D = 2.793, d added to loads S = 9.984 k 0.0 ft S=4.80ki5 2.0 ft S=4.80ki 4.0 ft S=4.80k(a 12.0ft S = 4.80 k 20.0 ft S= 4.80 k §28.0ft S = 4.80k(a)36.0ft S=4.80k(8.0ft S = 4.298 k 8.50 ft 5.125x28.5 Span =36.0ft 192b.M 63+,2_s1/,`". 5.125x28.5 Span = 8.50 ft Service Toads entered. Load Factors will be applied for calculations. 2Efelki-67-tto*74)/. 1*:)54oex#41 e16` -t!>(2.4. Maximum Bending Stress Ratio Section used for this span fb : Actual FB : Allowable Load Combination Location of maximum on span Span # where maximum occurs Maximum Deflection Max Downward Transient Deflection Max Upward Transient Deflection Max Downward Total Deflection Max Upward Total Deflection 0.957 1 5.125x28.5 2,294.81 psi 2,398.47 psi +D+S+H = 0.000ft Span # 2 0.366 in -0.045 in 0.597 in -0.074 in Maximum Shear Stress Ratio Section used for this span fv : Actual Fv : Allowable Load Combination Location of maximum on span Span # where maximum occurs Ratio = Ratio = Ratio = Ratio = 556 >=360 9504 >=360 340 >=180 5813 >=180 Design OK = 0.835: 1 5.125x28.5 = 254.31 psi 304.75 psi +D+S+H 3.630 ft = Span # 1 Description : (E) GLB W/ RTU -1' Load Combination +D+S+H +D+S+H +D+S+H Span Max. Defl Location in Span Load Combination Max. "+" Defl Location in Span 1 2 3 0.3762 0.0767 0.5968 0.000 18.454 8.500 Support notation : Far left is #1 +D+S+H 0.0000 -0.0743 0.0000 Values in KIPS 0.000 4.235 4.235 Load Combination Overall MAXimum Overall MINimum +D+H +D+L+H +D+Lr+H +D+S+H +D+0.750Lr+0.750L+H +D+0.750L+0.750S+H +D+0.60W+H +D+0.70E+H +D+0.750Lr+0.750L+0.450W+H + D+0.750L+0.750S+0.450W+H +D+0.750L+0.750S+0.5250E+H +0.60D+0.60W+0.60H + 0.60D+0.70E+0.60H D Only Lr Only L Only S Only W Only E Only H Only Support 1 Support 2 Support 3 Support 4 42.937 36.694 10.422 8.627 17.371 14.378 17.371 14.378 17.371 14.378 42.937 36.694 17.371 14.378 36.546 31.115 17.371 14.378 17.371 14.378 17.371 14.378 36.546 31.115 36.546 31.115 10.422 8.627 10.422 8.627 17.371 14.378 25.567 22.315 Calculations per Load Combination Set : ASCE 7-10 Material Properties Analysis Method : Allowable Stress Design Load Combination ASCE 7-10 Wood Species Wood Grade Beam Bracing DF/DF 24F - V8 Fb - Tension Fb - Compr Fc - PrII Fc - Perp Fv Ft Beam is Fully Braced against lateral -torsional buckling 2400 psi 2400 psi 1650 psi 650 psi 265 psi 1100 psi E : Modulus of Elasticity Ebend- xx Eminbend - xx Ebend- yy Eminbend - yy Density 1800 ksi 950 ksi 1600 ksi 850ksi 31.20 D(6.772)Di :(4.8) D(2.88 S(4.8) D(2.88 S(®: 7) D(2.88 S(4.8) D(2.88 S(4.8) D(2.88 S(4.8) 5.125x28.5 Span=6.Oft 5.125x28.5 Span =36.0ft 5.125x28.5 Span = 8.50 ft 98) Beam self weight calculated Load for Span Number 1 Point Load : D = 6.772, S Point Load : D = 2.880, S Load for Span Number 2 Point Load : D = 2.880, S Point Load : D = 2.880, S Point Load : D = 2.880, S Point Load : D = 2.880, S Point Load : D = 2.880, S Point Load: D=1.70kna Load for Span Number 3 Point Load : D = 2.880, S Point Load : D = 2.793, S 7 Service loads entered. Load F added to Toads =9.984k@0.0ft =4.80kr7a 2.0 ft =4.80k(a 4.0 ft =4.80k 12.0 ft =4.80k(a)20.0ft =4.80k 28.0 ft =4.80kna 36.0 ft 14.0 ft < =4.80k(a)8.0ft =4.298k 8.50 ft Maximum Bending Stress Ratio Section used for this span fb : Actual FB : Allowable Load Combination Location of maximum on span Span # where maximum occurs Maximum Deflection Max Downward Transient Deflection Max Upward Transient Deflection Max Downward Total Deflection Max Upward Total Deflection 0.951: 1 5.125x28.5 2,280.07 psi = 2,398.47psi +D+S+H = 0.000ft Span # 2 0.366 in -0.045 in 0.497 in -0.033 in fi:044 *gy tegett6 Maximum Shear Stress Ratio Section used for this span fv : Actual Fv : Allowable Load Combination Location of maximum on span Span # where maximum occurs Ratio = Ratio = Ratio = Ratio = 556 >=360 9504 >=360 410>=180 12948 >=180 0.827: 1 5.125x28.5 252.13 psi 304.75 psi +D+S+H 3.630 ft Span # 1 14 Description : (E) GLB W/ RTU -2 Load Combination +D+S+H +D+S+H Span Max. " " Defl Location in Span Load Combination 0.2926 0.2284 0.4967 0.000 17.849 8.500 Support notation : Far left Is #1 S Only Max. "+ Defl Location in Span 0.0000 -0.0455 0.0000 Values in KIPS 0.000 32.067 32.067 Load Combination Overall MAXimum Overall MINimum + D+L+H + D+Lr+H +D+S+H +D+0.750Lr+0.750L+11 +D+0.750L+0.750S+H 4040.60W+1-1 +D+0.70E+H +D+0.750Lr+0.750L+0.450W+H +D+0.750L+0.750S+0.450W+H +D+0.750L+0.750S+0.5250E+H +0.60D+0.60W+0.60H +0.60D+0.70E+0.60H D Only Lr Only L Only S Only W Only E Only H Only Support 1, Support 2 Support 3 Support 4 43.550 37.355 10.790 9.024 17.984 15.039 17.984 15.039 17.984 15.039 43.550 37.355 17.984 15.039 37.159 31.776 17.984 15.039 17.984 15.039 17.984 15.039 37.159 31.776 37.159 31.776 10.790 9.024 10.790 9.024 17.984 15.039 25.567 22.315 i5 Converting Addresses to/from Latitude/Longitude/Altitude in One Step Stephen P. Morse, San Francisco latitude longitude above values must be in decimal with minus signs for south and west E Access geocoder.us / geocoder.ca (takes a relatively long time) from google decimal deg -min -sec latitude 47.4566618 47° 27' 23.9825" longitude -122.253329099999971 -122° 15' 11.9848" from yahoo i latitude I longitude altitude decimal 47.4565 1-122.25436 I deg -min -sec 47° 27' 23.4"1-122° 15' 15.696" 0 Andover Park W, Tukwila, Washington 98188 16 Design Maps Summary Report https://earthquake.usgs.gov/cnl/designmaps/us/summary.php?template... mums Design Maps Summary Report User—Specified Input Building Code Reference Document 2012/2015 International Building Code (which utilizes USGS hazard data available in 2008) Site Coordinates 47.4565°N, 122.25436°W Site Soil Classification Site Class D - "Stiff Soil" Risk Category I/II/III USGS—Provided Output Ss= 1.451g SI = 0.541 g SMs = 1.451 g SMI = 0.811 g 5.s = S.I= 0.968 g 0.541 g For information on how the SS and Si values above have been calculated from probabilistic (risk -targeted) and deterministic ground motions in the direction of maximum horizontal response, please retum to the application and select the "2009 NEHRP" building code reference document. MCF4i Response Spectrum Design Response Spectrum t2t1 1 1.6o 1 -ea 1.20 0.80 1J 1:74 am ton at a0a5 MOO aA0 e.m a9n t113 aro otn nan am a. ate ana ice t.st f t 223 anti 1m Period, T (sec) Perked, T (see) Although this Information is a product of the U.S. Geological Survey, we provide no warranty, expressed or implied, as to the accuracy of the data contained therein. This tool is not a substitute for technical subject -matter knowledge. 11 Lennox Industries Inc. - Product Submittal System ID: 10 TON ENERGENCE Package Model: LGH120H4M Description: PKGGE/10TON/CONFIGURABLE Modal No. CORNER WEIGHTS CENTER OF GRAVITY AA 88 CC DD EE FF Sims Max. Bass Elsie 61sx. Bass 8sam Max. Bass I. 118 lbs, 8 lbs. 1111, kB Nk ism In. RIM klt. Mutt 092 102 120 160 203 133 183 263 119 295 134 2103 130 316 143 326 146 370 188 as 1181 45.5 11588 24.6 622 Max. f». i1Mrt 6648 25.6 648 3.6648 848 26 134 340 154 285 120 135 258 131 318 144 140 372 189 48.6 1181 45.6 1156 24.5 822 $08 139 349 158 275 125 138 295 134 328 148 394 162 382 173 48.5 1181 46.5 1156 24$ 622 a 318 143 359 163 284 129 314 142 304 138 293 178 945 167 393 178 1181 46.5 1156 24.5 822 25.5 Soot %H•The unit *ONO ilN1 UMI.OPTtONS. Mos Unit • The tint wM?_lfr6iNALOPTIONS Instant rotoncolas amidst let trltish OM pose afoot 0 604/10 (1827) EMD MESS Project: 3000518502 Tukwila Building Quote: 4000621722 Tukwila Building Page 5 of 8 POMOEtthivot Fans tbrtrdseti Dos not Info*aooestriao sin TOP IEW wnosId. CCtd ( 1 One BtiPFLY FLUE 'ttET / t7itAl tz toti'Otaw SlYS >_ . -T 46-718 Ns4en i lSalwo NITS 54,114 491/111 tith FORKLIFT SLOTS ppm mos m"«:HOLES 0) 8IDE VIEW (11ttdzants1 °pass ge) Last Changed: MICHELLE PACK Prepared On: 2015-08-28 Phone: 972-497-7682 fa Lateral Analysis: LENNOX LGH120H4M (10 TONS) : Model: Operating WT. = 1,286 # Seismic Design: FP = {(0.4 aP Sps )x(1 + 2z/h)xWP}/(RP/IP) = FP M,ix = 1.6 SDs Ip Wp = FP MIN = 0.3 Sps Ip Wp = RTU -1,2,3 0.48 Wp 1.55 W, (Equation 13.3-2) 0.29 Wp (Equation 13.3-3 F,= 0.48 Wp 617 Ibs. From: aP = 2.5 R9= 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) IP= 1.0 per ASCE 7-10 Section 13.1.3 Mean Roof Height (h): 23.0 ft. Comp. Attachment Height (z): Ground Motion: Skis = Fa*Ss = 1.451 Sps = (2/3)*SMB = 0.968 Ski = Fv*Si = 0.811 SMI = (2/3)*SM1 = 0.541 Mech Unit: W = 58.125 in. D = 99.250 in. (D>W) H = 46.875 in. C.G. = 23.500 in. Center of Gravity Weight = 1286.00 Ibs.( Unit Weight + Misc) 0.7 Fp = 432 Ibs. Check Overturning (ASD) (Eq. 16-16) T1 = C1 = 0.7Fp* (C.G.) / 92" = (Eq. 16-16) T2 = C2 = 0.7Fp* (C.G.) / 52" = (Eq. 16-16) Res = (0.6-0.2SDsx0.7)x(Wp/2) = it 7i(47,44=7*.alic W, = 1286.0 lbs. 23.0 ft. 110 Ibs.---> No Uplift 195 Ibs.---> No Uplift 299 Ibs. (IBC 2015 Section 1605.3.1 Basic Combinations Equations) Wind Design : Exposure 'B', 110 mph, 30 ft (Max. Height) Peet = 0.00256(KZ) Oct) (Cnt) V2= 21.68 psf > 16 psf. KZ = Kzt = Cnet = V= Eq. 16-35 0.70 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 27.3-1 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 1.00 : Wind Directionality Factor, in accordance with Table 1609.6.2 (per h/D ratio) 110.00 : Basic Wind Speed from Section 1609.3 (Risk Category II) Fig.1609A Check Overturning (ASD) : (ASD) : Fhl = 0.6x(Pnet) (Af) = (Eq. 16-15) T1 = C1 = 0.6x[Wind Load*W*H*[(H)/2] / 92" = (Eq. 16-15) Res = 0.6x(Unit Weight /2) = (ASD) : Fh2 = 0.6x(Pnet) (Ar) = (Eq. 16-15) T2 = C2 = 0.6x[Wind Load*D*H*[(H)/2] / 52" = (Eq. 16-15) Res = 0.6x(Unit Weight /2) = (IBC 2015 Section 1605.3.1 Basic Combinations Equations) 246 Ibs. 63 Ibs.--> No Uplift 386 Ibs. 420 Ibs. 189 lbs.--> No Uplift 386 Ibs. t.PkOe0)z Gay/�. z �.3 AISI SPECIFICATION PROVISIONS for SCREW CONNECTIONS NOTATION SCREW PROPERTIES Number Nominal d = nominal screw diameter Designation Dia., d, in. dW = the larger of the screw head or washer # 2 diameter, but not larger than 1/2"(5/16"MSN.) # 3 FS = factor of safety = 3.0 # 4 Pas = allowable shear force per screw # 5 Pns= nominal shear strength per screw # 6 Pat = allowable tension force per screw # 7 Pit= nominal tension strength per screw # 8 Ppot= pull-out force per screw Ppov= pull -over force per screw t, = thickness of member in contact with the screw head t2 = thickness of member not in contact with the screw head Fu, = tensile strength of member in contact with the screw head Fut = tensile strength of member not in contact with the screw head #10 # 12 1/4 in. NOTE: - 1.) 2.) 3.) E6.3 Shear Pas = P ns/3 For t2/t, <=1.0 Pas shall be taken as the smaller of Pas = 1.4 (t23 d)'"2Fu2 Pas =0.9t,d Fu, Pas = 0.9 t2 d Fu2 For t2/t, >=2.5 Pas shall be taken as the smaller of Pas=0.9t,dFu, Pas =0.9bdFu2 0.0860 0.0990 0.1120 0.1250 0.1380 0.1510 0.1640 0.1900 0.2160 0.2500 GAUGE METAL THICKNESS Gauge Thickness ( in. ) 0.019 0.028 0.035 0.045 0.057 0.071 0.102 25 ga. 22 ga. 20 ga. 18 ga. 16 ga. 14 ga. 12 ga. Fu =45ksi min. Screw sizes smaller than # 2 or larger than 1/4" are not to be used. The tested shear capacity of the screw shall not be Tess than 1.25 P„s = 3.75 Pas. The tested tension capacity of the screw shall not be less than 1.25 Pit= 3.75 Pat. E6.4 Tension Pat = P nt/3 Pat shall be taken as the smaller of Pull - Out Pat = 0.283 t2 d Fu2 Pull - over Pat =0.5t,dWFu, For 1.0< b/t, <2.5 Pas shall be determined by the linear interpolation between the above two cases ALLOWABLE LOADS lbs. Q N 2 N a a m N N 0) z cc 1- w N m z eoo gg 111 h.a l 44ME Wz m 'o i OL c; a tzu LL gii EVd O W W W CO nOW- O N D~ UZ a coa.o am_' omo� a .arm z�Nniv Lateral Analysis: LENNOX LGH120H4M : Model: Operating WT.= 1,286 # Seismic Design: FP = {(0.4 aP SDa )x(1 + 2z/h)xWp}/(RP/Ip) = FPM„x=1.6Sim IpWp = FPMIN=0.3SpsIpWp = 0.48 1.55 0.29 10 TONS) RTU -1, 2, 3 Wp W9 (Equation 13.3-2) W,, (Equation 13.3 - I FP = 0.48 Wp = 752 Ib. From: aP = 2.5 RP = 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) I,= 1.0 per ASCE 7-10 Section 13.1.3 Mean Roof Height (h): 23.0 ft. Comp. Attachment Height (z): Ground Motion: Mech Unit: W = D= H= C.G. = Weight = Adapter Curb: W1 _ D1 = H1 = Curb Weight = 0.7 Fp= SMs = Fa*Ss = 1.451 Sips = (2/3)*SMs = 0.968 58.125 in. 99.250 in. (D>W) 46.875 in. 23.500 in. Center of Gravity 1286.000 Ib.( Unit Weight + Misc) 57.125 in. 94.688 in. (Dt>W,) 19.000 in. 281.000 Ib. 527 Ib. Check Overturning (ASD) : (Eq. 16-16) T1 = C1 = 0.7Fp* (C.G.)ad� / 92" _ (Eq. 16-16) T2 = C2 = 0.7Fp* (C.G.)adj. / 58" (Eq. 16-16) Res = (0.6-0.2SDsx0.7)x(Wp/2) = C.G. adj, = 209 332 364 W, = 1567.0 Ib. 23.0 ft. SMt=F,;*St=0.811 SMt = (2/3)*SMt = 0.541 36.582 in. Center of Gravity Ib.-> No Uplift Ib.-> No Uplift Ib. (IBC 2015 Section 1605.3.1 Basic Combinations Equations) Wind Design : Exposure 'B', 110 mph, 30 ft (Max. Height) P„er = 0.00256(K0 (KA) (C„a,) V2= 21.68 psf > 16 psf. : Eq. 16-35 KZ = 0.70 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 27.3-1 Kn = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 C„et = 1.00 : Wind Directionality Factor, in accordance with Table 1609.6.2 (per h/D ratio) V = 110.00 : Basic Wind Speed from Section 1609.3 (Risk Category II) Fig.1609A (ASD) : Fht = 0.6x(Pnet) (W*H + W1H1) = 344 Ib. (Eq. 16-15) T1 = Ct = 0.6xPnatx[(W*H*(H/2+H1)+Wt*H12/2] / 92" = Fh2 = 0.6X(Phet) (D*H + DIN = 583 Ib. (Eq. 16-15) T2 = C2 = 0.6xP„ejx[(D*H*(H/2+Ht)+D,*H12/2] / 58" = 334 Ib.-> No (Eq. 16-15) Res = 0.6x(Unit Weight /2) = 470 Ib. (IBC 2015 Section 1605.3.1 Basic Combinations Equations) 124 Ib.-> No Uplift 1 Lateral Analysis: LENNOX LGH120H4M (10 TONS) : Model: Operating WT.= 1,286 # Seismic Design: Fp = {(0.4 a See )x(1 + 2z/h)xWp}/(Rp/Ip) = F,M,x=1.6SoslpWp = Fp poi =0.3SDs IpWp = 0.48 1.55 0.29 1 Fp = 0.45 Wp = 750 ib. From: a, = 2.5 Rp = 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) I,= 1.0 per ASCE 7-10 Section 13.1.3 Mean Roof Height (h): 23.0 ft. Comp. Attachment Height (z): Ground Motion: SMS = Fa*SS = 1.451 SDs = (2/3)*SMs = 0.968 Mech Unit: W = D= H= C.G. = Weight = Existing Curb: WE = DE = HE = Curb Weight = 0.7 Fp = 58.125 in. 99.250 in. (D>W) 46.875 in. 23.500 in. Center of Gravity 1286.000 Ib.( Unit Weight + Misc) 60.000 in. 94.000 in. 10.000 in. 100 Ib. 525 Ib. Check Overturning (ASD) : per (Eq. 16-16) T, = C1 = 0.7Fp* (C.G.)adj. / 93" = 249 Ib.-> No Uplift T2 = C2 = 0.7Fp* (C.G.)adj. / 59" = 392 Ib.--> Uplift Res = (0.6-0.2SDsx0.7)x(Wp/2) = 387 Ib. (IBC 2015 Section 1605.3.1 Basic Combinations Equations) Wind Design : Exposure 'B', 110 mph, 30 ft (Max. Height) Pnet = 0.00256(KZ) (Ict) (Cnet) V: 21.68 psf > 16 psf. Wp Wp (Equation 13.3-2) Wp (Equation 13.3-3) W, = 1667.0 Ib. 23.0 ft. SM,=F„*S1=0.811 SMI = (2/3)*SM, = 0.541 Adaptor Curb: WA = 57.125 in. DA = 94.688 in. HA = 19.000 in. Curb Weight = 281.000 Ib. C.G. adj, = 44.09 in. TIS : Eq. 16-35 KZ = 0.70 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 27.3-1 = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Cnet = 1.00 : Wind Directionality Factor, in accordance with Table 1609.6.2 (per h/D ratio) V = 110.00 : Basic Wind Speed from Section 1609.3 (Risk Category II) Fig.1609A Check Overturning (ASD) : per (Eq. 16-15) Fh1 = 0.6x(Pnet) (W*H + WAHA+WEHE) = 398 Ib. T1 = C1 = 0.6xPnetx[(W*H*(H/2+HA+HE)+WA*HA (HA/2+HE)+WE.HE2/2] / 93" = Fh2 = 0.6x(Pnet) (D*H + DAHA+DEHE) = T2 = C2 = 0.6xPnetxl(D*H*(H/2+HA+HE)+DA*HA(HA/2+HE)+DE*HE2/2] / 59" = Res = 0.6x(Unit Weight /2) _ (IBC 2015 Section 1605.3.1 Basic Combinations Equations) 668 Ib. 500 Ib. 162 Ib.-> No Uplift 434 Ib.-> No Uplift P*- M( • wmT4-- CerJblki-taii 4 �i :-0d °"UGrUQ.0.' SPECIFICATIONS — GCS 16-1353 & GCS 16-1603 Model N. GCS16-1353 GCS1 z 1603 *ARI Standard Total cooling capacity (btuh). 119,000' *1 ,000 210/240 Ratings Total unit watts 13,220 6,820 or Standard *360 Ratings EER (BtuhIWatts) 9.0 8.50– Integrated Part Load Value - - - - 8.8 *ARI Standard 270 SRN (Bels) 8.8 -.. . Refrigerant (22) Charge Stage 1 7 lbs. 4 oz. 0 lbs. 12 oz. j --- Stage 2 7 lbs. 4 oz. 7 lbs. 12 oz. Blower wheel nominal diameter x width (in.) 15 x 15 15 x 15 Nominal motor horsepower 2 3 Factory Installed • Maximum usable horsepower 2.30 3.45 Evaporator,Blower **`Drives Voltage & phase 208/230/460v-3ph _ 20: 30/480v-3ph and Drive Selection RPM range 730 — 950 0 — 950 Optional Nominal motor horsepower - 3 - - - - Factory Maximum usable horsepower 3.45 - - - ***Drives Drives Voltage & phase 208/230/450v-3ph - - - RPM range 730-950 -- - Evaporator Net face area (sq. ft.) 9.46 11. Coil Tube diameter (in.) & No. of rows 3/8 — 4 3/8 3 Fins per inch 12 12 Condenser Net face area (sq. ft.) 20.0 24. Coil Tube diameter (in.) & No. of rows 3/8-2 3/8 2 Fins per inch 20 2., Diameter (in.) & No. of blades (2) 20 — 5 (2) 2 — 4 Condenser Air volume (cfm) 6400 Total 77 i' Total Fans Motor.horsepower (2) 1/3 ( ) 1/2 Motor watts 875 Total 1 ' 0 Total Btuh Input (low) 170,000 1.0,000 Two Stage Btuh Output (low) 132,500 :2,500 Heating Capacity (Natural Gas Only) Btuh Input (High) 270,000 0.000 Btuh Output (High) 216,000 16,000 A.G.A. Thermal Efficiency 80% 80% Btuh Input (low) 170,000 0,000 Two Stage Btuh Output (low) 132,500 :2,500 Heating Capacity (**LPG Gas Only) Btuh Input (High) 236,250 2'.6,250 Btuh Output (High) 192,500 1 • ,500 A.G.A. Thermal Efficiency 81.5% 8 .5% Gas Supply Natural 3/4 4 Connections fpt lin.) **LPG 3/4 Recommended Gas Natural 7 Supply Pressure (wc. in.) **LPG 11 1 Condensate drain slze mpt (in.) 1 1 No. &size of filters (in.) (4) 16 x 25 x 2 (4)20x 5 x2 Net weight of basic unit (lbs.) (1 Package) 1100 ::,: 12:: Electrical characteristics 208/230v or 460v -B0 hertz — 3 ph e *Sound Rating Number in accordancewith ARI Standard 270. *Rated In accordance with ARI Standard 210/240 or 360; 95*F outdoor air temperature and 80' F. db/67^F wb entering evaporator air. "For LPG units a field conversion kit is required and must be ordered extra. See Optional Accessories table. "1* Uaing total air volume and system static pressure requirements determine from blower performance tables rpm and bhp required. Maximum usable hp of motors furnished by Lennox are shown. If motors of comparable hp are used, be sure to keep within the service factor limitations outlined on the motor nameplate. — 8— M Is ACCESSORY DIMENSIONS (inches) INDUCED DRAFT SLOWER FLUE/VENT OUTLET FLUE/VENT OUTLET GCS16-953, -1353 & -1603 UNITS WITH REMD16M ECONOMIZER DAMPER SECTION AND RMF16 ROOF MOUNTING FRAME 7S/@ TOP VIEW. CONDENSER COIL INTAKE AIR CONDENSER COL FANS (Single Fan on G S1i-4S31 R P&HOOD al (Furnished whit DED14 Gravity Exhaust D.eperal BACK' VIEW CORNER WEIGHT (Ibs.) Mode, No. F L H J 1 GCS16-963 266 295 295 256 GCS18.1353 274 313 404 354 GCS18-1603 320 415 45.9 353 CENTER OF GRAVITY (in.) Model No. K L GCS16-963 24 41 GCS16-1353 28 41 GCS16-1803 28-1/2 44-3/8 CONDENSER COIL EXHAUST AMR rd -25.3/4 1111 • \\ C 1Rli:i'�+ills1 OUTDOOR AIR DAMPERS 1-1/2 OPTIONAL DED111 GRAVITY EXHAUST DAMPERS (Field Installed Both Sided CONDENSER SECTION END'VIEW Model No. A B C D E GCS16-953 39 88-1/2 48 29-9/16 32.9/16 1GCS16-1353 48 94 60 34-9/16 32-9/16 GCS16-1603 46 102 60 34-9/16 40-9/16 14 1 Lateral Analysis: Existing GCS 16-1353 : Model: Operating WT.= 1,100 # Seismic Design: F, = {(0.4 ap Sos )x(1 + 2z/h)xWp}/(Rp/Ip) = FPMAX = 1.6 SDs Ip Wp FP MIN = 0.3 Sps Ip Wp = 0.48 1.55 0.29 RTU -1,2,3 Wp Wp (Equation 13.3-2) Wp (Equation 13.3-3) Fp= 0.48 Wp = 576 Ib. From: ap = 2.5 RP = 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) IP= 1.0 per ASCE 7-10 Section 13.1.3 Mean Roof Height (h): 23.0 ft. Comp. Attachment Height (z): Ground Motion: Mech Unit: W = D= H= C.G. = Weight = (E) Curb: Wi = D1= H1 = Curb Weight = 0.7 Fp= Skis = Fa*Ss = 1.451 SDs = (2/3)*SMS = 0.968 60.000 in. 94.000 in. (D>W) 46.000 in. 23.500 in. Center of Gravity 1100.000 Ib.( Unit Weight + Misc) 60.000 in. 94.000 in. (01>W1) 10.000 in. 100.000 Ib. 403 Ib. Check Overturning (ASD) : (Eq. 16-16) T1 = C1 = 0.7Fp* (C.G.)ad;_ / 92" = (Eq. 16-16) T2 = C2 = 0.7Fp* (C.G.)adj. / 58" = (Eq. 16-16) Res = (0.6-0.2SDSx0.7)x(Wp/2) = W, = 1200.0 Ib. 23.0 ft. SMI = F„*S1 = 0.811 SM1 = (273)*SM1 = 0.541 C.G. ad;, = 31.125 in. Center of Gravity 136 Ib.-> No Uplift 216 Ib.-> No Uplift 279 Ib. (IBC 2015 Section 1605.3.1 Basic Combinations Equations) Wind Design : Exposure 'B', 110 mph, 30 ft (Max. Height) Pnet = 0.00256(1c) (Kn) (Cnet) V2= 21.68 psf > 16 psf. : Eq. 16-35 KZ = 0.70 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 27.3-1 = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Cnet = 1.00 : Wind Directionality Factor, in accordance with Table 1609.6.2 (per h/D ratio) V = 110.00 : Basic Wind Speed from Section 1609.3 (Risk Category II) Fig.1609A (ASD) : Fh1 = 0.6x(Pnet) (W*H + W1H1) = 304 Ib., (Eq. 16-15) T1 = C1 = 0.6xPnetx[(W*H*(H/2+H1)+W1*H12/2] / 92" = 92 Ib.-> No Uplift Fh2 = 0.6x(Pnet) (D*H + D1H1) = (Eq. 16-15) T2 = C2 = 0.6xPnetx[(D*H*(H/2+H1)+D1*H12/2] / : ' - 230 Ib.-> No Uplift (Eq. 16-15) Res = 0.6x(Unit Weight /2) = (IBC 2015 Section 1605.3.1 Basic Combinations Equations) 360 Ib. Mc 11 HERMIT CORD COPY PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M17-0038 PROJECT NAME: GUITAR CENTER DATE: 03/20/17 SITE ADDRESS: 240 ANDOVER PARK W X Original Plan Submittal Response to Correction Letter # Revision # before Permit Issued Revision # after Permit Issued DEPARTMENTS: A-wo Building Division Public Works frrn AIVJ tt-i Fire Prevention Structural Planning Division ❑ Permit Coordinator PRELIMINARY REVIEW: Not Applicable n (no approval/review required) DATE: 03/21/17 Structural Review Required REVIEWER'S INITIALS: DATE: n APPROVALS OR CORRECTIONS: Approved DUE DATE: 04/18/17 ❑ Approved with Conditions Corrections Required (corrections entered in Reviews) Notation: Denied (ie: Zoning Issues) REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire 0 Ping ❑ PW 0 Staff Initials: 12/18/2013 PRO STAFF MECHANICAL INC Home. Espanol Contact Safety & Health Claims & Insurance Washington State Department of Labor & Industries Search L&I Page 1 of 2 A -Z Index help My L&I Workplace Rights Trades & Licensing PRO STAFF MECHANICAL INC Owner or tradesperson Principals ALMO, LEONARD LEE, PRESIDENT ALMO, PENNY H, VICE PRESIDENT Doing business as PRO STAFF MECHANICAL INC WA UBI No. 601 038 859 PO BOX 33370 SEATTLE, WA 98133 206-361-0071 KING County Business type Corporation Governing persons LEONARD ALMO PENNY H ALMO; 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. PROSTMI072NG Effective — expiration 08/07/1993— 07/02/2018 Bond ........_....... DEVELOPERS SURETY & INDEM CO Bond account no. 799707C $12,000.00 Received by L&I Effective date 01/26/2009 01/14/2009 Expiration date Until Canceled Insurance ............................ American Economy Insurance Co $1,000,000.00 Policy no. 26CC006951 Received by L&I Effective date 06/20/2016 06/30/2014 Expiration date 06/30/2017 Insurance history Savings No savings accounts during the previous 6 year period. Help us improve https://secure.lni.wa.gov/verify/Detail.aspx?UBI=601038859&LIC=PROSTMI072NG&SAW= 4/20/2017 PRO STAFF MECHANICAL INC Lawsuits against the bond or savings No lawsuits against the bond or savings act. .ts during the previous 6 year period. L&I Tax debts ......................................... No L&I tax debts are recorded for this contractor license during the previous 6 year period, but some debts may be recorded by other agencies. License Violations ......................................................... No license violations during the previous 6 year period. Workers' comp Do you know if the business has employees? If so, verify the business is up-to-date on workers' comp premiums. L&I Account ID 520,736-00 ................................. Doing business as PRO STAFF MECHANICAL INC Estimated workers reported Quarter 4 of Year 2016 "21 to 30 Workers" L&I account representative T3 / NATHAN KOZAK (360)902-6243 - lEmail: KOZN235@Ini.wa.gov Account is current. Workplace safety and health Check for any past safety and health violations found on jobsites this business was responsible for. Page 2 of 2 ©Washington State Dept. of Labor & Industries. Use of this site is subject to the laws of the state of Washington. Help us improve https://secure.lni.wa.gov/verify/Detail.aspx?UBI=601038859&LIC=PROSTMI072NG&SAW= 4/20/2017 RTU -2: REPLACE. EXISTING LENNOX 10 -TON ROOFTOP GAS PACK WITH NEW LENNOX 10 -TON ROOFTOP GAS PACK TOP OF NEW RTU'S 36' RTU -1: REPLACE EXISTING LENNOX 10 -TON ROOFTOP GAS PACK WITH NEW LENNOX 10 -TON ROOFTOP GAS PACK 3Z: GRADE -rOr OF ("AtAprr GUITAR CENTER `I REI PARTIAL WEST ELEVATI N SCALE: 1/20"=1'-0" REPLACEMENT UNIT (WEIGHT: 1,286 0) ///////////// 4 BETWEEN UNIT ADAPTER CURB - (I) -q8 HEX -HEAD SCREW (i) FROM EA. CORNER 4 (1) MIDDLE OF LONGER BAY (TOTAL 8 SCREWS MIN.) BETWEEN ADAPTER CURB 4 (E) CURB. (1)-+13 HEX -HEAD SCREW 'a (±) 6' FROM' EA. CORNER 4 (I) MIDDLE OF LONGER SAY (TOTAL 8 SCREWS MIN.) _ _ OM OM OW OM NO ADDITIONAL CONNECTION REM" BETWEEN (E) CURB • 4 (E) ROOF STRUCTURES SECTION SCALE: I"= 2 Gdl.1) i / et -41 h 03/I3/201'1 Gd -LL ONO • 24'-0' HINGE CONNECTOR (TYP) t W. asiriciroar Ns (E) CONC WALL 24'-0' (21 D S. Engineering Consulting Structural Engineers 3121 147th Place SE Mill Creek, WA 98012 T: 425-338-4776 03/13/2017 24'-0' (E) CURB -- (STAY) - REPLACEMENT UNIT 4 ADAPTER CURB (WT.: 1,286 M + 281 +9) r RION • 'RTU -2' REPLACEMENT UNIT 4 ADAPTER CURB (WT: 1,286 • + 281 +') • 'RTU -3` REPLACEMENT UNIT 4 ADAPTER CURB (UJT.: 1,286 • + 281 ") to 0 tl 6 3t PAARTIAL. EXISTING ROOF FRAMING . FLAN SCALE: I/16' • RTU 1-3 REPLACEMENT SCOPE OF WO' • REPLACE THREE EXISTING LENNOX 10 -TON ROOFTOP GAS PACKS WITH NEW LENNOX 10 -TON ROOFTOP GAS PACKS, LIKE-FOR-LII{E. ■ HIGH EFFICIENCY, LOW -LEAK ECONOMIZERS WITH RELEIF AIR DAMPERS. ■ NEW ROOFTOP RETURN AIR DUCT SMOKE DETECTORS. ■ CURB ADAPTORS. ■ CONDENSATE P -TRAPS WITH DRIP BLOCKS. • RECONNECT TO THE EXISTING GAS PIPING ROOFTOP GAS PIPING. ♦ REPLACE THE THREE EXISTING THERMOSTATS WITH NEW HONEYWELL COMMERCIAL VISIONPRO 7 -DAY PROGRAMMABLE THERMOSTATS. ♦ EQUIPMENT START-UP & TEST. ♦ AIR BALANCE. o COMMISIONING, OWNER TRANING, O&M MANUALS. • BUILDING INFORMATION Parcel Number 022310-0070 , Property Owner 1 GARFIELD-SOUTHCENTER, LLC. Property Name ___- BED BATH & BEYOND, REI, GUITAR CENTER I Site Address 240 ANDOVER PARK WEST, 98188 ^� Guitar Center Address 230 ANDOVER PARK WEST, 98188 Legal ANDOVER INDUSTRIAL PARK # 2 LESS N 459 FT MEAS PLW S MGN OF BAKER BLVD & LESS. F Plat Lot: 7 RTU 1-3: NEW LENNOX ROOFTOP PACKAGED GAS PACK SCHEDULE TAG LENNOX ENERGENCE MODEL # SIZE CFM MIN OSA GROSS COOLING GAS HEATING 2 Stages (Btu's) THERMAL EFFICIENCY Electrical Sound (dB) WEIGHT (LBS.) RTU 1-3 ENERGENCE ;( LGH120H4MH3 10 -Ton 4,000 RTU -1: 1,034 CFM RTU -2:1,400 CFM RTU -3: 1,364 CFM 122,000 Btu EER=12.0 IEER=13.8 Low Input = 156 000 Low Output = 124,800 High Input = 240,000 High Output= 192,000 AFUE=80% 460/3/60 MCA=24 MOCP =30 88 1,568#/each RTU -1 EQUIPMENT NOTES: 1. Prodigy 2.0 Unit Controller, MSAV Multi -Stage Air Volume, ASHRAE 90.1 Compliant%FOP 2. High Efficiency Economizer with motorized Return Air Damper, Motorized Outside Air. Damper and Relief Air Damper. 3. Three stages of cooling with economizer operation being the 1st stage of cooling. 4. Honeywell Commercial VisionPro Thermostat, 7 -Day programmable with 5° dead -band. RTU 1-3 Occupied Modes: Monday -Friday = 9:00 am -9:00 pm; Saturday = 9:00 am -8:00 pm; Sunday = 10:00 am -7:00 pm • Occupied Mode Indoor Temperature Set Points: Heating=72°F; Cooling=75°F • Unoccupied Mode Indoor Temperature Set Points: Heating=65°F; Cooling=85°F 5. Outside air intakes to be 10' - 0" from all exhaust outlets, flue vents & plumbing vents. 6. Field installed Return Air Duct Smoke Detector. 7. Curb Adaptor. 8. Existing Lennox RTU being replaced: Model # GCS16-1353. 10 -Ton fro V 1.4 fr y cHo i- a e.-�,�j r- rR.4.kr vt Q 1 v� av�` �- �c 1 fittkt G(a k,.) � v' l' -G 06. , z . 1 FILE COPY Permit No. OO V15. Plan roview Ppprevr.1 is subject to errors and cr ,j3 yrs. Approval of corc ion c ccunt E:nt.:3 (i:2, , the violation of any adopted code or crd:nnnco. approved Field • 9, of and con Tions By: Date: Ciiy c .1Vavila BUILDING C IV3IOf RECEIVED CITY OF TUKWILA MAR 162017 _...__,.... _-FIEVISicwg• PERMIT CENTER No chant ss shad h , n c o to the scope • of 1..tor!<-;^'itho!'i I1'ilci• r ;)proval of u ..r ►a 6,_riid,;-+n r; ori -,',n and may it za JOB#1 845 Commercial HVAC Contractors m O • U so 0 uil : C,, — c E2 ` au m 0 m mom. t) () N a CO °m CO • to rn c 4. '- M as to O ij o`. a a CO N 0 0 M ca0 N Im N 0 MCo 0 cciN Contractors License # PROSTM I072NG et\1 W Ergazi 4 '"z 2 cd ° r)04*4 cL4 ,c M lEi 1 � H 00 00 C31 REVISIONS REVIEWED FOR CODE COMPLIANCE APPROVED APR 0 4 2017 P - City' of Tukwila BUILDING DIVISIO;, DRAWN PC DATE 3/3/17 CONTENTS •H PROPERTY LINE PARKING LOT STRANDER BOULEVARD 64 RTU -2: REPLACE EXISTING LENNOX 10 -TON ROOFTOP GAS PACKWITH NEW LENNOX\ 10 -TON ROOFTOP GAS PACK. RTU -1: REPLACE EXISTING LENNOX 10 -TON ROOFTOP GAS PACK WITH NEW LENNOX 10 -TON ROOFTOP GAS PACK c -t GUITAR CENTER1' TENANT SEPARATION WALL REI RESTROOM ().c ---'EXHAUST TERMINATION RTU -3: REPLACE EXISTING LENNOX 10 -TON ROOFTOP GAS PACK WITH NEW LENNOX 10 -TON ROOFTOP GAS PACK. • CI EXISTING ADJACEMENT TENANT SPACE ROOFTOP HVAC EQUIPMENT (TYPICAL TENANT SEPARATION WALL 3 SHARED TENANT LOADING DOCK HATCH 7'1 EXISTING ADJACEMENT TENANT SPACE ROOFTOP HVAC EQUIPMENT (TYPICAL) 1 BED BATH & BEYOND LJ ROOFTOP/SITE PLAN .0itmostootiotot. SCALE: 1/20"= 1'-0" PARKING LOT PROPERTY LINE JOB#1845 Commercial HVAC Contractors Contractors license! PROSTMI072NG RECEIVED CITY OF TUKWIL MAR 1 6 2017 PERMIT CENTER I/ 0030 RTU 1-3 REPLACEMENT PROJECT Tenant Address: 230 Andover Park West 00 00 °CI; .R4 REVISIONS REVIEWED FOR CODE COMPLIANCE APPROVED APR 04 1117. City of Tukwila DR v DATE 3/3/17 CONTENTS SHEET NUMBER 2015 WASHINGTON STATE ENERGY/MECHANICAL CODE COMPLIANCE NOTES: C403.2.4 HVAC SYSTEM CONTROLS: HVAC SYSTEM SHALL BE PROVIDED WITH CONTROLS AS DEFINED IN THIS SECTION AND SHALL BE CAPABEL OF AND CONFIGURED TO IMPLEMENT ALL REQUIRED CONTROL FUNCTIONS IN THIS CODE. • C403.2.4.1 THERMOSTATIC CONTROLS. THE SUPPLY OF HEATING AND COOLING ENERGY TO EACH ZONE SHALL BE CONTROLLED BY INDIVIDUAL THERMOSTATIC CONTROLS CAPABLE OF RESPONDING TO TEMPERATURE WITHIN THE ZONE. CONTROLS IN NEIGHBORING ZONES CONNECTED BY OPENINGS LARGER THAN 10% OF THE FLOOR AREA OF EITHER ZONE SHALL NOT ALLOW FOR SIMULTANEOUS HEATING AND COOLING. CONTROLS ON SYSTEMS REQUIED TO HAVE ECONOMIZERS AND SERVING SINGLE ZONES SHALL HAVE MULTIPLE COOLING STATE CAPABILITY AND ACTIVATE THE ECONOMIZER WHEN APPROPRIATE AS THE FIRST STAGE OF COOLING. • C403.2.4.1.2 DEADBAND. WHERE USED TO CONTROL BOTH HEATING AND COOLING, ZONE THERMOSTATIC CONTROLS SHALL BE CONFIGURED TO PROVIDE A TEMPERATURE RANGE OR DEADBAND OF AT LEAST 5° F WITHIN WHICH THE SUPPLY OF HEATING AND COOLING ENERGY TO THE ZONE IS SHUT OFF OR REDUCED TO A MINIMUM. • C403.2.4.2.2 AUTOMATIC SETBACK AND SHUTDOWN CAPABILITIES. AUTOMATIC TIME CLOCK OR PROGRAMMABLE CONTROLS SHALL BE CAPABLE OF STARTING AND STOPPING THE SYSTEM FOR SEVEN DIFFERENT DAILY SCHEDULES PER WEEK AND RETAINING THEIR PROGRAMMING AND TIME SETTING DURING A LOSS OF POWER FOR AT LEAST 10 HOURS. ADDITIONALLY, THE CONTROLS SHALL HAVE A MANUAL OVERRIDE THAT ALLOWS TEMPORARY OPERATION OF THE SYSTEM FOR UP TO 2 HOURS. C403.2.4.2.3 AUTOMATIC START CAPABILITIES, AUTOMATIC START CONTROLS SHALL BE PROVIDED FOR. EACH HVAC SYSTEM. THE CONTROLS SHALL BE CAPABLE OF AUTOMATICALLY ADJUSTING THE DAILY START TIME OF THE HVAC SYSTEM IN ORDER TO BRING EACH SPACE TEMPERATURE IMMEDIATELY PRIOR TO SCHEDULED OCCUPANCY. > RTU 1-3 SHALL HAVE HONEYWELL VISIONPRO COMERCIAL THERMOSTATS THAT ARE 7 -DAY PROGRAMMABLE WITH 5° F DEADBAND. SEE RTU 1-3 EQUIPMENT SCHEDULE FOR PROGRAMMING AND HOURS OF STORE OPERATION. C403.2.4.3 SHUTTOFF DAMPERS: ■ SHUTTOFF/MOTORIZED DAMPER(S) TO HAVE LEAKAGE RATINGS PER SECTION C403.2.4.3 OF THE WSEC • CLASS I DAMPERS SHALL HAVE A MAXIMUM LEAKAGE RATE OF 4 CFM/ft2 AT 1.0" w.g. WHEN TESTED IN ACCORANCE WITH AMCA 500D. • EXCEPTION: MOTORIZED DAMPERS ON RETURN AIR OPENINGS IN UNITARY PACKAGED EQUIPMENT THAT HAVE A THE MIMIMUM LEAKAGE RATE AVAILABLE FROM THE MANUFACTURER SHALL BE DEEMED TO COMPLY. ■ OUTDOOR AIR INTAKE AND EXHAUST DAMPERS SHALL BE INSTALLED WITH AUTOMATIC CONTROLS CONFIGURED TO CLOSE WHEN THE SYSTEMS OR SPACES SERVED ARE NOT IN USE OR DURING UNOCCUPIED PERMIOD WARM-UP AND SETBACK OPERATION, UNLESS THE SYSTEMS SERVED REQUIRE OUTDOOR OR EXHAUST AIR IN ACCORDANCE WITH THE INTERNATIONAL MECHANCIAL CODE OR THE DAMPERS ARE OPENED TO PRVODE INTENTIONAL ECONOMIZER COOLING. • EXCEPTION 1: GRAVITY (NONMOTORIZED) DAMPERS SHALL BE PERMITTED TO BE USED AS FOLLOWS: 1.1. RELIEF DAMPERS SERVING SYSTEMS LESS THAN 5,000 CFM TOTAL SUPPLY SHALL BE PERMITTED IN BUILDINGS LESS THAN THREE STORES IN HEIGHT. ■ GRAVITY (NONMOTORIZED) DAMPERS SHALL HAVE AN AIR LEAKAGE RATE NOT GREATER THAN 20 CFM/ft2 WHERE NOT LESS THAN 24 INCHES IN EITHER DIMENSION AND 40 CFM/ft2 WHERE LESS THAN 24 INCHES IN EITHER DIMENSION. (THE RATE OF AIR LEAKAGE SHALL BE DETERMINEDAT 1.0" w.g. WHEN TESTED IN ACCORANCE WITH AMCA 500D.) ECONOMIZERS: • ECONOMIZERS SHALL HAVE A FAULT DETECTION & DIAGNOSTIC (FDD) SYSTEM PER THE 2015 SEC SECTION C403.2.4.7 • FDD SYSTEMS ON ECONOMIZERS SHALL HAVE THE FOLLOWING: • PERMANENTLY INSTALLED OUTSIDE AIR, SUPPLY AIR AND RETURN AIR TEMPERATURE SENSORS WITH AN ACCURACY OF +/- 2° F. • UNIT CONTROLLER (RTU1-3 = PRODIGY2.0 UNIT CONTROLLER) SHALL BE CONFIGURED TO PROVIDE SYSTEM STATUS BY INDICTATING THE FOLLOWING: FREE COOLING AVAILABLE, ECONOMIZER ENABLED, COMPRESSOR ENABLED, HEATING ENABLED, MIXED AIR LOW LIMT CYCLE ACTIVE, AND THE CURRENT VALUE OF EACH SENSOR. • THE UNIT CONTROLLER SHALL BE CAPBABLE OF MANUALLY INITIATING EACH OPERATION MODE SO THAT THE OPERATION OF COMPRESSORS, ECONOMIZERS, FANS AND THE HEATING SYSTEM CAN BE INDEPENDENTLY TESTED AND VERIFIED. • THE UNIT SHALL BE CONFIGURED TO REPORT FAULTS TO A FAULT MANAGEMENT APPLICATION ACCESSIBLE BY DAY-TO-DAY OPERATION OR SERVICE PERSONNEL OR ANNUNCIATED LOCALLY ON ZONE THERMOSTATS. • THE FDD SYSTEM SHALL BE CONFIGURED TO DETECT THE FOLLOWING FAULTS: AIR TEMPERATURE SENSOR FAILURE/FAULT, NOT ECONOMIZING WHEN THE UNIT SHOULD BE ECONOMIZING, ECONOMIZING WHEN THE UNIT SHOULD NOT BE ECONOMIZING, DAMPER(S) NOT MODULATING, AND EXCESS OSA. C403.3.1 INTEGRATED ECONOMIZER CONTROL. ■ ECONOMIZERS ON RTU 1-3 SHALL HAVE INTEGRATED ECONOMIZER CONTROL PER SECTION C403.3.1 • ECONOMIZER SYSTEMS SHALL BE INTEGRATED WITH THE MECHANICAL COOLING SYSTEM AND BE CONFIGURED TO PROVIDE PARTIAL COOLING EVEN WHERE ADDITIONAL MECHANICAL COOLING IS REQUIRED TO PROVIDE THE REMAINDER OF THE COOLING LOAD. CONTROLS SHALL NOT BE CAPABLE OF CREATING A FALSE LOAD IN THE MECHANICAL COOLING SYSTEM BY LIMITING OR DISABLING THE ECONOMIZER OR ANY OTHER MEANS, SUCH AS HOT GAS BYPASS, EXCEPT AT THE LOWEST STAGE OF MECHANICAL COOLING. • UNITS AND THEIR ECONOMIZERS SHALL COMPLY WITH THE FOLLOWING: 1) UNIT CONTROLS SHALL HAVE THE MECHANICAL COOLING CAPACITY CONTROL INTERLOCKED WITH THE AIR ECONOMIZER CONTROLS SUCH THAT THE OUTDOOR AIR DAMPER IS AT THE 100% OPEN POSITION WHEN MECHANICAL COOLING IS ON AND THE OUTDOOR AIR DAMPER DOES NOT BEGIN TO CLOSE TO PROVENT COIL FREEZING DUE TO MINIMUM COMPRESSOR RUN TIME UNTIL THE LEAVING AIR TEMPERATURE IS LESS THAN 45° F. 2) DIRECT EXPANSION (DX) UNITS WITH COOLING CAPACITY 65,000 Btu/H OR GREATER OF RATED CAPACITY SHALL COMPLY WITH THE FOLLOWING: 2.1) DX UNITS THAT CONTROL THE CAPACITY OF THE MECHANICAL COOLING DIRECTLY BASED ON THE OCCUPIED SPACE TEMPERATURE SHALL HAVE NOT FEWER THAN TWO STAGES OF MECHANICAL COOLING CAPACITY. • C403.3.2 ECONOMIZER HEATING SYSTEM IMPACT. HVAC DESIGN AND ECONOMIZER CONTROLS SHALL BE SUCH THAT ECONOMIZER OPERATION DOES NOT INCREASE BUILDING HEATING ENERGY USE DURING NORMAL OPERATION. ■ C403.3 AIR ECONOMIZERS. AIR ECONOMIZERS SHALL COMPLY WITH SECTIONS C403.3.3.1 THROUGH C403.3.3.5. • C403.3.1 DESIGN CAPACITY. AIR ECONOMIZER SYSTEMS SHALL BE CONFIGURED TO MODULATE OUTDOOR AIR AND RETURN AIR DAMPERS TO PROVIDE UP TO 100% OF DESIGN SUPPLY AIR QUANTITY AS OUTDOOR AIR FOR COOLING. • C403.3.3.2 CONTROL SIGNAL. ECONOMIZER CONTROLS AND DAMPERS SHALL BE CONFIGURED TO , SEQUENCE THE DAMPERS WITH MECHANICAL COOLING EQUIPMENT AND SHALL NOT BE CONTROLLED BY ONLY MIXED AIR TEMPERATURE. AIR ECONOMIZERS ON SYSTEMS WITH COOLING CAPACITY GREATER THAN 65,000 Btu/H SHALL BE CONFIGURED TO PROVIDE PARTIAL COOLING EVEN WHEN ADDITIONAL MECHANICAL COOLING IS REQUIRED TO MEET THE REMAINDER OF THE COOLING LOAD. • C403.3.3 HIGH -LIMIT SHUTOFF. AIR ECONMIZERS SHALL BE CONFIGURED TO AUTOMATICALLY REDUCE OUTDOOR AIR INTAKE TO THE DESIGN MIMIMUM OUTDOOR AIR QUANTITY WHEN OUTDOOR AIR INTAKE WILL NO LONGER REDUCE COOLING ENERGY USAGE. HIGH LIMIT SHUT-OFF CONTROL SETTINGS FOR THESE CONTROL TYPES SHALL BE THOSE SPECIFED IN TABLE C403.3.3.3 > RTU 1-3: DIFFERENTIAL ENTHALPY WITH FIXED DRY-BULB TEMPERATURES. OUTDOOR AIR ENTHALPY EXCEEDS RETURN AIR ENTHALPY OR OUTDOOR TEMPERATURE EXCEEDS 75° F. • C403.3.3.4 RELIEF OF EXCESS OUTDOOR AIR (ECONOMIZER RELIEF AIR). SYSTEMS SHALL BE CAPABLE OF RELIEVING EXCESS OUTDOOR AIR DURING AIR ECONMOZER OPERATION TO PREVENT OVER - PRESSURIZING THE BUILDING. THE RELIEF AIR OUTLET SHALL BE LOCATED TO AVOID RECIRCULATION INTO THE BUILDING. DUCTWORK/PLENUMS: 1) ALL SUPPLY, RETURN, OUTSIDE AIR AND EXHAUST DUCT SYSTEMS IN THE BUILDING ARE LOW- PRESSURE DUCT SYSTEMS (x < 2" w.g.) ■ ALL DUCTWORK & PLENUMS TO BE INSTALLED AND SEALED PER SECTION C403.2.8.2 OF THE 2015 WSEC. 2) ALL OUTSIDE AIR DUCTWORK & SUPPLY/RETURN AIR DUCTWORK RAN IN UNCONDITIONED AREAS OR EXPOSED ON THE ROOF SHALL BE INSULATED WITH R-8 INSULATION PER SECTION C403.2.8.2 OF THE 2015 WSEC. C403.2.11 AIR SYSTEM DESIGN AND CONTROL. FAN & MOTOR EFFICIENCY: • EXCEPTION: THE FAN & MOTOR IN RTU 1-3 ARE PART OF EQUIPMENT COVERED UNDER SECTION C403.2.3 AND INCLUDED IN AN EQUIPMENT PACKAGE CERTIFIED BY AN APPROVED AGENCY FOR ENERGY PERFORMANCE. • C403.2.11.5 FAN AIRFLOW CONTROL. EACH COOLING SYSTEM (RTU 1-3) GREATER THAN 65,000 Btu/H SHALL BE DESIGNED TO VARY THE INFOOR FAN AIRFLOW AS A FUNCTION OF LOAD AND SAHLL COMPLY WITH THE FOLLOWING REQUIREMENTS: 1) DIRECT EXPANSION UNITS THAT CONTROL THE CAPACITY OF THE MECHANICAL COOLING DIRECTLY BASED ON SPACE TEMPERATURE SHALL HAVE NOT FEWER THAN TWO STAGES OF FAN CONTROL. LOW OR MINIMUM SPEED SHALL NOT BE GREATER THAN 66% OF FULL SPEED. AT LOW OR MINIMUM SPEED, THE FAN SYSTEM SHAL DRAW NOT MORE THAN 40% OF THE FAN POWER AT FULL FAN SPEED. LOW OR MINIMUM SPEED SHALT, HP USED DURING PERIODS OF LOW COOLING LOAD AND VENTILATION -ONLY OPERATION. 2) OTHER UNITS INCLUDING DX COOLING UNITS THAT CONTROL THE SPACE TEMPERATURE BY MODULATING THE AIRFLOW TO THE SPACE SHALL HAVE MODULATING FAN CONTROL. MINIMUM SPEED SHALL BE NOT GREATER THAN 50% OF FULL SPEED. AT MINIMUM SPEED, THE FAN SYSTEM SHALL DRAW NO MORE THAN 30% OF THE POWER AT FULL FAN SPEED. LOW OR MINIMUM SPEED SHALL BE USED DURING PERIODS OF LOW COOLING LOAD AND VENTILATION -ONLY OPERATION. 3) UNITS THAT INCLUDE AN AIRSIDE ECONOMIZER IN ACCORDANCE WITH SECTION C403.3 SHALL HAVE NOT FEWER THAN TWO SPEEDS OF FAN CONTROL DURING ECONOMIZER OPERATION. > RTU 1-3 HAS VFD FAN OPERATION. C408.2 MECHANICAL SYSTEMS COMMISSIONING. • RTU 1-3 AND ASSOCIATED CONTROLS SHALL BE COMMISSIONED AS REQUIRED BY SECTION C408. ■ MECHANICAL EQUIPMENT AND CONTROLS SHALL BE INCLUDED IN THE COMMISSIONING PROCESS. THE COMMISSIONING PROCESS SHALL MINIMALLY INCLUDE ALL ENERGY CODE REQUIREMENTS FOR WHICH THE CODE STATES THAT EQUIPMENT OR CONTROLS SHALL "BE CAPABLE OF" OR "CONFIGURED TO" PERFORM SPECIFIC FUNCTIONS. • COMMISSIONING COMPLIANCE CHECKLIST SHALL BE COMPLETED AND PROVIDED TO THE BUILDING OFFICIAL AT TIME OF INSPECTION. ■ ALL NEW EQUIPMENT AND ASSOCIATED CONTROLS TO BE COMMISSIONED PER THE 2015 WSEC SECTION C408.2 COMMISSIONING TO INCLUDE BUT NOT LIMITED TO: a) COMMISSIONING PLAN. b) FINAL COMMISSIONING REPORT. c) EQUIPMENT START-UP & TEST. d) ECONOMIZER OPERATION & FAULT DETECTION & DIAGNOSTIC (FDD) SYSTEM OPERATION. e) AIR BALANCING. 0 PERFORMANCE TESTING. g) OPERATION & MAINTENANCE MANUALS. h) OWNER/TENANT TRAINING. RECEIVED CITY OF TUKWILA MAR 162017 PERMIT CENTER MI 0038 JOB#1845 Commercial HVAC Contractors M U) O) C r � N O � O O TO 43 M M • (O O � N Contractors License # PROSTMI072NG E O U To U co - U m E co CU 0 a I) ct a) O cnN ct H H REVISIONS REVIEWED FOR CODE COMPLIANCE APPROVED APR 0 4 2011 City of Tukwila BUILDING DIVISION DRAWN PC DATE 3/3/17 CONTENTS 3 SHEET NUMBER. M -3