The URL can be used to link to this page

Home My WebLink AboutPermit M16-0067 - SALAL CREDIT UNION - ROOFTOP HEAT PUMPSSALAL CREDIT UNION M16-0067 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 Parcel No: 0005800037 Permit Number: M16-0067 Address: 690 STRANDER BLVD 2 Issue Date: 5/18/2016 Permit Expires On: 11/14/2016 Project Name: SALAL CREDIT UNION Owner: Name: BC PARTNERS LLC Address: PO BOX 997 C/O MK PROPERTY SERVICES LLC, SNOQUALMIE, WA, 98065 Contact Person: Name: PETER CRELLEY Phone: (206) 361-0071 Address: PO BOX 33370, SEATTLE, WA, 98133 Contractor: Name: PRO STAFF MECHANICAL INC Phone: (206) 361-0071 Address: PO BOX 33370, SEATTLE, WA, 98133 License No: PROSTMI072NG Expiration Date: 7/2/2016 Lender: Name: Address: DESCRIPTION OF WORK: REPLACE TWO EXISTING ROOFTOP PACKAGED HEAT PUMPS WITH NEW - "LIKE -FOR -LIKE". INSTALL ONE NEW 1 - TON DUCTLESS SPLIT -SYSTEM IN THE ATM/SERVER ROOM. INCLUDES REFRIGERANT PIPING. Valuation of Work: $18,690.00 Fees Collected: $441.88 Type of Work: Electrical Service Provided by: PUGET SOUND ENERGY Fuel type: Water District: TUKWILA Sewer District: TUKWILA SEWER SERVICE Current Codes adopted by the City of Tukwila: International Building Code Edition: 2012 National Electrical Code: 2014 International Residential Code Edition: 2012 WA Cities Electrical Code: 2014 International Mechanical Code Edition: 2012 WAC 296-46B: 2014 Uniform Plumbing Code Edition: 2012 WA State Energy Code: 2012 International Fuel Gas Code: 2012 Permit Center Authorized Signatu Date: I hearby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to sign and obtain this development permit and agree to tbp, conditions attached to this permit. � Signature: f� Date: S-111-16 Print Na e: This permit shall become null and void if the work is not commenced within 180 days for the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. PERMIT CONDITIONS: 1: Work shall be installed in accordance with the approved construction documents, and any changes made during construction that are not in accordance with the approved construction documents shall be resubmitted for approval. 2: All permits, inspection record card and approved construction documents shall be kept at the site of work and shall be open to inspection by the Building Inspector until final inspection approval is granted. 3: Readily accessible access to roof mounted equipment is required. 4: All construction shall be done in conformance with the Washington State Building Code and the Washington State Energy Code. 5: Remove all demolition rubble and loose miscellaneous material from lot or parcel of ground, properly cap the sanitary sewer connections, and properly fill or otherwise protect all basements, cellars, septic tanks, wells, and other excavations. Final inspection approval will be determined by the building inspector based on satisfactory completion of this requirement. 6: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206-431-3670). 7: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center. 8: VALIDITY OF PERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances of the City of Tukwila shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 9: `MECHANICAL PERMIT CONDITIONS' 10: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431-3670). 11: Manufacturers installation instructions shall be available on the job site at the time of inspection. PERMIT INSPECTIONS REQUIRED Permit Inspection line: (206) 438-9350 0703 MECH EQUIP EFF 1800 MECHANICAL FINAL 0609 PIPE/DUCT INSULATION 0705 REFRIGERATION EQUIP 0701 ROUGH -IN MECHANICAL CITY OF TUKWILA • Community Development Department Permit Center • 6300 Southcenter Blvd., Suite 100 Tuk►vila, WA 98188 htti)://www.Tukwi]aWA.Pov Mechanical Permit No. nl i� ' 0067 Project No. Date Application Accepted: a5z6 y." Date Application Expires: (For o ice use only) MECHANICAL PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. **please print** SITE LOCATION King Co Assessor's Tax No.: 00'- 130 003 7 Site Address: (0 1G 0 `!!�T2 A I r a l LV D. Suite Number: Floor: ' Tenant Name: �? AL -AL- C2r oi-T New Tenant: ❑ .....Yes )<No PROPERTY OWNER Name: Address: City: State: Zip: CONTACT PERSON - person receiving all project communication Name:?,-,: -12— Address: Address:3.5-3-70 City: ` State: �A/fA Zip: Lj✓ P one:v7Fax: til —01 �� -i�j—cavi-Z�}- E m a i STISrZ-ef-0-_SiA Ff'MI=WA-IC-AL-_ Valuation of project (contractor's bid price): $ �J� 69 M MECHANICAL CONTRACTOR INFORMATION Company Name:, (� Addres _� �� `7® City l: TLa'^ State: wA Zip: cl�& l P�O!> �f� —O0 Fax � Cont gcy0.:l��i �ZZ� L Exp Date: -11G Tukwila Business License No. 3vS - � "?sy `7 Describe the scope of work in detail: • jZE?LACe -Twa ti=xlSF) N L-% )Z00FTOf CKA G-)ti�,'� HE/V T PL-'MfS W ITH la e L) k r-- — f — Ll KG '• =N5"fhLL- 0)112- NF-�✓ )— j�1y ��d�C j —LC� SPLIT- 5 t1/SSl.vh 1 V4 j1-tt_ 0/,1 .IFpV%2iZUoM 7N«u0FS R�F)Zl4 ZhlII" PifiNC� Use: Residential: New .......... Replacement ........ ❑ Commercial: New .......... Q Replacement ......� Fuel Type: Electric..... Gas ....... ❑ Other: H:\Applications\FoTTns-Applications On Line\2016 ApplicationsWedanical Permit Application Revised 14.16.doca Revised: January 2016 bb Page 1 of 2 0 Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <100k 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 <10,000 cfm '-2> Unit Type Qty Air handling unit >I0,000 cfm Residential, Nighttime Evaporator cooler Industrial Ventilation fan connected to single duct 55 dB(A) Ventilation system 57 dB(A) Hood and duct Commercial Incinerator — domestic 47 dB(A) Incinerator — comm/industrial 65 dB(A) Unit Type Qty Fire damper Residential, Nighttime Diffuser Industrial Thermostat 55 dB(A) Wood/gas stove 57 dB(A) Emergency enerator Commercial Other mechanical equipment 47 dB(A) F_ 65 dB(A) Boiler/Compressor Qty 0-3 hp/100,000 btu 3-15 h /500,000 btu 15-30 hp/1,000,000 btu 30-50 hp/1,750,000 btu 50+hp/1,750,000 btu Noise: Mechanical units need to be in compliance with the Tukwila Noise Code. Maximum permissible sound levels are based on from where the sound is created and where the sound is heard. Additionally, if sound can be heard from within a house at night in a residential zone it may not be allowed. For more details, see TMC 8.22 District of Sound Producing Source District of Receiving Property Residential, Daytime* Residential, Nighttime Commercial Industrial Residential 55 dB(A) 45 dB(A) 57 dB(A) 60 dB(A) Commercial 57 dB(A) 47 dB(A) 60 dB(A) 65 dB(A) Industrial 60 dB(A) 50 dB(A) 65 dB(A) 70 dB(A) *Daytime means 7AM-10PM, Monday through Friday and 8AM-IOPM, Saturday, Sunday and State -recognized holidays. A few sounds are exempt from the noise code, including: Warning devices; Construction and property maintenance during the daytime hours (lam -I Opm); 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 OWNWAOR AWHQIMED AGENT: Date: �i ! b Print Name:I- I 1= 2 GRE LL -C- Day Telephone: 206 —_3&1 — Mailing Address: RoX A1 1 L 141A Jf'1-i City State Zip H:Wpplications\Fomis-Applications On Line\2016 ApplicationsWJechanical Permit Application Revised 1-4-16.docx Revised: January 2016 Page 2 of 2 bh DESCRIPTIONS PermitTRAK ACCOUNTQUANTITY PAID $441.88 M16-0067 Address: 690 STRANDER BLVD 2 Apn: 0005800037 $441.88 MECHANICAL $424.88 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $32.50 PERMIT FEE R000.322.100.00.00 0.00 $307.40 PLAN CHECK FEE R000.322.102.00.00 0.00 $84.98 TECHNOLOGY FEE $17.00 TECHNOLOGY FEE TOTAL1$441.88 R000.322.900.04.00 0.00 $17.00 Date Paid: Wednesday, May 04, 2016 Paid By: PRO -STAFF MECHANICAL INC Pay Method: CHECK 15700 Printed: Wednesday, May 04, 2016 3:12 PM 1 of 1 rf SYSTEMS —] INSPECTION RECORD f Retain a copy with permit MMA -006-7 111511ICTION N0. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd- #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 0 Approved per applicable codes. 1:1 Corrections required prior to approval. r REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD r n� Retain a copy with permit W 006 7 I ECTION 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: �1L.gL C -r c&io^1 Ty a of Inspection: er Address: Oe Date Called: Special Instructions: Date Wante m 7 /' 16 m. Request r: Phone No: 0 Approved per applicable codes. L__J Corrections required prior to approval. Inspector. Date: 7 it la U REINSPECTION FEE KEQUIKEu. Nrior to next inspection, tee must De paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit m7,- 66 7 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: Type of Inspection: Address: 0 SrR t-tZ f&V> z Date Called: Special Instructions: ate Wa ted a.m. 7�i/G _ qu ster. [R4 Phone No: MApproved per applicable codes. u Corrections required prior to approval. Inspector: Date: 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 ml6 -OOHS 7 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 Pro .ect: ALAL rT 2,010dPIX Type of Inspection: I DocT Z ! 006+770Y Address: 90 STIZ.a I v-�) Z, Date Called: Special Instructions: ate Wante / a. 7 �% /t! p.m. rRequestef: Phone No: Approved per applicable codes. El Corrections required prior to approval. REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. F-0 INSPECTION RECORD 1AAI6-I906- Retain a coo 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 Project: SALAL 6/2� rr / Type of Inspection: Zu.11A >Af MITH Address: tlogo -bv�2 Date Called: Special Instructions: Date Wanted / e p.m. Requester: Phone No: Approved per applicable codes. Ll Corrections required prior to approval. Inspector ]DaterL//A REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. LEGAL DESCRIPTION ADDRESS: 640 STRANDER BLVD 98188 PARCEL #: 0005800037 LEGAL DESCRIPTION: MEADER HENRY D -C #46 LOT 1 OF CITY OF TUKWILA SHORT PLAT NO 84 -31 -SS RECORDING NO 8501030748 SD SHORT PLAT DAF - POR NW 1/4 OF SEC 25-23-04 - BAAP ON WLY R/W LN OF WEST VALLEY HWY SR 181 AT A PT WCH BEARS S 81-07-31 W 50 FT FR C/L THOF AT HWY ENGR STA 160+00 TH FR SD POB ALG SO WLY R/W LN S 12-18-30 E 205.45 FT TAP WCH BEARS S • 81-07-31 W 35 FT FR C/L AT HWY ENGR STA 162+50 TH S m 05-15-06 E 112.35 FT TH TANGENT TO PRECEDING COURSE ALG ARC OF CURVE TO RGT RAD 50 FT & A C/A OF 86-22-37 ARC c M � N LENGTH 75.38 FT TAP ON NLY R/W LN OF STRANDER BLVD TH _ ALG SO NLY R/W LN TANGENT TO PRECEDING CURVE S 81-07-31 �$ W 28.58 FT TH TANGENT TO PRECEDING COURSE ALG ARC OF � CURVE TO LFT RAD 70 FT & C/A OF 19-33-22 ARC LENGTH � N 238.92 FT TH TANGENT TO PRECEDING CURVE S 61-34-09 W TO � INTSN OF SO NLY R/W LN OF STRANDER BLVD WITH ELY BANK o d OF GREEN RIVER TH NLY ALG SD ELY BANK TO INTSN WITH SLY LN OF BOW LAKE P/L R/W 30 FT WIDE TH ALG SO SLY LN S Uy 87-12-48 E 194.01 FT TAP ON WLY R/W LN OF SD WEST VALLEY HWY TH ALG SO WLY R/W LN S 08-52-29 E 165.06 FT TO TPOB NEW 10"0 ROOF EXHAUST TERMINATION FROM EF -1 n U HVAC ROOF PLAN RTU -2: REPLACE EXISTING 3 -TON ROO PACKAGED HEAT PUMP WITH NEW 17. ROOF HATCH F- ;-> i i L7-- P"I 7 I. p4 -F .. L _ I- U10 CJj r,"Cc anical :�fmbing Piping PM Penn Wea -It c : u • U N� T C m Plan r av!av spprovr! Is subject to errors and orn'331ons. Q 5. c .01. = a c M � N J� r /9 l{; ¢ /� 6^ %4pp o d! of coni documents does _ m� IT mg o E m �$ .fir'_;Zi n :poi a:�.: �:�E�m � m E E � e � N the vidaa.C, cf Ony a=dopa', Code) or ordinance. P r��I't � o rz d d o d . U NNN1 Uy of apprcvoc: Field Copy and :s ack. soi4ju;'�ed: r[� . B O : — �F In Q W Z q Q S2 2.,, a LU 8.2City ofKLCwi;a m GHa- Q�oN ■ tJ . 00 Z NoM NE on��- y� 0 Xo aOAC-1: SPLIT -SYSTEM AIR CONDITIONER REVISIONS No changes shall be made to the scope of viork t^►ithout Prior approval of NEW lOj" ,OOF`EHI>`�ing Division hi iv l o�� TERMI , WTIC�N F1kO1V 4L ;' tire a rt. ,°✓ '� n si mina .^. 'La �:�C1tsonCl �?�i~n ra;�;�'► i RECEIVED CITY OF TUKWILA RTU -1: REPLACE EXISTING 4 -TON ROOFTOP PACKAGED HEAT PUMP WITH NEW i RNI MI) FOR ;SER fi PLIANCB 'u MAY 13 2016 A -J 17 City of Tukwila BUILDING DIVISION 9! 00 00 r-1 00 o �EI REVISIONS "AA16-of0b I HVAC SCOPE OF WORK: ♦ RTU -1 & 2: Replace two existing rooftop packaged DRAWN PC heat pumps with new rooftop packaged heat pumps. DATE April 18, 2015 ■ "Like -for -Like" ■ One 4 -Ton and one 3 -Ton. CONTENTS ♦ OAC-1/IAC-1: Install one new 1 -Ton duct -less split -system to serve the ATM/Server Room. Job #1800 ■ Refrigerant piping. SHEET NUMBER ■ Condensate pump and piping up through the roof. ♦ Equipment start-up & test. �/ _�O • ♦ Commissioning, Owner Training. l�'- NEW 10"0 EXHAUST TERMINATION FROM EF -2 UP THROUGH ROOF WITH MOTORIZED BACK -DRAFT DAMPER ' ZD -3 g CD-1:. 8"0 150 CFM GWB 8'-0" AFF Y8'-6" AFF ZD -2 - - - 8"0 HOTELLING LS -2: 4' 2 -SLOT 130 CFM RG -1 22"x10" (2-TYP) HVAC T.I. PLAN SCALE: I/8"=1'-0" AFF AFF 11 NMR E s EG -2: 6"x6" 11 REPAIR & PATCH 60 CF_ M EXISTING 10"0 1� ROOF PENETRATION CD -2: 6"x6" HVAC DRAWING NOTES: , 30CFM V (2-� RTU = ROOFTOP UNIT sroRAG REST los Ej EF = EXHAUST FAN I ZD = ZONE DAMPER Nof Ui CD = CEILING DIFFUSER V All LS = LINEAR SLOT EG -1: 22"x10" RG =RETURN GRILLE 1 CFM EG = EXHAUST GRILLE OPEN TO ABOVE M TG = TRANSFER GRILLE - TYP = TYPICAL i O = THERMOSTAT �N^ya ao� LLS A ? LL F LL NEW 10"0 EXHAUST TERMINATION FROM EF -2 UP THROUGH ROOF WITH MOTORIZED BACK -DRAFT DAMPER ' ZD -3 g CD-1:. 8"0 150 CFM GWB 8'-0" AFF Y8'-6" AFF ZD -2 - - - 8"0 HOTELLING LS -2: 4' 2 -SLOT 130 CFM RG -1 22"x10" (2-TYP) HVAC T.I. PLAN SCALE: I/8"=1'-0" AFF AFF 11 NMR E s •. 11 y PAN ZD -1 s 8"0 i scsa 8'-0"AFF EG -2: 6"x6" 70 CFM AFF LS -1: 4' 4 -SLOT 350 CFM 2� RG -1 LS -1: 4' 22"x22" 3 -SLOT 640 CFM 230 CFM 3 RTU -2: REPLACE EXISTING ri�Apc` -- (2-TYP) LS -3: 4' 9'-6" AFF 4 -SLOT 3 -TON ROOFTOP PACKAGED P.ETUPtN Am HEAT PUMP WITH NEW '-6* AFF � of �-� IR GATHER _ 400 CFM -INSTALL NEW RETURN A-6 ,60 j DUCT SMOKE DETECTOR — i LS -3: 4' �A 1 4 -SLOT 2"x10" EF -2 EXHAUST AIR OB ,-EF-2 OB B1 OB --NEW 10"0 EXHAUST TERMINATION FROM EF -1 UP THROUGH ROOF TH MOTORIZED BACK -DRAFT DAMPER GWB 8'-0"AFF AGE NEW 1 -Ton ATM DUCT=LESS O '� SERVICE zE RM , SPLIT -SYSTEM AIR CONDITIONER "y � °O 00 APc-z INDOOR SECTION q4)�j ^q 1V8'-6' AFF 1MOUNTED HIGH 00 ON WALL • Til "� B� -� 'CD -1:6"0 4i LS -1: 4' 50 CfM _cq 3 -SLOT > 150 CFM p -LS-1: TYP w 3 -SLOT -) � ' � � �1 •� \O � 250 CFM EN 5011RUN REFRIGERANT PIPING UP TO OAC -1 _, LS -1: 4' ON N ROOF ABOVE /4 -SLOT 400 CFM (2-TYP) �` ` < REmoNs& EQUIPMENT NOL a, 2tiq PERMIT L c-:: "c RELAX I RTU -1: REPLACE EXISTING 11z INSTALL NEW RETURN AIR 4 -TON ROOFTOP PACKAGED i i*9'%F�F HEAT PUMP WITH NEW - DUCT SMOKE DETECTOR DRAWN PC DATE April 18, 2016 CONTENTS SNEET NUMBER Job #1800 IN/- -2 s y �a t3 s = oLLa •o e« i o V O • WE i 2 Qi r omom =o E at p6 V Nii Nof Ui V All Z O V' o U vx s �N^ya ao� LLS A ? LL F LL M ;M j010 m1 N N 6 6z O C O O W yJj Q� ama.w rLLa --NEW 10"0 EXHAUST TERMINATION FROM EF -1 UP THROUGH ROOF TH MOTORIZED BACK -DRAFT DAMPER GWB 8'-0"AFF AGE NEW 1 -Ton ATM DUCT=LESS O '� SERVICE zE RM , SPLIT -SYSTEM AIR CONDITIONER "y � °O 00 APc-z INDOOR SECTION q4)�j ^q 1V8'-6' AFF 1MOUNTED HIGH 00 ON WALL • Til "� B� -� 'CD -1:6"0 4i LS -1: 4' 50 CfM _cq 3 -SLOT > 150 CFM p -LS-1: TYP w 3 -SLOT -) � ' � � �1 •� \O � 250 CFM EN 5011RUN REFRIGERANT PIPING UP TO OAC -1 _, LS -1: 4' ON N ROOF ABOVE /4 -SLOT 400 CFM (2-TYP) �` ` < REmoNs& EQUIPMENT NOL a, 2tiq PERMIT L c-:: "c RELAX I RTU -1: REPLACE EXISTING 11z INSTALL NEW RETURN AIR 4 -TON ROOFTOP PACKAGED i i*9'%F�F HEAT PUMP WITH NEW - DUCT SMOKE DETECTOR DRAWN PC DATE April 18, 2016 CONTENTS SNEET NUMBER Job #1800 IN/- -2 RTU -1 & 2 REPLACEMENT PACKAGED HEAT PUMP SCHEDULE HP EQUIPMENT NOTES: 1. Motorized Economizer and Relief Air Damper. 2. Honeywell Commercial VisionPro Thermostats, 7 -Day programmable with 5° dead -band. 3. RTU 1-2 to have controls to lock out the auxiliary heater when the outdoor temperature is above 40° F. Thermostat to indicate when the auxiliary heater is energized by a visual display on the thermostat screen. At the time of the final mechanical inspection the lock out control shall be set to 32' F. 4. Outside air intake to be 10' - 0" from all exhaust outlets, flue vents & plumbing vents. HVAC CONSTRUCTION NOTES: 1) ALL SUPPLY & RETURN DUCTS OFF OF RTU -1& 2 IS LOW-PRESSURE (x <_ 2" w.g.) AND SEALED PER CODE. 2) ALL NEW EQUIPMENT AND ASSOCIATED CONTROLS TO BE COMMISSIONED PER SECTION C408.2 OF THE 2012 WSEC. COMMISSIONING TO INCLUDE BUT NOT LIMITED TO: a) POINT TO POINT CONNECTION AND VERIFICAITON OF CONTROL WIRING & SYSTEMS. b) EQUIPMENT START-UP & TEST. c) AIR BALANCING. d) PERFORMANCE TESTING. e) OPERATION & MAINTENANCE MANUALS. 1) OWNER/TENANT TRAINING. ATM ROOM MITSUBISHI DUCT—LESS SPLIT—SYSTEM AIR CONDITIONING SCHEDULE INDOOR WALL MOUNTED DUCT -LESS AIR -HANDLER UNIT Model # Total Refrigerant Piping MIN Weight SOUND RATING HEATING Auxiliary Heater Heat Pump Sound WEIGHT TAG MODEL # SIZE CFM OSA COOLING EFFICIENCY (BTUH) (Dual ELECTRI A (0) (LBS.) m S `o Gas=1/z"kl i F Breaker Size =15 Am d d 30c 60d) 0- U HNCVd Uat Carrier 7.5/10 Kw MCA=38.2 RTU -1 50KCQA05AOA3 4 -Ton 1,600 154 47,600 SEER=14.50 HSFP 800 MCA=45.1/52.1 _ MOCP=50 74 460# MOCP=50/60 Carrier 0 5 .4/7.2 Kw MCA=25.3 RTU -2 50KCQA04AOA3 3 -Ton 1,200 195 36,220 SEER=14.50 HSFP 80 MCA=32.4/37.5 MOCP=40 74 426# MOCP=35/40 HP EQUIPMENT NOTES: 1. Motorized Economizer and Relief Air Damper. 2. Honeywell Commercial VisionPro Thermostats, 7 -Day programmable with 5° dead -band. 3. RTU 1-2 to have controls to lock out the auxiliary heater when the outdoor temperature is above 40° F. Thermostat to indicate when the auxiliary heater is energized by a visual display on the thermostat screen. At the time of the final mechanical inspection the lock out control shall be set to 32' F. 4. Outside air intake to be 10' - 0" from all exhaust outlets, flue vents & plumbing vents. HVAC CONSTRUCTION NOTES: 1) ALL SUPPLY & RETURN DUCTS OFF OF RTU -1& 2 IS LOW-PRESSURE (x <_ 2" w.g.) AND SEALED PER CODE. 2) ALL NEW EQUIPMENT AND ASSOCIATED CONTROLS TO BE COMMISSIONED PER SECTION C408.2 OF THE 2012 WSEC. COMMISSIONING TO INCLUDE BUT NOT LIMITED TO: a) POINT TO POINT CONNECTION AND VERIFICAITON OF CONTROL WIRING & SYSTEMS. b) EQUIPMENT START-UP & TEST. c) AIR BALANCING. d) PERFORMANCE TESTING. e) OPERATION & MAINTENANCE MANUALS. 1) OWNER/TENANT TRAINING. ATM ROOM MITSUBISHI DUCT—LESS SPLIT—SYSTEM AIR CONDITIONING SCHEDULE INDOOR WALL MOUNTED DUCT -LESS AIR -HANDLER UNIT Model # Total Refrigerant Piping ELECTRICAL Weight SOUND RATING Weight CFM O 208/1/60 BTUH 208-230/1/60 (dB) R -410A OAC -1 PUY-Al2NHA6 IAC -1 PKA-Al2HA6 425 Liquid='/4"O MCA =1 29 m S `o Gas=1/z"kl i F Breaker Size =15 Am OUTDOOR SPLIT -SYSTEM AC UNIT UNIT Model # Nom TOTAL COOLING SEER ELECTRICAL SOUND RATING Weight •� O Tons BTUH 208-230/1/60 (dB) (lb.) OAC -1 PUY-Al2NHA6 1 -Ton 12,000 15.2 MCA =13 48 82 m S `o O m i F Breaker Size =15 Am d d EQUIPMENT NOTES: 1. IAC -1 to be mounted on interior wall of ATM Room. 2. Cooling only. 3. Condensate pump and piping up through roof. REVIEWED FOR CODE COMPLIANCE APPROVED MAY 13 2016 City of Tukwila BUILDING DIVISION U J V 0 `a •� O o S _w •� U G m ��,C C L C d d '-C i7 j 1de Eli z V x a� E m S `o O m i F d d U HNCVd Uat U J V REW90NS RECEIVED CITY OF TUKWILA MAY 0 4 2016 DRAWN PC PERMIT CENTER DATE April 18, 2016 CONTENTS Job #1800 SHEET NUMBER N •� O 00 �j � 00 01 v O REW90NS RECEIVED CITY OF TUKWILA MAY 0 4 2016 DRAWN PC PERMIT CENTER DATE April 18, 2016 CONTENTS Job #1800 SHEET NUMBER N OAC -1: NEW 1 -Ton DUCT -LESS SPLIT -SYSTEM AIR CONDITIONER RTU -1: REPLACE EXISTING 4 -TON ROOFTOP PACKAGED HEAT PUMP WITH NEW Sze ® m O I � U t Q W Z Q • = V C V 0. «oy• 2_0 .O C � m m a c m cc S m ce LL m 2 Z J F �Ld - O� 6 (aamc i1--A. r ci 4% m 09W �O E E om'om mm=L cs V NNNG Uat I I � U t Q W Z Q I a z a LQ S N S 2_0 .O C � LL.�T r»' m LL,• �/i00J o�N � �Ld - O� 6 (aamc i1--A. I I I G9 � � r I 'b o0o 0000 REVIEWED FOR CODE COMPLIANCE •N APPROVED C� _;t MAY 132016 City of Tukwila 1 ' ' ' BUILDING DIVISION . 1 ' I REWSIONS RECEIVED CITY OF TUKWILA - MAY 0 4 2016 DRAWN PC — DATEApril 18, 2016 mow HERMIT CENTER owns CONTENTS _ Job #1800 - SHEET NUMBER SITE PLAN - 1V :-4 35' -4' ---- '�=-------=�v7 e MITSUBISHI COOLING \ C i HEATING, SLEEPER ` (WT.: 02 Ib. + 28 Ib.)r 11 la A REPLACING 'AG -2' UNIT 10'-0" O O (3 Ton) e ADAPTER CURB (±) (WT.: 426 Ib. + 131 Ib.) I I w S �- �fi`� NEW 2x4 D.F. 02 C` (UNDER (E) (GURB) (E) Gal-5U V (±) NEW 2x4 D.F. #2 (UNDER (E) CURB) 0 G 12x25 G 12x25 301-11 C EXISTING CURB (STAT') T/ (E) GzL5 � EXISTING CURB (STAT') II REPLACING 'AC -I' UNIT 4 Ton) 4 ADAPTER GURB (WT.: 460 Ib. + 131 Ib.) REVIEWED FOR CODE COMPLIANCE APPROVED MAY 13 2016 City of Tukwila BUILDING DIVISION 398 IN, 5L 0 5 ALP) SALAL CREDIT UNION / RECEIVED — — — —/ CITY OF TUKWILA -----Tl MAY 9 4 2016 EXfSTINCA fi�00F FFRAA °IINCA FLAN SCALE: 1/8"= P-0" PERMIT CENTER 690 STRANDER BLVD TUKWILA, WA 98188 D. S. Engineering Consulting Structural Engineers 3121 147th Place SE Mill Creek, WA 98012 T: 425-338-4776 REPLACING UNIT (SEE PLAN) ',4C-1': (1)-08 HEX HEAD SCREW a (±) 3" FROM EA. CORNER 8 (1)-#8 SCREW e MIDDLE OF LONGER BAY. '"4C-1' 4 ',4C-2': (1)-#S HEX HEAD SCREW (±) 3" FROM EA. CORNER (1)-1*5 SCREW 6 MIDDLE OF LONGER BAY. (I) -#S HEX HEAD SCREW I I U Q (±) 3" FROM EA. CORNER e (2)-#0 SCREWS a LONGER p � � w BAY W1 EQUAL SPACE 8 (1)-05 SCREW @ MIDDLE IXI OF SHORTER BAl' (E) WOOD TRUSS I (SEE PLAN) SACT I ON � —�— SCALE: 1'= I'-0' #10X3" WOOD 5C TO (E) TRUSS #10x3' WOOD SCREW a 10" O.C. IN BETWEEN 2x4'5 P.T. (4)-2x4 D:. _ BETWEEN UNIT 6 (E) TRUSS II (E) WOOD TRUSS —CLL.�> (SEE PLAN) _N— MITSUB15PI UNIT (SEE PLAN) SCREWS BETWEEN UNIT 8 (2) -SLEEPERS ((±) I' -S" APART) SECTION SCALE: 1'= I'-0 REPLACING UNIT (SEE PLAN) SEE SECTION 'A' 3"x5" (20 GA.) PLATE — a (±) 4" FROM (E) CURB CORNER W1 (2)-#6 HEX HEAD SCREWS TO (E) CURB 4 (2)-05 WOOD SCREWS TO 2x4 (ADD (4) PLACES BETWEEN (E) CURB 6 (2)-2x4) SECTION SCALE: 1'= 1'-0 X Q v� 19, 2x4 D.F. #2 W1 'A34' a (E) TI ff W (L [Q qU r. z V REVIEWED FOR POCODE COMPLIANCE APPROVED MAY 13 2016 City of Tukwila u SUILDING DIVISION 6 op �IL �''�►- �A SALAL CREDIT UNION 690 STRANDER BLVD RpF �_fUKwILR C YY TUKWILA, WA 98188 01 0 4 2016 RMtT CtNTE� D. S. Engineering E Consulting Structural Engineers 3121 147th Place SE Mill Creek, WA 98012 T: 425-338-4776 S-2 HVAC REVIEWED FOR CODE COMPLIANCE APPROVED MAY 13 2016 City of Tukwila BUILDING DIVISION) T.I. SUBMITTALS -FOR- Salal Credit Union Tukwila Branch 609 Strander Blvd Tukwila, Washington 98118 April 18, 2016 JOB # 1800 RECEIVED CITY OF TUKWILA MAY Q42016 PERMIT CENTER ■ ATM ROOM AIR CONDITIONER: IAC-1/0AC-1 ■ ROOFTOP HEAT PUMPS: RTU 1-2 M I -Do61 Pro -Staff Mechanical, Inc. Tel 206.361.0071 902 North 127th Street Fax 206.361.0424 PO Box 33370 pro-staffinechanical.com Seattle, Washington 98133 W4 d rl N M Indoor Unit: PKA-Al2HA6 UNIT OPTION: Outdoor Unit: PUY-Al2NHA6 (-BS) ❑ Standard Model......................................................................PUY-Al2NHA6 ❑ Seacoast (BS) Model.......................................................PUY-Al2NHA6-BS ACCESSORIES: Indoor Unit ❑ Condensate Pump (BlueDiamond X87-711/721; 1151230V) ❑ Condensate Pump (Sauermann SI30-115/230; 115/23OV) ❑ Disconnect Switch (TAZ-MS303) ❑ Wireless Remote Controller (PAR-FL32MA-E) ❑ Wireless Signal Receiver (PAR-FA32MA-E) Outdoor Unit ❑ Wind Baffle (WB-PA1)* 'Allows operation to 0° F (-18° C). ❑ Advanced Wind Baffle (WB-SD1 and/or WB-RE1)** "Allows operation to -20° F (-29° C). ❑ Air Outlet Guide (PAC-SG58SG-E) ❑ Wall Bracket (QSWB2000M-1) Controls ❑ Wireless Controller (MHK1) ❑ Advanced Wired Controller (PAR -31 MAA) ❑ Simple Wired Controller (PAC-YT53CRAU) ❑ M -NET Adapter (PAC-SF83MA-E) Temperature Sensor (PAC-SE41TS) SPECIFICATIONS: R1te6Ni QriS �t2a��rw{�� '. as • � 111 •I Rating Conditions per AHRI Standard: Cooling I Indoor: 80° F (270 Q DB / 67° F (19° C) WB Cooling I Outdoor: 95° F (35° C) DB / 75° F (24° C) WB ;M Cooling Btum 6,000 - 12,000 .F, Cooling -20° F to 115° F (-29° C to 46° C) DB** "Applies only to systems utilizing Advanced Wind Baffle Kit. Equipment operation range without any additional accessories: 23° F to 1150 F (-5° C to 46° C) DB. Equipment operation range with Standard Wind Baffle: 0° F to 115° F (-18° C to 46° C) DB. For operation below -20° F (-29° C) DB, please contact your Mitsubishi Electric representative. EER 10.1 SEER 15.2 208 / 230V, 1 -Phase, 60 Hz Indoor / Outdoor A 1 / 13 Compressor DC INVERTER -driven Twin Rotary Fan Motor (ECM) F.L.A. 0.35 MOCP A 15 Blower Motor (ECM) F.L.A. 0.33 Blower Motor Output W 30 SHF / Moisture Removal 0.81 / 2 pt./h Compressor DC INVERTER -driven Twin Rotary Fan Motor (ECM) F.L.A. 0.35 MOCP A 15 Indoor (Low -Mid -High) 8(A) 36-40-43 d Outdoor Cooling 48 a Indoor DRY 320-370-425 (Cooling) WET CFM 290-335-380 Outdoor DRY 1,200 Indoor (Low -Mid -High) 8(A) 36-40-43 d Outdoor Cooling 48 a N Indoor (H x W x D) 1/4(6.35) 11-5/8 x 35-3/8 x 9-13/16 In.(mm) (295 x 898 x 249) In.(mm) Maximim Total Outdoor (H x W x D) 165 (50) 23-5/8 x 31-1/2 x 11-13/16 + 7/8 (600 x 800 x 300 + 23) Indoor 29 (13) Lbs.(kg) Outdoor 82 (37) Indoor Munsell No. 1.OY 9.2 / 0.2 Outdoor Munsell No. 3Y 7.8 / 1.1 • '" '' R410A ; 2 lbs., 14 oz. Specifications are subject to change without notice. © 2015 Mitsubishi Electric US, Inc. Liquid (High Pressure) 1/4(6.35) In.(mm) Gas (Low Pressure) 1/2(12.7) Maximim Total Ft. (m) 165 (50) Refrigerant Pipe Length Maximum Vertical Ft. (m) 100 (30) Separation Specifications are subject to change without notice. © 2015 Mitsubishi Electric US, Inc. PKA-Al2HA6 "-W hole fat piping r n 71:6(12.5) 2-Y16(56) _ _ 0 1itli61471 _ _m o efl sMe Knockovlhde pfu lafl rping 1-11/16(4]) — 1 714,16) - a 2-SI16(60) Slueova Throughrrole P -1 to al 02.v2 -d] 116 W2-trz-�h3-tle (dos -h60) •a 5-W PUY-Al2NHA6 (-BS) NOTES: SEACOAST PROTE( • External Outer Pal • Fan Motor Suppor • Separator Assembly; Valve Bed: Epoxy resin coating (at edge face) Screws (used outer side): Zinc nickel coating 5pm + Polyvinylidene chloride coating Unit: inch (mm) Fm uftl,.Ile open) Blue Fin" treatment is an anti -corrosion treatment that is applied to the condenser coil to protect it against airborne contaminants.. MITSUBISHI ELECTRIC COOLING & HEATING 1340 Satellite Boulevard. Suwanee, GA 30024 Toll Free: 800-4334822 www.mehvac.com '539 CERTIF1EDR wams®rx uauaanr ezmaa FORM# PKA-Al2HA6 - PUY-Al2NHA6 (-BS) - 201511 Specifications are subject to change without notice. © 2015 Mitsubishi Electric US, Inc. 4. Installing the refrigerant piping OO A24, A36: A+B+C 550m, 165 ft Fig. 4-8 5. Drainage piping work C B C A I B -C I5 8m, 26 ft Outdoor unit drainage pipe connection When drain piping is necessary, use the drain socket or the drain pan (option) Al2 A18 A24 -A42 Drain socket PAC-SH7IDS-E Drain pan PAC-SG63DP-E I PAC-SG64DP-E 6. Electrical work 6.1. Outdoor unit (Fig. 6-1, Fig. 6-2) Remove the service panel. 2 Wire the cables referring to the Fig. 6-1 and the Fig. 6-2. For Power For Power QD OB n=s -O � j '� Indoor unit Outdoor unit Remote controller Main switch (Breaker) r: -h 4.7. For twin combination (For A24, A36 only) Refrigerant piping limitation of length, height difference are shown in the figure. (Fig. 4-8) GA Indoor unit ,e Outdoor unit D Multi distribution pipe (option) Height difference (Indoor unit -Outdoor unit) Max. 30 m, 100 ft €. Height difference (Indoor unit -Indoor unit) Max. 1 m, 3 ft IN Al2, A18 U Inl C71�1C7 +Ijl+' rnr�n nloln� �J 0 IN A24 -A42 �AO d l� L: L2 v ® 1 .2 SJ 15) v D C. (E) Earth terminal Fig. 6-1 e, Terminal block :�` Clamp 'o Service panel Wire the cables so that they do not contact the center of the service panel or the gas valve. Fig. 6-2 7 Max pipe Max height Additional refrigerant charging amount (kg/oz) 20 m 24 m 27 m 30m 34m 37 nn 40 m 43 m 46 m 49m 50m 52m 55m 58 nn 61 m 64m 67m 69m Model length difference 70 ft 80 ft 90 ft 100 ft 110 ft 120 ft 130 ft 140 ft 150 ft 160 ft 165 ft 170 ft 180 ft 190 ft 200 ft 210 ft 220 ft 225 ft PUY-Al2, 50 m, 165 ft 30 m, 100 ft 0 0.03 kg 0.06 kg 0.09 kg 0.11 kg 0.14 kg 0.17 kg 0.20 kg 0.23 kg 0.26 kg 0.28 kg A18 1 oz 2 oz 3 oz 4 oz 5 oz 6 oz 7 oz 8 oz 9 oz 10 oz PUY-A24, 69 m, 225 ft 30 m, 100 ft 0 0.09 kg 0.17 kg 0.26 kg 0.34 kg 0.43 kg 0.51 kg 0.60 kg 0.68 kg 0.77 kg 0.81 kg 0.85 kg 0.94 kg 1.02 kg 1.11 kg 1.19 kg 1.28 kg 1.36 kg A30, A36 3 oz 6 oz 9 oz 12 oz 15 oz 18 oz 21 oz 24 oz 2d7�2 8.5 oz 30 oz 33 oz 36 oz 39oz42 oz 45 oz 48 oz PUY-A42 69 m, 225 ft 30 m, 100 ft 0 0 0 0 0.09 kg 0.17 kg 0.26 kg 0.34 kg 0.43 kg 0.0.55 kg 0.60kg 0.68 kg 0.77 kg 0.85 kg 03 oz 6 oz 9 oz 12 oz 15 oz 119.5 oz 21 oz 24 oz 27 oz 30 oz 33 oz 36 oz 39 oz OO A24, A36: A+B+C 550m, 165 ft Fig. 4-8 5. Drainage piping work C B C A I B -C I5 8m, 26 ft Outdoor unit drainage pipe connection When drain piping is necessary, use the drain socket or the drain pan (option) Al2 A18 A24 -A42 Drain socket PAC-SH7IDS-E Drain pan PAC-SG63DP-E I PAC-SG64DP-E 6. Electrical work 6.1. Outdoor unit (Fig. 6-1, Fig. 6-2) Remove the service panel. 2 Wire the cables referring to the Fig. 6-1 and the Fig. 6-2. For Power For Power QD OB n=s -O � j '� Indoor unit Outdoor unit Remote controller Main switch (Breaker) r: -h 4.7. For twin combination (For A24, A36 only) Refrigerant piping limitation of length, height difference are shown in the figure. (Fig. 4-8) GA Indoor unit ,e Outdoor unit D Multi distribution pipe (option) Height difference (Indoor unit -Outdoor unit) Max. 30 m, 100 ft €. Height difference (Indoor unit -Indoor unit) Max. 1 m, 3 ft IN Al2, A18 U Inl C71�1C7 +Ijl+' rnr�n nloln� �J 0 IN A24 -A42 �AO d l� L: L2 v ® 1 .2 SJ 15) v D C. (E) Earth terminal Fig. 6-1 e, Terminal block :�` Clamp 'o Service panel Wire the cables so that they do not contact the center of the service panel or the gas valve. Fig. 6-2 7 6. Electrical work 6.2. Field electrical wiring V 3A C- 1 Outdoor unit model Al2 A18 A24 A30 A36 A42 Outdoor unit power supply Single, 2081230 V, 60 Hz Single, 208/230 V, 60 Hz Single. 2081230 V, 60 Hz Single. 208/230 V, 60 Hz Single. 2081230 V. 60 Hz Single, 2081230 V, 60 Hz Breaker size '1 15A 15A 25 A 30A 30 A 30 A Minimum circuit ampacity 13A 13 A 18 A 25 A 25 A 26 A Maximum rating of overcurrenl protective device 15 A 20 A 30A 40A 40 A 40 A Outdoor unit power supply 2 x Min. AWG 14 2 x Min. AWG 14 2 x Min. AWG 12 2 x Min. AWG 10 2 x Min. AWG 10 2 x Min. AWG 10 o, o Outdoor unit power supply earth 1 x Min. AWG 14 1 x Min. AWG 14 1 x Min. AWG 12 1 x Min. AWG 10 1 x Min. AWG 10 1 x Min. AWG 10 c Z m 3 y .N Indoor unit -Outdoor unit '2 3 x AWG 16 (polar) 3 x AWG 76 (polar) 3 x AWG 16 (polar) 3 x AWG 76 (polar) 3 x AWG 16 (polar) 3 x AWG 16 (polar) 3 Indoor unit earth -2 1 x Min. AWG 16 1 x Min. AWG 16 1 x Min. AWG 16 1 x Min. AWG 16 1 x Min. AWG 16 1 x Min. AWG 16 Remote controller -Indoor unit '3 2 x AWG 22 (Non -polar) 2 x AWG 22 (Non -polar) 2 x AWG 22 (Non -polar) 2 x AWG 22 (Non -polar) 2 x AWG 22 (Non -polar) 2 x AWG 22 (Non -polar) Outdoor unit L1-L2 -4 AC 208/230 V AC 208/230 V AC 208/230 V AC 2081230 V AC 208/230 V AC 2081230 V _ c Indoor unit -Outdoor unit S7 -S2 -4 AC 208/230 V AC 2081230 V AC 2081230 V AC 2081230 V AC 208/230 V AC 2081230 V U 6 Indoor unit -Outdoor unit S2 -S3 -4 DC 24 V DC 24 V DC 24 V DC 24 V DC 24 V DC 24 V Remote controller -Indoor unit -4 DC 12 V DC 12 V DC 12 V DC 12 V DC 12 V DC 12 V •1. Use earth leakage breaker (NV) IMPORTANT Make sure that the current leakage breaker is one compatible with higher harmonics. Always use a current leakage breaker that is compatible with higher harmonics as this unit is equipped with an inverter. The use of an inadequate breaker can cause the incorrect operation of inverter. '2. Max. 45 m, 147 It If AWG73 used, Max. 50 m, 164 ft If AWG13 used and S3 separated, Max. 80 m, 262 it m�S2 Q '3. The 10 m, 30 ft wire is attached in the remote controller accessory. Max 1500 ft S1 jqw S3 '4. The figures are NOT always against the ground. S3 terminal has DC 24 V against S2 terminal. However between S3 and S1, these terminals are NOT electrically insulataed by the transformer or other device. Notes: 1. Wiring size must comply with the applicable local and national code. 2. Use copper supply wires. 3. Use wires rated 600V or more for the power supply cables and the indoor/outdoor unit connecting cables. 4. Install an earth longer than other cables. 208/230V Single phase Isolator S1 A -Control S2 Outdoor Unit S3 isolator M S2 A -Control Indoor Unit S3 Warning: I In case of A -control wiring, there is high voltage potential on the S3 terminal caused by electrical circuit design that has no electrical insulation between power line and communication signal line. Therefore, please turn off the main power supply when servicing. And do not touch the S1, S2, S3 terminals when the power is energized. If isolator should be used between indoor unit and outdoor unit, please use 3 -pole type. Never splice the power cable or the indoor -outdoor connection cable, otherwise it may result in a smoke, a fire or communication failure. 7. Test run 7.1. Before test run ► After completing installation and the wiring and piping of the indoor and outdoor units, check for refrigerant leakage, looseness in the power supply or control wiring, wrong polarity, and no disconnection of one phase in the supply. ► Use a 500 -volt megohmmeter to check that the resistance between the pow- er supply terminals and ground is at least 1 Mfg. ► Do not carry out this test on the control wiring (low voltage circuit) terminals. Q Warning: Do not use the air conditioner if the insulation resistance is less than 1 Mfg. Insulation resistance After installation or after the power source to the unit has been cut for an extended period, the insulation resistance will drop below 1 Mfg due to refrigerant accumulat- ing in the compressor. This is not a malfunction. Perform the following procedures. 1. Remove the wires from the compressor and measure the insulation resistance of the compressor. 2. If the insulation resistance is below 1 Mfg, the compressor is faulty or the resist- ance dropped due the accumulation of refrigerant in the compressor. 3. After connecting the wires to the compressor, the compressor will start to warm up after power is supplied. After supplying power for the times indicated below, measure the insulation resistance again. • The insulation resistance drops due to accumulation of refrigerant in the com- pressor. The resistance will rise above 1 VID after the compressor is warmed up for two to three hours. (The time necessary to warm up the compressor varies according to atmos- pheric conditions and refrigerant accumulation.) • To operate the compressor with refrigerant accumulated in the compressor, the compressor must be warmed up at least 12 hours to prevent breakdown. 4. If the insulation resistance rises above 1 M4, the compressor is not faulty. �r Caution: • The compressor will not operate unless the power supply phase connection is correct. • Turn on the power at least 12 hours before starting operation. Starting operation immediately after turning on the main power switch can result in severe damage to internal parts. Keep the power switch turned on during the operational season. 0 RTU -1 & 2 REPLACEMENT PACKAGED HEAT PUMP SCHEDULE TAG MODEL # SIZE CFM MIN C EFFICIENCY HEATING Auxiliary Heater (Dual Ci0c9 Heat Pum p ELECTRICAL Sound WEIGHT OSA BOTTLING (BTUH) ted) 0 60 (dB) (LBS.) Carrier 45,200 7.5/10 Kw MCA=38.2 RTU -1 50KCQA05AOA3 4 -Ton 1,600 154 47,600 SEER -14.50 HSFP=8.0 MCA=45.1/52.1 MOCP=50 74 460# MOCP=50/60 Carrier 35,960 5.4/7.2 Kw MCA=25.3 RTU -2 50KCQA04AOA3 3 -Ton 1,200 195 36,220 SEER=14.50 HSFP=8.0 MCA=32.4/37.5 MOCP=40 74 426# MOCP=35/40 HP EQUIPMENT NOTES: 1. Motorized Economizer and Relief Air Damper. 2. Honeywell Commercial VisionPro Thermostats, 7 -Day programmable with 5° dead -band. 3. RTU 1-2 to have controls to lock out the auxiliary heater when the outdoor temperature is above 40° F. Thermostat to indicate when the auxiliary heater is energized by a visual display on the thermostat screen. At the time of the final mechanical inspection the lock out control shall be set to 32° F. 4. Outside air intake to be 10' - 0" from all exhaust outlets, flue vents & plumbing vents. a rrier SUBMITTAL Prosect Salal CU Tukwila Date Friday, April 15, 2016 Contractor Pro Staff Mechanical 6 • j RTU-1 Project: Sala] CU Tukwila 04/15/201 Prepared By: 04:37P RTU -1 Tag Cover Sheet Unit Report Certified Drawing Performance Report Unit Feature Sheet Spec Sheet Packaged Rooftop Builder 1.40 Page 2 of 17 Unit Report For RTU -1 Project: Salal CU Tukwila 04/15/201E Prepared By: 04:37PIV Unit Parameters Unit Model: .......................................... 50VT-1348 --- 3 Unit Size: ................................................ 48 (4 Tons) Volts -Phase -Hertz: ..................................... 208-1-60 Heating Type: ......................................... Heat Pump Duct Cfg:............ Vertical Supply I Vertical Return Warranty Information 1 year warranty on parts 5 yearwarranty on compressor No optional warranties were selected. Dimensions (ft. in.) & Weight (lb.) *** Unit Length: ....................................... 4' 0.1875" Unit Width: ........................................... 3' 8.125, Unit Height: ........................................... 4' 0.75„ Weights and Dimensions are approximate. Weight does not include roof curbs, unit packaging, field installed accessories or factory installed options. Approximate dimensions are provided primarily for shipping purposes. For exact dimensions and weights, refer to appropriate product data catalog. Total Operating Weight: ................................ 460 Ib NOTE: Please see Warranty Catalog 500-089 for explanation of policies and ordering methods. Ordering Information Part Number Description Quantity 50VT-B48---3 Rooftop Unit 1 Accessories CPECOMZRO09A00 Economizer 1 CPRLYKIT001A00 Economizer relay kit for heat pumps 1 CPREATER050A00 7.5/9.2/10.0 kW, 208/230/240-1-60 volt, Electric Heater 1 Packaged Rooftop Builder 1.40 Page 3 of 17 Certified Drawing for RTU -1 Project: Salal CU Tukwila 04/15/201 Prepared By: 04-.37PIV 3 -illi. 101.6] :fie""1 0 GUTDOOR CO] 70P V" R Kti-� x UNIT IOLIAGE CCAffN 9EIcNTS [BING .1. .2. .1. .1. 50VT-B36--- 92 t? 13 33 111 50 117 67'nil Ir CLEARANCES 0D �,�E F�ITL 1SD 06 13 7, 34 115 52 116 6U INCHES LNNI 206!?30 193 Q 1 1 1 A 1 7 11UNIT4 C3S5. 6] SDVT-81?--' 166 105 t6 1 7 1 7 TOP Of .,.,..,.....<. .... DACT SI I,E OF UM]T.............:. .. ,... ,.. ... ... ....: .. 7 ISD.BI X SDVT-918--- ?S8+?30 f90 t5 99 3S 1?0 i5 153 69 SIDE OPPOSITE UUCTS........... " . . „ " i1 II C3 SSA] LLD 193 47 D1 3> 124 S6 155 12 BOTTOM OF UNIT.,....... ...<.... - ....D [O:O] 7;6:230 112 51 B 46 ELECTRICAL PANEL. ......................................... 56 C914.4] SDYT-860--- /10 115 52 41 1AB 11 6 to Ig frtslllD CN� INCHES [MMI NO7E; ALL TNBLC DATA RELEVANT IZ EOR ALL FACTORY INSTALLED 9CTMIEN'_ UNITS, POWER ENTRY SID[.... OPT EONS [3CEPT [CDNOM12E9 UNIT AND BLORODNDED SURFACES, POME9 OTHER 6X11 AAD BLOCK OR CPNCAETC MALLS AND 0TH.. ' 4AOU ND[D SURFACES, POWER CNTAT SIDE ........ ............. .42 [1066.81 FW RM CLEARANCE PON CPIMUN AM 8IM19dO INCHES [NMI f PO COIL ACCESS SIOE............. ... ,.36 [914,01 POVER ENTHI S[OE.........................................42 11066..51 R 1EICEPT FOR NEC REOUIRENENTSI UNIT TC>P. .. .......... ... ...,,.,. ...,...:,. .....t8 (1219..71 IDA COIL SIDE OPTOSITE OULTS.............._ .. .. .... .. ._....._... .... 36 C91t_O) DUCT PNNEL........................ ......................... 12 C304.BH NMININUN OISTANCESIIF UNIT IS PLACED LESS THAN 12 1304.81 FIN MALL S15TEM,THER SYSTEM PERFORMANCE MUSE CONPACINI5ED, DIMENSIONS [N 17 ARE IN NN [1122.11 LEFT SIDE VIEW Ritts NEVI FVGHr SDE VEW W -M V" 50VT50E3311 .. Packaged Rooftop Builder 1.40 Page 4 of 17 SUBMITTAL FORM NO. 7868-1P I DATE: 6/09 1 SUBMITTED TO: COMPANY.- DRAWN OMPANY:DRAWN BY: T. HUBBARD JOB NAME: EQUIPMENT: NOTES: Econo. Part No. Controls li ECD-SDLGB-ADB-CD Dry Bulb ECD-SDLGB-ENT-CD Enthalpy ECD-SDLGB-NC-CD No Controls Supply air cover panel. Shipped on HVAC unit. Down Discharge Economizer with Filter Rack for Carrier 48/50ES,EZ 060,A60; 48/50VT 048 -060,A48 -A60; 48/50VL 048,060,A060 Units Features: • Economizer for down application only. • Fully assembled, easy to install. • Rainhood ships assembled, includes a water entrainment filter and is constructed of prepaint steel. • Low leak outside air damper. • Includes 2" filter rack and filters. (1) 18 x 24 x 1, (1)16x24x1 Economizer outside air damper Economizer's barometric relief damper Filter Access Door Filters Replacement panel � shipped with economizer (some newer units will include this panel) Part Number: ECD-SDLGB *** Carrier Equivalent: CPECOMZRO09A00 FILTER RACK SIZE 1" Filters (2) 12" x 20" x1" 2" Filters (1) 10" x 20" x 2" (1)12"x20"x2" NOTES: 1. Relays required for heat pump units can be field supplied or order Carrier Kit CPRLYKIT001A00. 2. Economizer should not be used on XL,XT INFINITY units. 3. Economizer includes harness extensional for older units with no economizer harness factory installed. 4. The "NC" economizer models do not include actuator, controller, sensors, or wiring harness. Rainhood with SIDE VIEW water entrainment Down Discharge filter THIS DOCUMENT IS THE PROPERTY OF MICROMETL CORPORATION AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DISCLOSED OR USED WITHOUT MICROMETL'S WRITTEN CONSENT MICROMETL CORP. - 3035 NORTH SHADELAND AVENUE, SUITE 300 - INDIANAPOLIS, IN 46226 - 1-800-662-4822 - MICROMETL SPARKS - 905 SOUTHERN WAY - SPARKS, NV 89431 - 1-800-884-4662 water ent Performance Summary For RTU -1 project: Salal CU Tukwila 04/15/201 'repared By: 04:37PP Part Number:50VT-B48 --- 3 ARISEER: ................................................................................................................................................... 14.50 Base Unit Dimensions UnitLength: ............................................................................................................................................. 48.2 in UnitWidth: ....... ...................................................................................................... ............................... 44.1 in UnitHeight: ............................................................................................................................................. 48.8 in TotalOperating Weight: .................................................................................................................................. 460 Ib Unit Unit Voltage -Phase -Hertz: ............................................................................................................... 208-1-60 in wg AirDischarge: .................................................................................................................................... Vertical FanDrive Type: .................................................................................................................................... Direct in wg ActualAirflow: ........................................................................................................................................ 1916 CFM SiteAltitude: ................................................................................................................................................. 0 ft Cooling Performance 0.90 in wg Condenser Entering Air DB: .................................................................................................................... 95.0 F EvaporatorEntering Air DB: .................................................................................................................... 80.0 F EvaporatorEntering Air WB: ................................................................................................................... 67.0 F EnteringAir Enthalpy: ........................................................................................................................... 31.44 BTU/Ib Evaporator Leaving Air DB: ..................................................................................................................... 61.3 F EvaporatorLeaving Air WB: .................................................................................................................... 59.4 F Evaporator Leaving Air Enthalpy: .......................................................................................................... 25.92 BTU/Ib NetCooling Capacity: ........................................................................................................................... 47.58 MBH Net Sensible Capacity: .................. ....................................................................................................... 38.69 MBH TotalUnit Power Input: ............... ............................................................................................................ 3.97 kW CoilBypass Factor: ............................................................................................................................... 0.066 Heating Performance Outdoor Ambient Temperature: ............................................................................................................... 47.0 F EnteringAir Indoor Coil DB: .................................................................................................................... 70.0 F LeavingAir Indoor Coil DB: ..................................................................................................................... 91.8 F TotalHeating Capacity: ......................................................................................................................... 45.21 MBH IntegratedHeating Capacity: ................................................................................................................. 45.21 MBH HeatingPower Input: ............................................................................................................................... 3.94 kW HighTemperature COP: ........................................................................................................................... 3.4 LowTemperature COP: ............................................................................................................................ 2.4 HSPF:....................................................................................................................................................... 8.0 ElectricHeating Capacity: ....................................................................................................................... 7.50 kW UnitLeaving Air Temp: .......................................................................................................................... 104.2 F Supply Fan External Static Pressure: ......................................................................................................................... 0.50 in wg Options / Accessories Static Pressure ElectricHeaters: ............................................................................................................................... 0.07 in wg Economizer: ...................................................................................................................................... 0.20 in wg WetCoil: ........................................................................................................................................... 0.13 in wg Total Application Static (ESP + Unit Opts/Acc.):..................................................................................... 0.90 in wg FanPower: .............................................................................................................................................. 0.85 BHP FanMotor Size, hp:... ................................................................................................................................... 1 NOTE: ............................................................................................................... Medium Motor Speed, Vert Electrical Data Units are dual point connections - see added electrical data Control Panel SCCR: 5kA RMS at Rated Symmetrical Voltage Packaged Rooftop Builder 1.40 Page 5 of 17 Performance Summary For RTU -1 Project: Salal CU Tukwila 04/15/201 Prepared By: 04:37Ptv Acoustics SoundRating:... ...................................................................................................................................... 74.0 db Sound Power Levels, db re 10E-12 Watts Advanced Acoustics Advanced Accoustics Parameters Discharge Inlet Outdoor 63 Hz NA NA NA 125 Hz NA NA 68.5 250 Hz NA NA 65.0 500 Hz NA NA 67.0 1000 Hz NA NA 67.5 2000 Hz NA NA 65.0 4000 Hz NA NA 60.5 8000 Hz NA NA 53.0 Advanced Acoustics Advanced Accoustics Parameters 63 1. Unit height above ground: .................................. 30.0 ft 2. Horizontal distance from unit to receiver: ........... 50.0 ft 3. Receiver height above ground: ............................ 5.7 ft 4. Height of obstruction: ........................................... 0.0 ft 5. Horizontal distance from obstruction to receiver: .0.0 ft 6. Horizontal distance from unit to obstruction:........ 0.0 ft Detailed Acoustics Information Octave Band Center Freq. Hz 63 125 250 500 1k 2k 4k 8k I Overall A 0.0 68.5 65.0 67.0 67.5 65.0 60.5 53.0 74.0 Lw B -26. 2 52.4 56.4 63.8 67.5 66.2 61.5 51.9 71.6 LwA C 0.0 36.1 32.6 34.6 35.1 32.6 28.1 20.6 41.6 L D -26. 2 20.0 24.0 31.4 35.1 33.8 29.1 19.5 39.2 LpA Legend A Sound Power Levels at Unit's Acoustic Center, Lw B A -Weighted Sound Power Levels at Unit's Acoustic Center, LwA C Sound Pressure Levels at Specific Distance from Unit, Lp D A -Weighted Sound Pressure Levels at Specific Distance from Unit, LpA Calculation methods used in this program are patterned after the ASHRAE Guide; other ASHRAE Publications and the AHRI Acoustical Standards. While a very significant effort has been made to insure the technical accuracy of this program, it is assumed that the user is knowledgeable in the art of system sound estimation and is aware of the tolerances involved in real world acoustical estimation. Packaged Rooftop Builder 1.40 Page 6 of 17 Performance Summary For RTU -1 Project: Salal CU Tukwila 04/15/201E Prepared By: 04:37PIV This program makes certain assumptions as to the dominant sound sources and sound paths which may not always be appropriate to the real system being estimated. Because of this, no assurances can be offered that this software will always generate an accurate sound prediction from user supplied input data. If in doubt about the estimation of expected sound levels in a space, an Acoustical Engineer or a person with sound prediction expertise should be consulted. Packaged Rooftop Builder 1.40 Page 7 of 17 Q,lv -1 ELECTRICAL DATA -R i v -1 MODEL NOMINAL V PH -HZ VOLTAGE RANGE COMPRESSOR OFM IFM ELECTRIC HEAT POWER SUPPLY MOCP NOMINAL FLA MCA kW MIN MAX RLA LRA FLA FLA 24 208/230-1-60 187 253 13.5 58.3 0.7 4.1 /- /- 21.7 30 3.8/5 18.1/20.8 44.3/47.7 45/50 5.4/7.2 25.9/30 54.1/59.2 60/60 7.5/10 36.1/41.7 66.8/73.8 70/80 30 208/230-1-60 187 253 14.1 73 1.2 4.1 /- /- 22.9 35 3.8/5 18.1/20.8 45.6/48.9 50/50 5.4/7.2 25.9/30 55.3/60.4 60/70 7.5/10 36.1/41.7 68.1/75.1 70/80 11.3/15 54.2/62.5 90.7/101.1 100/110 208/230-3-60 187 253 9 58 1,2 4,1 /- /- 16.6 25 3.8/5 10.4/12 29.6/31.6 30/35 7.5/10 20.8/24.1 42.6/46.7 45/50 11.3/15 31.2/36.1 55.6/61.7 60/70 208/230-1-60 187 253 17.1 79 1.2 6.0 /- /- 28.6 40 3.8/5 18.1/20.8 51.2/54.6 60/60 5.4/7.2 25.9/30 61/66.1 70/70 7.5/10 36.1/41.7 73.7/80.7 80/90 11.3/15 54.2/62.5 96.3/106.7 100/110 36 208/230-3-60 187 253 11.5 73 1.2 6.0 /- /- 21.6 30 3.8/5 10.4/12 34.6/36.6 35/40 7.5/10 20.8/24.1 47,6/51.7 50/60 11.3/15 31.2/36.1 60.6/66.7 70/70 460-3-60 414 506 5.8 38 0.5 3.0 /- /- 10.8 15 3.8/5 6 18.3/18.3 207 5/10 12 25.8/25.8 30 11.3/15 18 33.3/33.3 35 208/230-1-60 187 253 20.6 112 1.2 6.0 /- /- 33 50 3.8/5 18.1/20.8 55.6/59 60/60 5.4/7.2 25.9/30 65.3/70.5 70/80 7.5/10 36.1/41.7 78.1/85.1 80/90 11.3/15 54.2/62.5 100.7/111.1 110/125 15/20 72.2/83.3 123.2/137.1 125/150 42 208/230-3-60 187 253 13.5 88 1.2 6.0 /- /- 24.1 35 3.8/5 10.4/12 37.1/39.1 40/40 7.5/10 20.8/24.1 50.1/54.2 60/60 11.3/15 31.2/36.1 63.1/69.2 70/70 15/20 41.4/47.9 75.8/84 80/90 460-3-60 414 506 6.1 44 0.5 3.0 /- /- 11.1 15 3.8/5 6 18.6/18.6 20 7.5/10 12 26.1/26.1 30 11.3/15 18 33.6/33.6 35 15/20 24.1 1.3 208/230-1-60 187 253 23.4 109 1 2 7.6 /- /- 38.1 50 3.8/5 18.1/20.8 60. 4.1 7mo 5.4/7.2 25.9/30 70.4/75.6 80/80 7.5/10 36.1/41.7 83.2/90.2 90/100 00 11.3/15 54.2/62.5 105.8/116.2 110/125 15/20 722/83.3 128.3/142.2 150/150 48 208/230-3-60 187 253 16 83 1.2 7.6 /- /- 28.8 40 3.8/5 10.4/12 41.8/43.8 45/45 7.5/10 20.8/24.1 54.8/58.9 60/60 11.3/15 31.2/36.1 67.8/73.9 70/80 15/19.91 41.4/47.9 80.6/88.7 90/90 460-3-60 414 506 7.2 41 0.5 3.8 /- /- 13.3 20 3.8/5 6 20.8/20.8 25 F 7.5/10 12 28.3/28.3 30 11.3/15 18 35.8/35.8 40 15/20 24.1 43.4/43.4 45 60 208/230-1-60 187 253 29.6 134 12 7.6 /- /- 45.8 60 3.8/5 18.1/20.8 68.4/71.8 70/80 5.4/7.2 25.9/30 78.2/83.3 80/90 7.5/10 36.1/41.7 90.9/97.9 100/100 11.3/15 54.2/62.5 113.6/123.9 125/125 15/20 72.2/83.3 136,1/149.9 150/150 208/230-3-60 187 253 19.9 110 1.2 7.6 /- /- 33.7 50 3.8/5 10.4/12 46.7/48.7 50/50 7.5/10 20.8/24.1 59.7/63.8 60/70 11.3/15 31.2/36.1 72.7/78.8 60/80 15/19.91 41.4/47.9 85.4/93.6 90/100 27 RTL) -1 Aux. N T (Z INSTALLATION ELECTRICAL RATINGS FOR DEDICATED CIRCUIT TO ELECTRIC HEATER UNIT NOMINAL VOLTAGE CHECK ELECTRIC HEAT POWER SUPPLY _ SIZE V -PH -HZ RANGE HERE NOMINAL FLA MCA **MOCP MIN MAX kW 208 240 208 230 INSTALLATION CARACTtRISTIQUES E.LECTRIQUES DU CIRCUIT DEDIE AU SERPENTIN tLECTRIQUE �a a_dccMIN V -PH -HZ NOMINAL PLAGE DETENSION COCHER ICI CHAUFFAGEELECTRIQUE ALIMENTATION NOMINAL kW * FLA MCA MOCP MAX 208 240 208 230 024 2081230-1-60 187 253 3.815 5.4/7.2 7.5110 18.1 25.9 36.1 20.8 30.0 41.7 22.6 32.4 45.1 26.0 37.5 52.1 25130 35/40 50160 030 208/230-1-60 187 253 3.815 5.417.2 7.5110 11.3/15 18.1 25.9 36.1 54.2 20.8 30.0 41.7 62.5 22.6 32.4 45.1 67.8 26.0 37.5 52.1 78.1 25130 35140 50160 70180 036 2081230-1-60 187 253 3.815 5.417.2 7.5110 11.3115 18.1 25.9 36.1 54.2 20.8 30-.0 41.7 62.5 22.6 32.4 45.1 67.8 26.0 37.5 52.1 78.1 25130 35140 50160 70180 042 2081230.1-60 187 253 3.8/5 5.417.2 7.5110 11.3115 15120 18.1 25.9 36.1 54.2 72.2 20.8 30.0 41.7 62.5 83.3 22.6 32.4 45.1 67.8 90.3 26.0 37.5 52.1 78.1 104.11001110 25130 35140 50/60 70/80 048 2081230-1-60 187 253 3.8/5 5.417.2 7.5110 11.3115 15120 18.1 25.9 36.1 54.2 72.2 20.8 30.0 41.7 62.5 83.3 22.6 3 45.1 26.0 37.5 52.1- 25/30 35140 0/60 70180 67.8 90.3 78.1 104.1100/110 060 2081230-1-60 187 253 3.815 5.417.2 7.5110 11.3115 15/20 18.1 25.9 36.1 54.2 72.2 20.8 30.0 41.7 62.5 83.3 22.6 32.4 45.1 67.8 90.3 26.0 37.5 52.1 78.1 104.11001110 25130 35140 50160 70180 *kW @ 2081240 VOLTS "FUSE OR CIRCUIT BREAKER "FUSIBLE OU DISJONCTEUR 50ESS00472 REV. - RTU -2 Project: Salal CU Tukwila 04/15/201 E Prepared By: 04:37PN RTU -2 Tag Cover Sheet Unit Report Certified Drawing Performance Report Unit Feature Sheet Spec Sheet Packaged Rooftop Builder 1.40 Page 10 of 17 Unit Report For RTU -2 Project: Salal CU Tukwila 04/15/201 Prepared By: 04:37P Unit Parameters Unit Model: .......................................... 50VT-1336 --- 3 Unit Size: ................................................ 36 (3 Tons) Volts -Phase -Hertz: ..................................... 208-1-60 Heating Type: ......................................... Heat Pump Duct Cfg:............ Vertical Supply / Vertical Return Warranty Information 1 year warranty on parts 5 yearwarranty on compressor No optional warranties were selected. Dimensions (ft. in.) & Weight (lb.) *** Unit Length: ....................................... 4' 0.1875" Unit Width: ........................................... 3, 8.125„ Unit Height: ........................................... 3' 8.75„ "' Weights and Dimensions are approximate. Weight does not include roof curbs, unit packaging, field installed accessories or factory installed options. Approximate dimensions are provided primarily for shipping purposes. For exact dimensions and weights, refer to appropriate product data catalog. Total Operating Weight: ................................ 426 Ib NOTE: Please see Warranty Catalog 500-089 for explanation of policies and ordering methods. Ordering Information Part Number Description Quantity 50VT-1336 --- 3 Rooftop Unit 1 Accessories CPECOMZRO08A00 Economizer 1 CPRLYKIT001A00 I Economizer relay kit for heat pumps 1 CPHEATER070A00 5.6/6.9/7.5 kW, 208/230/240-1-60 volt, Electric Heater 1 Packaged Rooftop Builder 1.40 Page 11 of 17 Certified Drawing for RTU -2 Project: Salal CU Tukwila 04/15/201 Prepared By: 04:37PIV 13.0I] -37s3 t3. sSr li [331.3.] [34,s1 1331.31 [117X. �7 LEFT SIDE VIEW [IF73.3] FRONT VIEW avi vs calor [1.3] R16HT SDE VIEW REM VIEW SOYT500311 .rr Packaged Rooftop Builder 1.40 Page 12 of 17 �..— ORAL ��®®rn��asT��m ®mrx�s�am�� 1 414) 10�� . ®�mm®®m®m • irrl�{�r��rrrrr�; v`•Y. � - OUTDOOR (0)L-�%f��NOTE: ys�l„�nsilnri ALL TABLE DATA RELEVANT FOR ALL FACTORY INSTALLED HITNIEN Ours. PORCH ENTRY SIDE .....P ,ON s CICEPI ECDNOMIER UNIT Akb UNGROU.NDED, SUAFACES, PONER ENTRY SIDE ......... ! As C'13 CLENtAmz Pm mmTm AM awme .... .. .. © POVER ENTRY i .. . I.600ft 01L O' WEW -RINIWU4 DISTANCES: I r UNIT IS PLACED LESS THAN t2 1111.1 1 "1” bIwEhSIM IN 13 ARE IN [117X. �7 LEFT SIDE VIEW [IF73.3] FRONT VIEW avi vs calor [1.3] R16HT SDE VIEW REM VIEW SOYT500311 .rr Packaged Rooftop Builder 1.40 Page 12 of 17 SUBMITTAL FORM NO. 7862-1P I DATE: 6/09 1 SUBMITTED TO: COMPANY: DRAWN BY: T. HUBBARD JOB NAME: EQUIPMENT: NOTES: Cover panel shipped on HVAC unit. Down Discharge Economizer with Filter Rack for Carrier 48/50ES,EZ, 50JZ 042 -048,A42 -A48; 48/50VT 036-042, A36 -A42; 48/50VL 042,A42 -A48; 50GL 042 -048,A42 -A48 Units Features: • Economizer for down application only. • Fully assembled, easy to install. • Rainhood ships assembled, includes a water entrainment filter and is constructed of prepaint steel. • Low leak outside air damper. • Barometric relief damper. • Includes 2" filter rack and filters (1) 14 x 24 x 1 (1)16x24x1 Economizer outside air damper Economizer's barometric relief damper Filter Access / Door Replacement panel shipped with economizer (some newer units will include this panel) Part Number: ECD-SDLGS ** Carrier Equivalent: CPECOMZRO08A00 NOTES. - 1 . OTES:1. Relays required for heat pump units can be field supplied or order Carrier Kit CPRLYKIT001A00. 2. Economizer should not be used on XL,XT INFINITY units. 3. Economizer includes harness extensional for older units with no economizer harness factory installed. 4. The "NC" economizer models do not include actuator, controller, sensors, or wiring harness. Econo. Part No. Controls ECD-SDLGS-ADB-CD Dry Bulb ECD-SDLGS-ENT-CD Enthalpy ECD-SDLGS-NC-CD No Controls `Rainhood with SIDE VIEW water entrainment filter Down Discharge THIS DOCUMENT IS THE PROPERTY OF MICROMETL CORPORATION AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DISCLOSED OR USED WITHOUT MICROMETUS WRITTEN CONSENT MIUKUMt I L UUKI'. - JUJO NUK I H JHAUtLANUAVtNUt, JUI I t JUU - INUTANAYULIS, IN 4tiLLti - 1-IJUU-OtiL-4dZZ — MIUKUMt I L JYAHKJ - `JU7 JUU I HtKN WAY - JYAHKJ, NV 594J1 - 1-dUU-664-4bbZ water lent Performance Summary For RTU -2 'roject: Salal CU Tukwila 04/15/201 prepared By: 04:37PI Part Number:50VT-B36 --- 3 ARISEER: ................................................................................................................................................... 14.50 Base Unit Dimensions UnitLength: ............................................................................................................................................. 48.2 in UnitWidth: .............................................................................................................................................. 44.1 in UnitHeight: ............................................................................................................................................. 44.8 in TotalOperating Weight: .................................................................................................................................. 426 Ib Unit 35.92 MBH Unit Voltage -Phase -Hertz: .......................................................................................................... .... 208-1-60 kW AirDischarge: .................................................................................................................................... Vertical FanDrive Type: .................................................................................................................................... Direct ActualAirflow: ........................................................................................................................................ 1269 CFM SiteAltitude: ........... ..................................................................................................................................... 0 ft Cooling Performance 109.7 F CondenserEntering Air DB: .................................................................................................................... 95.0 F Evaporator Entering Air DB: ............................................................................................................... .... 80.0 F Evaporator Entering Air WB: ................................................................................................................... 67.0 F Entering Air Enthalpy: ........................................................................................................................... 31.44 BTU/Ib EvaporatorLeaving Air DB: ..................................................................................................................... 59.8 F EvaporatorLeaving Air WB: .................................................................................................................... 58.1 F Evaporator Leaving Air Enthalpy: .......................................................................................................... 25.11 BTU/Ib NetCooling Capacity: ........................................................................................................................... 36.12 MBH Net Sensible Capacity: .......................................................................................................................... 27.75 MBH TotalUnit Power Input: ...................................................................................................... ...................... 3.00 kW CoilBypass Factor: ............................................................................................................................... 0.055 Heating Performance Outdoor Ambient Temperature: ............................................................................................................... 47.0 F EnteringAir Indoor Coil DB: .................................................................................................................... 70.0 F LeavingAir Indoor Coil DB: ..................................................................................................................... 96.2 F TotalHeating Capacity: ......................................................................................................................... 35.92 MBH Integrated Heating Capacity: ................................................................................................................. 35.92 MBH HeatingPower Input: ............................................................................................................................... 2.99 kW HighTemperature COP: ......................................................................................... I ................................. 3.5 LowTemperature COP: ............................................................................................................................ 2.4 HSPF:....................................................................................................................................................... 8.0 Electric Heating Capacity: ........................................................................................................... ....... 5.40 kW UnitLeaving Air Temp: .......................................................................................................................... 109.7 F Supply Fan External Static Pressure: ......................................................................................................................... 0.50 in wg Options / Accessories Static Pressure ElectricHeaters: ............................................................................................................................... 0.12 in wg Economizer: ...................................................................................................................................... 0.13 in wg WetCoil: ....................................... ........................................................ ............. ............................ 0.12 in wg Total Application Static (ESP + Unit Opts/Acc.):..................................................................................... 0.86 in wg FanPower: .............................................................................................................................................. 0.39 BHP FanMotor Size, hp: ................................................................................................................................... 3/4 NOTE: ............................................................................................................ Med-High Motor Speed, Vert Electrical Data Units are dual point connection - see added electrical data ............................................................................................................................................................................. ............................................................................................................................................................................. Control Panel SCCR: 5kA RMS at Rated Symmetrical Voltage Packaged Rooftop Builder 1.40 Page 13 of 17 Performance Summary For RTU -2 'roject: Salal CU Tukwila 04/15/201 'repared By: 04:37P Acoustics SoundRating: ......................................................................................................................................... 74.0 db Sound Power Levels, db re 10E-12 Watts Advanced Acoustics Advanced Accoustics Parameters 1. Unit height above ground: .................................. 30.0 ft 2. Horizontal distance from unit to receiver: ........... 50.0 ft 3. Receiver height above ground: ............................ 5.7 ft 4. Height of obstruction: ........................................... 0.o ft 5. Horizontal distance from obstruction to receiver: .0.0 ft 6. Horizontal distance from unit to obstruction: ........ 0.0 ft Detailed Acoustics Information Octave Band Center Freq. Hz Discharge Inlet Outdoor 63 Hz NA NA NA 125 Hz NA NA 64.0 250 Hz NA NA 66.0 500 Hz NA NA 68.0 1000 Hz NA NA 68.0 2000 Hz NA NA 66.5 4000 Hz NA NA 60.5 8000 Hz NA NA 52.0 Advanced Acoustics Advanced Accoustics Parameters 1. Unit height above ground: .................................. 30.0 ft 2. Horizontal distance from unit to receiver: ........... 50.0 ft 3. Receiver height above ground: ............................ 5.7 ft 4. Height of obstruction: ........................................... 0.o ft 5. Horizontal distance from obstruction to receiver: .0.0 ft 6. Horizontal distance from unit to obstruction: ........ 0.0 ft Detailed Acoustics Information Octave Band Center Freq. Hz 63 1125 1250 500 1k 12k 4k 8k Overall A 0.0 164.0166.0 68.0 68.0 66.5 60.5 52.0 74.0 Lw B -26.147.9157.4 2 64.8 68.0 67.7 61.5 50.9 72.4 LwA C 0.0 31.6 33.6 35.6 35.6134.1 28.1 19.641.6E D -26. 2 15.5 25.0 32.4 35.6 35.3 29.1 18.5 40.0 LpA Legend A Sound Power Levels at Unit's Acoustic Center, Lw B A -Weighted Sound Power Levels at Unit's Acoustic Center, LwA C Sound Pressure Levels at Specific Distance from Unit, Lp D A -Weighted Sound Pressure Levels at Specific Distance from Unit, LpA Calculation methods used in this program are patterned after the ASHRAE Guide; other ASHRAE Publications and the AHRI Acoustical Standards. While a very significant effort has been made to insure the technical accuracy of this program, it is assumed that the user Packaged Rooftop Builder 1.40 Page 14 of 17 Performance Summary For RTU -2 Project: Salal CU Tukwila 04/15/201E Prepared By: 04:37PU is knowledgeable in the art of system sound estimation and is aware of the tolerances involved in real world acoustical estimation. This program makes certain assumptions as to the dominant sound sources and sound paths which may not always be appropriate to the real system being estimated. Because of this, no assurances can be offered that this software will always generate an accurate sound prediction from user supplied input data. If in doubt about the estimation of expected sound levels in a space, an Acoustical Engineer or a person with sound prediction expertise should be consulted. Packaged Rooftop Builder 1.40 Page 15 of 17 ELECTRICAL DATA MODEL NOMINAL V -PH -H2 VOLTAGE RANGE COMPRESSOR OFM IFM ELECTRIC HEAT POWER SUPPLY NOMINAL MOCP kW FLA MCA MIN MAX RLA LRA FLA FLA 24 208/230-1-60 187 253 13.5 58.3 0.7 4,1 21.7 30 3.8/5 18.1/20.8 44.3/47.7 45/50 5.4/7.2 25.9/30 54.1/59.2 60/60 7.5/10 36.1/41.7 66.8/73.8 70/80 30 208/230-1-60 187 253 14.1 73 1.2 4.1 22.9 35 3.8/5 18.1/20.8 45.6/48.9 50/50 5.4/7.2 25.9/30 55.3/60.4 60/70 7.5/10 36.1/41.7 68.1/75.1 70/80 11.3/15 54.2/62.5 90.7/101.1 100/110 208/230-3-60 187 253 9 58 1.2 4.1 16.6 25 9.6/31.6 30/35 3.8/5 10.4/12 29.6/31.6---75-/50 7.5/10 20.8/24.1 42.6/46.7 45/50 11.3/15 31.2/36.1 5 .7 60L70 Z„ 208/230-1-60 187 253 17.1 79 1.2 6.0 28.6 40 3.8/5 18.1/20.8 51.2/54.6 6 0 5.4/7.2 25.9/30 61/66.1 70/70 7.5/10 36.1/41.7 73.7/80.7 80/90 11.3/15 54.2/62.5 96.3/106.7 100/110 36 208/230-3-60 187 253 11.5 73 1.2 6.0 21.6 30 3.8/5 10.4/12 34.6/36.6 35/40 7.5/10 20.8/24.1 47.6/51.7 50/60 11.3/15 31.2/36.1 60.6/66.7 70/70 460-3-60 414 506 5.8 38 0.5 3.0 10.8 15 3.8/5 6 18.3/18.3 20 7.5/10 12 25.8/25.8 30 11.3/15 18 33.3/33.3 35 208/230-1-60 187 253 20.6 112 12 6.0 33 50 3.8/5 18.1/20.8 55.6/59 60/60 5.4/7.2 25.9/30 65.3/70.5 70/80 7.5/10 36.1/41.7 78.1/85.1 80/90 11.3/15 54.2/62.5 100.7/111.1 110/125 15/20 72.2/83.3 123.2!137.1 125/150 42 208/230-3-60 187 253 13.5 88 1.2 6.0 24.1 35 3.8/5 10.4/12 37.1/39.1 40/40 7.5/10 20.8/24.1 50.1/54.2 60/60 11.3/15 31.2/36.1 63.1/69.2 70/70 15/20 41.4/47.9 75.8/84 80/90 460-3-60 414 506 6.1 44 0.5 3.0 11.1 15 3.8/5 6 18.6/18.6 20 7.5/10 12 26.1/26.1 30 11.3/15 18 33.6/33.6 35 15/20 24.1 41.3/41.3 45 208/230-1-60 187 253 23.4 109 12 76 38.1 50 3.8/5 18.1/20.8 60.7/64.1 70/70 5.4/7.2 25.9/30 70.4/75.6 80/80 7.5/10 36.1/41.7 83.2/90.2 90/100 11.3/15 54.2/62.5 105.8/116.2 110/125 15/20 72.2/83.3 128.3/142.2 150/150 48 208/230-3-60 187 253 16 83 1.2 7,6 / ! 28.8 40 3.8/5 10.4/12 41.8/43.8 45/45 7.5/10 20.8/24.1 54.8/58.9 60/60 11.3/15 31.2/36.1 67.8/73.9 70/80 15/19.91 41.4/47.9 80.6/88.7 90/90 460-3-60 414 506 7.2 41 0.5 3.8 13.3 20 3.8/5 6 20.8/20.8 25 7.5/10 12 28.3/28.3 30 11.3/15 18 35.8/35.8 40 15/20 24.1 43.4/43.4 45 60 208/230-1-60 187 253 29.6 134 1,2 76 45.8 60 3.8/5 18.1/20.8 68.4/71.8 70/80 5.4/7.2 25.9/30 78.2/83.3 80/90 7.5/10 36.1/41.7 90.9/97.9 100/100 11.3/15 54.2/62.5 113.6/123.9 125/125 15/20 72.2/83.3 136.1/149.9 150/150 208/230-3-60 187 253 19.9 110 1.2 7.6 / -/- 33.7 50 3.8/5 10.4/12 46.7/48.7 50/50 7.5/10 20.8/24.1 59.7/63.8 60/70 11.3/15 31.2/36.1 72.7/78.8 80/80 15/19.91 41.4/47.9 85.4/93.6 90/100 27 K7--1- AuX INSTALLATION ELECTRICAL RATINGS FOR DEDICATED CIRCUIT TO ELECTRIC HEATER UNIT NOMINAL VOLTAGE CHECK L ELECTRIC HEAT POWER SUPPLY . SIZE V -PH -HZ RANGE HERE NOMINAL FLA LMCA rMOCP MIN MAX kW * 1 208 240 208 230 INSTALLATION CARACTtRISTIQUES ELECTRIQUES DU CIRCUIT DED1E AU SERPENTIN ELECTRIQUE LU� �a a_ V -PH -HZ NOMINAL PLAGE QETENSION COCHER ICI CHAUFFAGEELECTRIQUE ALIMENTATION NOMINAL kW * FLA MCA M -OC P MIN MAX 208 240 208 230 024 2081230-1-60 187 253 3.815 5.417.2 7.5/10 18.1 25.9 36.1 20.8 30.0 41.7 22.6 32.4 45.1 26.0 37.5 52.1 25/30 35140 50160 030 2081230-1-60 187 253 3.8/5 54/7.2 7.5110 11.3115 18.1 25.9 36.1 54.2 20.8 30.0 41.7 62.5 22.6 32.4 45.1 67.8 26.0 37.5 52.1 78.1 25130 35/40 50160 70/80 036 2081230-1-60 187 253 3.815 5.417.2 7.5110 11.3115 18.1 25.9 36.1 54.2 20.8 30-.0 41.7 1 62.5 22.6 32.4 26.0 37. 25130 5140 50160 70180 45.1 67.8 52.1 78.1 042 2081230.1-60 187 253 3.815 5.417.2 7.5110 11.3115 15/20 18.1 25.9 36.1 54.2 72.2 20.8 30.0 41.7 62.5 83.3 1 22.6 32.4 45.1 67.8 90.3 26.0 37.5 52.1 78.1 104.11001110 25130 35140 50/60 70180 048 2081230-1-60 187 253 3.815 5.417.2 7.5110 11.3115 15120 18.1 25.9 36.1 54.2 72.2 20.8 30.0 41.7 62.5 83.3 22.6 32.4 45.1 67.8 90.3 26.0 37.5 52.1 78.1 104.11001110 25/30 35140 50160 70180 060 2081230-1-60 187 253 3.815 5.417.2 7.5110 11.3/15 15/20 18.1 25.9 36.1 54.2 72.2 20.8 30.0 41.7 62.5 83.3 22.6 32.4 45.1 67.8 90.3 26.0 37.5 52.1 78.1 104.11001110 25130 35140 50/60 70/80 *kW @ 208/240 VOLTS "FUSE OR CIRCUIT BREAKER "FUSIBLE OU DISJONCTEUR 50ES500472 REV. - r 0 L I :-a STRUCTURAL CALCULATIONS SALAL CREDIT UNION 690 Strander Blvd. Tukwila, WA 98188 CODE: IBC 2012 & ASCE/SEI 7-10 PROJECT NO.: 16-220 DATE: May 2, 2016 RECo PL�ANCE CODEE AppROVED MAY 13 Wt 0/1 of Tukwila ty BUILDING DIVIS D. S. Engineering Consulting Structural Engineers 3121 147th Place SE Mill Creek, WA 98012 T: 425-338-4776 OD T06FC E1V6D T UKWILA MAY 042016 PERMIT CENTER �Z s'1 i`r. a� P'01!9 Design Analysis .9-.roz Ion Z3 II vim OF) -Ia.. z w .9-.roz ZDI, +1 ':D'O st P, sgnNi coom (9) II -H ww- OF) II II II ZDI, +1 ':D'O st P, sgnNi coom (9) II -H 335.?OF# 148.()O*ft 148.OQWft U.4 Mmax = 17544.36-4ft at 13.59 ft from left Dmax = -0.4537 in at 14.41 ft from left RI = 2348.154* 360- rO* iT 7T 148.00*ft -F+1111 1TIf►ill►ltlltrTfT�1r►1i1i�111I1i1 Rr = 2278.8434 148.00*ft RI = 2375.654 * Mmax = 17505.86*ft at 13.59 ft from left Dmax = -0.4549 in at 14.35 It from left OPS Rr = 2276.343 148.0(r.kft T T T T T T RI = 2272.033* 148.00kit i f xr-:!Z� --I I UVFV 29.00 ft Mmax = 16875.22.*ft at 13.88 ft from left Dmax = -0.4372 in at 14.41 ft from left T 7 T T COPE5 cats u Mr- 29.00 ft Mmax = 17483.29W at 13,65 ft from Jeff Dmax = -0.4523 in at 14.41 ft from left 148.00*ft Rr = 2234.9" T-- 148.0*ft rFriiTriTTTT ;p aW,k, M2, IJ0 MqtAOI,--A k1r, 148.00AFft 148.00J#ft 4pI cp -C, 26.50 ft Mmax = 12991.56,jt-ft at 13.27 ft from left Dmax = -0.2831 in at 13,27 ft from left RI = 1960.999:0 148.00* iir7--1960.9990- 7N14IT 8.00j* 1,711V 1 Mmax = 13337.63*ft at 13.43 ft from left 0 Dmax = -0.2894 in at 13.27 ft from left `6 i-o-ol r = 1990.055A RI = 1986.942# pp I wbb�zl uOrr 14tLw-, 3Tk 0k/ft F� . ; - 0 8 �Wl 4.31'k 4.3Tk (4.6fk) y T Y T T T T I T T y y y y f2 - kDI I 4.3Tk 43Tk 0.08 k/ft Ar I 30.50 ft Mmax = 139.19 k -ft at 16.01 it from left Dmax = -0.0793 in at 15.28 ft from left Rr 17 387 k RI = 15.792 k T 4.30 k 4.3Tk 4.3Tk 4.72 k 4.7Yk 4.1k 44k 0.08 KMTy 0.08 k/ft 111111►11/ilillTiTIT1T T/1 T► F 30.50 ft Mmax = 140.50 k -ft at 16-01 ft from left Dmax = -0.0800 in at 16.28 ft from left Rl 15.874 k OV 1 111 11 ---- Iu Rr17.505 k 16 2-\ W1 !1 4�f *Kt.re"EwWLr L Converting Addresses to/from Latitude/Longitude/Altitude in One Step... http://stevemorse.org/jcal/lation.php Converting Addresses to/from Latitude/Longitude/Altitude in One Step Stephen P. Morse, San Francisco .Batch Mode (Forward) H Batch Mode (Reverse) "Batch Mode (Altitude) 'Deg/Min/Sec to Decimal Computing Distances Frequently Asked Questions My Other Webpages ........... .................. ...... ...._.... ................. ............ .... ... _.............._. address 690 Strander Blvd. _ _..__... city Tukwila __ . _ .._.... _ _ ...__.._._.. ......... . latitude . .... .... . .. _ .. ... .. .. . longitude . ......... _._..............._....... _......_........_. above values must be in decimal with minus signs for south and west Determine Address reset 0 Access geocoder.us / geocoder.ca (takes a relatively long time) ;fromog ogle jlatrtudelongitude �alti� tude ;decimal X47 4571627 r 122 2444615 ,deg -min -sec 1470 27'25.7857" 122° 14'40.0614 ;fromay hoo latitude longitude altitude idecirnal 47 45682 122 24429 .. :!deg min sec 47° 27'24.552"j- 122° 14' 39 444" i .... _ ... . _ ..... 690 Strander Blvd, Tukwila, Washington 98188 from open street map latitude longitude altitude ____ decurial47 4567859664715 122.244702922463 r deg -min -sec 47° 27'24.4295' 14'40.930511 690, Strander Boulevard, Tukwila, King County, Washington, 98188, United States of America, ... from census'latitude ongitude ;altitude 1 decimal X47 456703 1-122.24468 11 deg -min -sec 147° 27'24.1308" 14' 40.848"I . .... �. _ 690 STRANDER BLVD, TUKWILA, WA, 98188, C:� Design Maps Summary Report http: //ehp2-earthquake.wr. usgs.gov/des ignmaps/us/summary.php?templ ... Mt= Design Maps Summary Report User -Specified Input Report Title Salal Cewdit Union Sun April 24, 2016 23:00:58 UTC Building Code Reference Document 2012 International Building Code (which utilizes USGS hazard data available in 2008) Site Coordinates 47.4570N, 122.244°W Site Soil Classification Site Class D - "Stiff Soil" Risk Category I/II/III USGS-Provided Output SS = 1.444 g SMS = 1.444 g SDS = 0.963 g Sl = 0.538 g SMI. = 0.807 g SDI. = 0.538 g For information on how the SS and S1 values above have been calculated from probabilistic (risk -targeted) and deterministic ground motions in the direction of maximum horizontal response, please return to the application and select the "2009 NEHRV building code reference document. MCE$t Response Spectrum 1.55 1156 1.35 1.20 1.05 0.5a 0.75 rA 0.60 0. 45 0.90-- 0.15-- 0.00 .3a0.150.0a 0.00 0.20 0.40 0.60 0186 1.00 1120 1.40 l.bo 1.80 2.00 Period, T (sec) Design Response Spectrum 1.1n 1.00-- 0.30-- 0.20- 0. 70 .000.300.800.70 ST 0.60 0.50- 0.40- 0.30-- 0.20-- 0.10 .500.400.30a.2a0.10 0.00 t i -4 0.00 0.20 0.40 0.60 0.80 1.00 1.20 1.40 1.60 1.8a 200 Period, T (sec) 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. rg Unit Report For AC -1 Project: Salal CU Tukwila 02/19/201E Prepared By: 03:32PN Unit Parameters Unit Model: .......................................... 50VT-1348-3 Unit Size:................................................48 (4 Tons) Volts -Phase -Hertz: ..................................... 208-1-60 Heating Type: "*** .... * ... * ........................... Heat Pump Duct Cfg..............Vrtal Supply / Vertical Return Warranty Information 1 year warranty on parts 5 yearwarranty on compressor No optional warranties were selected. Dimensions (ft. in.) & Weight (lb.) *"* Unit Length: ....................................... 4' 0.1875" Unit Width.............................................3' 8.125.. Unit Height: ........................................... 4' 0.75" ... Weights and Dimensions are approximate. Weight does not include roof curbs, unit packaging, field installed accessories or factory installed options. Approximate dimensions are provided primarily for shipping purposes. For exact dimensions and weights, refer to appropriate product data catalog. Total Operating Weight: ................................ 460 Ib NOTE: Please see Warranty Catalog 500-089 for explanation of policies and ordering methods. Ordering Information Part Number Description Quantity 50VT-1348 --- 3 Rooftop Unit 1 Accessories CPECOMZR009A00 Economizer 1 CPHEATER066A00 11.3/13.8/15.0 kW, 208/230/240-1-60 volt, Electric Heater 1 CPRLYKIT001A00 I Economizer relay kit for heat pumps 1 Packaged Rooftop Builder 1.39y Page 3 of 17 W Certified Drawing for AC -1 Project: Salal CU Tukwila 02/19/201 Prepared By: 03:32PIV a] I 11� INCOOR COIL j'{ap VAI 8 t u -1s,1} 13-}t16 :A-ss;lA- a 3-TF1A [8T_}] UNI1 Y4LTA6C t ->3+3P T]PETUA3 * BUPPLT (d1,al 1'7F O ;DYr-836--- d60 I6 Ad i} 3 111 D IS 3N tl} SZ tf, 116 q.1 k6 IS -0M CLEARNM TO E INTL MTLCAAI A 2-". e821G�8 IiiOPTIONAL NETURRt}-ti3n8 AIN1441.81 0000111 OPEXIVE OUTDOOR CAJL [NN] ........: .. to CIs3.61 a] I 11� INCOOR COIL j'{ap VAI 8 t [1172.0 LEFT am VIEW Packaged Rooftop Builder 1.39y I I 31 [12}.21 1132.0 [316.11 E35Z.41 FRW NEW FEW WE MN REAR VFW aer 5OVT5O0371 71 Page 4 of 17 IDAAEE YEI6HTS LBtk6 a UNI1 Y4LTA6C 1'7F O ;DYr-836--- d60 I6 Ad i} 3 111 D IS 3N tl} SZ tf, 116 q.1 k6 IS -0M CLEARNM TO E INTL A 2-". e821G�8 ! 7 ! 3 TOR OF DRIT.,.... .:. [NN] ........: .. to CIs3.61 .0tr-8A 153 A8 1 +r rl p11Ei SIDE Of UN1T �.. ... ,�� ..INCHES i. 150 6] AOYr-@AB--- 2"Wo ID6 t$ t8 30 JM 55 M 66 IDE OPPOSITE " IN0 103 t %t36 t12 SE 16 ad 135 df 1 U ttl 17 I8 Rolm OF UNIT. ELECTRICAL PANEL.._ .... .. ....... .. .. . .. .... .. ........ ... .36 [II A.d1 SOYT-850--- 16 fERM INCHES[MN1 NOTE: ALL TABLE DATA REL EYANT F6R ALL FA4TD$T [WALLED 6F7NEEN sbX 1rS, PONEN ENTRY SIDE ., ,.At [ID68. 81 OPt101 IXCEP7 ICONA1110 NNIr .AND UWQOUVDED SURFA{ES, PONER ENTRY SIDE. .... 36 C1t A..DI UNIT AND BLOCK OR CAYCAETE AIL L3 Alto OTHER 4ROU41E9 SURFACES- POW" IRTtT SIDE . ...... ........... ... At [1066.61 RECIRM CLIIMME FM GWAIM XO lEMIUG WHES [R81I SVAF. COIL ACCESS StDE:........ ....... ..... .. .. ... ..36 is 14,03 KWEN ENTNS 5[OE...... .... _...... ... .... .. _... 1EICEFT Ff.D NEC AEODIACNENTSI .........83 [1436.81 09 (OIL UNITTAP.. .:... .. ... .. .:. :..... .<. ..-....., SIDE 4PP061�E Cs1CT1 .. .. .... ... ,,,.., ..t6 [1214.21 ..16 CII A. 6] DUCT PANEL.- ..., ..... .: .... . ... ..12 C164. 814 441NiNUN DISTANYWIF 41I7 IS PLACED LESS THAM It [161.61 F," HALL S%STEN,THEN $T STEN PERFORMANCE NA TBE EON %NISED. DIMENSIONS 10 [1 ARE IN NN [1172.0 LEFT am VIEW Packaged Rooftop Builder 1.39y I I 31 [12}.21 1132.0 [316.11 E35Z.41 FRW NEW FEW WE MN REAR VFW aer 5OVT5O0371 71 Page 4 of 17 e- }) \ ƒ \\ ,ILLu \ } .� \ 6\ _ CO / , .% !m \( ~ ® 3 y \ §§-rr IrLU. CO Lo \§i /// \ §/ q! � K| / c I \® . . ... ................ . « ®: [ . : ƒ CL 0w ' --z -- ( $ A z «§ RSI ■ : � 2 io0§oz g x w (.....ui ��u� § CL 0§zM k oZ■M �O°Zo zI.-bon w§gym° awR21 °=<-2 _ Z§kk� 0 a: =Lu,,_Eo �22CC_ w LL.0 Wo w GSkK9L /) \ EL §�, , .�t:� §§§§ �Q u2§x 'zZit 5 : - ~ eaBB § )4\V g U) c CL ƒ (Ls) / \ , 3 Lateral Analysis: 50VT-1348 ROOF TOP UNIT (AC -1: 4 Tons) AT 4)t , : Model: WT. = 460 # m. Seismic Desi F, = {(0.4 a, Sos )x(1 + 2z/h)xWP}/(RP 1p) = 0.48 WP FP,,x = 1.6 Sos IPWP = 1.54 WP (Equation 13.3-2) Fp,,,, = 0.3 Sos IP WP = 0.29 WP (Equation 13.3-3) FP = 0.48 WP = 226 lbs. From: aP = 2.5 Sps = 0.963 Rp = 6.0 (Critical aP and RP per ASCE 7-10 Table 13.5-1 or 13.6-1) 1p = 1.00 per ASCE 7-10 Section 13.1.3 WP = Mean Roof Height (h): 13.0 ft. Unit attachment at existing slab on grade (2 Ground Motion: SMs = Fa*Ss = 1.444 SM, = F„*S, = 0.807 SDS = (2/3)*SMS = 0.963 SM, = (2/3)*SM, = 0.538 Mech Unit: W = 44.1250 in. D = 48.1875 in. (D>W) H = 48.7500 in. C.G. = 24.0000 in. Center of Gravity Weight = 470.00 Ib.( Unit Weight + Misc) 0.7 FP = 158 Ib. Check Overturning : T, = C, = 0.7FP* (C.G.) / 40" = 95 lbs.---> No Uplift T2 = C2 = 0.7FP* (C.G.) / 44" = 86 lbs.---> No Uplift Res = (0.6 - 0.2SDSx0.7)x(W /2) = 109 Ib. 470.0 Ib. 13.0 ft. P (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure 'B', 110 mph (ult), 20ft (Max. Height) qZ = 0.00256(KZ) (Kt) (Kd) V2 = 16.32 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Kn = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.85 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 110.00 : Basic Wind Speed from Section 26.5 (Risk Category III) Fig.26.5-1 B. GCS = 1.90 : Lateral Force (Horiz) GC, = 1.50 : Uplift Force (Vert) Check Overturning : Fh, = (qh) (GCS) (Af) x 0.6 = 304 Ib. (ASD) Lateral Force F,,, = (qh) (GCS) (Af) x 0.6 = 240 Ib. (ASD) Uplift Force T, = C, = F,,, x (H/2) / 40" = 146 lbs.---> Uplift Tnet = O Fh2 = (qh) (GCr) (Af) x 0.6 = 278 Ib. (ASD) Lateral Force F„ 2 = (qh) (GCS) (Af) x 0.6 = 219 Ib. (ASD) Uplift Force T2 = C2 = F,2 x (H/2) / 44" = 122 lbs.---> No Uplift Res = 0.6x(Unit Weight /2) = 141 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) AISI SPECIFICATION PROVISIONS for SCREW CONNECTIONS NOTATION SCREW PROPERTIES GAUGE METAL THICKNESS SHEAR Number Nominal Gauge Thickness d = nominal screw diameter Designation Dia., d, in. (in.) dw = the larger of the screw head or washer # 2 0.0860 25 ga. 0.019 diameter, but not larger than 1/2"(5/16"MIN.) # 3 0.0990 22 ga. 0.028 FS = factor of safety = 3.0 # 4 0.1120 20 ga. 0.035 Pas = allowable shear force per screw # 5 0.1250 18 ga. 0.045 Pis= nominal shear strength per screw # 6 0.1380 16 ga. 0.057 Pat= allowable tension force per screw # 7 0.1510 14 ga. 0.071 Pit= nominal tension strength per screw # 8 0.1640 12 ga. 0.102 Ppot = pull-out force per screw #10 0.1900 Fu =45ksi min. Ppov= pull -over force per screw # 12 0.2160 t, = thickness of member in contact 1/4 in. 0.2500 with the screw head NOTE: - t2 = thickness of member not in contact 1.) Screw sizes smaller than # 2 or larger than 1/4" with the screw head are not to be used. Fu, = tensile strength of member in contact 2.) The tested shear capacity of the screw shall not with the screw head be less than 1.25 Pis = 3.75 Pas. Fut = tensile strength of member not in 3.) The tested tension capacity of the screw shall not contact with the screw head be less than 1.25 P„ t = 3.75 Pat_ E6.3 Shear E6.4 Tension Pas = P ns/3 Pat = P nt/3 For t2/ti <=1.0 Pas shall be taken as the smaller of Pat shall be taken as the smaller of Pas = 1.4 (t23d)112Fu2 Pull - Out Pas = 0.9 t, d Fu, Pat = 0.283 t2 d Fut Pas= 0.9 t2 d Fut Pull - over 118 Pat = 0.5 t, dw Fut For t2/t, >=2.5 Pas shall be taken as the smaller of Pas = 0.9 t, d Fu, 196 Pas= 0.9 t2 d Fut 173 For 1.0< t2/t, <2.5 Pas shall be determined by the linear interpolation between the above two cases ALLUWAISLL LUADS GAUGE ... SHEAR PULL-OUT SHEAR PULL-OUT SHEAR PULL-OUT I SHEAR PULL OUT 25 75 52 71 :46. 66 39 60. 33 22 :._ .139 .. 78 131 69' 121 59 111 50 20 . 188.. 95 777 84 .. 164 ' 72 151 61 18 280 i24. Q.263s..,:::1091 244 94 224 79 1.6 394;. : 156 370 437 344 118 315 100 14 .. 667 ::.'.: 196 523 173 474 149 398 125 12 '- :'1 890 783 246 675 - 213.. 568 179 Min..:Edg® .. Dist and., o/c Spacing Ra .9 11116 in.,, 9116 in; 112 -in. 7116 in. SCREWS TO HAVE 5/16" MINIMUM HEAD DIAMETER. Lateral Analysis: 50VT-1348 ROOF TOP UNIT (AC -1: 4 Tons) : Model: WT. = 460 # Seismic Design: FP = {(0.4 aP SIDS )x(1 + 2z/h)xWp)/(R^) = 0.48 WP = Fp MAX = 1.6 SIDS Ip Wp 1.54 WP (Equation 13.3-2) Fp MIN= 0.3 Sos IPWP 0.29 Wp (Equation 13.3-3) From: aP = 2.5 SIDS = 0.963 RP = (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) 6.0 IP= 1.00 per ASCE 7-10 Section 13.1.3 WP 600.0 Ib. Mean Roof Height (h): 13.0 ft. Unit attachment at existing slab on grade (z): 13.0 ft. Ground Motion: SMs = Fa*Ss = 1.444 SM, = F, -S, = 0.807 j' + SDs = (2/3)*SMs = 0.963 SM, = (2/3)*SM, = 0.538 Mech Unit: W = 44.125 in. D = 48.1875 in. (D>W) H = 48.750 in. + 16" Curb Adapter Weight = 600.00 Ib.( Unit Weight + Misc) 0.7 Fp = 202 Ib. Check Overturning T, = C, = 0.7Fp* [(H/2) + 16"1 / 40" = 204 lbs.---> Uplift Tnet = 64 T2 = C2 = 0.7Fp* [(H/2) + 16"1 / 68" = 120 lbs.---> No Uplift Res = (0.6 - 0.2SDsx0.7)x(WP/2) = 140 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure 'B', 115 mph (ult), 20 ft (Max. Height) qZ = 0.00256(KZ) (Kt) (Kd) V2 = 18.89 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Kt = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.90 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 115.00 : Basic Wind Speed from Section 26.5 (Risk Category III) Fig.26.5-1 B. GCS = 1.90 : Lateral Force (Horiz) GC, = Af = W x (H+Curb Ht.) OR D x (H+Curb Ht.) 1.50 : Uplift Force (Vertt)) Check Overturning j : �/ Z �1-jZ*- z I s Fn, = GC D H + 16" x 0.6 = 467 Ib. ASD Lateral Force F,,, = (qn) (GCS) (D) (H + 16') x 0.6 = 368 Ib. (ASD) Uplift Force T, = C, = F,,, x [(H+16")/2] / 68" = 175 lbs.---> No Uplift Fn2 = (qn) (GCS) (W) (H + 16") x 0.6 = 427 Ib. (ASD) Lateral Force F„2 = (qn) (GC,) (W) (H + 16") x 0.6 = 337 Ib. (ASD) Uplift Force T2 = C2 = F„2 x [(H+16")/2] / 40" = 273 lbs.---> Uplift Tnet = 93* Res = 0.6x(Unit Weight /2) = 180 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) -4?-] -1= 4- 0-k- Iril I t3-1 k:p 1 1 C9 Lateral Analysis: 50VT-648 ROOF TOP UNIT (AC -1: 4 Tons) : Model: WT.= 460 # Seismic Desigm: i FP = {(0.4 aP SDS )x(1 + 2z/h)xWp}/(RWlp) = 0.48 Wp = 347 Ib. FPMAx = 1.6 Sr, Ip Wp 1.54 Wp (Equation 13.3-2) FpMIN = 0.3 SDS IPWP . 0.29 Wp (Equation 13.3-3) From: aP = 2.5 SDS = 0.963 RP = 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) Ip= 1.00 per ASCE 7-10 Section 13.1.3 Wp - 720.0 Ib. Mean Roof Height (h): 13.0 ft. Unit attachment at existing slab on grade ( 13.0 ft. Ground Motion: SMs = Fa*Ss = 1.444 SM, = F, -S, = 0.807 SDs = (2/3)*SMs = 0.963 SM, = 2/3)*SM, = 0.538 Mech Unit: W = 44.125 in. WIT 101- D = 48.1875 in. (D>W) H = 48.750 in. + 16". Curb Adapter + 12" (E) Curb C Weight = 720.00 Ib.( Unit Weight + Misc) 0.7 Fp = 243 Ib. Check Overturning : T, = C, = 0.7Fp* [(H/2) + 28"1 / 40" = 318 lbs.---> Uplift Tnet = 150 T2 = C2 = 0.7Fp* [(H/2) + 28"1 / 68" = 187 lbs.---> Uplift Tnet = 19-V Res = (0.6 - 0.2SDsx0.7)x(Wp/2) = 167 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure 'B', 115 mph (ult), 20 ft (Max. Height) qZ = 0.00256(KZ) (Kn) (Kd) V2 = 18.89 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Kt = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.90 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 115.00 : Basic Wind Speed from Section 26.5 (Risk Category III) Fig.26.5-1 B. GCS = 1.90 : Lateral Force (Horiz) GCS = 1.50 : Uplift Force (Vert) Af = W x (H+Curb Ht.) OR D x (H+Curb Ht.) Check Overturning : � Fhl = (qh) (GC,) (D) (H + 28") x 0.6 = 553 Ib. (ASD) Lateral Force F,,, = (qh) (GCS) (D) (H + x 0.6 - 437 Ib. (ASD) Uplift Force T, = C, = F,,, x [(H+C(H( 68� 246 lbs.---> Uplift Tnet = 30" Fnz = (qh) (GC,) (W) = 6 Ib. (ASD)Lateral Force F„2 = (qh) (GC,) (W) x 0.6 = 400 Ib. (ASD) Uplift Force 0 T2 = C2 = F„2 x [(H+28")/2] / 40" = 384 lbs.---> Uplift Tnet = 168 Res = 0.6x(Unit Weight /2) = 216 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) A-, �� M �y Id x 15 , II R.T u -- I PRODUCT DATA S/�1 A L The Trane Company, Deafer Products Group, Tyler, Texas 75711 "f l)1,-- W) L A RODUCT SPECIE„ (CATIONS MODEL SWC0480100H BW Bw RATED VOLTS/PH./HZ. 230/1/60 30/ RATING COOLING (1) BTUH 50,000 50,000 50,000 Airflow Indoor (CFM) 1,600 1,600 1,600 System Power (KW & E.E.R./S.E.E.R.) 6.19 8.05/8.75 6.1 8.05/8.75 6.19 8.0 /8.75 Noise Rating No. (2) 8.6 8.6 8.6 RATING HEATING (1) (High Temp) BTUH 51,000 000 51,000 System Power (KW & C.O.P.) 5.43 2.75 5.43 2.75 \40 5.43 2.75 (Low Temp.) BTUH 29,400 400 29, System Power (KW & C.O.P.) 4.45 1.95 4.45 1.95 4.45 1.95 H,S.P.F. (BTU/watt-hr.) (6) 6.40 6.4 POWER. CONNECTIONS 230/1 /60 200/211/3/60 460/ /60 Min. Br. Cir. Ampacity (Amps) (3) 37 3 4 Br. Cir. Prot. Rtg. Max. & Recm d. (Amps.) 60-60 45 - 5 20 20 COMPRESSOR ClimatuHTm Ciimatuff '" CI' atuffTm Volts/Ph./Hz. 230/l/60 200/230/3 60 4 0/3/60 R.L. Amps 24.0 16.2 8.0 Branch Cir. Select. Cur. Amps 24.0 16.2 8.0 L.R. Amps 143 117 51 OUTDOOR COIL - TYPE Plate Fin Plate Fin Plate Fin Rows/F.P.I. 4 / 12 4/ 12 4 /12 Face Area - (Sq. Ft.) 8.37 8.37 8.37 Tube - size (in.) 3/8 Copper 3/8 Copper 3/8 Copper /Expansion Refrigerant Control Expansion Valve Expansion Valve Valve INDOOR COIL - TYPE Plate Fin Plate Fin Plate Fin Rows/F.P.I. 4 / 12 4 /12 4 / 12 Face Area - (Sq. Ft.) 5.49 5.49 5.49 Tube - size (in.) 3/8 Copper 3/8 Copper 3/8 Copper Refrigerant Control Expansion Valve Expansion Valve Expansion Valve Drain Conn. Size (in.) 3/4 NPT 3/4 NPT 3/4 NPT Duct Conn. - Supply (in.) SEE OUTLINE DRAWINGS Duct. Cann. - Return (in.) SEE OUTLINE DRAWINGS OUTDOOR FAN - TYPE Propeller Propeller Propeller Dia. (in.) 16 16 16 No. Used 2 2 2 Drive/Speed (No.) Direct/Single Direct/Single Direct/Single CFM (4) 3750 3750 3750 Motor H.P. - Speed (RPM) 1/4-1600 1/4-1600 1/4-1600 Volts/Ph./Hz. 230/1/60 200/230/1/60 460/1/60 F.L. Amps 1.2 1.2 0.6 INDOOR FAN - TYPE Centrifugal Centrifugat ntrifugal Dia./Widlh (in.) 11.8 x 9.5 t f.8 x 9.5 1 8X9.6 No. Used 1 1 1 Drive/Speeds (No.) Direct / 3 Direct / Dir /3 CFM vs. in w.g. (5) 5FE FAN PERF RMANCE �. Motor H.P. - Speed (RPM) 3/4-1075 3/4 - 75 3/4 - 1075 - Volts/Ph./Hz. 230/1/60 200/2 /1/60 460/1 60 F.L. Amps 4.7 5 2.5 FILTER (Not Fum)ehed) Type Recommended 1" Throwaway 1"ilowawsy t" ThrowawNo./Size (in.) Recommended 2 - 16 x 25 26 x 25 2 - 16 x 2 REFRIGERANT Charge. (lbs. of R-22) 11 lbs. 4 oz. 11 lbs. 4 oz. 11 lbs. 4 oz. DIMENSIONS HW D H W D H W Q Crated (in.) 37 57W3/4 48 37 57-3/4 48 37 57 3/4 8 Unrated - Detail (in.) S OUTLINE DRAWINGS WEIGHT Shipping (tbs.) 563 583 I / 353 Net (lbs.) I M 551 551 tr/ rwwu in a"muetwu vnm w.rsa. atanuaro zw. (2) Rated W accordance with A.R.I. Standard 270. y'uHor�° s SINGLE PACKAGE DATA SUBJECT TO CHANGE WITHOUT NOTICE 61 15 1a) ualcutatea in accordance with currently prevailing National Electric Code. 14 (4) Std. Air - Dry Coil Outdoor (5) Std. Air Wet Coil Indoor (6) (6) Rated In accordance with D.O.E. test procedure. H.S.P.F. Is at the minimum design requirement for Region IV. DATA SUBJECT TO CHANGE WITHOUT NOTICE 61 15 a � l BWC042,O48D; BWC06OC UNIT WITH DUCT HOOD ON CURB -- OUTLINE DRAWING RAM HOOD ROOF NMXNrnNO CURB BdRONlTNR: Ruw NMN NOOD W I From Dvq. 21C715664 Rev. 0 V LEN f C71 v - C_- :B:D),BWC060C OUTLINE DRAWING LL DIMENSIONS ARE IN INCHES) ECONOMIZER POLARIZED TOP DISCHARGE AREA SHOULD BE PLUG ACCESS UNRESTRICTED FOR 60 INCHES MINIMUM. 142INCHES CLEARANCE LIFTING HOLE 36 INCHES CLEARANCE (MH SIDE) CONDENSATE DRAIN COUPLING 4 N. P. T. REAR APPROX.CORNER MODELS WEIGHT #1 #2 #3 #4 BWC0420 156 160 114 111 BWCD460 166 160 114 111 BWC060C 176 164 128 113 -CLEARANCE REQUIRED: 230 Voll models — 36 inches 460 Volt models — 42 inches 38 R IG14T SIDE I.D. BLOWER ACCESS 7 61 ._ 9 DIA. HOLE FOR LOW VOLTAGE CONTROL WIRING 18"DIA. HOLE( I" CONDUIT CONNECTION)) FOR POWER I" I" SUPPLIES 2"a3"DIA. KO'S (129 22CONDUIT CONNECTION) From Dwg. 210127740 Rev. 5 ..... �.m mM 7n CYdultF WITNCWT NOTICE Lateral Analysis: BWC048 (E) ROOF TOP UNIT (AC -1: 4 Tons) :Model: WT.= 551 # Seismic Desian• F, = {(0.4 a, SDS )x(1 + 2z/h)xWp}/(Rp/IP) = 0.48 WP = 322 Ib. FPM„ = 1.6 SDS IP WP 1.54 WP (Equation 13.3-2) FPti„r, = 0.3 SDS IP WP 0.29 WP (Equation 13.3-3) From: ap = 2.5 SDS = 0.963 Rp = 6.0 (Critical aP and RP per ASCE 7-10 Table 13.5-1 or 13.6-1) IP= 1.00 per ASCE 7-10 Section 13.1.3 Wp = 670.0 Ib. Mean Roof Height (h): 13.0 ft. Unit attachment at existing slab on grade (z): 13.0 ft. Ground Motion: SMs = Fa*Ss = 1.444 SM, = F, -S, = 0.807 p SDS = (2/3)*SMs = 0.963 SM, = (2/3)*SM, = 0.538 Mech Unit: W = 48.000 in. D = 57.7500 in. (D>W) ' H = 37.000 in. + 12" (E) Curb [� Weight = 670.00 Ib.( Unit Weight + Misc) ` 0.7 Fp = 226 Ib. Check Overturning : T, = C, = 0.7FP* [(H/2) + 12"] / 40" = 172 lbs.---> Uplift Tnet = 16 T2 = C2 = 0.7FP* [(H/2) + 12"] / 68" = 101 lbs.---> No Uplift Res = (0.6 - 0.2SDSx0.7)x(Wd2) = 156 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure'B', 115 mph (ult), 20 ft (Max. Height) qZ = 0.00256(1<z) (Kt) (Kd) V2 = 18.89 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Kn = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.90 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 115.00 : Basic Wind Speed from Section 26.5 (Risk Category III) Fig.26.5-1 B. GC, = 1.90 : Lateral Force (Horiz) GCS = 1.50 : Uplift Force (Vert) Af = W x (H+Curb Ht.) OR D x (Hnn+,��Crrurb Ht.) Check Overturning : ( W-91-- Fh, = (qh) (GCS) (D) (H + 12") x 0.6 = 423 Ib (ASD) Lateral Force F,,, = (qh) (GCS) (D) (H + 12') x 0.6 = Ib. (ASD) Uplift Force T, = C, = F,,, x [(H+12")/2] / 68" = 120 lbs.---> No Uplift Fh2 = (qh) (GC,) (W) (H + 12") x 0.6 = 352 lb. (ASD) Lateral Force F„2 = (qh) (GC,) (W) (H + 12") x 0.6 = 278 Ib. (ASD) Uplift Force T2 = C2 = F„2 x [(H+12")/2] / 40" = 170 lbs.---> No Uplift Res = 0.6x(Unit Weight /2) = 201 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) i Unit Report For AC -2 Project: Salal CU Tukwila 02/19/201E Prepared By: 03:32PN Unit Parameters Unit Model: .......................................... 50VT-1336 --- 3 Unit Size:......... .......................................36 (3 Tons) Volts -Phase -Hertz: ..................................... 208-1-60 Heating Type: ........... ............................. Heat Pump Duct Cfg:............ Vertical Supply / Vertical Return Warranty Information 1 year warranty on parts 5 yearwarranty on compressor No optional warranties were selected. Dimensions (ft. in.) & Weight (lb.) *** Unit Length:.......................................4' 0.1875" Unit Width: ........................................... 3' 8.125„ Unit Height: ........................................... 3' 8.75" "' Weights and Dimensions are approximate. Weight does not include roof curbs, unit packaging, field installed accessories or factory installed options. Approximate dimensions are provided primarily for shipping purposes. For exact dimensions and weights, refer to appropriate product data catalog. Total Operating Weight: ................................ 426 Ib NOTE: Please see Warranty Catalog 500-089 for explanation of policies and ordering methods. Ordering Information Part Number Description Quantity 50VT-1336-3 Rooftop Unit 1 Accessories CPECOMZR008A00 Economizer 1 CPRLYKIT001A00 Economizer relay kit for heat pumps 1 CPHEATER050A00 7.5/9.2/10.0 kW, 208/230/240-1-60 volt, Electric Heater 1 Packaged Rooftop Builder 1.39y Page 11 of 17 [q O N 0) r N O 0 i 9 V Z4 stf rrrr�� e W -1a t ; •cy �pW�d �e ='rawg t. E. o � 0 i A14451 9 rrrr�� A14451 Lateral Analysis: 50VT-1336 ROOF TOP UNIT (AC -2: 3 Tons) : Model: WT.= 426 # 4 �I"0- Seismic Design: Fp = {(0.4 ap SDS )x(1 + 2z/h)xWp}/(Rdlp) = 0.48 Wp Fp M„x = 1.6 SDS Ip Wp = 1.54 Wp (Equation 13.3-2) Fp MIN = 0.3 SDS IPWp = 0.29 Wp (Equation 13.3-3) F, = 0.48 Wp = 211 lbs: From: ap = 2.5 SDS = 0.963 Rp = 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) Ip= 1.00 per ASCE 7-10 Section 13.1.3 Wp = Mean Roof Height (h): 15.0 ft. Unit attachment at existing slab on grade (2 Ground Motion: Sms = Fa*Ss = 1.444 SDS = (2/3)*Sms = 0.963 Mech Unit: W = D= H= C.G. _ Weight = 0.7 Fp = Check Overturning Sm, = F„*S, = 0.807 Sm, = (2/3)*Sm, = 0.538 44.1250 in. 48.1875 in. (D>W) 48.7500 in. 24.0000 in. Center of Gravity 440.00 Ib.( Unit Weight + Misc) 148 Ib. T, = C, = 0.7Fp* (C.G.) / 40" = 89 lbs.---> No Uplift T2 = C2 = 0.7Fp* (C.G.) / 44" = 81 lbs.---> No Uplift Res = (0.6 - 0.2SDSx0.7)x(Wp/2) = 102 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure 'B', 110 mph (ult), 20ft (Max. Height) qz = 0.00256(KZ) (Kt) (Kd) V2 = 440.0 Ib. 15.0 ft. 16.32 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Kn = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.85 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 110.00 : Basic Wind Speed from Section 26.5 (Risk Category III) Fig.26.5-1 B. GCr = 1.90 : Lateral Force (Horiz) GCr = 1.50 : Uplift Force (Vert) Check Overturning : Fhl = (qh) (GCr) (Af) x 0.6 = FV, = (qh) (GCr) (Af) x 0.6 = T, = C, = F,,, x (H/2) / 40" = ttug*� 304 1 . (ASD) Lateral Force Ib. (ASD) Uplift Force 146 lbs.---> Uplift Tnet = Fh2 = (qh) (GCr) (Af) x 0.6 = 278 Ib. (ASD) Lateral Force Fv2 = (qh) (GCr) (Af) x 0.6 = 219 Ib. (ASD) Uplift Force T2 = C2 = Fv2 x (H/2) / 44" = 122 lbs.---> No Uplift Res = 0.6x(Unit Weight /2) = 132 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) Check Overturning T, = C, = 0.7Fp* [(H/2) + 16"] / 30" = 258 lbs.---> Uplift Tnet = 126 T2 = C2 = 0.7Fp* [(H/2) + 16"] / 52" = 149 lbs.---> Uplift Tnet = 17-0 Res = (0.6 - 0.2SDSx0.7)x(WP 2) = 133 lb. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure 'B', 115 mph (ult), 20 ft (Max. Height) qZ = 0.00256(KZ) (Kt) (Kd) V2 = 18.89 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Krt = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.90 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 115.00 : Basic Wind Speed from Section 26.5 (Risk Category III) Fig.26.5-1 B. GC, = 1.90 : Lateral Force (Horiz) GCS = 1.50 : Uplift Force (Vert) Af = W x (H+Curb Ht.) OR D xx(jH�+'jCuurbb Ht.) Check Overturning : k---- Cr" i 6q, Fh, = (qh) (GCS) (D) (H + 16") x 0.6 = 467 Ib. (ASD) Lateral Force F,,, = (qh) (GCS) (D) (H + 16') x 0.6 = 368 Ib. (ASD) Uplift Force T, = C, = F,, x [(H+16")/2] / 30" = 398 lbs.---> Uplift Tnet = 227 Fh2 = (qh) (GC,) (W) (H + 16") x 0.6 = 427 Ib. (ASD) Lateral Force F„2 = (qh) (GCr) (W) (H + 16") x 0.6 = 337 Ib. (ASD) Uplift Force T2 = C2 = F„2 x [(H+16")/2] / 52" = 210 lbs.---> Uplift Tnet = 39 Res = 0.6x(Unit Weight /2) = 171 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) -Pllt- if a (MIR) � � z � kl Lateral Analysis: 50VT-1336 ROOF TOP UNIT (AC -2: 3 Tons) C �� : Model: WT.= 426 # 4 Seismic Design: 111 F, = {(0.4 a, Sos )x(1 + 2z/h)xWp}/(Rdlp) = 0.48 WP = 274 Ib. F,MAx = 1.6 SDs IPWP 1.54 Wp (Equation 13.3-2) F, MIN = 0.3 Ss Ip WP 0.29 Wp (Equation 13.3-3) From: a, = 2.5 SDs = 0.963 R, = 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) I, = 1.00 per ASCE 7-10 Section 13.1.3 W, = 570.0 Ib. Mean Roof Height (h): 13.0 ft. Unit attachment at existing slab on grade (z): 13.0 ft. Ground Motion: SMs = Fa*SS = 1.444 SM, = F, -S, = 0.807 SDs = (2/3)*SMs = 0.963 SM, = (2/3)*SM, = 0.538 Mech Unit: W = 44.125 in. D = 48.1875 in. (D>W) H = 48.750 in. + 16" Curb Adapter Weight = 570.00 Ib.( Unit Weight + Misc) 0.7 Fp = 192 Ib. Check Overturning T, = C, = 0.7Fp* [(H/2) + 16"] / 30" = 258 lbs.---> Uplift Tnet = 126 T2 = C2 = 0.7Fp* [(H/2) + 16"] / 52" = 149 lbs.---> Uplift Tnet = 17-0 Res = (0.6 - 0.2SDSx0.7)x(WP 2) = 133 lb. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure 'B', 115 mph (ult), 20 ft (Max. Height) qZ = 0.00256(KZ) (Kt) (Kd) V2 = 18.89 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Krt = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.90 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 115.00 : Basic Wind Speed from Section 26.5 (Risk Category III) Fig.26.5-1 B. GC, = 1.90 : Lateral Force (Horiz) GCS = 1.50 : Uplift Force (Vert) Af = W x (H+Curb Ht.) OR D xx(jH�+'jCuurbb Ht.) Check Overturning : k---- Cr" i 6q, Fh, = (qh) (GCS) (D) (H + 16") x 0.6 = 467 Ib. (ASD) Lateral Force F,,, = (qh) (GCS) (D) (H + 16') x 0.6 = 368 Ib. (ASD) Uplift Force T, = C, = F,, x [(H+16")/2] / 30" = 398 lbs.---> Uplift Tnet = 227 Fh2 = (qh) (GC,) (W) (H + 16") x 0.6 = 427 Ib. (ASD) Lateral Force F„2 = (qh) (GCr) (W) (H + 16") x 0.6 = 337 Ib. (ASD) Uplift Force T2 = C2 = F„2 x [(H+16")/2] / 52" = 210 lbs.---> Uplift Tnet = 39 Res = 0.6x(Unit Weight /2) = 171 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) -Pllt- if a (MIR) � � z Lateral Analysis: 50VT-1336 ROOF TOP UNIT (AC -2: 3 Tons) : Model: WT.= 426 # Seismic Design: F, = ((0.4 a, SDs )x(1 + 2z/h)xWp}/(RP 1p) = 0.48 Wp = F, ,,,x = 1.6 Sos IP WP 1.54 Wp (Equation 13.3-2) Fp., = 0.3 Sos IPWP 0.29 Wp (Equation 13.3-3) From: a, = 2.5 Sos = 0.963 R, _ (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) 1p= 1.00 per ASCE 7-10 Section 13.1.3 Mean Roof Height (h): 13.0 ft. Unit attachment at existing slab on grade (z) Ground Motion: SMS = Fa*SS = 1.444 SM, = F„*S, = 0.807 SDS = (2/3)*SMS = 0.963 SM, = (2/3)*SM, = 0.538 Mech Unit: W = 44.125 in. D = 48.1875 in. (D>W) H = 48.750 in. + 16" Curb Adapter + 12" (E) Curb Weight = 650.00 Ib.( Unit Weight + Misc) 0.7 Fp = 219 Ib. 313 Ib. 6.0 Wp = 650.0 Ib. 13.0 ft. Check Overturning : T, = C, = 0.7Fp* [(H/2) + 28"] / 30" = 382 lbs.---> Uplift Tnet = 23140- T2 = C2 = 0.7Fp* [(H/2) + 28"] / 52" = 221 lbs.---> Uplift Tnet = 69' Res = (0.6 - 0.2SDSx0.7)x(WP 2) = 151 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure 'B', 115 mph (ult), 20 ft (Max. Height) qZ = 0.00256(KZ) (Kt) (Kd) V2 = 18.89 psf > 16 psf. : ASCE 7-10 Section 29.8 K, = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Kn = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.90 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 115.00 : Basic Wind Speed from Section 26.5 (Risk Category Ili) Fig.26.5-1 B. GCS = 1.90 : Lateral Force (Horiz) GCS = 1.50 : Uplift Force (Vert) Af = W x (H+Curb Ht.)OR D x (H+Curb Ht.) Check Overturning : i1C`".J C -V Fh, = (qh) (GCS) (D) (H + 28") x 0.6 = 553 Ib. (ASD) Lateral Force Fv, = (qh) (GCS) (D) (H + 28') x 0.6 = 437 Ib. (ASD) Uplift Force T, = C, = F,,, x [(H+28")/21/ 30" = 559 lbs.---> Uplift Tnet = 36 Fh2 = (qh) (GC,) (W) (H + 28") x 0.6 = 506 Ib. (ASD) Lateral Force F„2 = (qh) (GCS) (W) (H + 28") x 0.6 = 400 Ib. (ASD) Uplift Force T2 = C2 = F„2 x [(H+28")/2] / 52" = 295 lbs.---> Uplift Tnet = 100 Res = 0.6x(Unit Weight /2) = c 195 Ib. (ASCE 7-10 Section 2.4 Basic Combiin'atjo s Equation 7.) PRODUCT DATA The Trane Company, aler Products Group, Tyler, Texas 75711 PRODUCT SPECIFICATIONS MODEL 13WCO24C100A BWCO30C100A SWC036CI00A BWCO36C300A SWC-03WAOOA RATED VOLTS/PH/HZ 230/1/80 200/230/1160 200/230/1/80 I 200/230/3/60 460/3/60 RATINGS (Cooling) O BTUH 22800 30200 35200 35200 36200 Indoor Air Flow (CFM) 800 1000 1200 1200 1200 Power Input (KW) 2.63 3.52 4.13 4.13 4.13 E.E,R./S.E.E.R. (BTU/wat(-hr.)@ 8.70 / 9.90 8.55 / 9.50 8.50/ 9.40 8.50 / 9.40 8.50 /9.40 Noise Rating Number (D 7.8 8.2 8.2 8.2 8.2 RATING (Heaung) (High Temp.) STUH 23000 32000 37000 37000 37000 Power Input (KW) & C.O.P. 2.25 3.00 3.15 3.00 3.63 3.00 3.63 3.00 3.63 3.00 (Low Temp.) BTUH 12600 18700 21200 21200 21200 Power Input (KW) & C.O.P. 1.90 1.95 2.79 1.95 3.19 1.95 3.19 1.95 3.19 1.95 H.S.P.F. (BTU/waft-hr.) @ 615 6.76 6.65 6.65 6.65 POWER CONNS. - V/PH/HZ 230/1/60 200/230/1/60 200/230/1/60 200/230/3/60 460/3/60 Min. Brch. Cir. Ampacity O 16 24.1 27.7 18.6 9.5 Br. Cir. 1 Max. (Amps) 25 40 45 30 15 Prot. Rig. j Recmd. (Amps) 25 40 45 30 1 15 (PRESSOR ClimatuffT"" ClimatuffT" Climatuffr"" Climatuff"" Climatuff"" Volts/Ph./Hz. 230/1/60 200/230/1/60 200/230/1/60 200/230/3/60 460/3/60 R. L. Amps - L. R. Amps Brch. Cir. Selec. Cur. Amps 10.0-56 10.9 14.1 -73 16.0 14.1 - 101 18.6 10.5-101 11.5 5.3 - 42 6.0 OUTDOOR COR -- TYPE Plate Fin Plate Fin Plate Fin Plate Fin Plate Fin Rows/F.P.I. 3/15 4/15 4/15 4/15 4/15 Face Area (sq. ft.) 6.73 5.73 5.73 5.73 5.73 Tube -Size (in.) 3/8 3/8 3/8 3/8 3/8 Refrigerant Control Expansion Valve Expansion Valve Expansion Valve Expansion Valve Expansion Valve INDOOR COIL -TYPE Plate Fin Plate Fin Plate Fin Plate Fin Plate Fin Rows/F.P.I. 4/12 4/12 4/12 4/12 4/12 Face Area (sq. fL) 3.44 3.44 3.44 3.44 3.44 Tube -Size (in.) 3/8 3/8 3/8 3/8 3/8 Refrigerant Control Expansion Valve Expansion Valve Expansion Valve Expansion Valve Expansion Valve Drain Conn. Size (in.) 3/4 NPT 3/4 NPT 3/4 NPT 3/4 NPT 314 NPT Duct Conn. See Outline Drawing OUTDOOR FAN - TYPE Propeller Propeller Propeller Propeller Propeller No. Used / Dia (In.) 1 / 20 1 / 20 1 /20 1 / 20 1 /20 Type Drive / No. Speeds Direct / 1 Direct / 1 Direct / 1 Direct / 1 Direct / 1 CFM @ 0.0 In. w.g. 0 2300 2300 2300 2300 2300 No. Motors - HP 1 - 1/12 1 - 1/3 1 - 1 /3 1 - 1/3 1 - 1/2 Motor Speed RPM 825 1075 1075 1075 1075 Vohs/Ph./Hz. 230/1/60 200/230/1/60 200/23011/60 200/230/1/60 460/1/60 F.L. Amps 0.8 1.9 1.9 1.9 0.98 INDOOR FAN - TYPE Centrifugal Centrifugal Centrifugal Centrifugal Centrifugal Dia. xWidth (in.) 9 X 9 10X9 10X9 10X9 10X9 No. Used 1 1 1 1 1 Drive / Speeds (No.) Direct / 2 Direct / 2 Direct / 2 Direct / 2 Direct / 2 CFM vs. in w.g. @ See Fan Performance Table No. Motors - HP 1 - 1/4 1 - 114 1 - 1/3 1 - 1/3 1 -1/3 Motor Speed RPM 1075 1075 1075 1075 1075 Volts/Ph./Hz. 230/1/60 200/230/1/60 200/230/1/60 200/230/1/60 460/1/60 F.L. Amps 1.8 2.2 2.4 2.4 1.1 FILTER - (NOT FURNISHED) High Velocity Type Recommended 1 - 20" X 20" X 1" (No: Size-Thk.) 1 -2011 X 25" X 1" 1 -20")(30" X 1" 1 - 20" X 30" X 1" 1 -20" X30" X 1" REFRIGERANT Charge (lbs. of R-22) 7 Lbs. 11 Ozs. 7 Lbs. 5 Ozs. 8 Lbs., 11 Ozs. 8 Lbs. 1 1 Ozs. 8 Lbs. 11 Oza, DRAENSIONS H W D H W D H W D H W 0 H W 0 Crated (t,) 30% 33% 46 30% 33% 46 30% 33% 46 30% 33% 46 30% 33% 46 Unrated See Outline Drawing WEIGHT Shipping (lbs.)/Net (ibs.) 306/ 290 322 /308 356 340 356 /340 358 / 34fl O Rated in accordance with A.R.I. StaiWard 240. @ Rated In accordance with D.O.E. test procedure. ©Rated In m=rdance with A.R.I. Standard 270. H.S.P.F. is at the minimum design requirement for Region N. @ Calculated in accordance with currently prevailing National Electric Code. @Std. Air - Dry Coil - Outdoor @ Sid. Air - Wet Coil - Indoor SINGLE PACKAGE DATA SUBJECT To CHANGE WITHOUT NOTICE H A i 1 V -'I- f-::- X 15"31 BWCO24,030,036C OUTLINE DRAWING (ALL DIMENSIONS ARE IN INCHES) HEMOVAULF PANEL tOR ACCE55 r0 CC17IHO7 ..._ 37 5/8 - r-- z r I12 -� 4 0 Ir 17 .1Z -- I-- F 1.12 E jf - 1 8 AIR DUVET L L ourocoR I 8 AIR INLET I1 AIR INLE- �� f _ C 1 3/4i L ct I •7 1 -— i H — DRAIN CO%%i t:110N it AP ":!.6 DRAIN 1+0. i .d'4' 1 MA. k PHIL THO. :: AR SIUF: "8 Rol I I OR 'ONTRUI 1 -1 /8 DIA. KNOCKOUT FOR POWER WIRING LOWER K.O —MAIN POWER :0l: F F Atv1 =,;:`f ; UPPER K O. — SUPPLEMENTARY HCATER MODEL NO APPROX. CORNER WEIGHTS — LB. A B C D MINIMUM INSTALLATION CLEARANCE TWO SIDES OF UNIT. OR TOP AND ONE SIDE SHOULD BE COMPLETELY UNOBSTRUCTED From Dwg. 21 C 134764 Rev. 0 GUIDE SPECIFICATIONS BWCO24,030,036C Fumish and install a self-contained single packaged Weathertron® heat pump unit as manufactured by The Trane Company, Dealer Product Group. Unit shall be completely factory assembled and tested, and shall include hermetic compressor, condenser coil, evaporator coil, fan and motors, electric heater compartment, interconnecting Wiring, low voltage control transformer, prewired control panel and other neces- sary components mounted In weather -resistant steel cabinet with baked -on enamel finish. The unit shall be U.L. listed and labeled accord- ingly. The unit shall be sound rated per A.R.I. Standard 270 and operation sound level shall not exceed 8.2 N.R.N. In accordance with A.R.I. Standard 240, the unit shall have a minimum E.E.R./S.E.E.R. of BTUH/ watt. A high temperature C.O.P./ H.S.P.F. of and a low temperature of C.O.P. of Cooling Capacity: The total cooling capacity of the unit shall be BTUH, and the sensible capacity shall be BTUH when handling CFM of evaporator (indoor) coil air at an entering condition of F. D.B. and IF. W.B., and a condensing (outdoor) coil entering air temperature of IF. D.B. Heating Capacity: The total heating capacity without electric heaters shall be BTUH at IF. D.B. outdoor conditions, and IF. D.B. indoor temperature with CFM through indoor coil. Compressor System: The unit shall contain a hermetic compressor. The compressor shall have high and low pressure protection, sump heat and internal line break overload protection. Refrigerant circuit shall include service pressure tap ports, check valves, switch -over valve, refrigerant line filter -driers and factory furnished operating charge of R-22. Outdoor Coil Section: The outdoor coils shall be constructed of aluminum plate fins mechanically bonded to seamless tube. The outdoor coil shall have thermostatic expansion valve refrigerant control during heating operation, and automatic time and temperature defrost con- trol system. There shall be one (1) 20" blade, single speed, direct drive outdoor fan. Indoor Coil Section: The indoor coil shall be constructed of aluminum plate fins mechanically bonded to seamless tubes. The indoor coil shalt have thermostatic expansion valve refrigerant control. Indoor fan shall be of the centrifugal type, forward curved and shall be driven by (three speed) (two speed) direct drive motor. Indoor fan shall be capable of delivering CFM of air at inches w.g. external static pressure. OPTIONAL EQUIPMENT Electric Heaters: Shall have a total output of BTUH @ Volts. Each heater assembly shall include power supply fusing if over 48 amps, automatic resetting limit switches and heat limiters for thermal protection. Heaters shall be kw, step, and suitable for volt phase hertz electrical characteristics. Heaters shall be pro- vided with polarized plugs for quick connection to unit low voltage control wiring. indoor Thermostat: Provide combination heat/cool. two stage heating (automatic) (manual) changeover heat pump thermostat. Thermostat shall have outdoor thermistor to compensate for thermostat droop, emergency heat switch with indicator light and auxiliary heat light. BWC038C100A 1f 89.5 708 78 27-314 30.3/6 72-i/4 16-3J4 F G N The Trane Company Dealer Products Group •Troup Highway- Tyler, TX 75771 16 art V2 ata *4E t2" BWCO24Ct00A 79-b 85 70.5 77 aWC030C100A 85 5 T6 72.5 80 BWC036C300A 7f 89.5 t06 76 BwC036C400A 71 89.5 106 76 ' t2" 36" 24" 48"EZ; P.I. Indoor Unit: PKA-Al2HA6 UNIT OPTION: Outdoor Unit: PUY-Al2NHA6 (-BS) Standard Model......................................................................PUY-Al2NHA6 Seacoast (BS) Model .......................................................PUY-Al2NHA6-BS ACCESSORIES: Indoor Unit Condensate Pump (BlueDiamond X87-711/721; 1151230V) ;i Condensate Pump (Sauermann S130-115/230; 1151230A u Disconnect Switch (TAZ-MS303) • Wireless Remote Controller (PAR-FL32MA-E) ❑ Wireless Signal Receiver (PAR-FA32MA-E) Outdoor Unit o Wind Baffle ( B-PA1)* 'Allows operation to 0° F (-181 C). • Advanced Wnd Baffle (WB-SD1 and/or WB-RE1)** ^'Allows operation to -20' F (-29° C). c Air Outlet Guide (PAC-SG58SG-E) • Wall Bracket (QSWB2000M-1) Controls i Wireless Controller (MHK1) r Advanced Wired Controller (PAR -31 MAA) Simple Wired Controller (PAC-YT53CRAU) M-NETAdapter(PAC-SF83MA-E) Temperature Sensor (PAC-SE41TS) SPECIFICATIONS: Rated; Candltions (Capacity ! Input)* • Rating Conditions per AHRI Standard: Cooling I Indoor: 80° F (27 C) DB / 67° F (19° C) WB Cooling I Outdoor: 95° F (35a C) DB / 75a F (24a C) WB Specifications are subject to change without notice. aaa Liquid (High Pressure) Blower Motor (ECM) ELA. 0.33 Blower Motor Output W 30 SHF / Moisture Removal 10.81 / 2 pt./h SPIN ! 100 (30) Separation Compressor DC INVERTER -driven Twin Rotary Fan Motor (ECM) F.L.A. 0.35 MOCP A 15 Indoor I DRY 320-370-425 (Cooling) E CFM 290-335-380 :Outdoor DRY 1,200 e Indoor (Low -Mid -High) 36-40-43 Outdoor i Cooling dB(A) 48 - a a 11-5/8 x 35-3/8 x 9-13/16 Indoor (H x W x D) (295 x 898 x 249) In.(mm) 23-5/8 x 31-1/2 x 11-13/16 + 7/8 Outdoor (H x W x D) (600 x 800 x 300 + 23) > - R410A ; 2 lbs., 14 oz. © 2015 Mitsubishi Electric US, Inc. Liquid (High Pressure) 114 (6.35) (n.(mm) Gas (Low Pressure) I 1/2(12.7) Maximim Total Ft. (m) Refrigerant Pipe Length 165 (50) i Maximum Vertical + Ft. (m) ! 100 (30) Separation © 2015 Mitsubishi Electric US, Inc. - 1 P- PKA-Al2HAG xnorAw We la PPN a _ a 7116(12.6) 2-Y76(56) D _ 1.11/16(11) ?1 u � �' LsX title a D xnoann nae A _ iw ler. PPo9 1-11116(13) 13/1(!6) a Sleeve ,`a 2.5176(60) rdated lora Ti -0 M1ae 42.112-43.116 02-W-043.119 (465-m8o7 ,00) PUY-Al2NHA6 (-BS) NOTES: SEACOAST PROTE • External Outer Pa • Fan Motor Suppon: tpoxy resin wdony (a1 euye lace) • Separator Assembly Valve Bed: Epoxy resin coating (at edge face) • Screws (used outer side): Zinc nickel coating Spm + Poly Anylidene chloride coating F -t liftGnft a-) Unit: inch (mm) Noud haak kga sMe A 413116(349) 3'tfil5) ana an nae Ip right Ppn9 8itie Fin treatment ss an'artt#orrersi an treatmettEihat rs ap�iied ttcs the ; condenser coilto 4 if against atrborite'eontaminants - MITSUBISHI ELECTRIC COOLING & HEATING 1340 Satellite Boulevard. Suwanee, GA 30024 Toll Free: 800433-4822 www.mehvac.com ous Interte FORM# PKA-Al2HA6 - PUY-Al2NHA6 (-BS)-201511 Specifications are subject to change without notice. 0 2015 Mitsubishi Electric Lateral Analysis: MITSUBISHI ELECTRIC PUY-Al2NHA6 : Model: WT.= 82 # Seismic Design: Fp = {(0.4 aP Sys )x(1 + 2z/h)xWp}/(RWIP) = 0.48 WP Fp. = 1.6 Sos Ip Wp = 1.54 Wp (Equation 13.3-2) Fp., = 0.3 Sos IpWp= 0.29 Wp (Equation 13.3-3) FP = 0.48 Wp = 43 lbs. From: ap = 2.5 Sos = 0.963 RP = 6.0 (Critical ap and Rp per ASCE 7-10 Table 13.5-1 or 13.6-1) IP= 1.00 per ASCE 7-10 Section 13.1.3 Wp = 90.0 Ib. Mean Roof Height (h): 13.0 ft. Unit attachment at existing slab on grade (2 13.0 ft. Ground Motion: SMS = Fa*Ss = 1.444 SM, = F„*S, = 0.807 SDS = (2/3)*SMS = 0.963 SM, _ (2/3)*SM, = 0.538 Mech Unit: W = 11.8125 in. D = 31.5000 in. (D>W) H = 23.6250 in. C.G. = 12.0000 in. Center of Gravity Weight = 90.00 Ib.( Unit Weight + Misc) 0.7 Fp = 30 lb. Check Overturning T, = C, = 0.7Fp* (C.G.) / 13" = 28 lbs.---> Uplift Tnet = 7 T2 = C2 = 0.7Fp* (C.G.) / 19.69" = 18 lbs.---> No Uplift Res = (0.6 - 02SDSx0.7)x(Wp/2) = 21 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 8.) Wind Design (ASD): Exposure'B', 110 mph (ult), 20ft (Max. Height) qZ = 0.00256(KZ) (K 17.28(Kd) V2 = 17.28 psf > 16 psf. : ASCE 7-10 Section 29.8 KZ = 0.62 : Velocity Presure Exposure Coefficient per ASCE 7-10 Table 29.3-1 Kn = 1.00 : Topographic Factor per ASCE 7-10 Section 26.8.2 Kd = 0.90 : Wind Directionality Factor, in accordance with Table 26.6-1 V = 110.00 : Basic Wind Speed from Section 26.`5 (Risk Category III) Fig.26.5-1 B. GC, = 1.90 : Lateral Force (Horiz) GC, = 1.50 Uplift Force (Vert) Check Overturning : Fhl _ (qh) (GC,) (Af) x 0.6 = F,,, _ (qh) (GCS) (Af) x 0.6 = T,=C,=F,,,x(H/2)/13"= 102 Ib. D) Lateral Force 80 Ib. (ASD) Uplift Force 73 lbs.---> Uplift Tnet= 46 Fh2 = (qh) (GCS) (Af) x 0.6 = 38 Ib. (ASD) Lateral Force F„2 = (qh) (GCS) (Af) x 0.6 = 30 lb. (ASD) Uplift Force T2 = C2 = F„2 x (H/2) / 19.69" = 18 lbs.---> No Uplift Res = 0.6x(Unit Weight /2) = 27 Ib. (ASCE 7-10 Section 2.4 Basic Combinations Equation 7.) to �� PERMIT NUMBER: M16-0067 DATE: 05/04/16 PROJECT NAME: SALAL CREDIT UNION SITE ADDRESS: 690 STRANDER BLVD X Original Plan Submittal Revision # before Permit Issued Response to Correction Letter # Revision # after Permit Issued DEPARTMENTS: it -T AV, Building Divisions Public Works ❑ PRELIMINARY REVIEW: Not Applicable ❑ (no approval/review required) REVIEWER'S INITIALS: APPROVALS OR CORRECTIONS: Approved ❑ Corrections Required ❑ (corrections entered in Reviews) Notation: REVIEWER'S INITIALS: ,�tA AJIA Fire Prevention Structural ❑ Planning Division ❑ Permit Coordinator ❑ DATE: 05/10/16 Structural Review Required ❑ DATE: DUE DATE: 06/07/16 Approved with Conditions Denied ❑ (ie: Zoning Issues) DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ I'Ing ❑ PW ❑ Staff Initials: iznsnoia PRO STAFF MECHANICAL INC Adolk 11aWashington State Department of abor & Industries Page 1 of 2 Home Bspahol Corrtact Search L&I -- � A-7.. Index Help My L&I Safety & Health Claims & Insurance Workplace Rights Trades & Licensing PRO STAFF MECHANICAL INC Owner or tradesperson PO BOX 33370 SEATTLE, WA 98133 Principals 206-361-0071 ALMO, LEONARD LEE, PRESIDENT KING County ALMO, PENNY H, VICE PRESIDENT Doing business as PRO STAFF MECHANICAL INC WA UBI No. Business type 601 038 859 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 $1,000,000.00 License no. PROSTMI072NG Effective — expiration Effective date 08/07/1993— 07/02/2016 06/30/2014 Bond ................ Expiration date DEVELOPERS SURETY & INDEM CO $12,000.00 Bond account no. 799707C 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. 26CCO06951 Received by L&I Effective date 06/22/2015 06/30/2014 Expiration date 06/30/2016 Insurance history Savings ....................... No savings accounts during the previous 6 year period. Lawsuits against the bond or savings https:Hsecure.Ini.wa.gov/verify/Detail.aspx?UBI=601038859&LIC=PROSTMI072NG&SAW= 5/18/2016