Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
Permit M97-0078 - SOUTHCENTER CORPORATE SQUARE #10
City of Tukwila Permit No: M97 -0078 Type: B -MECH Category: NRES Address: 360 CORPORATE DR N Location: Parcel #: 262304 -9075 Contractor License No: COMFOP *064D2 UMC Edition: 1994 MECHANICAL PERMIT Community Development / Public Works • 6300 Southcenter Boulevard, Suite 100 • Tukwila, Washington 98188 Valuation: Total Permit Fee: Status: ISSUED Issued: 06/10/1997 Expires: 12 /07/1997 TENANT SOUTHCENTER CORPORATE SQUARE #10 360 CORPORATE DR N, TUKWILA, WA 98188 OWNER SOUTHCENTER CORPORATE SQUARE Phone: (206)575 -8500 C/O JSH PROPERTIES INC, 1005 ANDOVER PARK E, TUKWILA WA 98188 CONTRACTOR COMFORT PLUS Phone: 206 251 -9840 P.O. BOX 913, KENT, WA 98035 CONTACT GERALD WARE Phone: 206 251 -9840 6617 S 193RD PL . #P -105, KENT, WA 98032 ********************************************* * * * * * * * * * * * * * * * * * ** * * * * * * * ** ** Permit Description REMOVE AND REPLACE .EXISTING 50 TON VAV ROOFTOP HVAC UNIT.. (206) 431-3670 48, 63.00 ******* it*************************** 4(*, * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Permit Authorized Signature Data I hereby certify that I have read and examined this permit and know the same to be true and correct. All provision's of law and ordinances' governingthis 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 for and obtain this building permit. Signature SIL,2, —4— Date: 6 © ^�� Print Name: G \,.:: Title: 9 This permit shall become null and void if the work is not commenced within 180 days from the date of issuance, or if the.work is suspended or abandoned. for a period of 180 days from the last inspection. Project Name/Tenant: G_R.P , S C3uR Description of work to be done: � `, ^� 1��C?F' �t,Q H- VA- c ._ tf , it w Value of Construction: 4 R 44 44 .414;=. -Rt eWi). 1 Q Site Site Address: S.Ln c Property Owner: ),4■1‘9 r / City State/Zip: Tax Parcel Number: QlvOL "IO15 N Vr ST nSZS. Phone: Address: Street Address: s t5 C. City State /Zip: : : Fax #: Contact Person: G- 1. v-4CM !P. City State /Zip: Phone: Fax #: t — 4P0 _V Street Address: Contractor: G6 t,-,p tF."C el,» Phone: Street Address: ___ City State/Zip: Fax #: Architect: Phone: Street Address: City State/Zip: Fax #: Engineer: Phone: Street Address: City State /Zip: Fax #: MISCELLANEOUS: PERMIT REVIEW AND APPROVAL.REQUESTED: BE'FILLED;OUTBY /CANT):, Description of work to be done: � `, ^� 1��C?F' �t,Q H- VA- c ._ tf , it w �` Will there be storage of flammable /combustible hazardous material in , •• building? ❑ yes ❑ no list of materials and stoma e location on separate 8 1/2 X 11 • :,:t& dicatin. • uantities & Material Safety ata Sheets — l Atttach lJ Above Ground Tanks DI Antennas /Satellite Dishes ■ Bulkhead /Docks ■ Commercial Reroof ❑ Demolition ❑ Fence mechanical ❑ Manufactured Housing - Replacement only ❑ Parking Lots ❑ Retaining Walls ❑ Temporary Pedestrian Protection/Exit Systems ❑ Temporary Facilities ❑ Tree Cutting MONTHLY SERVICE BILLINGS TO: Name: Phone: Address: City /State /Zip: 0 Water 0 Sewer 0 Metro 0 Standby CITY OF r IKWILA Permit Center 6300 Southcenter Boulevard, Suite 100 Tukwila, WA 98188 (206) 431 -3670 Miscellaneous Permit Application Application and plans must be complete In order to be accepted for plan review. Applications will not be accepted through the mail or facsimile. APPLICANT'REQUEST.:FORMISCELLANEOUS PUBLIC WORKS PERMITS ❑ Channelization /Striping in Curb cut/Access Sidewalk ❑ ' re Loop /Hydrant (main to vault) #: Size(s): ❑ Flood Control Zone ❑ Land Altering: • Cut _ _ c is yards 0 Fill cubic yards 0 sq. ft.grading /clearing ❑ Landscape Irrigation ❑ Sanitary Side Sewe #: ❑ Sewer Main Extension 0 Private 0 Public ❑ Storm Drainage ❑ Street Use ❑ r Main Extension 0 Private 0 Public ❑ Water Meter /Exempt # Size(s): 0 Deduct 0 Water Only ❑ Water Meter /Permanent # Size(s) ❑ Water Meter Temp # Sizek ): Est. quantity: gal Schedule: CI Miscellaneous ,,// WATER METER DEPOSIT /REFUND BILLING: Name: Address: 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 extend the time for action by the applicant for a period not exceeding 180 days upon written request by the applicant as defined in Section 107.4 of the Uniform Building Code (current edition). No application shall be extended more than once. Date application accepted: MISCPMT.DOC 7/11/96 ❑ Moving Oversized Load/Hauling Date application expires: Phone: City /State /Zip: Application taken by: (Initials) moo BUILDING OWNER OR AUTHORIZED AGENT: SUBMIT APPLICATION AND REQUIRED CHECKLISTS FOR Above Ground Tanks!Water Tanks Supported directly upon grade. exceeding 5,000 gallons and a ratio bf height to diameter or width. which exceeds 2 :1 PERMIT REVIEW Submit checklist No M - Signature: Antennas/Satellite Dishes Date: b -- ^.-\ Awnings /Canoples -. No signage Print name: cr____p,m__ \ W c.t 0 Phone: g 0 City /State /Zip: -� K � N � Fax �� ^� °1 .D, Address: 6 . P - s i.._ 3 t._ ALL MISCELLANEOUS PE' '/IT APPLICATIONS MUST BE SUB ED WITH THE FOLLOWING: > ALL DRAWINGS SHALL BE AT A LEGIBLE SCALE AND NEATLY DRAWN • BUILDING SITE PLANS AND UTILITY PLANS ARE TO BE COMBINED • ARCHITECTURAL DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED ARCHITECT • STRUCTURAL CALCULATIONS AND DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED STRUCTURAL ENGINEER > CIVIL/SITE PLAN DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED CiVIL ENGINEER (P.E.) Copy of Washington State Department of Labor and Industries Valid Contractor's License. If not available at the time of application, a copy of this license will be required before the permit is issued, unless the homeowner will be the builder OR submit Form H -4, "Affidavit in Lieu of Contractor Registration ". Bulld/ng.Owner /Authorized Agent If the applicant is .other than the owner, registered architect/engineer, or contractor licensed by the State of Washington, . a notarized letter from the property owner authorizing the agent to submit this permit application and obtain the permit will be required as part of this submittal, 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. MISCPMT.DOC 7/11/96 SUBMIT APPLICATION AND REQUIRED CHECKLISTS FOR Above Ground Tanks!Water Tanks Supported directly upon grade. exceeding 5,000 gallons and a ratio bf height to diameter or width. which exceeds 2 :1 PERMIT REVIEW Submit checklist No M - CI Antennas/Satellite Dishes Submit checklist No M -1 El Awnings /Canoples -. No signage Commercial Tenant Improvement Permit . CI Bulkhead/Dock . Submit checklist No M -10 0 Commercial Submit checklist No M -6 0 Demolition: Submit checklist : No M -3, M =3a in Fences - Over 6 feet in Height Submit checklist No: M -9 0 Land Altering/Grading /Preloads Submit checklist No: M -2 El Loading Docks Commercial Tenant Improvement Permit:: Submit Checklist No: H -17 Mechanical ( Residential.& Commercial) Submit checklist No:.. M -S, Residential only - H -6, H -16'. O Miscellaneous PubIIc Works Permits Submit checklist No H -9 8 Manufactured Housing (RED INSIGNIA ONLY)' Submit checklist No: M -5 El Moving .Oversized Load /Hauling Submit checklist No: M Lots Submit checklist No: M -4 0 Residential Reroof - Exempt with following exception! If roof structure to be repaired or replaced Residential Building Permit Submit checklist : No: M -6 El Retaining Walls - Over 4 feet in height Submit checklist No M =1 2 Temporary. Facilities . Submit checklist . No: M -7 0 .TemporaryPedestrian Protection/Exit Systems Submit checklist No: M -4 0 Tree Cutting Submit checklist No: M -2 ALL MISCELLANEOUS PE' '/IT APPLICATIONS MUST BE SUB ED WITH THE FOLLOWING: > ALL DRAWINGS SHALL BE AT A LEGIBLE SCALE AND NEATLY DRAWN • BUILDING SITE PLANS AND UTILITY PLANS ARE TO BE COMBINED • ARCHITECTURAL DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED ARCHITECT • STRUCTURAL CALCULATIONS AND DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED STRUCTURAL ENGINEER > CIVIL/SITE PLAN DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED CiVIL ENGINEER (P.E.) Copy of Washington State Department of Labor and Industries Valid Contractor's License. If not available at the time of application, a copy of this license will be required before the permit is issued, unless the homeowner will be the builder OR submit Form H -4, "Affidavit in Lieu of Contractor Registration ". Bulld/ng.Owner /Authorized Agent If the applicant is .other than the owner, registered architect/engineer, or contractor licensed by the State of Washington, . a notarized letter from the property owner authorizing the agent to submit this permit application and obtain the permit will be required as part of this submittal, 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. MISCPMT.DOC 7/11/96 CITY OF'.TUKWILA. Address:.360•CORRORATE DR Suite: . Tenant: SOUTHCENTER CORPORATE SOUARE #10 Type: B MECN parcel. #: 262304 -9075 * * k**** * *•k * * *•k•* * * * *•k•k•k*. * * * * *•k* ** * ** k• k**• k• k***• k*• k**• k* * *•k* *•k** *•k'•k * * * * *•k•k *•k PeS'mit Conditions.: : M97 -0078 Status: ISSUED Applied: 06/05/1997, Issued: 06 /10/1997 • 1. No changes will be made to the plans unless approved by the Architect or Engineer and t he —Tukw iding Division. 2 All permits, . inspection,. c`tird;s, and' approyed plans shall be 'available at the . iu,b slue" prior to iliel . startt, of any con. - struction. Theses dume are:.to ;:'be maintanid. and avail - able until ft.110 i'nspection ap is gr�a,nted` 3 All construction tp be'done •In c`onformance w a pproved plans and, requ i rerun is o'f the ,.Un i forum Bui i d.ing Code (-1994 Edition} as amended Un Mechanica•l Code (1994 Edit°i,on), . and Wash i;ngt,un., State Energy. (1994 Edition) ., :, 4 . Econoni•i,aers ' ar'e:,, requ`i red on ., =pa`cka'ge, roof top fari -coo i ng un i r,, is hay.,h -ig ,a supply." capacity •greater<. than 1900 rfm .or:, a. to'ta•,l ng c,a cool Racltv..grea.t` r` t'li"an 54000 Btufh. Ai eco.riom.iier' shall V of mo'dulating outside and , return,,ai r.' Y damper's , -.to —prou'i de 100% of the des_•i_gn supply air as outside air,' } 7 t.o reduce, eliminate t need r 'fo mechanical cooling. WSE,C :1413 &x,1423. " a (., 5. Automatic shutoft` for a;ir mgvi,ng;equ ?ipmen required per • ' y ,., tems are p UMi�.�� �0>3,,.. _Where "� °f i c..e d_,e t e 4' on or a i arm � i. s rav;.i�iie tort the' l'd tng,:/the/ s•inoW detect req,ired shall be s 3 e v4,0e0 b ar: sueh,,syst;env ;ti :, , , ; . MANUFACTURER INSTALLAT1O •'•INS•T,RUCT`ION :R EQUIRED ON,,,; SI . FO �, 'HE::� B.LJILI•N DG INaPECTORSREV,IEV�.`` " i '' i S J C �. ' p ci Val tia' t �o1 Pe �mi t. The issuan ...at'•..a.•. °perm•it >.. or aprcYal` planes` ; sped'if io and computa0,on :;shahs •` not `be 'strue`d\to be f a .p for or an approval,..of•,, ° any violatio of a "he pray i s i o e; ns of the i:bu i.l d i ng code or of any other •dinance of the jurisdlctior: ,; NO pe,r.mit' presuming` give a•u•thoritSik to violate or cancel the pkivions of th4 code sha: be Valid. asiY/.d'w I/:{11 it 4. Y,['. nu1' :uWnuN.•'r 4 744007 , i4,4,. 9xw* • C.�y 4 tar Ca� PLAN REVIEW / ROUTING SLIP ACTIVITY NUMBER M97 -0078 DATE 6/05/97 PROJECT NAME DEPARTMENT: PUBLIC WORKS COMPLETE COMMENTS • REVIEWERS INITIAL REVIEWERS INITIAL APPROVED C:ROUTE -F N A1PMbMti.� 1�lAau!:nfa.YMJWF• <.Ir%f,nn� CORRECTION DETERMINATION: SOUTHCENTER CORPORATE SQUARE 110 FIRE P NTION STRUC DETER JNATION OF COMPLETENESS: (T,Th) NOT COMPLETE APPROVALS OR CORRECTIONS: (ten days) APPROVED W/ CONDITIONS DATE DATE C PLANN DIVISION E PERMIT C ORDINATOR • DUE DATE NOT APPLICABLE fl TUES /THURS ROUTING: PLEASE ROUTE fl NO FURTHER REVIEW REQUIRED El ROUTED BY STAFF n (If routed by staff, make copy to masier file & enter Sierra.) DUE DATE APPROVED C APPROVED W/ CONDITIONS C NOT APPROVED (attach comments) r REVIEWERS INITIAL DATE twf 6/10/97 6/24/97• DUE DATE NOT APPROVED (attach comments) (Certification of occupancy required. ) ProZ c izeo 1 _ L 1 I Type of ins • =eti rcal lb Address: '( NV , , ■ - Date called: 0 � r _ 9 Special instruction 4 - ) Q Date wanted: Requeste, Phone No, • S 1 % 0 I INSPECTION RECORD t..., Retain a copy with permit INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 FKApproved per applicable codes. COMMENTS: Receipt No.: Inspector: C PERMIT NO. (206) 431 -3670 Corrections required prior to approval. bils -,'.J (A,,.1 fro avirc. Z c f u3P. Date: (I�f• c? $42.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Date: * * ** ***k **.k*k**** **k* ******* **k ****1k* ******* k**kA* * CITY :0F' TUKWILA WA P — # TRANSMIT h. * * *h *A**kk *,U * * *k,* * ** • * * k* * * k kk * ******kA * *A* *.* ***A * ** *A : TRAN,SMIT' Numbers 89700596 Amount:: -;',,, 63.00 06/10/97 14;50 Pa.yinent • Method x . CHECK Notations GERALD WARE In i t: SLk3 Permit Nos M97-.0078 Types U-MECH MECHANICAL PERMIT. Parcel Nas 262304-9075 Site Address: 360 CORPORATE DR N Total . F ees s 63.00 63.00 Total ALL pmts: 63.00 13alances: .00 ******** * * * * * * * *A * * ** *AA * * * *Ai *il.4* * * * ** *. * * * * *01 * * * * * * * * * *b1 ** ** This Payment Account Code 000/34.830 000/322.100 0essCri.ption PLAN CHECK NONRES MECHANICAL •- NONRES Amount 12.60 X0.40 tra Sd N m in A By Doh Pwlm No. CITY OF TUKWILA APPROVED JUN 1 0 1997 AS 1101 .,� r"r.. COPY BUILDING DIVISION undorstr.. ' ...,i Ch:c% subject to c. .i omissions c :7 . I of plans doos r.: ` cuihorizo the violation cf adopted coc!b or ordinance. 111110•Ipt of con copy of approved plans 111111lti>I hdg.d. RECEIVED JUN 0 5 1� PERMIT CEN ILA 97 R I RooF I C otr.eRtSSoIZ ec'Cvz:1eJ Y.\ST1G- I Svee m., L>vc- RIR I�D C u cZ,6 RFT�RN ft- \ `S'r1 G- Ei vg3 I R` o V I April 28, 1997 Mr. Gerald Ware COMFORT PLUS 6617 So. 193rd Place Kent, WA. 98032 RICHARD HUDSON & ASSOCIATES, INC. ' Rick P.E. CONSULTING ENGINEERS Chuck Morris, P.E. 1605 12TH AVENUE • SUITE 18 SEATTLE, 3 4 WASHINGTON 98122 R E ' L'E11/ 4 . FAX 324 -6248 ��� �� Q 5 Re: Southcenter Corporate Square Andover Park West Tukwila, WA. 98188 Dear Mr. Ware, At your request, I visited the above referenced site on Thursday, April 28, 1997, to review the roof framing for additional loads to be added due to replacement of the existing roof top mechanical units. The existing mechanical heating and cooling units will be replaced with newer units on buildings numbered 1, 2, 3, 4, 10, and 12. The Southcenter Corporate Square contains 12 separate buildings constructed similarly. As you explained, buildings numbered 1 through 4 were constructed early in 1980, with the remaining building built during the following 4 year interval. The architectural plans and structural plans that you have supplied for our use were drawn at two different time periods. The architectural drawings were drawn for the first set of buildings. and the structural drawings were drawn for the latter set of buildings. The structural roof framing plan indicates a Berkeley roof framing system with 5 -1 /8 "x 25 -1/2" glu -lams at 16' on center (oc), with 4x14 doug -fir purlins at 8 foot on center and 2x4 doug -fir subpurlins at 16" on center at the roof top units. The framing changes at one corner of the buildings where bearing walls are used in lieu of the glu -lam beams. At this area 2x10's at 12" on center are used to frame the roof and provide support for the roof top units. The roof top units are located so that part of it is supported on the 2x10's and part is supported on the purlins. RECEIVED CITY OF TUKWILA JUN 051997 PERMIT CENTER On Monday April 28, 1997 I returned to the site to record beam sizes and spacings for Buildings numbered 1 through 4, 10, and 12. I removed additional ceiling tile and pulled back the insulation to expose the existing framing below the roof top units. The existing framing appears to differ from the plans in the spacing of the purlins. The purlin spacing varies from approximately 2' -6" to 5'- 0" on center instead of the 8 foot on center called out on the structural drawings. The 2x10s were not visible due to the insulation at the roof and wall framing extending to the roof sheathing. Although the purlin spacing and roof top unit locations vary from building to building, the loading and support condition are being considered similarly for the analysis. Generally, there are (3) - 4x14 purlins, (2) - 4x12 purlins, and 2x10 @ 12" oc (assumed per plan call out) providing support for the new roof top unit loads. A review of the structural notes indicates that the framing lumber called out is Douglas Fir - Larch No. 1. Based on the above framing condition, the purlins have been reviewed for structural adequacy. It is our opinion that the new roof top units can be installed with out providing additional framing at these areas. If you have any additional questions, please call. Sincerely yours, Richard Hudson and Associates William J. Whipkey, P.E. w D Table 27.1 - 27.5.50 Ton Electrical Service Sizing Data Electrical Data Supply Compressor Standard/Hi- Efficiency Condenser Exhaust Allowable Electrical Voltage RLA LRA FLA FLA Model Characteristics Range NoJTon (Ea.) (Ea.) HP FLA No. HP (Ea.) HP (Ea.) TC/TE/YC•330 208/60/3 187-229 2/10,15 41.9/62.8 213/323 7.5 24.8/21.4 3 1.1 7.0 1.0 6.7 10.0 30.6/28.8 230/60/3 207 -253 41.9/62.8 247/376 7.5 21.6/18.6 7.0 6.7 10.0 26.6/25,0 460/60/3 414 -506 18.1 /27.3 95/142 7.5 10.8/9.3 3.5 3.1 10,0 13.3/12.5 576/60/3 517 -633 14.6/21.8 76/114 7.5 8.6/7.5 2.8 2.9 10.0 10.6/10.0 TC/TE /YC "360 208/60/3 187 -229 2/15 62.8 323 7.5 24.8/21.4 3 1.1 7.0 1.0 6.7 10.0 30,6/28.8 230/60/3 207 -253 62.8 376 7.5 21.6/18.6 7.0 6.7 10.0 26.6/25.0 460/60/3 414 -506 27.3 142 7.5 10.8/9.3 3.5 3.1 10.0 13.3/12.5 575/60/3 517-633 21.8 114 7.6 8.6/7.5 2.8 2.9 10.0 10.6/10.0 TC/TE/YC "420 208/60/3 187-229 2/15 62.8 323 7.5 24.8/21.4 3 1.1 7,0 1.0 6.7 10.0 30.6/28.8 15.0 44.9/39.8 230/60/3 207-253 . 62.8 376 7.5 21.6/18.6 7.0 6,7 10.0 26.625,0 15.0 40.0/34.6 460/60/3 414-506 27.3 142 7.5 10.8/9.3 3.5 3.1 10.0 13.3/12.5 15.0 20.0/17.3 575/60/3 517 -633 21.8 114 7.5 8.6/7.5 2.8 2.9 10.0 10.6/10.0 15.0 15.6/13.8 TC/TE/YC•480 208/60/3 187-229 3/15,15,10 62.8/62.8/41.9 323/323 /213 10.0 30.6/28.8 4 1.1 7.0 1.0 6.7 15.0 44.9/39.8 230/60/3 207-253 62.8/62.8/41.9 376/376/247 10.0 26,6/25.0 7.0 6.7 15.0 40.0/34.6 460/60/3 414-506 27.3/27.3/18.1 142/142/95 10.0 13,3/12.5 3.5 3.1 15,0 20.0/17.3 575/60/3 617.633 21.8/21.8/14.6 114/114/76 10.0 10.6/10.0 2.8 2.9 15.0 16.6/13.8 TC/TE /YC•600 208/60/3 187. 229 3/15 62.8 323 10.0 30,628.8 4 1.1 7.0 1.0 6.7 15.0 44.9/39.8 ' 20.0 58.0/53.0 230/60/3 207-253 62.8 376 10.0 26.6/25.0 7.0 6.7 15.0 40.0/34.6 20.0 51.0/46.0 _. - 460/60/3 414-506 27.3 142 10,0 13.3/12.5 3.5 3.1 16.0 20.0/17.3 20.0 25.5/23.0 575/60/3 517.633 21.8 114 10.0 10.6/10.0 2.8 2.9 15.0 15.6/13.8 20.0 20.5/18.4 Notes: 1. All customer wiring and devices must be installed in accordance with local and national electrical codas. Table 27 -2 - 27.5.50 Ton Electrical Service Sizing Data - Electric Heat Module (Electric Heat Units Only) Fan Motors Models: TED/TEH 330 thru 600 Electric Heat FLA Nominal Nominal Ilir Unit Size Unit KW Heater (Tons) Voltage 38 54 72 90 108 208 74.9 2.4 - - - 27.5, 30.0, 35.0 230 86,6 1 .9 - - 460 43.3 65. r 86.6 108.3 575 34.6 52.r 69.3 86.6 208 - 112.4 - - - RECEIVED 40.0, 50.0 230 129.9 - - . - CITY OF TUKWILA 460 65,0 86.6 108.3 129.9 JUN 0 5 1997 575 - 52.0 69.3 86.6 103.9 Notes: 1. All FLA In this table are based on t star operating at 208, 240, 480, and BOO volts. 27 PERMIT CENTER <r _..,—....-.«.. ...,.,..�..•.�m.�w........�,., .....was.- «�nw.ea.eme..«ww:wwu. General Data Table 12.1 — General Data — 50 -Ton 12 1 50 Ton Cooling Performance' Nominal Gross Capacity / 587,000 Natural Gas Heat' Low High Heating Input (BTUH) 300,000 600,000 Second Stage 400,000 800,000 Heating Output (BTUH) 243,000 486,000 Second Stage 324,000 628,000 Steady State Efficiency (%) 81.00 81.00 No. Burners 1 2 No. Stages 2 2 Gas Connection Pipe Size (in.) i'i 1 Electric Heat KW Range 54-108 Capacity Steps: 2 Compressor Number/Type 3/Scroll Size (nominal) 15 Motor RPM 3450 Outdoor Coil — Type Lanced Tube Size (in.) OD 3/8 Face Area (sq. ft.) 69,79 Rows/Fins Per Inch 2/16 Indoor Coil — Typo Hl- Performance Tube Size (in.) OD 'h Face Area 37.50 Rows/Fins Per Inch 3/13 Refrigerant Control TXV Drain Connection No/Size (in) 1/1.25 Type PVC Outdoor Fan Type Propeller No. Used/Diameter 4/28,00 Drive Type/No. Speeds Direct/1 CFM 31,700 No. Motors/HP /RPM 4/1.10/1125 Indoor Fan Type FC No. Used 1 - Diameter/Width (in) 25.00/25.00 Drive Type/No. Speeds Belt/1 No. Motors/HP 1/10.00,15.00,20.00 Motor RPM 1760 Motor Frame Size 215/254/256T Exhaust Fan Type Propeller No. Used/Diameter (in) 2/26.00 Drive Type/No. Speeds/Motors Direct/2/2 Motor HP/RPM 1.0/1075 Motor Frame Size 48 Filters — Type Furnished Throwaway No /Recommended Size (in) 17/16 x 20 x 2 Refrigerant Charge (Lbs of R-22) 23.90/49.50 per circuit Minimum Outside Air Temperature For Mechanical Cooling 0 F Notes: 1. Cooling Performance is rated at 95 F ambient. 80 F entering dry bulb, 67 F entering wet bulb. Gross capacity does not Include the effect of fan motor heat. Tested In accordance with ARI Standard 360, 2. Heating Performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 4,500 feet. 3. Steady State Efficiency is rated In accordance with DOE test procedures. 4. Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions, 5. Maximum KW 0 240V . 64, 1 41 V-- 55%s 53% -- i --38 --I II h 21 31 1/2 C1VNNEL 1/2 51 7/8 Rls'TROILATE ADAPTER 1.'0R NEW TRANE TED 480 — 600 /EXISTING .S'AllA 400 & 500 • 17-1 if 1/4 17 1 — 14 7/6 254 7/8 — — — 22.3 3/8 20 GA. \BOTTOM \ 56 1/2 --- -41 20 CA. INSUL 00T101.1 r 2 1/2 -- t' — `111 C L --- III 1 Th 1 14 GA. 111 1 1/2 x 1 1/2 r.-INSUL r---\ 111 t /8 4 BRACING CHANNEL 111 .1.— _—. -----111— 34 1/4 103 1/6 -- 22 l/2 EI.E 19 I/16 19 11/16 21 11/16 -• 5 1/2 5 248 —4 I— 6 7/6 C i F FLAN 69 3/6 ------ 79 3/4 00 SEIM (1) 11 OF .ROU.ED INSULATION/CURD ( ) 11 E0 . 0. SEND 150 FT. 1 1/2 x 1/4 GASKE11NG/CURO TAG: • 00 3/4 C/F SNal Or ..•■••■.m•••••■•••••■■•••••■mmoor..•••+•xmor/++ 1 1/2 INSUL. 22 CA. LINER (SUPPLY ONLY) 14 GA. GUSSET 1. S 1 DUCr LINER g_ClIQUALs, • 14 GA. GALVALUME .14 GA. GUSSET 30 O.C. 5ECTION BB cd ThyCurb 0 0 0-104, 0 • 0 1 m c f•-• • • • (4 • 0 1 ' 'v.: • c.4 (4 RAN-- E Packaged Rooftop Air Conditioners 27 to 50 Ton Voyager Commercial RT-DS-9 August 1994 INANE 'I NAINE Sequence of Operation 1 Supply Air Pressure Control • • Inlet Guide Vane Control Inlet guide vanes are driven by a modulating 2 -10 vdc signal from the VAV Module. A pressure transducer measures duct static pressure, and the inlet guide vanes are modulated to maintain the supply air static pressure within an adjustable user - defined range. The range is determined by the supply air pressure setpoint and supply air pressure deadband, which are set through a unit mounted potentiometer. Inlet guide vane assemblies installed on the supply fan inlets regulate fan capacity and limit horsepower at lower system air requirements. When in any position other than full open, the vanes pre -spin intake air in the same direction as supply fan rotation. As the vanes approach the full - closed position, the amount of "spin" induced by the vanes increases at the same time that intake airflow and fan horsepower diminish. The inlet guide vanes will close when the supply fan is shut down. --� • Supply Air Static Pressure Limit The opening of the inlet guide vanes and VAV boxes are coordinated during unit start up and transition to/from Occupied/Unoccupied modes to prevent overpressurization of the supply air ductwork. However, if for any reason the supply air pressure exceeds the fixed supply air static pressure limit of 3.5" W.C., the supply fan is shut down and the inlet guide vanes are closed. The unit is then allowed to restart four times. If the overpressurization condition occurs on the fifth time, the unit is shut down and a manual reset diagnostic is set and displayed at any of the remote panels with LED status lights or communicated to the Integrated Comfort system. 2 Supply Air Temperature Controls • Cooling /Economizer During occupied cooling mode of operation, the economizer (if available) and primary cooling are used to control the supply air temperature. The supply air temperature setpoint is user- defined at the unit mounted VAV Setpoint Panel Controls 28 /4 or at the remote panel. If the enthalpy of the outside air is appropriate to use "free cooling," the economizer will be used first to attempt to satisfy the supply setpoint. On units with economizer, a call for cooling will modulate the fresh air dampers open. The rate of economizer modulation is based on deviation of the discharge temperature from setpoint, i.e., the further away from setpoint, the faster the fresh air damper will open. Note that the economizer is only allowed to function freely if ambient conditions are below the enthalpy control setting or below the return air enthalpy if unit has comparative enthalpy installed. If outside air is not suitable for "economizing," the fresh air dampers drive to the minimum open position. A field adjustable potentiometer on the Unitary Economizer Module, Tracer, or a remote potentiometer can provide the input to establish the minimum damper position. At outdoor air conditions above the enthalpy control setting, primary cooling only is used and the fresh air dampers remain at minimum position. If the unit does not include an economizer, primary cooling only is used to satisfy cooling requirements. • Supply Air Setpoint Reset Supply air res t can be used to adjust the supply air m rature setpoint on the basis of a z temperature, return air temperature, on outdoor air temperature. S pp air reset adjustment is vailable on the unit mounted VA Setpoint Panel for supply air cooling control. a reset based on outdoor air temperature Outdoor air cooling eset is sometimes used in application where the outdoor temperature as a arge effect on building load. h n the outside air temperature is o and the building cooling load is Is w, the supply air setpoint can b: :ised, thereby preventing su ' codling of critical zones. This reset ca lower usage of primary cooling and esult i a reduction in primary co • ing ene gy usage. There are two user - defined parameters that are adjustable through the VAV Setpoint Panel: reset temperature setpoint and reset amount. The amount VAV Units Only of reset applied is de•endent upon how far the outdoor air temperature is below the pply . r reset setpoint. The amount is z ro w ere they are equal and increase lin arty toward the value set at the res :mount input. The maximum val : is 20 F. If the outdoor air temperatu : i more than 20 F below the reset t: perature setpoint the amount •f res is equal to the reset amount se oint. b reset based on zone or return temperat Zone or ret rn re t is applied to the zone(s) in a ildi g that tend to overcool or o r eat. The supply air temperature se oint is adjusted based on the temper re of the critical zone(s) or the a rn air temperature. This can hay th ffect of improving comfort a /or lowering energy usage. The user- efined parameters are the same as for outdoor air reset. Logic for zone or re rn reset control is the same e ept th• t the origins of the temperature 'nputs are the zone sensor or return sen - • r re- pectively. The amount of res:t • 'plied is dependent upon how far t : zone or return air temperature is • :low the supply air reset setpoint. : amount is zero where they are e. al and increases linearly tower. the value set at the reset amount •ote iometer on the VAV Setpoin panel. ' he maximum value is 3 F. f the ret n or zone temperatur' is more th.n 3 F below the reset temperature setpoint the amount of reset is equal to the reset amount setpoint. 3 Zone Tem erat a Control Unoccupied Zojie Heating and Cooling During Unocc pied mode, the unit is operated as V unit. Inlet guide vanes and VAV b es are driven full open. The unit c ntro zone temperature to the Uno upied zone cooling and heating ( eating units only) setpoints. Daytime N Up During occupi d mode, if the zone temperature s to a temperature Next page please. VAV Units Only three de ees belo the Morning Warm -up •etpoint Daytime Warm -up is initiated. The s stem changes to CV heating (full nit : irflow), the VAV boxes are ful • pened and the CV heating algorit ' is in control until the Morning War - p setpoint is reached. The unit is than aturned,to VAV cooling mod: Thy Morning Warm -up setpoint is s e at th : unit mounted VAV Setpoint pa el or at • remote panel. Morning Warm - up ( U) Morning warm-up control (MWU) is activated whenever the unit switches from unoccupied to occupied and the zone temperature is at least 1.5 F below the MWU setpoint. When MWU is activated the VAV box output will be energized for at least 6 minutes to drive all boxes open, the inlet guide vanes are driven full open, and all stages of heat (gas or electric) are energized. When MWU is activated the economizer damper is driven fully closed. When the zone temperature meets or exceeds the MWU setpoint minus 1.5 F, the heat will be staged down. When the zone temperature meets or exceeds the MWU sepoint then MWU will be terminated and the unit will switch over to VAV cooling. CV Units Only equence of Opera on 1 Oc pied Zone Tempera re Control Cool g /Economizer Durin occupied coolin., mode, the economizer (if provide') and primary cooling ire used to c• trot zone temperature. If the e' thalpy of outside air is appropriate to se "free cooling ", the economizer will be used first to attempt to satisfy e cooling zone temperature setpoint; then primary cooling will be St • ged up as necessary. On units with economizer, a call for cooling will mo ulate the fresh air dampers open. The ?te of economizer modulation is eased o deviation of the zone temper • ure from setpoint, i.e., the further a ay from se "tpoint, the faster the fr sh air damper ill open. First stage f cooling will be lowed to start after he economizer rear es full open. Controls te that the economizer is al •wed to fu ction freely only if ambient co ditions are below the enthalpy co trot setting or below the r•turn air ent alpy if unit has comparat ve enthalpy. If outside air is not uitable for "economizing," the fresh sir dampers drive to the minimum open positir!n. A field adjustable potent on the Unitay Econo izer Module (UEM),�Tracer or a remoteotentiometer can the input to establish the minifnum damper position. \ At outdoorair temperatures above the enthalpy control setting, primary cooling only'�s used an the outdoor air dampers remain at min position. If the unit does not include an economizer, prRmary cooling only is used to satisfy,coolind requirements. Heating i I Gas Heating When heating is\regilired the UCP initiates the heatirig dycle by energizing the K5 relay, heatinglrelay(s), and the ignition control rrodjle(s). The K5 relay brings on the combustion fan motor. The ignition contrboI module(s) begin the ignition process b reheating the hot surface ignitor(s). ter the hot surface ignitor is preheate the gas valve is opened to ignite fi t stage. If ignition does not take place the ignition control module(s) will attefript to ignite 2 more times before lockirr, g dut. When ignition does occur the hot su ace ignitor is deenergized and Ohen Olen as a flame sensor. Th6i UCP ill energize the supply fan conta for 45 econds after the initiation of t e heat c cle. If more capacity is needed to satis the heating setpoin the UCP ill call for the second sta • e of heat by ,driving the combustion bl•wer motor tci high speed. When the spa e temperature •ses above the he ing setpoint, th UCP deenergizes t e K5 relay, the ating relays, and t e ignition control odule, terminating e heat cycle. Electric He • ing When heat s required, the UCP initiates first stage heating by energizing the first stage electric eat contactor. he first stage electric eater bank(s) w I be energized if the appropria a limits are closed. The CP will cycle irst stage heat on and of s required t• maintain zone temperatu 29 �►� -Unfts -Only If 'rst stage cannot satisfy the req irement, the UCP will energize he seco d stage electric heat contact•r(s) if the vppropriate limits are closed The UCP V iJI cycle second stage on a d off as required while keeping stage • e energiz The supa y fan is energized approximately 1 second before he electric het contactors. When he space tem erature rises above the heating set oint, the UCP de ergizes the supply n and all electri heat contactors. Supply. Air mpering This feature i available onl with TRACER or 'th systems sing programmabl zone senso s (CV only with economi r). For gas a nd electric heat units in th Heat mo' e but not actively heatin if the su • ply air temperature dr s to 10 below the occupied zone h ating te perature setpoint, one sta a of ha =t will be brought on to ma ntain . minimum supply air temperature. he heat stage is dropped if the s •pl air temperature rises to 10 F above h occupied zone heating temperature atpoint. Auto Changeover When the System mode will change as necessary to s and heating setp and heating setp as 2 F apart. o• a is "Auto," the • c• •ling or heating isfy the zone cooling nts. Tt zone cooling ints can be as close Unoccupied Z ' ne Temperature Control Cooli g and Heating Both cooling •r heating modes can be selected to aintain Unoccupie zone temperature setpoints. For Unoc upied periods, he ting or primary coolin operation • be selectively locked out at the remote panels or TRACER. Controls Ventilation override OM) Ventilati override :flows an external system to ssume ontrol of the unit for the pur se of : xhaust or pressurizatio . Th re are two inputs associated w h entilation override, the initiate input • • the select input. When the UC senses a continuous closed conditi on the initiate input at the low voltage terminal board the unit will begin v: til ion override depending •n th condition of the select inp . The • :fault condition of the selec input is : haust (input open). A closed select inpu will yield pressurization. The c mponent state matrix for ventilation override is as follows: System Component Exhaust Heat/Cool off IGV closed Supply Fan off Exhaust Fan on Outside Air Damper closed Return Air Damper open VAV Boxes n/a Pressurization off open on off open closed open Coil Freeze Protection FROSTAT' The FROSTAT system eliminates the need for hot gas bypass and adds a suction line surface temperature sensor to determine if the coil is in a condition of impending frost. If impending frost is detected primary cooling capacity is shed as necessary to prevent icing. All compressors are turned off after they have met their minimum 3 minute on times. The supply fan is forced on until the FROSTAT device no longer senses a frosting condition or for 60 seconds after the last compressor is shut off, which ever is longer. Occupied /Unoccupied Switching There are 3 ways to switch Occupied/Unoccupied: 1 NSB Panel 2 Field- supplId contact closure 3 TRA R Night Setback Sensors Trane's night setback sensors are programmable with a time clock function that provides communication to the rooftop unit through a 2 -wire communications link. The desired transition times are programmed at the night setback sensor and communicated to the unit. Control Sequences of Operation That Are Common to Both VAV and CV Units Night setback (unoccupied mode) is operated through the time clock provided in the sensors with night setback. When the time clock switches to night setback operation, the outdoor air dampers close and heating /cooling can be enabled or disabled. As the building load changes, the night setback sensor communicates the need for the rooftop heating/cooling (if enabled) function and the evaporator fan. The rooftop unit will cycle through the evening as heating/cooling (if enabled) is required in the space. When the time clock switches from night setback to occupied mode, all heating/cooling functions begin normal operation. When using the night setback options with a VAV heating /cooling rooftop, airflow must be maintained through the rooftop unit. This can be accomplished by electrically tying the VAV boxes to the VAV heat relay contacts on the Low voltage terminal board or by using changeover thermostats. Either of these methods will assure adequate airflow through the unit and satisfactory temperature control of the building. Timed override Acti ation — ICS When this fun on i initiated by pushing the ove i button on the ICS sensor, TRACER ill switch the unit to the occupied mo . Unit operation (occupied mod d ing timed override is terminated a signal from TRACER. Timed overri Ac ivation Non - ICS When this func 'o is initiated by the push of an overr a button on the programmable z e sensor, the unit will switch to t cupied mode. Automatic Ca ellation of the Timed override Mo occurs after three hours of operation. Comparative Enthalpy Control of Economizer The Unitary Economizer Module (UEM) receives inputs from optional return air humidity and temperature sensors and determines whether or not it is feasible to economize. If the outdoor air enthalpy is greater than the return air enthalpy then it is not feasible to economize and the economizer damper will not open past its minimum position. 30 Emergency Stop Input A binary input i pr ided on the UCP for installation of Id provided switch or contacts for i ediate shutdown of all unit functio . T e binary input is brought out to Low Itage Terminal Board One (LTB1). Con tional Thermostat terface (CV O Y) An inte ce is required • use a conventio -I thermosta instead of a zone sensor odule th the UCP. The Conventional 1 herm• tat Interface (CTI) is connec :d •:tween conventional the ostat and the UCP and will allow o wo steps of heating or cooli g. 'e CTI provides zone tempera re con •I only and is mutually ex • usive of the Trane Communi• <tions Interface. TRANS" General —4 > The units shall be dedicated downflow or horizontal airflow. The operating range shall be between 115 F and 0 F in cooling as standard from the factory for all units. Cooling performance shall be rated in accordance with ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with HCFC -22 and 100% run tested to check cooling operation, fan and blower rotation and control sequence before leaving the factory. Wiring internal to the unit shall be numbered for simplified identification. Units shall be UL listed and labeled, classified in accordance to UL 1995 /CAN /CSA No. 236 -M90 for Central Cooling Air Conditioners. Canadian units shall be CSA Certified. —� Casing / Unit casing shall be constructed of zinc .� coated, heavy gauge, galvanized steel. All components shall be mounted in a weather resistant steel cabinet with a painted exterior. Where top cover seams exist, they shall be double hemmed and gasket sealed to prevent water leakage. Cabinet construction shall allow for all maintenance on one side of the unit. Service panels shall have handles and shall be removable while providing a water and air tight seal. Control box access shall be hinged. The indoor air section shall be completely insulated with fire resistant, permanent, odorless glass fiber material. The base of the unit shall have provisions for crane lifting. Filters Two inch, throwaway filters shall be standard on all size units. Two inch "high efficiency ", and four inch "high efficiency" filters shall be optional. y Compressors All units shall have direct - drive, hermetic, scroll type compressors with centrifugal type oil pump providing positive lubrication to moving parts. Motor shall be suction gas - cooled and shall have a voltage utilization range of plus or minus 10 percent of unit nameplate voltage. Internal temperature and current sensitive motor overloads shall be included for maximum protection. Shall have internal sound muffling to minimize vibration transmission and noise. External discharge temperature limit, winding temperature limit and compressor overload shall be provided. Mechanical Specifications Refrigerant Circuits Each refrigerant circuit shall have independent thermostatic expansion devices, service pressure ports and refrigerant line filter driers factory - installed as standard. An area shall be provided for replacement suction line driers. Evaporator and Condenser Coils Condenser coils shall have internally finned %" copper tubes mechanically bonded to lanced aluminum plate fins. Evaporator coils shall be 1 h" internally finned copper tubes mechanically bonded to high performance aluminum plate fins. All coils shall be leak tested at the factory to ensure pressure integrity. All coils shall be leak tested to 200 psig and pressure tested to 450 psig. All evaporator coils shall be of intermingled configuration. Outdoor Fans The outdoor fan shall be direct - drive, statically and dynamically balanced, draw through in the vertical discharge position. The fan motor(s) shall be permanently lubricated and have built - in thermal overload protection. Indoor Fan Units shall have belt driven, FC, centrifugal fans with fixed motor sheaves. All motors shall be circuit breaker protected. Electric Heaters Electric heat shall be a ailable for factory installation wi in basic unit. Electric eater elem: is shall be construct d of hea -duty nickel chromium leme s internally delta connected for 241 volt, wye connected for 480 and ;10 olt. Staging shall be achieved thro • h the unitary control processor (U Each heater package shall have a o atically reset high limit control ope ating through heating element c «ntacto All heaters shall be individual fused m factory, where required and meet 6II NEC and CEC require ents. Power assemblies shall provid: single -point connection. Electric heat shall be UL listed or CSA certified, Gas Heating Section The heating section shall have a drum and tube heat exchanger(s) design using corrosion resistant steel components. A forced combustion blower shall supply premixed fuel to a 38 single burner ignited by a pilotless hot surface ignition system. In order to provide reliable operation, a negative pressure gas valve shall be used that requires blower operation to initiate gas flow. On an initial call for heat, the combustion blower shall purge the heat exchanger(s) 45 seconds before ignition. After three unsuccessful ignition attempts, the entire heating system shall be locked out until manually reset at the thermostat. Units shall be suitable for use with natural gas or propane (field installed kit) and also comply with California requirements for low NOx emissions. All units shall have two stage heating. Controls k"" Unit shall be completely factory wired with necessary controls and terminal block for power wiring. Units shall provide an external location for mounting fused disconnect device. Microprocessor controls shall be provided for all 24 volt control functions. The resident control algorithms shall make all heating, cooling and /or ventilating decisions in response to electronic signals from sensors measuring indoor and outdoor temperatures. The control algorithm maintains accurate temperature control, minimizes drift from set point and provides better building comfort. A centralized microprocessor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. Control Options Inlet Guide Vanes shall be installed on each fan inlet to regulate capacity and limit horsepower at lower system requirements. When in any position other than full open they shall pre -spin intake air in the same direction as fan rotation. The inlet guide vanes shall close when supply fan is off, except in night setback. The inlet guide vane actuator motor shall be driven by a modulating dc signal from the unit microprocessor. A pressure transducer shall measure duct static pressure and modulate the inlet guide vanes to maintain the required supply air static pressure within a predetermined range. • `" Mechanical Bypass c air flow ' shall • - optional. Ventilation Override binary input f m th panel to caus &the standard opera two factory pre sequences, ex aus The two se ences based ope a binary Outside Air Manual Outside A manually c damper shall percent outs set at desir r all allow a fire/life safety nit to override and assume one of ventilation or pressurization. shall be selectable select input. liable outside air adjustable for up to 25 air. Manual damper is d position at unit start up. Economizer shall be factory installed. The assembly includes: fully modulating 0 -100 percent motor and dampers, minimum position setting, preset linkage, wiring harness, and fixed dry bulb control. Solid state enthalpy and differential enthalpy control shall be as a factory or field installed option. Exhaust Air optional with the economizer. Option shall provide a pressure operated damper for the purpose of space pressure equalization and be gravity closing to prohibit entrance of outside air during the equipment "off" cycle. •-- Power Exhaust Fan Power exhaust shall be available on all units and shall be factory installed. It shall assist the barometric relief damper in maintaining building pressurization. Specifications Varia a Frequency Drive - (VFDs) shall Unit Options be fact ry installed and t sted to Service Valves provide upply fan mot • r speed modulati . The VFD all receive a Service valves shall be provided factory . 2 -10 VDC ignal fro ' the unit installed and include suction, liquid, and microproc sor ba -d upon supply discharge 3 -way shutoff valves. static press re an shall cause the drive to acc: era : or decelerate as Through-The- ase lectrical Provision required to m:i tain the supply static An electrical s is entrance shall be pressure setp• t. When subjected to provided which al ws access to route high ambient a rn conditions (>100 all high and low oltage electrical F) the VFD all b : limited to a wiring inside th urb, through the maximum utput o 48 hertz until the bottom of the u door section of the temperatu e drops b • low 100 F. unit and int the ntroi box area. ntrol to pro 'de full nominal --s Non -Fused Disconnect Switch the event of failure A factory installed non -fused disconnect switch with external handle shall be provided and shall satisfy NEC requirements for a service disconnect. The non -fused disconnect shall be mounted inside the unit control box. GFI Convenience Outlet (Factory wer ) A 15A, 115 Gr and Fault Interrupter convenience tlet shall be factory installed. It sh II be wired and powered from a factor mounted transformer or field power d rough a separate 115V circuit. Un' mo nted non -fused disconne t with external handle shall be furni ed wit factory powered outlet. GFI Conven : nce • utlet (Field Power A 15A, 115V tr• und Fault Interrupter convenience o tlet shall be factory installed and .h.II be powered by customer • •vid 'd 115V circuit. —j Hinged Service Access Filter access panel and supply fan access panel shall be hinged for ease of unit service. Barometric Relief Condenser Coil Guards The barometric relief damper shall be Factory installed condenser vinyl coated wire mesh coil guards shall be available to provide full area protection against debris and vandalism. Accessories Roof Curb The roof cur mate with the and a water tig installed prope be designed to and provide support installation when The roof curb design shall allow fie -f bricated rectangular supply /retur duc work to be connected irectl to the curb when used with ownflo units. Curb design shall comply with NRCA requirements. 39 Curb shall ship k assembly and i strips. UCP Ori inate • Unit operr tin • Unit failur Cooling fal Heating f Emerge Supply fa Timed ov High tern • Zone te • Supply ai • Cooling • Stage ac • Stage lo • HCP stat • Compros • Heating • Number • High te • Economi • Enthalpy • Request • Damper • Dry bulb • Outside • Outside r • Sensor F Humidity OAT sen SAT sen RAT sen Zone te Mode in Cooling/h Static pre Unit mou SAT from Air reset s • Unit Confi Gas or ele Economiz • High temp • Local setpo • Local mode • Inlet Guide Trane Commu 'ca ' • n Interface (TCI) Shall be provide o interface with the Trane Integrated omfort" System and shall be availa. _ :ctory installed. The TCI shall also con rol and monitoring of the rooft• • unit is a two -wire communication link. The following alarm and diagnostic information shall be available: cked down for field de wood nailer Data mode atus re no ervice stop indication oving e activation erature thermostat status perature temperature atus (all stages) vated or not ed out by UCP s for that stage or disable inputs atus f stages activated erature limit status er status favorability status minimum position osition nthalpy input status r temperature lative humidity ilure sensor or or perature sensor ating setpoints from sensors sure transducer ted potentiometer otentiometer tpoint from potentiometer uration data 'tric heat present nput status nt setting ale position Tracer Originated Data • Command operat g mode • Host controllable functions: Supply fan Ec nomizer Coaling stages a abled Hea 'ng stages abled Eme a ency shu down • Mini m dam er position • Heatin ' setpoi t • Coolin• setpo t • Supply it to pering enable /disable • Slave mode V only) • Tracer /Loral peration • SAT setp • Reset setp int • Reset am • 't • MWU se • MWU e able /disable • SAT Re et type select • Static ressure setpoint • Static ressure deadband • Dayt' a warm -up enable /disable • Pow r exhaust setpoint Zone Sensors Shall be pro a to interface with the Micro unit con ols and shall be available in ei a manual, automatic programma e wit night setback, with system mel unction ights or remote sensor options. Conventional ThePmostat Interface (CTI) This field insta d circuit board shall provide interf a ith electro- mechanical t ermo tats or automation systems. No available with VAV system control. Differential Press re Switches This field I stallec' option allows individual fa fai (ire and dirty filter indication. Th an failure switch will disable all uni notions and "flash" the Service LED n he zone sensor. The dirty filter s itc will light the Service LED on th zone sensor and will allow continued unit operation. Electronic Time Clock This field • st ed accessory kit will allow the u ' to operate in the unoccupie ode or perform night set up /set ba fu ctions utilizing a standar individual scheduling. The Trane Company P.O. Box 1008 Guthrie Highway Clarksville, TN 37040 ©American- Standard Incorporated 1994 Since The Trane Company has a policy of continuous product improvement, it reserves the right to change design and specification without notice. Remote Pot A remote pot available to r economizer High Temperature Thermostats Field installed ma ally resettable high temperature t r ostats shall provide input to the un controls to shut down the system if a temperature sensed at the retur is 13 F or at the discharge 0 F. Reference Enthal Kit Field install ent alpy kit shall provide inputs for ec upon compan stream to a d reference poi installed. Comparative F th Ipy Kit Field installed e t alpy kit shall provide inputs for econ izer control based upon comparis of the enthalpies of the return an o door air streams. Also availabl fact installed. LP Conversion Ki Field installed o ersion kit shall provide orifice( or simplified conversion to l• fied propane gas. No change of ga alv shall be required. BAYSENS006 — one Sensor has one temperatur etpoint lever, heat, off or cool syst switch, fan auto or fan on switch. a ual changeover. These sensor are r CV units only. BAYSENS008• -- one Sensor has two temperatu tpoint levers, heat, auto, off, or cool stem switch, fan auto or fan on wit h. Auto changeover. T ese sensors are used with CV units. BAYSENS010• — one Sensor has two temperatur t point levers, heat, auto, off, or cool ystem switch, fan auto or fan on w ch. Status indication LED lights, S tern n, Heat, Cool, and Service are provided. These sensors are used with CV units. Library Product Section Product Model Literature Type Sequence Date File No. Supersedes Ordering No. meter tiometer shall be otely adjust the unit urn position. BAYSENS013• — sensor with time used with Trace system. zer control based of the outside air able enthalpy ay also be factory one temperature override buttons ltitegrated Comfort Product Literature Unitary Rooftop 000 Data Sales Catalog 9 August 1994 P L -U N -RT- 000 -DS -9.894 New RT -DS-9 BAYSENS014• — Zo e temperature sensor with loca to perature adjustment contr I nd timed override buttons used wit racer Integrated Comfort syste . M also be used for Morning War •up se point and sensor. BAYSENS016• T perature Sensor is a bullet or pen i ype sensor that could be used f emperature input such as retur it ct temperature. BAYSENS017• -- ' mote Sensor can be used for rem t zone temperature sensing capabiliti s when zone sensors are used as rem t panels or as a morning warm- p s sor for use with VAV units or as a zone sensor with Tracer Integrated Comfort system. BAYSENS019• & BAYSENS020• — Electronic programmable sensors with auto or manual changeover with seven day programming. Keyboard selection of heat, cool, auto fan or on. All programmable sensors have System on, Heat, Cool, Service LED /LCD indicators as standard. Night setback sensors have two occupied, and two unoccupied programs per day. Sensors are available for CV zone temperature control and VAV zone temperature control. BAYSENS021 • Z e Sensor with supply air single a perature setpoint and AUTO /OFF s tern switch. Status indication LED Ii s, System ON, Heat, Cool, and Servi e a provided. Sensors are available t be u ed with VAV units. BAYSENS022• — ensor is an electronic digita z ne sensor that can be used as a He Auto /Cool thermostat. The sor has a large, easily read con nuo s digital display of the space tem eratu e with setpoint temperature displayed at the touch of a button. BAYSTAT023 Remote Minimum Position Poten eter is used to remotely specif the minimum economizer po i on. Cwr »+jean Standard Inc. 1997 w. JUN-10-97 TUE 01:52 PM ROBE waTRANS Marketing Guide •TPANE' FAX NO. 206 3 4314 Lj G ceytir Library Product Section Unitary Product " Rooftop Air Conditioninq Model 000 Product Literature UteralureTvice Marketing Gulde S .u ence 24 Date February 1997 Fle No. PL- UN-RT- 000 -MG-2a -2/97 Supersedes New Ordering No. EER MARKETING GUIDE RTTMG -24 P.03 The purpose of this marketing guide is to provide a reference to the capacity and efficiencies of large rooftop products from 27 1/2.50 tons. The ratings are determined at ARI 360 conditions. Definition of Terms: MBh -- 1000 BTU per hour or 1000 BTUH. EER -- Energy efficiency ratio. A ratio calculated by dividing the net cooling capacity in MBh by the total power input in kw at any given set of rating conditions expressed in STUN per watt. System Kw -- All power going to unit. (Compressors, fans, motors, controls.) IPLV -- Integrated part load value. A single number part load efficiency figure of merit calculated. ARI 360 -- A standard established for testing, rating, specification and performance requirements. ARI 360 conditions — At full load 80/67 evap 95 amb, part load at 80/67 evap 80 amb. RECEIVED CITY OF TUKWILA JUN 101997 PERMIT CENTER YC "330A400 314 TC'360A40C 342.0 TE "360A40C 342.0 YC "600A40C a 7O4/ JUN-10 TUE 01:53 PM ROBE( TRANE 27.5 - 50 TON VOYAGER III THROWAWAY FILTERS, NO INLET GUIDE VANES, NO ECONOMIZER BEST CASE CATALOG PERFORMANCE DATA MODEL # NET TOTAL EER IPLV MOH KW T0"330A40C 316 31.57 10.0 TE'330A40C 314 31.73 9.9 TC`420A40C 396 41.15 TE'420A40C 394 41.48 YC "420A40C 394 41.62 TC'480A40C 454 50.75 TE "480A40C 462 51.19 YC*480A40C 454 50.87 TC'600A40C 544 63.07 TE *600A40C 542 63.74 31.8 9.9_ 36.1 9.5 8.8 8.9 8.6 8.5 FAX NO. 2060 4314 12.2 12 11.9 12.2 36.3 9.4 12 YC "360A400 342.0 36,4 9.4 11.9 9.6 12.3 9.5 12 9.5 11.9 9.0 9.3 9.2 9.3 8.8 8.6 P. 04 JUN-10 -97 TUE 01152 PM ROBE•o TRANE >135,000 and <760,000 Btu/b 1 Coolin C _ ' • 8.3 IPLV 7.5 IPLV 7 .1. Air Cooditioorri Heat Purn Air Conditional and Heat Pumps Standaxd/Low Temp: Split Systems Single Package ^ All Unitary Standard Ratings: 8.5 EER ..� 8.5 EER 8.2 EER 8.7 EER 10.0 - (0.16 x Cap /1000) EER 95°F 3.0 COP 47°F db /43°F wb 7.5 IPLV 7.5 IPLV 12.2- (0.20x Cappn000)Z3 EER 82 °F 6.8 HSPF 6.6 HSPF 2.0 COP 17 °F db /15 °F wb r: 1 • : • Equipment 'type & Rating Air Conditioners and Heat Pumps Cooling Ratings Packaged Term. Air Conditioners do Heat Pumps Coolinj Rain Heat Pump Heating Ratings Packaged Term. Heat Pumps Heatin : Ratin Warm Air Furnaces & Combination Furnace/A.C. Warm-Air Duct Furnaces and Unit Heaters TABLE 14-1 Standard Rating Conditions and Minimum Performance for Air Cooled Unitary Air Conditioners, Heat Pumps, Packaged Terminal Air Conditioners, Warm Air Furnaces, Duct Furnaces and Unit Heaters Category Subcategory .& Rating Conditions <65,000 Muth Cooling_ Capacity >65.000 rod ,135,000 Btuih > 60,000 Bou/ti Coolin& Capacity All Capacities <65,000 Btu/b Cooling Capacity > 65,000 and <I35,000 Btu/h Cooling Capacity > 135,000 Btu/b Coolin Kip All Capacities <225,000 Btu/h >225,000 Bluth >225,000 Btu/h All Size Gas Duct Furnaces All Size Gas Unit Heaters All Size Oil Unit Heaters Split Systems Single Paeka e All Unitary Standard Ratings: Seasonal Min Rated Max Rued Capac Min itv FAX NO. 206'b43 4314 Steady State NA NA 8.9 EER 2.9 COP 47 °F Heat Pumps Standard Ratin Gas and Oil Fired 10% Min Rated Capacity 75% Es Max Rued Capicity 78% E '74% 81% Et 81% 4 1994 FIRST EDITION MInd:nam Rating . Standard Seasonal or Part Load 10.0 SEER 9.7 SEER 2.0 COP 17°F 2.9 - (0.026x Cap /I000) EER 47•F db /43 °F wb F 78% AFU Gas, Max Rating 80% Et4 NA Ga Mtn Ratite 71% E i NA Oil, Max 819% E NA Oil, Min Rath 6 819E 4 NA Max Rued Capacity!' 78% E - NA NA NA NA AR1210/240- 1989 AR1310 -1990 AR1 210/240- 1989 ARI 365 -1986 AR1 380-1990 DOE 10CFR Part430 AppN ANSI 221.47- 1983 UL 727 -1986 ANSI 283.9- 1986 NA NA ANSI Z83.8- 1985 UL 731 -1988 1. For units that have a heating section, deduct 0.2 from all required EER's and IPLV's. 2. For multi - capacity equipment the minimum performance shall apply to each step provided Multi- , capacity refers to manufacturer published rating for more than one capacity mode allowed by the product's controls. 3. Capacity (Cap) means the rated cooling capacity of the product in Btu/h in itc:ordattce with the cited ARI standard. If the unit's capacity is lens than 7,000 Bru/h, wa; 7,000 13m /h in the calculation. if the Unit's capacity is grater than 15,000 Btu/h, use 15,000 Btu/h in the calculation. . These values apply to non-NAECA P. 02 -17:Nr;.V.. . litift:4 k ...",,, , J7,14 • . r- , - ‘14.1.11, . : t:k;MVR.,_ PF . '' ,A1.1.' A, ... 4. '"i‘i.?6'if i ..' . , :; rt ,-.)..! 1, . .t : o ' " '. !•-•,Ci4te, DETACH TO DISPLAY CERTIFICATE Ve. rimmer DEPARTMENT OF LABOR AND INDUSTRIES .. THIS CERTIFIES THAT THE PERSON NAMED HEREON IS REGISTERED AS PROVIDED BY LAW AS A DETACH TO DISPLAY CERTIFICATE_f STATE OF WASHINGTON F625-052-000 (37921 • RECEIVED • CITY OF TUKWILA • JUN 0 5 1997 PERMIT CENTER