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Permit M97-0156 - SHEPARD AMBULANCE
c a •b City of Tukwila L (206) 431 -3670 Community Development / Public Works • 6300 Southcenter Boulevard, Suite 100 • Tukwila, Washington 98188 Permit No: M97 -0156 Type: B -MECH Category: NRES Address: 13075 GATEWAY DR Location: Parcel #: 000480 -0010 Contractor License No: PROSTMI072NG TENANT SHEPARD AMBULANCE Phone: 206 -361 -0071 13075 GATEWAY DRIVE, TUKWILA, WA 98188 OWNER BEDFORD DEVELOPMENT Phone: 206 241 -1103 12720 GATEWAY DR STE 107, SEATTLE, WA 98168 CONTRACTOR PRO STAFF MECHANICAL INC, Phone: 206 -361 -0071 P.O. BOX 33370,.SEATTLE, WA 98133 CONTACT PETER CRELLEY: Phone: 206 361 -0071 902 N 127 :ST, SEATTLE`WA 98.133 *, * * * * * * *, * * * * * * *********** * * * * *, * * * * **, * * * * *: *.* * * * * ** * * * * * * ** * * * * * * ** Permit Description: INSTALLEF'S:ASSOCIATED HVAC`DUCT SYSTEMS.:, - INSTALL,'.9 ROOFTOP AIR CONDITIONING UNITS, 3 NEW`UNIT HEATERS, 4 INFRA -RED HEATERS. UMC Edition: 1994 Perm t r en MECHANICAL PERMIT orized Signature Date Valuation: Total Permit Fee:. Status: ISSUED Issued: 10 /29/1997 Expires: 04/27/1998 173,000.00 238.44 * * * * ** * e********* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** 7 I hereby certify that I have read and examined ' permit and know the same to'be true and correct. All provisions.. of law and ordinances governing.this work will be complied.w.ith', 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 bu.i ing permit. Signature: - - - Date: - 1 42 - -_ 4 13 Print Name:__geni Title: ,l, 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: . Al F• LA -t)G -- V of Construction: I - 7 . 3 f 000." Site Address: City State /Zip: . L- L- WA 1 f A- d . ... Property Owner: 1 a t I .' 2141 _ P F-1i -4)4/f") Tax Pael rd Phone: - ')'7,-(6-11 - Number: ll '2)52. 03; . - 0 Street Address: City State /Zip: + ♦ . I -.st..1 414- sl.:. _ 5 e Fax #: Contact F-r o Ge -GU.Gy 51= /a- -T?2. -C- Phone: 3 /o/ — 0U - 7) Street Address: City State /Zip: Fax #: �(0, ! --D 2 - Contractor: PR-0 -- ` ?T/r -F=F M Gca -AN IGA - T_N c. Phoney (2 v& "361 —00 7J Fax #: "3 oil 2-4 Street Address: MI. CitLr S I t33 : Architect: M / + 4 2 - V/ /A Tpi - ' A D G^ jA - i Phone: 1 4I -- i444-9 Fax #: — Phone: f UG ) 524 - D5 7~> Street Address: City State /Zip: -2 I A- / 4 — ° 0 ) O En ineer: -- 6ee- Nt rr G)zvup - OF ppl? MAt-4 Street Address: City State /Zip: '`t' HE- 71 -6-1. 3r-ra iTLS illy' Fax : 7v =2,4 01 MISCELLANEOUS PERMIT REVIEW AND APPROVAL. REQUESTED: (TO BE FILLED OUT BYAPPLICANT) Description of work to be done: `1 - r. F '� 'SU ''^• 4 U .) .77 P1- • W R-0e2): - rvP A— fiN 11 - 4 L/I-1. rr t - Y r _ A - - r f = - s v s 4 - I N ra ► __ f Will there be storage of flammable /combustible hazardous material in the building? ❑ yes 0 no Attach list of materials and stora • e location on separate 8 1/2 X 11 a er indic atin�uantities & Material Safety Data Sheets ■ Above Ground Tanks ■ Antennas /Satellite Dishes Bulkhead /Docks L_I Commercial Reroof ❑ Demolition ❑ Fence Mechanical ❑ Manufactured Housing - Replacement only ❑ Parking Lots ❑ Retaining Walls ❑ Temporary Pedestrian Protection /Exit Systems ❑ Temporary Facilities Cl Tree Cutting MONTHLY SERVICE BILLINGS TO: Name: Phone: Address: City /State /Zip: 0 Water 0 Sewer 0 Metro 0 Standby Name: Address: Dale application accepted: — MISCPMT.DOC 7/11/96 CITY OF 7 'KWILA f Permit Center 6300 Southcenter Boulevard, Suite 100 Tukwila, WA 98188 (206) 431 -3670 WATER METER DEPOSIT /REFUND BILLING: Date application expires: Miscellaneous Permit Application Application and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mall or facsimile. APPLICANT • REQUEST. FOR MISCELLANEOUS PUBLIC WORKS PERMITS ❑ Channelization /Striping ❑ Curb cut /Access /Sidewalk ❑ Fire Loop /Hydrant (main to vault) #: Size(s): ❑ Flood Control Zone ❑ Land Altering: 0 Cut cubic yards 0 Fill cubic yards 0 sq. ft.grading /clearing ❑ Landscape Irrigation Cl Sanitary Side Sewer #: ❑ Sewer Main Extension 0 Private 0 Public ❑ Storm Drainage ❑ Street Use ❑ Water Main Extension 0 Private 0 Public ❑ Water Meter /Exempt # Size(s): 0 Deduct 0 Water Only ❑ Water Meter /Permanent # Size(s): ❑ Water Meter Temp # Size(s): Est. quantity: gal Schedule: ❑ Miscellaneous ❑ Moving Oversized Load /Hauling Phone: City /State /Zip: 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 - Ar plications 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. Application take: (Initials) BUILDING O,W�IER'OR AUTHORIZED AGENT: ' / Date: ) OA ,/ , Signature: ` /., - Print name: i 4=-4730._ . Commercial Tenant Improvement Permit � ' r 1=. LL i -y Phone: `7d v ?> 4 -/ — 0(.41 Fax # / ?" G/ - air 2 i Address: Commercial.Reroof Submit checklist . No: M -6 0 City/State/Zip: ' Submit checklist. No: M -3, M -3a O SUBMIT APPLICATION AND REQUIRED CHECKLISTS FOR Above Ground Tanks/Water Tanks - Supported directly upon grade exceeding 5,000 gallons and a ratio of height to diameter or width which exceeds 2 :1 • PERMIT REVIEW 'Submit checklist. No: M -9 0 Antennas /Satellite Dishes Submit checklist ' No: M -1 0 Awnings /Canopies - No signage Commercial Tenant Improvement Permit in Bulkhead /Dock Submit checklist No: M -10 0 Commercial.Reroof Submit checklist . No: M -6 0 Demolition ' Submit checklist. No: M -3, M -3a 0 Fences - Over 6'feet :in Height Submit checklist No: M -9 0 Land Altering /Grading /Preloads . Submit checklist No: M -2 0 Loading Docks Commercial Tenant Improvement Permit. Submit checklist No: H -17 0 Mechanical (Residential &Commercial) Submit checklist No M -8, Residential only - H -6, H -16 El Miscellaneous Public Permits. Submit checklist No H -9 0 Manufactured Housing:(RED INSIGNIA ONLY) Submit checklist No: M -5 0 Moving Oversized:Load /Hauling Submit checklist No: M -5 0 Parking 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 Retaining Walls - Over 4 feet In height Submit checklist No: M -1 Temporary. Facilities Submit checklist No: M -7 in Temporary. Pedestrian Protection/Exit'Systems. Submit checklist No: M -4 0 Tree Cutting Submit checklist No: M -2 ALL MISCELLANEOUS P '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 D 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 ". Building. 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 / AM AUTHORIZED TO APPLY FOR THIS PERMIT. MISCPM7'.DOC 7/11/96 Address: 13075 GATEWAY DR Suite: Tenant: SHEPARD AMBULANCE Type: B -MECH Parcel #::.000480 -0010 CITY OF.TUKWILA M97 -0156 Status: ISSUED Applied: 10/07/1997 Issued: 10/29/:'1 997 - '**• k*“** k** k* k***** Ak**A kk*** kk**• kk* k**• kk• k*** k• k *•k14**kkkk* *•kk **k**Ak ** **kkA* Permit No: Permit •Conditions: 1. No changes will be made to the plans unless approved by the.. Arch1tect or Engineer and th,e TuWla.. Division. . All permits,. inspection; record .,. and approved plans shall be available at the Jo pr'ior to the •start f., any' con - ,struction. These 'du•cuments are to 'be maintained. -:.and avail-: able until f lna,1 .i°nspec ion approval:, is granted A1.1• cons tobe 'done: in' conformance w_1,th appr plans and r 1 remen.ts of the Uniform Bu 1 1 d 1 ng .Code '' (1994 Edition) as; amended :, 'Un 1 f,orm Mechanical Code (1994 ;Ed`1 t i on) , and Wash.i,ngton State Energy .Code : (1994 Edition) 4: Va 1 i d i ter of Per�nt i t, The i ss'uance "°.of a permit , or' approva l .: cif �ilans, ,`e.uif icatiofis, and computations shall not be `.con- •strue.�`.1,:'•to - ;bp;: a permit foe; `ory an ap proval of, any violation of ariy. `of the.. provisions of the building code or Of any'_ othey ;o,rdinance: ;of the:.. jurisdiction: No permit pr�e: to gives author violate or .cancel the provisions of this cod.e:sha11 be valid.. 5. MANUFACTURER'S `'INSTALLATION�..INSTRUCTION'S ..REQUIRED ON SITE FOR iTHE,.SUILDING; ° INSPECTORS ' t : Plumbing permit; ,shall : be •obtained thr•oUgh the Seattle -King County D.,eartnientt of - Pub1 i c ! M e a l t h : : Plumbi'ng w i l l be ins''Fe'cted that " ge.ncy, i,nc'luding• allAa:; piping (296-4722)?. • 7. E1ecOica1.4p'ermits Shall he obta•,i`i� ed 'thrOiigh the Washi,r,�gton State``•giv1t.1on of Labor and Industr'ie'., and•al..l.'electric 'work ,w;O1.be ;in_::pected by that agency ' -6630) ` Read 1j:y ac essible, access to roof muun is requ i re'd, 9. VENTILAT,ION FOR A1.12 -NEW ROOM'S' AND,' SPACES OF NEW OR EXISTING BUILOING'S IN CONFORMANCE WITH . THE UNIFORM •BUILDING 'CQDE ANtIc THE WASHINGTON STATE :-VENTILATI.oNAND INDOOR AIR Ot1ALITY CODE, CHAPTER' 51` -1 WAC. BUILDING DIVISION REVIEW DATE: October 22, 1997 PROJECT NAME: Shepard Ambulance mechanical permit application APPLICATION NO: M97 -0156 PLAN REVIEWER: Ken Nelsen, Plans Examiner (206) 431 -3670 The plans and specifications to the subject mechanical permit application must be revised to reflect all rated corridor construction, occupancy separations, and rated ceiling assemblies required by the related building permit nwnber D97 -0187. Please provide the revised plans for both floors with specifications such as for smoke /fire dampers, radiant dampers, etc. No other comments at this tune. ACTIVITY NUMBER M97 -0156 PROJECT NAME DEPARTMENT: BUILDING DIVISION 2 PREVENTION P 1 G DIVISION Ei PUBLIC WORKS S U TURAL ' n .. , , i C t �. T - IV DETERMINATION OF COMPLETENESS: (T,Th) COMPLETE NOT COMPLETE p COMMENTS TUES /THURS ROUTING: PLEASE ROUTE E NO FURTHER REVIEW REQUIRED E ROUTED BY STAFF n (If routed by staff, make copy to master file & enter Sierra.) REVIEWERS INITIAL 1 APPROVALS OR CORRECTIONS: (ten days) APPROVED n APPROVED W/ CONDITIONS p NOT APPROVED (attach comments) p REVIEWERS INITIAL Perry‘A 6reL CORRECTION DETERMINATION: SHEPARD AMBULANCE DATE DATE PLAN REVIEW / ROUTING" SLIP NOT APPLICABLE 0 APPROVED I I APPROVED W/ CONDITIONS p NOT APPROVED (attach comments) 0 REVIEWERS INITIAL DATE C:ROUTE -F DATE 10/07/97 DUE DATE 10/09/97 DUE DATE 10/23/97 DUE DATE (Certiftcation of occupancy requimi. Project i l� -�'LG Type • of in ction: ' 14 V tIC.P\e4: �Zipi)llr.... Date called: L / �' G R Fa--) Date wanted: / ' 7CS °. A & �„_ , ecial instructions: S A � l s � \-1 .06-)LC G t , c t2. c i l Z till 1 - 0 c - c fZ k+/t. Requester: •-) Phone N//o''��.��: ^ , -,),01 - 007) � INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 >> tC ct 4 1 e :GC;rr� Approved per applicable codes. COMMENTS: INSPECTION RECORP Retain a copy with pent_ / : - 30 Inspector: I 4 PERMIT NO. (206) 431 -3670 Corrections required prior to approval. Date: / 74,2,7 e ""- Or $42.00 REINSPECTION F REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. CaII to schedule reinspection. Receipt No.: Date: %4 Project; / Type of inspectiop::. s . Addres (-, a.. Date called: - 1 2 -'5 6 / ?8 fn2 Special instructions: ± . 9.-e=ts /p Cop- i + /Woilatide- def., Date wanted :3 Requester, / Phone No.: „44 MIXI KtY,WAMAtuc r.+was*r._ INSPECTION RECORD Retain a copy with per INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 9818 [] Approved per applicable codes. COMMENTS / •! _ .l Inspector: 1 1 L ROceIPt No.: 62 - - ' ( 'Corrections required prior to approval. 1 Date: PERMIT NO. (206) 431 -3670 f,+ moo' e, A0 $42.00 REINSPECTION FEE REQUIRED. Prior to Inspection, fee must bq. paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Date: Project: tt r // .. /K� '�?'l._J2�yL Af7t / Ili'J, Type of inspectio : - Al{"C4 1Ga , �"11 f G..� � 4 "r:v! D called: 02-5. 1, ? Address: 1 0 75 ( : 1W, Special instructions: Date wanted: _ /D'c1 a.m. ("'"p.m Requester: .-r • C Phone No e 41 tD3- --/Li -17 Y+ n'. Csq. L' C6! hGa2YS�tl:' SIU. N✓ Vw .nv.ww+.w..+..w....�....r�... -� INSPECTION RECOR Retain a copy with per INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 M —C,i5L j PERMIT NO. (206) 431 -3670 Approved per applicable codes. COMMENTS: Inspector: Receipt No.: Corrections required prior to approval. ryu31-' �r 1_' .. Date: L° ` , e y $42.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule relnspection. Date: �S. Project. el /nJ // vii e-AA6 Type of inspection Addre s: Date called: Special instructions: c56 , Ay Date wanted: / Requester: Phone No.: • COMMENTS: Inspector: ri $42,00 REINSPECTION FEE R CURED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Date: Date: INSPECTION NO, CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 Approved per applicable codes. INSPECTION RECOR- Retain a copy with per PERMIT NO. (206) 431 -3670 Corrections required prior to approval. P roject:C _ L 1 Type of inspci t Addreai C � y Date called: Date wanted: tt 1 a.m. dub Special Instructions; Requester Phone No.; LIZ 1, 3ta70 INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Sou enter Blvd., #100, TukwIla; WA 98188 (_A Approved per applicable codes. COMMENTS: 1 INSPECTION RECOR. Retain a copy with perm! 4;11 I N 56 PERMIT NO. (206) 431 -3670 • Corrections required prior to approval. $42.00 REINSPECTION F E REQUIRED. Prior to inspection, fee must ,, be paid at 6300 Southcenter Blvd., Suite 100, Call to schedule reinspection. 1 Receipt No.: Date: it {d krn • lancQ n ect i. ., ate ( ca {I� c 7 1 ' ( . r sc-u 0ct 4 br,y. instructions: Y � OA t DatE: l „ q mnt�d Special 11►.i1' Requester: Phone N ( - \3 l - 00 - 7 1 COMMENTS: ya �I. /.4_%L Or REINSPE • ION " E f, ' EQUIRED. Prior to inspection, fee must at 6300 South +fir 311/ Suite 100. CaII to schedule reinspection. Date: [Inspector: - $42.00 be paid [Receipt No.: INSPECTION RECORrTh Retain a copy with perk -1 INSPECTIO NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 Ti Approved per applic• .Ie codes. . :66061616166= t1G\1 PERMIT NO. (206) 431 -3670 Correctickns req fired prior to approval. COMMENTS: CC ' D -te called: ' ),.6A u�.",/. Special instructions: f.4 ,E- 6.H-L . Cv�-CG ( F.�∎ ry y.1 ,.3e4- e4 r,)�.0K, / go . /--- :- p.m. Requester: �� F_ e.. Phone No.: ,7 w ' , 7 7.,....)_,C . c-le-t2/3 6 •e ms." —ef - mac_._._ a 6 1- , le c a —._.l 1 Proje /icy '� 1, � G � I Address: 1 '.�7 -, <� . AJ . :�12,.. sire. Type of insp:>rti . l D -te called: ' ),.6A Special instructions: f.4 ,E- 6.H-L . Cv�-CG ( F.�∎ ry y.1 ,.3e4- e4 r,)�.0K, / go . Date wanted: p.m. Requester: �� F_ e.. Phone No.: ,7 w ' , 7 Inspector: $42.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspectlon. Receipt No.: Date: Date: PERMIT NO. , �.. >: raweFlomattutinerMffrAtath INSPECTION RECO Retain a copy" with per CITY OF TUKWILA'BUILDING DIVISION 6300 Southdenter Blvd., #100, Tukwila, WA 98188 INSPECTION NO. (206) 431 -3670 P 1 Approved per applicable codes. Corrections required prior to approval. s'. Project: i - / . i . Type of inspe tion: '' / / Addr mss: Date calle Special instructions: Date wanted: �j a,m. Requester: Phone No.: CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188(206) 431 -3670 COMMENTS: INSPECTION NO, Approved per applicable codes. '_ Corrections required prior to approval. ( , 2 INSPECTION RECOR Retain a copy with per /i4 ? - 7-0 / c(, PERMIT NO. 'Inspector: Date: $42. ' P'EINSPECTIO !FEE ' REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter,Elvd., Suite 100. Callao schedule reinspection. Receipt No.: Date; Project d A� ::::: i Special Instructions: Date wanted: , '2 i Requester: Phone No.: INSPECTION NO. INSPECTION RECO Retain a copy with petit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206) 431 -3670 Approved per applicable codes. Corrections required prior to approval. COMMENTS: Inspector: ,r Date: PERMIT NO, $42.00 REINSPECTION EE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. CaII to schedule reinspection. I Receipt No.: Date: Project: 1 ,,., ri AdJ"L2' Type of inspec ' A"? oic -f eot Addres i , ,,,., tt..)te Date called: un 1 2 _ 1 7 . , ■ , ' Special instructions: Date wanted: - c..) _ ) , c _ 97 1,..... Requester: -- Phone No.: „..),(....z, .3 tc, i _ 007 1 INSPECTION NO, CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 1 Approved per applicable codes. COMMENTS: •n A:Tfr2ge-1 /)4V1--( Adk Inspector: Receipt No.: INSPECTION RECORpN Retain a copy with pet Date: Date: A1 - 7 -015 PERMIT NO. (206) 431-3670 Corrections required prior to approval. 4 4 $42.00 REINSPECTIO FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. COMMENTS: 1 Fi.A0a... - • ►rJ 0C— (4.,Pi c,.: pa.:--, ok -- avr^N.._Fk(Q•er 1 4 TA4-1 a,ZG PIAA A4-0 5(-0 ap-ices . Elite- DA P. ^0... -. 1 `l,.] 4 7T sn t- �S A L( ^ .-.1 tAN 1 j.' V41s (2) LA)4icN P71-ki - Mi. — R4 z I Piad(Z. j c zi L aG 61.1 N���> - m t'C vs) 1'M-, N (0.- 'SI%M we T42 uQ-i{- ME Date wanted: 'a' 4.97 2 4 u. — KYAk, N -0 o« cam P,14 —o2 PtYPilvCO . Requester: j .t f � Phone No.: .4)11-( - )d7) Project -} -• L. a , A nib Address: .1. # Type of inspe tio j Il r1 Date called: Special instructions: Date wanted: 'a' 4.97 . � P.m. Requester: j .t f � Phone No.: .4)11-( - )d7) INSPECTION RECORD -\ Retain a copy with pet INSPECT ON NO. CITY • F TUKWILA BUILDING DIVISION 6300. Southcenter Blvd., #100, Tukwila, WA 98188 Approved per applicable codes. I Inspector: /2.)4/97 $42.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. CaII to schedule reinspectlon. Receipt No.: ( 2 Date: 1\C\0-a15 PERMIT NO. (206) 431 -3670 Corrections required prior to approval. Date: COMMENTS: ( 'tcn -t_ Ot°'<zqWAa`looS , ) 1 /M.r _AA it, n1 A .UMI ‘4A-L.F.- / Nsf-cri4r.1 -- k t tJ . ( °Fr i., KJ G or Sw) P I mo- t s A Rro P-oo ltic Mu t A ' gt- bW . Fi I rI lW M-C itiF A 11l-t ' 4 DUCT -1 �F'S P Is A-�-R 1 AT Occ . 3..P. waf.� \ -z) © . s. wAe -S /�+�: W Mta ►Db _ 57E t.bbd1q.s /- gg , Ft rte` v s rmz icc Pitartr ' .■ >t_i ,o .. -c.S • 713 . I 0 pr t-19 '713.11 o1- ' = U4 Lt rw2- -- P ,.kirk,, -t` NS or- .O vA cTS, , r L/-1S I N Ot ci -rE F f S 9, a C., 00-- ti. CL t 14 G S 64 vim" 44E ws -- Pn4J ( E oF. A-N•f Px.op Ac.: vrfs..ci is A.PPf2d ei) &..... t-!a (L%z.a 1- r _ 1 N -w . { .av, OET L- ot.- 1 Ate.. f J S D s r U,S's� . Project: 4 -� eL _� � 'P � Type of ins k t tJ . Address: t7. cb:IN N Date called: Special instructions: Date wanted: a.m. Vim. Requester: Phone No.: INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 Inspector: Approved per applicable codes. I Receipt No.: INSPECTION RECORp - \. Retain a copy with per).../ Date :I.. I t 1 Date: V14 7- OI 5(p ' PERMIT NO. (206) 431 -3670 Corrections required prior to approval. $42.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Project: Pro J Di\- -paced A )∎,))/J nti-c) Type of inspection: je., IStLlea+; N.1 tb.00T Address; 130 Date called: �� � � f ` 7 �a.m� p.m. Special instructions: .-,k1 t n-r) VYl Date wanted: " r ( - I 1 Requester: Phone No.: i 11 INSPECTION NO, CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd,, #100, Tukwila, WA 98188 Approved per applicable codes. ,COMMENTS: Inspector: .._INSPECTION RECORrN Retain a copy with per" " V4e-n is Fo Date: M 67 11 -0 Ste, PERMIT NO. (206) 431 -3670 Corrections'required prior to approval :. $42.0 r REINSPECTIO FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southtenter Blvd. Suite TOO, CaJI- toschydule reinspection. C, Receipt Na.: ,J C. Q r a --- 1. 3 s t.r l Ce Project: S R9 N$ti cC` Type of inspection: N- �+� Address: Date called: Special instructions: 1 Date wanted: ( 0 /Z9/g7 a.m. p.m. Requester: Phone No.: Ft1 lt=h3S!X..erMt ,— INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 Approved per applicable codes. COMMENTS:. INSPECTION RECOR Retain a copy with per PERMIT NO. (206) 431 -3670 Corrections required prior to approval. l LT% 1 tJStt LA -1 2 R_ F-Ittsrp, 6' - I-I ` i /omit/ 1 .. Inspector \ / Date: 2A q $42.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Cali to schedule reinspection. 1 Receipt No.: Date: *frfi ** *•k *** ** A• kk4*: A * ***k* * *A *•k * *** *A ** *-4** * *Ak ** A *A *kA * * * * *�* 1TY OF T.UI<WXL:E1, w �q _�� L � TRANSMIT W,MIT fr: 4kkkk ** Ak ** *A.�C* *:* * * **4• *. *•kkkk''F'*k» * 4 ***t**Ak* TRFANSMIT Number: R9700669 Amount: 238.44 '10/29/97 12.09 Payment :: Method: CHECK Natation: PRO-STAFF MLCHAN Ini t z ,)H Total reos « 230.44 T h i s Payment 238.44 •Total ALL Pmts: 238.44 13alaricee .00 4*** k*.*• kh* k** i** o1'• k+ 4 * k•#. k*** A* AA• A *o1 * * * * *Ak** * -4*.4 *A* *o1k *** *.A* Account' Cade 000/ 345.830 000/222,.100 Permit No M97 Type :. 43••Mt~CH MECHANICAL •PERMIT Parcel Noe 0004810 -•0010 Site Address: 13075 GATEWAY DR Desc;rip'tian • PLAN. CHECK - NONRES MECHANICAL - NONRES Amount 47.09 •190,7" YES READY FOR ISSUANCE BALANCE DUE STATE CONTRACTORS LICENSE RE FIRED? IS THIS CONTRACTOR IN THE SYSTEM? NO APPLICANT: CONTACTED DATE CALLED • CALLED BY AS�rlt"m uv FAX TRANSMITTAL Greenbusch GrouP 2065240630 /49 -c T , The GREENBUSCH Group Date: January 27, 1998 • To: Mr. Dave Larson Fax: • (206) 431 -3665 Tukwila Building Department Re: American Medical Response (Shepard Ambulance) From: Joe Dorman Fax: (206) 524 -0630 Phone; {206) 524 -0593 Number of Pages (including cover page): • 2 Comments • Mr. Larson, Attached please.find a fax • sent Mr.'.MIke Golden, whom is managing this'project for Shepard. • Th'is fax oiitlines prpposed solutions for ventilation. Items discussed,by :you,and 1•on.phone. It is obvious I would hope that item number onewoutd meet everyone's criterion•for a.safe'building because of Shepards wish for occupancy in the very.near future.' If this issue could :possible hold up occupancy, is there the possibility .of a temporary Solktion,.'while work is being,completed. For example keeping detail bay. and southeast overhead doors open during occupled :hours : .or instructions posted to open doors when alarm is activated, . ' . • • It was our Intent during design to meet or exceed the ventilation requlrement5 :outlined in the Uniform Building Code' Chapter 12 for Group H,' Division`.4 ' I understand you will discuss this issue with Mri ,6enjdico and will forward. your decision to me. Thank you for your time and hope we can expedite a resolution to everyone's :satisfaction. Copy to: File Hard copy to follow'via mail. Please call (206) 524 -0593• if riot all pages are received. . CITY p TUKWIL.4 JAN 271998 peRMIT c eNTen F . 01 •919 .NE 71st Street .Seattle, WA .98115 4200 524 -0593 'Fax (20.6) 524,-0630.!' Fax Transmittal Date: January 27, 1998 To: Michael Golden Fax Number From: Joe Dorman. P.. Gr. eenbusch Group (206) 223 Tenant Works, • 1211 Second Ave., Seattle, Wa. 98101 Fax Number (206) 524-0630 , Number of Pages (including this page): Remarks 20652406,30 • • • • The QREENBUSCH Group Michael, I have.discussed the.Shepard.project withMr: Dave Larsoilof Tukwila Building Department, concerning the two issues raised One is the exhaust of carbon monoxide in the detail bay and second is make up air Whea•the carbon monoxide fans are:turned on. 1 would suggest tbe'following be proposed. .. 1. Test system as designed using infiltration as make up air and proximity of doors to. purge space of contaniinanti. This would require all doors and other Operable; opens to be closed and, system turned on... . . .. .. , 2. Install louver with, b.ack draft. damper *southeast corner of bulldog .T4As,.:would Involve removal of window, to placelOuver, and'Poselbicapproial by TukwilkRiview.Board. 3. Install louver with back draft damper adjacent to double doors leading tO the detail bay along with transfer grilles in wall aboVe.P'VC..curtain. Thiswoulditivave removal of window; to place.louver, and possible approval by. Tukwila RevieW 5. Other solutions'exiSt bawatild.hivOlvephiCing fans in Walls or roof to provide make up 4. Install' controls to open southeast ..11(11.04440 bay overhead doors,..do"..,.:..../.74/::::::0frilriod I will contact Dave Larson. after we have had a chance to discuss. will need to consult control. and door to verify tiiiii.eati .accoinplished.) air. These were not acceptable to Review Board at time of ...• :.. only, when carbon menoxidealaran is ietiVated,and reverse when'altirm is deactiVated. ( I • ease cal 206 524-0593 I not • all pages are recelVec... Copy to: File No hard 'copy.to fol.low. .919 Street .Seattle,,WA •206) 524 •Fax (206).,$24;0030.. P. 02 �:. #.k ..:•�'.'Uf ...l. a:.4.. id:vs:.•(t. ��,. . �:.1+ Letter of Transmittal To: We are sending you: Remarks PRO -STAFF MECHANICAL, INC. 902 N. 127th St. Seattle, Wa. 98133 Signed: �J be_ c` or w�a�.•...., Joe Dorman ?er. rcfi =?s :' }VriiVft- aW. '.. n't tixAKY,ax:.steSIV °evAx`Va ;4 yxm arl„rw -...,, � GREENBUSCH (era u p Date: September 26, 1997 Attention: Peter Crelley Re: Shepard Ambulance FILE COPY neS.et:H The Following are Transmitted: ❑ For Approval ❑ Approved as Submitted ❑ Resubmit for Approval ❑ For Your Use ❑ Approved as Noted ❑ Submit Copies for Distribution ❑ As Requested ❑ Returned for Corrections ❑ Return _ Corrected Prints ❑ For Review and Comment ❑ For bids due Pete MechanIcal Drawi ngs do: not.: sho elevations: of roof mountcd equipment. Equipment was s et back front edge of building'25'-O !: per :city: of Tuckwlla direction : t equipment on roofs shown on Second'T1loor: Plan at thus iune: Smoke detection for. a handlin units:ovcr:2000,cf is l►ndicated on, electrical drawings, • •919 NE 71st Street .Seattle, WA 98115 •(206) 524.0593 •Fax (206) 524.0630 RECEIVED CITY OF TUKWILA OCT 0 7 1997 PERMIT CENTER DESIGN PARAMETERS Month January February March April May June July August September October November December Month January February March April May June July August September October November December DESIGN WEATHER PARAMETERS & MSHGs Location: Tukwila, Washington 06 -11 -97 HAP v3.04 Page 1 of 1 ********************************,********* * ** * * * * * * * ** * * * * * * * * * * * * * * * * * ** City Name • Tukwila Location Washington Latitude 47.5 degrees Longitude 122.3 degrees Elevation 50.0 ft Summer Design Dry -Bulb 83.0 F Summer Coincident Wet -Bulb 67.0 F Summer Daily Range 22.0 F Winter Design Dry -bulb 24.0 F Atmospheric Clearness Number 1.05 Average Ground Reflectance 0.20 Soil Conductivity 0.800 BTU /hr /ft /F Local Time Zone (GMT +/- N hours).: 8.0 hours Consider Daylight Savings Time 7 N First Month for Daylight Savings..: Last Month for Daylight Savings...: Simulation Weather Data • (None) Current data is User Defined DESIGN DAY MAXIMUM SOLAR HEAT GAINS (BTU /HR /SQFT) N NNE NE ENE E ESE SE SSE S 16.1 16.1 16.1 53.5 128.9 183.4 230.6 251.9 257.9 21.4 21.4 36.9 112.4 175.7 229.4 253.9 260.9 262.5 27.2 27.2 91.9 159.2 217.1 242.8 253.0 243.8 238.0 32.9 68.6 137.1 195.3 225.5 239.1 225.9 204.5' 192.1 37.3 105.1 162.3 210.6 229.9 225.1 199.5 170.0 154.1 51.1 117.6 171.3 213.8 227.0 216.7 187.0 154.1 137.4 39.3 104.1 161.3 207.6 222.6 220.5 195.6 165.7 151.0 34.8 65.4 134.3 187.4 219.4 230.1 218.4 197.6 186.4 28.1 28.1 86.3 145.3 203.9 232.3 242.6 235.6 227.9 22.1 22.1 36.4 105.4 171.4 216.2 245.2 253.6 252.2 16.3 16.3 16.3 56.7 123.7 184.3 224.3 244.6 251.2 13.7 13.7 13.7 34.5 105.2 162.1 212.4 238.1 244.9 SSW SW WSW W WNW NW NNW HOR Mult. 251.9 227.1 188.2 121.9 59.5 16.1 16.1 92.6 1.00 262.6 255.6 227.5 179.4 105.7 40.1 21.4 147.6 1.00 244.1 251.9 247.4 210.5 163.3 87.7 27.2 199.5 1.00 204.0 224.0 238.4 228.6 194.9 133.0 70.1 238.0 1.00 169.6 197.7 223.9 231.2 208.5 165.6 103.7 259.3 1.00 152.9 185.9 213.9 228.2 209.8 175.2 113.9 265.5 1.00 164.4 194.1 217.3 226.5 202.6 164.4 101.0 257.6 1.00 197.1 216.1 229.9 220.5 188.0 129.3 68.8 234.7 1.00 235.7 242.6 232.9 203.5 146.7 86.2 28.1 191.4 1.00 252.2 242.3 219.1 167.2 108.2 30.0 22.1 144.1 1.00 245.2 225.6 182.6 125.7 52.6 16.3 16.3 91.0 1.00 235.2 211.9 163.5 105.0 33.6 13.7 13.7 69.9 1.00 Mult. = User - defined solar multiplier factor. t VENTILATION AIR DATA AIR SYSTEM INFORMATION COOLING COIL SIZING DATA SUPPLY FAN SIZING DATA System Type • (SIM CAV) Number of Zones 1 Floor Area 480 sqft Total coil load (Tons)...: Sensible coil load (Tons) : Coil CFM at Jun 1600 Max coil airflow (CFM)...: Design supply temp (F)...: sqft/Tons BTU /hr /sqft Water gpm @ ]OF rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: Coil airflow (CFM) Design supply temp (F)...: 0.9 0.6 279 279 55.0 534.2 22.5 2.16 7455 279 79.7 Actual airflow (CFM) 279 Standard airflow (CFM)...: 279 AIR SYSTEM SIZING SUMMARY Air System.: Exercise Room 148 06- 20 -97. Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Load occurs at...: Jun 1600 OA DB /RH (F / %)...: 81.3/ 47.0 Entering Db /Wb...: 80.7/ 68.7 F Leaving Db /Wb • 57.4/ 56.4 F Coil ADP 54.8 F Bypass factor 0.100 Resulting RH 59 % BTU /hr /sqft • 15.5 Water gpm @ 20F drop: 0.75 Airflow (CFM) 100 CFM /person 20.00 CFM /sqft 0.21 AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Exercise Room 148 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jun @ 1600 COOLING OA DB /RH..: 81.3 F / 47 % ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor + + »Total Zone Loads (1) + + Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils »Total Conditioning Notes: (1) (2) (3) (4) Details 71 sqft 139 sqft 0 sqft 71 sqft 0 sqft 0 sqft 480 sqft 448 sqft 0 sqft 1.20 W /sgft 0.00 W /sqft 5 people 10% 5/ 10 % 0 0 0 % 100 CFM 279 CFM 0 % HEATING AT HEATING OA + COOL Sensible (BTU/hr) 1428 9 0 -6 0 0 0 181 0 1965 0 2625 17 0 622 6841 6511 0 0 0 0 Winter Design DB...: 24.0 F + + I N G HEATING Latent Sensible (BTU /hr) (BTU /hr) + + 475 0 1624 0 0 168 145 0 4625 -54 0 229 4800 4800 99 -1119 414 0 0 + 7024 3681 - + 7024 3759 0 - 0 0 0 - 0 - 0 0 0 0 - + 7024 3759 238 265 2915 3189 0 4680 -414 0 0 + 7455 0 7455 0 0 0 0 f 7455 Zone loads calculated at occupied thermostat setpoint. Zone conditioning based on heat extraction analysis. In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. • AIR SYSTEM SIZING SUMMARY Air System.: Training, Storage 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type • (SIM CAV) Number of Zones 1 Floor Area 1700 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jun 1700 Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons BTU /hr /sqft Water gpm @ 10F rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: 28039 Coil airflow (CFM) 1698 Design supply temp (F)...: 74.7 SUPPLY FAN SIZING DATA Actual airflow (CFM) 1698 Standard airflow (CFM)...: 1695 VENTILATION AIR DATA 4.2 3.7 1698 1698 55.0 409.1 29.3 9.98 Load occurs at...: Jun 1700 OA DB /RH (F / %)...: 79.8/ 49.4 Entering Db /Wb...: 80.3/ 64.7 F Leaving Db /Wb • 56.1/ 54.7 F Coil ADP 53.4 F Bypass factor 0.100 Resulting RH 42 % BTU /hr /sqft 16.5 Water gpm @ 20F drop: 2.81 Airflow (CFM) 300 CFM /person • 20.00 CFM /sqft 0.18 AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Training, Storage 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jun @ 1700 COOLING OA DB /RH..: 79.8 F / 49 % ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor Details 217 525 0 217 0 0 1700 0 0 1.20 4.00 15 sqft sqft sqft sqft sqft sqft sqft sqft sqft W/sqft W /sqft people 10/ 5/ 10 % HEATING AT HEATING OA DB...: 4191 69 0 -103 0 0 0 0 0 6960 23201 3675 33 0 3803 »Total Zone Loads (1) 1 41829 Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils »Total Conditioning Notes: (1) (2) (3) (4) 0 % 0 % 0 % 300 CFM 1698 CFM 0 % C O O L I N G HEATING Sensible Latent Sensible (BTU /hr) (BTU /hr) (BTU /hr) 41873 0 0 0 0 • Winter Design 24.0 F + + 3075 124 0 160 3359 3359 -188 2171 2517 0 0 44201 5668 0 - 0 0 0 0 0 0 0 0 - + + + 1794 0 4958 0 0 264 0 0 843 786 8645 15901 0 14654 -2517 0 0 44201 5530 28039 0 28039 0 0 0 0 44201 5668 28039 + + + Zone loads calculated at occupied thermostat setpoint. Zone conditioning based on heat extraction analysis. In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. + AIR SYSTEM SIZING SUMMARY Air System.: Reception 06 -20 -97 Weather 'Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type (SIM CAV) Number of Zones 1 Floor Area 860 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: 1.9 Sensible coil load (Tons): 1.7 Coil CFM at Jul 1500 • 791 Max coil airflow (CFM)...: 791 Design supply temp (F)...: 55.0 sqft /Tons • 446.7 BTU /hr /sqft 26.9 Water gpm @ 1OF rise 4.62 CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: 15298 Coil airflow (CFM) • 791 Design supply temp (F)...: 79.8 SUPPLY FAN SIZING DATA Actual airflow (CFM) 791 Standard airflow (CFM)...: 790 VENTILATION AIR DATA Load occurs at...: Jul 1500 OA DB /RH (F / %)...: 83.0/ 43.6 Entering Db /Wb...: 81.0/ 65.3 F Leaving Db /Wb • 56.9/ 55.5 F Coil ADP 54.3 F Bypass factor 0.100 Resulting RH 43 % BTU /hr /sqft 17.8 Water gpm @ 20F drop: 1.53. Airflow (CFM) 160 CFM /person 20.00 CFM /sqft 0.19 AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Reception 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****,************************************* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jul @ 1500 COOLING OA DB /RH..: 83.0 F / 44 % ZONE LOADS + + Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor + + »Total Zone Loads (1) + + Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils Details 213 sqft 617 sqft 0 sqft 213 sqft 0 sqft 0 sqft 860 sqft 0 sqft 0 sqft 2.00 W /sgft 1.00 W /sqft 8 people 10/ 5/ 10 % 0 % 0 % 0 % 160 CFM 791 CFM 0 % HEATING AT HEATING OA DB...: C O O L I N G HEATING Sensible Latent Sensible (BTU /hr) (BTU /hr) (BTU /hr) 6343 414 0 112 0 0 0 0 0 5869 2934 1960 46 0 1768 20533 0 0 0 0 0 0 0 Winter Design 24.0 F + + 1640 40 0 84 19446 1764 1764 18931 0 0 0 0 429 740 1173 0 0 20533 2504 15298 2571 0 0 2108 0 4854 0 0 225 0 0 426 761 8374 8971 0 7500 -1173 0 0 0 15298 0 0 0 0 + + + + »Total Conditioning 20533 2571 15298 + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. + AIR SYSTEM SIZING SUMMARY Air System.: Lounge, Lunchroom, Elevator 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION • (SIM CAV) 1 1200 sqft System Type Number of Zones Floor Area COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jun 1500 Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons • BTU /hr /sqft Water gpm @ 10F rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: Coil airflow (CFM) • Design supply temp (F)...: SUPPLY FAN SIZING DATA Actual airflow (CFM) 664 Standard airflow (CFM)...: 662 VENTILATION AIR DATA 1.8 1.5 664 664 55.0 665.7 18.0 4.33 20420 664 77.2 Load occurs at...: Jun 1500 OA DB /RH (F / %)...: 82.0/ 46.0 Entering Db /Wb...: 81.1/ 66.0 F Leaving Db /Wb • 56.5/ 55.2 F Coil ADP 53.8 F Bypass factor 0.100 Resulting RH 44 % BTU /hr /sqft • 17.0 Water gpm @ 20F drop: 2.04 Airflow (CFM) 300 CFM /person • 25.00. CFM /sqft 0.25 AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Lounge, Lunchroom, Elevator 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 *************************►**************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jun @ 1500 COOLING OA DB /RH..: 82.0 F / 46 % + + ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils + + Details 141 sqft 219 sqft 0 sqft 141 sqft 0 sqft 0 sqft 1200 sqft 0 sqft O sqft 1.20 W /sgft 0.50 W /sqft people 10/ 5/ 10 % 0 O % O % 300 CFM 664 CFM 0 % HEATING AT • Winter Design HEATING OA DB...: 24.0 F + + C O O L I N G Sensible Latent (BTU /hr) (BTU /hr) + 4626 285 0 4 0 0 0 0 0 4913 2047 2940 52 0 1487 16354 16122 0 0 0 0 505 984 0 0 17611 17611 0 0 0 0 0 0 0 2460 53 0 126 2639 2639 0 + HEATING Sensible (BTU /hr) 748 0 3215 0 0 142 0 0 595 470 5171 7190 0 1329 14214 -984 0 0 + 3968 20420 + + 4020 0 20420 0 0 0 0 0 + + + + »Total Conditioning 17611 4020 20420 + + + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. AIR SYSTEM INFORMATION COOLING COIL SIZING DATA SUPPLY FAN SIZING DATA VENTILATION AIR DATA AIR SYSTEM SIZING SUMMARY Air System.: Offices 103 -108 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** System Type (SIM CAV) Number of Zones 1 Floor Area 930 sqft Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jul 1400 • Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons • BTU /hr /sqft Water gpm @ 10F rise CENTRAL HEATING COIL SIZING DATA Airflow (CFM) CFM /sqft 2.9 2.7 1241 1241 55.0 319.5 37.6 6.99 Max coil load (BTU /hr)...: 18234 Coil airflow (CFM) • 1241 Design supply temp (F)...: 77.0 Actual airflow (CFM) • 1241 Standard airflow (CFM)...: 1239 Load occurs at...: OA DB /RH (F / %)...: Entering Db /Wb...: Leaving Db /Wb • Coil ADP Bypass factor Resulting RH 160 CFM /person • 0.17 Jul 1400 82.3/ 44.6 80.8/ 64.8 F 56.8/ 55.3 F 54.1 F 0.100 42 % BTU /hr /sqft • 19.6 Water gpm @ 20F drop: 1.82 20.00 l D, + AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Offices 103 -108 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT Jul @ 1400 COOLING OA DB /RH..: 82.3 F / 45 % ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils »Total Conditioning Notes: (1) (2) (3) (4) Details 252 528 0 252 0 0 930 420 0 1.20 4.00 8 0 % 0 % 0 0 % 0 % sqft sqft sqft sqft sqft sqft sqft sqft sqft W/sqft W /sqft people 10/ 5/ 10 % 160 CFM 1241 CFM • Winter Design 24.0 F C O O L I N G HEATING Sensible Latent Sensible (BTU /hr) (BTU /hr) (BTU /hr) HEATING AT HEATING OA DB...: 8534 687 0 40 0 0 0 175 0 3808 12692 1960 43 0 2794 30733 30008 0 0 0 0 290 1840 0 0 32139 32139 0 0 0 0 0 0 0 1640 54 0 85 1779 1779 917 2696 2788 0 0 1804 0 5748 0 0 309 136 0 461 846 9304 12352 0 7722 -1840 0 0 18234 0 18234 0 0 0 - 0 Zone loads calculated at occupied thermostat setpoint. Zone conditioning based on heat extraction analysis. In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. 32139 2788 18234 + + + It. AIR SYSTEM SIZING SUMMARY Air System.: Lockers, Storage, Restrooms Weather • Tukwila, Washington Prepared By: The Greenbusch Group Inc ************************ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type • (SIM CAV) Number of Zones • 1 Floor Area • 5624 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: 4.1 Sensible coil load (Tons): 3.6 Coil CFM at Jul 1500 1636 Max coil airflow (CFM)...: 1636 Design supply temp (F)...: 55.0 sqft /Tons 1364.7 BTU /hr /sqft 8.8 Water gpm @ 10F rise 9.90 CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: 39140 Coil airflow (CFM) 1636 Design supply temp (F)...: 75.5 SUPPLY FAN SIZING DATA Actual airflow (CFM) 1636 Standard airflow (CFM) ...: 1633 VENTILATION AIR DATA BTU/hr/sqft Water gpm @ 20F drop: env _ 06 -20 -97 HAP v3.04 Page 1 of 1 * * * * * * * * * * * * * * * * ** Load occurs at...: Jul 1500 OA DB /RH (F / %)...: 83.0/ 43.6 Entering Db /Wb...: 81.3/ 65.5 F Leaving Db /Wb • 56.8/ 55.4 F Coil ADP 54.1 F Bypass factor • 0.100 Resulting RH 43 % 7.0 3.92 Airflow (CFM) 500 CFM /person 41.67 CFM /sqft 0.09 t2. COOLING AT • Jul @ 1500 HEATING AT COOLING OA DB /RH..: 83.0 F / 44 % HEATING OA DB...: ZONE LOADS Details Solar Loads 0 sqft Wall Transmission 668 sqft Roof Transmission 0 sqft Glass Transmission 0 sqft Skylight Transmission 0 sqft Door Transmission 21 sqft Floor Transmission �s24.33�0� sqft Partitions 1796 sqft Ceiling 0 sqft Lighting 1.20 W/sqft Equipment 0.50 W /sqft People 12 people Infiltration Miscellaneous Safety Factor 10/ 5/ 10 % »Total Zone Loads (1) + Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils 0 % 0 % 0 % /AC '9 CFM 1636 CFM 0 % 0 -11 0 - 0 0 - 11 600 0 - 23026 9594 3360 3240 303 270 0 0 3688 176 40573 3686 39444 3686 0 0 0 - 0 1319 2404 2426 0 - 0 43189 6090 43189 6263 0 - 0 0 0 - 0 - 0 0 0 0 - AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Lockers, Storage, Restrooms 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** • Winter Design 24.0 F + + C O O L I N G HEATING Sensible Latent Sensible (BTU /hr) (BTU /hr) (BTU /hr) 2282 0 0 0 483 455 2771 0 2789 878 9658 17941 0 23625 -2426 0 0 39140 0 39140 0 0 0 0 + + + »Total Conditioning 43189 6263 39140 + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. + 13. AIR SYSTEM SIZING SUMMARY Air System.: Offices Weather • Tukwila, Washington Prepared By: The Greenbusch Group Inc 06 -20 -97 HAP v3.04 Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type • (SIM CAV) Number of Zones • 1 Floor Area 1676 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jul 1400 • Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons • BTU /hr /sqft Water gpm @ 10F rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: Coil airflow (CFM) • Design supply temp (F)...: SUPPLY FAN SIZING DATA 2.5 2.2 952 952 55.0 663.2 18.1 6.07 22087 952 71.4 Actual airflow (CFM) • 952 Standard airflow (CFM)...: 951 VENTILATION AIR DATA Load occurs at...: Jul 1400 OA DB /RH (F / %)...: 82.3/ 44.6 Entering Db /Wb...: 81.0/ 65.2 F Leaving Db /Wb • 55.9/ 54.4 F Coil ADP 53.1 F Bypass factor 0.100 Resulting RH 42 % BTU /hr /sqft • 13.2 Water gpm @ 20F drop: 2.21 Airflow (CFM) • 300 CFM /person 25.00 CFM /sqft • 0.18 4. AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Offices 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** + COOLING AT • Jul @ 1400 COOLING OA DB /RH..: 82.3 F / 45 % ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils »Total Conditioning Notes: (1) (2) (3) (4) Details 0 sqft 0 sqft 0 sqft 0 sqft 0 sqft 0 sqft 1676 sqft 324 sqft 0 sqft 1.20 W/sqft 2.00 W /sqft 12 people 10/ 5/ 10 % 0 % 0 a 0 % 2 AC CFM 952 CFM 0 % HEATING AT • Winter Design HEATING OA DB...: 24.0 F + + C O O L I N G Sensible Latent (BTU /hr) (BTU /hr) 0 0 0 0 0 0 0 135 0 6862 11437 2940 78 0 2145 23596 23844 0 0 0 0 25846 25846 0 0 0 0 0 0 0 2460 96 0 128 + 2684 + 2684 590 1724 1412 0 0 4478 0 0 HEATING Sensible (BTU /hr) 0 0 0 0 0 360 105 0 831 130 1425 8810 0 14690 -1412 0 0 4408 22087 0 22087 0 0 0 0 22087 25846 4478 + -• + + Zone loads calculated at occupied thermostat setpoint. Zone conditioning based on heat extraction analysis. In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. + • AIR SYSTEM SIZING SUMMARY Air System.: 24 Hour Office Space, Restrooms 06-20-97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type • (SIM CAV) Number of Zones 1 Floor Area 3800 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jun 1400 • Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons • BTU /hr /sqft Water gpm @ 1OF rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: 53163 Coil airflow (CFM) 3923 Design supply temp (F)...: 76.8 SUPPLY FAN SIZING DATA Actual airflow (CFM) 3923 Standard airflow (CFM)...: 3916 VENTILATION AIR DATA 9.0 8.4 3923 3923 55.0 421.2 28.5 21.67 Load occurs at...: Jun 1400 OA DB /RH (F / %)...: 81.3/ 47.0 Entering Db /Wb...: 80.6/ 64.6 F Leaving Db /Wb • 56.8/ 55.3 F Coil ADP 54.1 F Bypass factor 0.100 Resulting RH 42 % BTU /hr /sqft • 14.0 Water gpm @ 20F drop: 5.32 Airflow (CFM) 400 CFM /person 20.00 CFM /sqft 0.11 (CP. AIR SYSTEM DESIGN LOAD SUMMARY Air System.: 24 Hour Office Space, Restrooms 06 -20 -97 Weather - Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jun @ 1400 COOLING OA DB /RH..: 81.3 F / 47 % ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils »Total Conditioning + Details 546 sqft 994 sqft 3800 sqft 546 sqft 0 sqft 0 sqft 0 sqft 868 sqft 0 sqft 1.20 W /sgft 3.00 W /sqft 20 people 10/ 5/ 10 % 0 % 0 % 0 % 400 CFM 3923 CFM 0 % HEATING AT • Winter Design HEATING OA DB...: 24.0 F C O D L I N G Sensible Latent (BTU /hr) (BTU /hr) 17485 711 10668 -183 0 0 0 258 0 15558 38896 4900 135 0 8843 97272 94364 0 0 0 0 359 5816 0 0 100539 100539 0 0 0 0 0 0 0 4100 273 0 219 2871 7729 0 0 HEATING Sensible (BTU /hr) 3396 8125 12326 0 0 0 285 0 1884 2602 4591 28619 4591 39746 0 19233 -5816 0 0 7462 53163 0 53163 0 0 0 0 100539 7729 53163 + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. AIR SYSTEM SIZING SUMMARY Air System.: Computer Room 238 Weather • Tukwila, Washington Prepared By: The Greenbusch Group Inc *********************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type • (SIM CAV) Number of Zones 1 Floor Area 500 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jul 1400 Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons 'BTU /hr /sqft Water gpm @ 1OF rise CENTRAL HEATING COIL SIZING DATA SUPPLY FAN SIZING DATA VENTILATION AIR DATA 2.4 2.3 1038 1038 55.0 207.8 57.8 5.78 Max coil load (BTU /hr)...: 9111 Coil airflow (CFM) • 1038 Design supply temp (F)...: 71.4 Actual airflow (CFM) 1038 Standard airflow (CFM)...: 1036 Airflow (CFM) • 80 CFM /person • CFM /sqft 0.16 06 -20 -97 HAP v3.04 Page 1 of 1 * * * * * * * * * * * * * * * * * ** Load occurs at...: Jul 1400 OA DB /RH (F /%)...: 82.3/ 44.6 Entering Db /Wb...: 80.7/ 64.3 F Leaving Db /Wb • 56.4/ 54.8 F Coil ADP 53.7 F Bypass factor 0.100 Resulting RH 40 % BTU /hr /sqft • 18.2 Water gpm @ 20F drop: 0.91 20.00 16, AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Computer Room 238 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jul @ 1400 HEATING AT • Winter Design COOLING OA DB /RH..: 82.3 F / 45 % HEATING OA DB...: 24.0 F + + + ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils Details 0 sqft 0 sqft 500 sqft 0 sqft 0 sqft 0 sqft 0 sqft 350 sqft 0 sqft 1.20 W /sgft 0.50 W /sqft 4 people 10/ 5/ 10 % 0 % 0 % 0 80 CFM 1038 CFM 0 % C O O L I N G Sensible Latent (BTU /hr) (BTU /hr) 0 0 1371 0 0 0 0 112 0 2047 853 - 980 820 23 36 18000 0 2339 43 25725 25534 899 0 0 0 0 150 560 1540 0 0 27224 1459 27224 1653 0 - 0 0 0 0 0 0 0 0 HEATING Sensible (BTU /hr) 0 1069 0 0 0 0 115 0 248 143 899 1575 6494 0 4157 -1540 0 0 9111 0 9111 0 0 0 0 + + + »Total Conditioning 27224 1653 9111 + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. t9. AIR SYSTEM INFORMATION System Type Number of Zones Floor Area COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jun 1500 Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons BTU /hr /sqft Water gpm @ 1OF rise CENTRAL HEATING COIL SIZING DATA SUPPLY FAN SIZING DATA VENTILATION AIR DATA • (SIM CAV) 1 8185 sqft 14.0 12.3 5752 5752 55.0 583.8 20.6 33.67 Max coil load (BTU /hr)...: 103707 Coil airflow (CFM) 5752 Design supply temp (F)...: 74.2 Actual airflow (CFM) 5752 Standard airflow (CFM)...: 5741 Airflow (CFM) • CFM /sqft 0.14 AIR SYSTEM SIZING SUMMARY Air System.: Central Offices 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ******************************************* * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Load occurs at...: Jun 1500 OA DB /RH (F / %)...: 82.0/ 46.0 Entering Db /Wb...: 80.8/ 65.3 F Leaving Db /Wb • 56.9/ 55.5 F Coil ADP • 54.3 F Bypass factor 0.100 Resulting RH 43 % BTU /hr /sqft • 12.7 Water gpm @ 20F drop: 10.38 1160 CFM /person 20.00 20. ZONE LOADS AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Central Offices 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils Details 0 sqft 0 sqft 8185 sqft 0 sqft 0 sqft 0 sqft 5900 sqft 1280 sqft 0 sqft 1.20 W /sgft 2.00 W /sqft 58 people 10/ 5/ 10 0 % 0 % 0 % 1160 CFM 5752 CFM 0 % • Winter Design 24.0 F C O O L I N G HEATING Sensible Latent Sensible (BTU /hr) (BTU /hr) (BTU /hr) COOLING AT • Jun @ 1500 HEATING AT COOLING OA DB /RH..: 82.0 F / 46 % HEATING OA DB...: + + 0 0 22667 0 0 0 2414 524 0 33512 55854 14210 11890 353 462 0 0 12953 618 142486 147702 147702 0 0 0 0 0 0 0 137247 12970 0 0 0 0 1927 6342 8527 0 0 20536 0 0 17501 0 0 0 1910 414 0 4059 2388 12970 26273 55999 0 56235 -8527 0 0 19312 103707 0 103707 0 0 0 0 0 + + + + »Total Conditioning 147702 20536 103707 + + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. 21. • AIR SYSTEM INFORMATION AIR SYSTEM SIZING SUMMARY Air System.: Exterior Offices 204 -207 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** System Type • (SIM CAV) Number of Zones 1 Floor Area 588 sqft COOLING COIL SIZING DATA Total coil load (Tons) Sensible coil load (Tons): Coil CFM at Jul 1400 • Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons • BTU /hr /sqft • Water gpm @ 1OF rise • CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: Coil airflow (CFM) • Design supply temp (F)...: SUPPLY FAN SIZING DATA 2.3 2.2 1067 1067 55.0 250.4 47.9 5.64 13032 1067 77.8 Actual airflow (CFM) • 1067 Standard airflow (CFM)...: 1066 VENTILATION AIR DATA Airflow (CFM) • CFM /sqft 0.14 Load occurs at...: OA DB /RH (F/%)...: Entering Db /Wb...: Leaving Db /Wb • Coil ADP Bypass factor Resulting RH 80 CFM /person • Jul 1400 82.3/ 44.6 80.4/ 64.9 F 57.5/ 56.0 F 54.9 F 0.100 43 % BTU /hr /sqft • 22.2 Water gpm @ 20F drop: 1.30 20.00 v2. ZONE LOADS AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Exterior Offices 204 -207 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jul @ 1400 COOLING OA DB /RH..: 82.3 F / 45 % Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils »Total Conditioning Details + + 225 sqft 447 sqft 588 sqft 225 sqft 0 sqft O sqft O sqft 0 sqft O sqft 1.20 W /sgft 4.00 W /sqft 4 people 10/ 5/ 10 % 0 % 0 % 0 % 80 CFM 1067 CFM 0 % HEATING AT • Winter Design HEATING OA DB...: 24.0 F + + COOLING Sensible Latent (BTU /hr) (BTU /hr) 9184 582 1612 35 0 0 0 0 0 2407 8025 980 27 0 2285 25138 24661 0 0 0 0 176 1583 0 0 26420 26420 0 0 0 0 0 0 0 26420 820 31 0 43 893 893 1760 0 0 + + + HEATING Sensible (BTU /hr) 1527 1257 5082 0 0 0 0 0 292 816 8974 10764 0 384 3850 -1583 0 0 1278 13032 0 13032 0 0 0 0 1760 23032 + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. 23 AIR SYSTEM SIZING SUMMARY Air System.: Exterior Spaces 208 -216 Weather • Tukwila, Washington Prepared By: The Greenbusch Group. Inc 06 -20 -97 HAP v3.04 Page 1 of 1 ****,*****************,******************* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type • (SIM CAV)_ Number of Zones 1 Floor Area 1200 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jun 1400 Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons BTU /hr /sqft Water gpm @ 1OF rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: Coil airflow (CFM) Design supply temp (F)...: SUPPLY FAN SIZING DATA 4.1 3.8 1755 1755 55.0 296.0 40.5 9.74 24600 1755 78.2 Actual airflow (CFM) • 1755 Standard airflow (CFM)...: 1751 VENTILATION AIR DATA Load occurs at...: Jun 1400 OA DB /RH (F / %)...: 81.3/ 47.0 Entering Db /Wb...: 80.5/ 64.5 F Leaving Db /Wb • 56.6/ 55.1 F Coil ADP 53.9 F Bypass factor 0.100 Resulting RH 41 % BTU /hr /sqft • 20.5 Water gpm © 20F drop: 2.46 Airflow (CFM) • 180 CFM /person • 20.00 CFM /sqft • 0.15 AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Exterior Spaces 208 -216 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** + COOLING AT • Jun © 1400 HEATING AT • Winter Design COOLING OA DB /RH..: 81.3 F / 47 % HEATING OA DB...: 24.0 F ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils »Total Conditioning Details 303 sqft 1097 sqft 1200 sqft 303 sqft 0 sqft 0 sqft 1200 sqft 0 sqft 0 sqft 1.20 W/sqft 4.00 W /sqft 9 people 10/ 5/ 10 % 0 % 0 % 0 % 180 CFM 1755 CFM 0 % 11142 1135 3369 -101 0 0 468 0 0 4913 16377 2205 43 0 3955 43505 42367 0 0 0 0 182 2601 0 0 45150 45150 0 0 0 0 0 0 0 45150 COOLING Sensible Latent (BTU /hr) (BTU /hr) 1845 90 0 97 2032 15558 2032 1341 3373 24600 3504 0 0 HEATING Sensible (BTU /hr) 3748 2566 6846 0 0 389 0 0 595 1414 18586 0 8616 -2601 0 0 0 24600 0 0 0 0 + + 3504 24600 + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. 2� AIR SYSTEM SIZING SUMMARY Air System.: Exterior Spaces 217 -221 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** AIR SYSTEM INFORMATION System Type • (SIM CAV) Number of. Zones • 1 Floor Area • 1600 sqft COOLING COIL SIZING DATA Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Sep 1400 Max coil airflow (CFM)...: Design supply temp (F)...: sqft/Tons BTU /hr /sqft Water gpm Q ]OF rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: Coil airflow (CFM) Design supply temp (F)...: SUPPLY FAN SIZING DATA VENTILATION AIR DATA 6.2 5.8 2722 2722 55.0 260.1 46.1 14.77 32852 2722 77.5 Actual airflow (CFM) 2722 Standard airflow (CFM)...: 2717 Load occurs at...: Sep 1400 OA DB /RH (F / %)...: 80.3/ 46.4 Entering Db /Wb...: 80.3/ 64.2 F Leaving Db /Wb • 56.4/ 54.9 F Coil ADP 53.8 F Bypass factor 0.100 Resulting RH 41 % BTU /hr /sqft • 20.5 Water gpm Q 20F drop: 3.29 Airflow (CFM) • 200 CFM /person • 20.00 CFM /sqft 0.13 G Cn AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Exterior Spaces 217 -221 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 **************:*************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Sep @ 1400 COOLING OA DB /RH..: 80.3 F / 46 % ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) + + Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Central Cooling Coil Central Heating Coil Precool Coil Preheat Coil Central Reheat Coil Humidification Load Terminal Reheat Coils Space /Skin Heat Coils Details 486 sqft 1284 sqft 1600 sgft 486 sgft 0 sqft 0 sqft 1600 sqft 0 sqft 0 sqft 1.20 W /sgft 1A.00 W /sqft 10 people 10/ 5/ 10 % 0 % 0 % 0 % 200 CFM 2T CFM 0 % 0 HEATING AT • Winter Design HEATING OA DB...: 24.0 F + + C O O L I N G Sensible Latent (BTU /hr) (BTU /hr) 26373 1094 2839 -402 0 0 584 0 0 6551 2450 2050 40 93 0 0 6137 107 6"1‘50.2 4250 22120 8'5B 5 ..N.:.O 2 5 0 0 0 0 0 9 1124 4036 0 0 69903 0 0 0 0 0 0 0 3909 0 0 an.+n�.+W w�wa..rw.na ma+ v— a..v.a,Nanr�r• HEATING Sensible (BTU /hr) 4387 3421 10989 0 0 518 0 0 793 2011 27247 0 9641 -4036 0 0 1;9a94Q.35 7,2.At 3374 32852 0 32852 0 0 0 0 + + + + »Total Conditioning 69903 3909 32852 + + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. AIR SYSTEM INFORMATION COOLING COIL SIZING DATA nuopienrinwot env 1.1. AIR SYSTEM SIZING SUMMARY Air. System.: Open Offices West 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** System Type • (SIM CAV) Number of Zones • 1 Floor Area • 3120 sqft Total coil load (Tons)...: Sensible coil load (Tons): Coil CFM at Jul 1600 Max coil airflow (CFM)...: Design supply temp (F)...: sqft /Tons • BTU /hr /sqft Water gpm @ 1OF rise CENTRAL HEATING COIL SIZING DATA Max coil load (BTU /hr)...: Coil airflow (CFM) Design supply temp (F)...: SUPPLY FAN SIZING DATA • 7.3 6.6 3080 3080 55.0 428.1 28.0 17.50 46989 3080 75.9 Actual airflow (CFM) 3080 Standard airflow (CFM)...: 3074 VENTILATION AIR DATA Airflow (CFM) • CFM /sqft 0.14 Load occurs at...: Jul 1600 OA DB /RH (F / %)...: 82.3/ 44.6 Entering Db /Wb...: 80.6/ 64.8 F Leaving Db /Wb • 56.6/ 55.2 F Coil ADP 54.0 F Bypass factor 0.100 Resulting RH 42 % BTU/hr/sqft Water gpm © 20F drop: 440 CFM /person 15.1 4.70 20.00 AIR SYSTEM DESIGN LOAD SUMMARY Air System.: Open Offices West 06 -20 -97 Weather • Tukwila, Washington HAP v3.04 Prepared By: The Greenbusch Group Inc Page 1 of 1 ****************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** COOLING AT • Jul @ 1600 HEATING AT Winter Design COOLING OA DB /RH..: 82.3 F / 45 % HEATING OA DB...: 24.0 F + + + ZONE LOADS Solar Loads Wall Transmission Roof Transmission Glass Transmission Skylight Transmission Door Transmission Floor Transmission Partitions Ceiling Lighting Equipment People Infiltration Miscellaneous Safety Factor »Total Zone Loads (1) Zone Conditioning (2) Plenum Wall Load Plenum Roof Load Plenum Lighting Load Return Fan Load Ventilation Load Supply Fan Load Space Fan Coil Fans Duct Heat Gain /Loss »Total System Loads Details 360 sqft 338 sqft 3120 sqft 360 sqft 0 sqft 0 sqft 0 sqft 480 sqft 0 sqft 1.20 W /sgft 2.00 W /sqft 22 people 10/ 5/ 10 % 0 % 0 % 0 % 440 CFM 3080 CFM 0 % COOLING Sensible Latent (BTU /hr) (BTU /hr) 21271 268 7850 149 0 - 0 - 0 - 160 0 12774 21291 5390 4510 145 183 0 0 6930 235 76228 4927 73995 4927 0 0 0 0 952 2530 4566 0 - 0 - 79513 HEATING Sensible (BTU /hr) 1155 6671 8137 0 0 0 158 0 1547 1767 19434 30264 0 21290 -4566 0 0 7458 46989 Central Cooling Coil 79513 7934 Central Heating Coil 0 - Precool Coil 0 0 Preheat Coil 0 Central Reheat Coil 0 Humidification Load 0 0 Terminal Reheat Coils 0 Space /Skin Heat Coils 0 + + + »Total Conditioning 79513 7934 46989 + + + + Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. 0 46989 0• 0 0 0 9 -23 -97 Mr. Jim Sylvester S.G.A. Corporation 6414 204' Street S.W. Suite 200 Lynnwood, Washington 98036 Dear Jim, Sincerely, Joseph J. Shutter, P.E. JS:js d : \jjs\doc\OW 8.doo Air mum. SHUTLER Milk ■ CONSULTING MP M ENGINEERS, INC. Re: Proposed Building #10 Gateway Corporate Center Gateway Drive Tukwila, Washington Pursuant to your request I have reviewed the roof structure for the weight of the roof mounted HVAC units AHU -1 through AHU -9. It is my understanding that the units are located as shown on the attached partial roof - framing plan. My review indicates that the roof structure will support these loads at the indicated locations. The supplier of the SSI roof purlins, Standard Structures Inc. is reviewing their product for these loads as well. Their review and a confirmation letter stating that this units are acceptable at the locations and loads indicated is required. Please send a copy of their review letter to my office upon your receipt of this information. Please review this and contact me if you have any questions regarding this matter. 12503 Bel -Red Road, Suite 100, Bellevue, WA 98005 • (425) 450 -4075 • FAX (425) 450.4076 EXPIRES 09 / 12 RECEIVED CITY OF TUKWILA OCT 0 7 1997 PERMIT CENTER <34' -0' [34' -0' 1-5.0 33•-01 K -5.0 1-5.0 5 • x251/2 GLB +1 ( i (TYP.) 3 D.S. ITS ICAL ]OR k _AN 31' -9 ] E TOP OF FRAMING 'U11. & SPRINKLER SYSTEMS ITED BY THE 2x6 STIF- ;.INEER. ALL MECHANICAL "ED ON OR NEAR THE VIEWED BY THE ENGINEER )WING THE SIZE. WEIGHT & SPRINKLER LINES SHALL LULAM FABRICATION. PSF MINIMUM NET _ 274' -10 Yk' � � O E-5.0 F 64'4 x33 GLB 6-5.0 63/4x33 GLB (1+ 63/4z37½ GLB + (F gal%) psi) (34*-0 L-5.0 33•-01 II-5.0 1-5.0 5 x251/2 GLB [31*-1114" 64'4x3415 GLB [31-101 [3v-9' 5% x3116 GIB R.D. T-6V4' A-5.0 34*-0", 5-5.0 D.S. ITS 1CAL IOR k R.0 FFENERS .c. 1.1 ANGER (TYP.) > A-5.0 24V-9W 50 io 50 46'-91/4" A-5.0 11 0 !V- O Ye 88' -14k 13*-61 e 3.3*-0 AIM AINI Mb III 1111111/ a6e__.'h3 Sill ER CO)NbULTING ENGINEERS, INC 1300-114th Ave SE, Suite 250 Bellevue, WA 98004 (206) 450-4075 FAX 450.4076 61)616.4 goof fon._ _ H. 1&2 e • 10(0 0 - 1 - ,4*1 - 4 J. oat 8111-Z JOB /4A 1 1 - SHEET NO. Ai" I OF CALCULATED BY .37,5 DATE 9-A3-92 CHECKED BY DATE SCALE Part.t...1 P 4) 2 fa L.14 3 01) 76 _yet ),,P' Sf ) 6:4 . jj •••••■ r -t pitEt___. . , Yor.: • A. - 3/,) r 5 , i • , ! _......:__..4_,.../t _ ; 1 .11111■-•. 8 - z • 1 °F &•)( Y3(.. , oprz v 9/(• /425 //V . ' ! 1 . • — - SH I ER - . Mk. COI•vatATING Mr Mil ENGINEERS, INC 1300 Ave SE, Suite 250 Bellevue, WA 98004 (206) 450-4075 FAX 450-4076 JOB 6/) / SHEET NO. CALCULATED BY ,fro6 CHECKED BY DATE OF DATE SCALE Iv,- Pr ag: - . 46/6 .vr frZ < . .. --- Parzi.bo G.) / tj , , 96 . oz LI. A 2P $o - Ci 1 4. / / 2 ) )(/ /6 II - 4r /70 ( j 1 1.14‘ . _ ..._... _ 07( i= (XX te 6 ) /1091 _ 1 -c"b p= i(ix.Y3X/061.- %IA* -- 0 7 ) 1997 SSI-JOIST CALCULATION Project Name: Gateway 10 Location: Tukwila ) ssI-Joist Description tt ( 1 ) 26.0-inch ssI 446R ti Top Flange SPF F8 2400 MSR tt Bottom Flange SPF F8 2400 MSR tt Web Material OSB Loading Point Loads: Number LL 1 0 lbs 170 lbs 170 lbs DL TL Uniform Loads: Number LL(PSF) DL(PSF) PL(PSF) 1 25,0 13.0 0.0 Maximum Bending Moment Maximum Horizontal Shear ssI-Joist Deflection : Live Load.... 0.645 : L / Dead Load.... 0.354 Total Load... 0.999 : L / Project Number: 97-16 Mark Number: rp08 Span (ft) 29.33 0. C. spacing (in) 96.00 Load Duration Factor 1.15 Repetitive Factor 1.00 TL(PSF) 38.0 Design Criteria Distance from left end 6.50 ft Triangular Loads: Number BEG - LL(PLF) BEG-DL(PLF) END - LL(PLF) END- DL(PSF) Beg )))))))))))) >)) NONE ((((((((((((l(( Design ssI-Joist Conc Load over (U.L.) Allowable two joists 33251 ( 37883 ) 0 4591 ( 5349 ) 0 546 353 10 :13 Beg End 0,0 29.3 End SSI Joists are fabricated by Standard Structures Inc. in accordance with 1C80 PFC -4325. This analysis is to confirm that the SSI joist noted above is designed and conforms with current Standard Structures specifications and code accepted design properties. The loads, spans and spacings have been provided by others, and have not been reviewed by Standard Structures for adequacy. This information should be reviewed by the designer for consistency with the project, 1 010595 ssi 5 1-13 -1997 SSI -JOIST CALCULATION Project Name: Gateway 10 location: Tukwila ssl-Joist Description :: ( 1 ) 26.0 -inch sal 446R Top Flange SPF F8 2400 MSR _* Bottom Flange SPF F8 2400 MSR :: Web Material OS8 Point Loads: Number LL 1 O lbs 2 Olbs Uniform loads: Number LL(PSF) 1 25.0 DL 500 lbs 765 lbs DL(PSF) 13.0 Loading TL 500 lbs 765 lbs PL(PSF) 0,0 Project Number: 97-16 Mark Number: rp08 10 :14 Design Criteria Span (ft) 29.33 0. C. spacing (in) 96.00 Load Duration Factor 1.15 Repetitive Factor 1.00 Distance from left end 6.50 ft 20.83 ft v/ TL(PSF) Beg End 38,0 0.0 29.3 Triangular Loads: ) Number BEG-LL(PLF) BEG-DL(PLF) END-LL(PLF) END - DL(PLF) )))))) >)))))))) NONE ((((((((((((((( Design ssI -Joist Conc Load over (U.L.) Allowable two joists Maximus Bending Moment 37618 ( 37883 ) 0 Maximum Horizontal Shear 5111 ( 5349 ) 0 ssI-Joist Deflection : Live Load.... 0,645 = L / 546 Dead Load,,.. 0.493 Total Load... 1,138 : L / 309 Beg End SSI joists are fabricated by Standard Structures Inc. in accordance with ICBO PFC -4325. This analysis is to confirm that the SSI joist noted above is designed and conforms with current Standard Structures specifications and code accepted design properties. The loads, spans and spacings have been provided by others, and have not been reviewed by Standard Structures for adequacy. This information should be reviewed by the designer for consistency with the project. 1 010595 ssi 13-1997 SSI-JOIST CALCULATION 10:23 reject Name: Gateway 10 Location: Tukwila _ ( 1 ) 26.0 -inch ssI 446R Top Flange SPF F8 t Bottom Flange SPF F8 t Web Material OSB ) ssI-Joist Description Point Loads: Number LL DL 1 0 lbs 350 lbs Uniform Loads: Number LL(PSF) 1 25.0 Maximum Bending Moment Maximum Horizontal Shear ssI -Joist Deflection : Live Load, Dead load,, Total Load 2400 MSR 2400 MSR Loading 0L(PSF) PL(PSF) 13.0 0.0 TL 350 lbs . 0.645 = L / 546 . 0.383 . 1.028 = L / 342 Project Number: 97-16 Mark Number: rpOB Span (ft) 29.33 0. C. spacing (in) 96,00 Load Duration Factor 1.15 Repetitive Factor 1.00 TL(PSF ) 38.0 Design Criteria Triangular Loads: Number BEG- LL(PLF) BEG-DL(PLF) END - LL(PLF) END-DL(PLF) ) >)))))))))) >)) NONE l(((((((((((((( Distance from left end 20.83 ft Design ssI -Joist Conc Load over (U.L.) Allowable two joists 34219 ( 37883 ) 0 4706 ( 5349 ) 0 Beg End 0,0 29,3 Beg End I joists are fabricated by Standard Structures Inc. in accordance with BO PFC -4325. This analysis is to confirm that the SSI joist ted above is designed and conforms with current Standard Structures ecifications and code accepted design properties. The loads, spans and acings have been provided by others, and have not been reviewed by Standard ructures for adequacy. This information should be reviewed by the designer r consistency with the project. 1 010595 ssi MIN 1 41111111 SH( ER 1111111111 CONSULTING NW 1 11111 ENGINEERS, INC 1300-114th Ave SE, Suite 250 Bellevue, WA 98004 (206) 450-4075 FAX 450-4076 JOB 4/14_ r 10 SHEET NO. g — (. CALCULATED BY . CHECKED BY OF DATE DATE - 7 SCALE if II 1 , 1 _ Put Li 1.3 _ ire 3 lig Si+ e, v s..) y cY2.)( ( ,cov. P.= r • scrir nis Mr gri- 02 .11A-1 Stipp ogwo s w+tp 4 • 1 I . . • i 4 -1 — Pagt. (e) r 9 -13 -1997 SSI-JOIST CALCULATION 10:49 7• ac/id Project Name: Gateway 10 Location: Tukwila ssI -Joist Description _t ( 1 ) 26.0-inch ssI 446R xe Top Flange SPF F8 ti Bottom Flange SPF F8 i= Web Material OH Point Loads: Number LL 1 0 lbs 170 lbs Uniform loads: Number LL(PSF) 1 13.0 Maximum Bending Moment Maximum Horizontal Shear ssI -Joist Deflection : Live Load, Dead Load Total Load 2400 MSR 2400 MSR Loading DL TL Distance from left end 1 170 lbs DL(PSF) PL(PSF) 25.0 0.0 Triangular Loads: Number BEG-LL(PLF) BEG- DL(PLF) END- LL(PLF) END- DL(PLF) )))))) >)) >l > ») NONE ((((((((((((((( Design ssI -Joist Conc Load over (U.L.) Allowable two joists 35912 ( 37883 ) 0 4771 ( 5349 ) 0 0.388 : L / 943 . 0.766 1.154 : L / 317 Project Number: 97 -16 Mark Number: RPO7 Span (ft) 0. C. spacing (in) Load Duration Factor Repetitive Factor TL(PSF ) 38,0 Design Criteria 6.50 ft 30.50 96.00 1.15 1.00 Beg End 0.0 30.5 Beg End iSI joists are fabricated by Standard Structures Inc. in accordance with :CBO PFC -4325. This analysis is to confirm that the SSI joist toted above is designed and conforms with current Standard Structures specifications and code accepted design properties. The loads, spans and Ipacings have been provided by others, and have not been reviewed by Standard structures for adequacy. This information should be reviewed by the designer or consistency with the project. A 010595 ssi -13-1997 SSI-JOIST CALCULATION 10:48 Project Same: Gateway 10 Location: Tukwila ssI-Joist Description :* ( 1 ) 26.0-inch ssI 446R 11 Top Flange SPF F8 2400 MSR se Bator§ Flange SPF F8 2400 MSR x: Web Material 0$B Loading Point Loads: Number LL 1 0 lbs 504 lbs 504 lbs DL TL Uniform Loads: Number LL(PSF) DL(PSF) PL(PSF) 1 13.0 25.0 0.0 Project Number: 97-16 Mark Number: RPO7 Design Criteria Span (ft) O. C. spacing (in) Load Duration Factor Repetitive Factor Triangular Loads: Nueber BEG-LL(PLF) BEG-DL(PLF) END-LL(PLF) END-DL(PLF) ))))))))))))))) NONE ((((((((((((((( Distance from left end 6.50 ft TL(PSF) Beg End 38.0 0.0 30.5 Design ssI-Joist Cone Load over (U.L.) Allowable two joists Maximum Bending Moment 37007 ( 37883 ) 0 Maximo Horizontal Shear 5033 ( 5349 ) 0 ssI-Joist Deflection : Live Load.... 0,388 = L / 943 Dead Load.— 0.805 Total Load... 1.193 = L / 307 30.50 96.00 1.15 1.00 Beg End SI joists are fabricated by Standard Structures Inc. in accordance with CB0 PFC-4325. This analysis is to confirm that the SST joist Ited above is designed and conforms with current Standard Structures pecifications and code accepted design properties. The loads, spans and pacings have been provided by others, and have not been reviewed by Standard tructures for adequacy. This information should be reviewed by the designer or consistency with the project. 1 010595 ssi gait-- MM141111 Ina III NW VIII 111-144 71// Slit" ER CO. JLTING , ENGINEERS, INC 1300-114th Ave SE, Suite 250 Bellevue, WA 98004 (206) 450-4075 FAX 450-4076 ( 4111 _be f5p_ 3 /1\58 / - - - - - - . - --e= ' (,)(5a) -36- - - - it GS; • • • fal x) /9 • -- _ . e ill+ (1 )61/312i/l)r; . JOB 7 n 4 J/ SHEET NO Z ,g• OF CALCULATED BY -.77.5 DATE 9 - 7 CHECKED BY DATE SCALE 1 01‘ 90 - 4/n 7 v r .40 13-1997 SSI -JOIST CALCULATION roject Name: Gateway 10 Location: Tukwila ssI -Joist Description t ( 1 ) 28.0 -inch ssI 446R t To Flange SPF F5 2700 MSR t Bottom Flange SPF F5 2700 MSR t Web Material OSB Point Loads: Number LL 1 O lbs 2 0 lbs Uniform Loads: Number LL(PSF) 1 13.0 DL 316 lbs 316 lbs DL(PLF ) 25.0 Loading TL 316 lbs 316 lbs PL(PSF) 0.0 Project Number: 97 -16 Mark Number: RPO5 Design Criteria Span (ft) 32.00 0. C. spacing (in) 96.00 Load Duration Factor 1.15 Repetitive Factor 1.00 TL(PSF ) 38.0 Triangular Loads: ) Number 8E6-LL(PLF) BEG-DL(PLF) END-LL(PLF) END - DL(PLF) ))) >))))))))))) NONE ((((((((((((((( Design ssI -Joist Cone Load over (U.L.) Allowable two joists Maximum Bending Moment 42868 ( 46417 ) 0 Maximum Horizontal Shear 5250 ( 5807 ) 0 ssI-Joist Deflection : Live Load,... 0.363 = L / 1059 Dead Load.... 0.796 Total Load,.. 1.158 = L / 332 12:29 Distance from left end 9.00 ft 16.00 ft ✓" Beg End 0,0 32.0 Beg End ;I joists are fabricated by Standard Structures Inc. in accordance with :80 PFC -4325. This analysis is to confirm that the SSI joist )ted above is designed and conforms with current Standard Structures )ecifications and code accepted design properties, The loads, spans and 'acings have been provided by others, and have not been reviewed by Standard mIctures for adequacy. This information should be reviewed by the designer )r consistency with the project, 1 010595 ssi 13-1997 SSI-JOIST CALCULATION roject Name: Gateway 10 Location: Tukwila ssI -Joist Description _ ( 1 ) 28.0 -inch ssI 446R * Top Flange SPF F5 2700 MSR 4 Bottom Flange SPF F5 2700 MSR * Web Material OS8 Point Loads: Number LL 1 O lbs 2 Olbs Uniform Loads: Number LL(PSF) 1 13.0 DL 108 lbs 108 lbs DL(PSF) 25.0 Loading PL(PSF) 0.0 Design (U.L.) TL 108 lbs 108 lbs Project Number: 97-16 Mark Number: RPO5 Span (ft) 32.00 0, C. spacing (in) 96.00 Load Duration Factor 1.15 Repetitive Factor 1.00 TL(PSF) 38.0 Design Criteria Triangular loads: Number BEG-LL(PLF) BEG - DL(PLF) END - LL(PLF) END-DL(PLF) > >)) > >))))))))) NONE ((((((((((((((( J ssI-Joist Conc Load over Allowable two joists Maximum Bending Moment 40272 ( 46417 ) 0 Maximum Horizontal Shear 4996 ( 5807 ) 0 ssI-Joist Deflection : Live Load.... 0.363 = L / 1059 Dead Load,.,, 0.731 Total Load... 1.094 = L / 351 12:30 Distance from left end 9.00 ft 16,00 ft Beg End 0.0 32.0 Beg End iI joists are fabricated by Standard Structures Inc. in accordance with ;80 PFC-4325, This analysis is to confirm that the SSI joist )ted above is designed and conforms with current Standard Structures )ecifications and code accepted design properties. The loads, spans and )acings have been provided by others, and have not been reviewed by Standard :ructures for adequacy. This information should be reviewed by the designer )r consistency with the project. 1 010595 ssi MI MIN SH' .ER _• - C �� ENGINEERS, INC s ir 7 1300 -114th Ave SE, Suite 250 Bellevue, WA 98004 (206) 450 -4075 FAX 450-4076 1 - a, ILG_G.�41 3 ,9)/ G _.. G 1 S 40 PP f'p ? / SHEET NO, JOB 6>i 7 ' /0 ti 4" - / L CALCULATED BY DATE 9 - /3 - /, CHECKED BY DATE SCALE 4 9 OF 4 ' Arok.d. /2103 [F5) ?- 13-1997 SSI-JOIST CALCULATION 13 :06 Project Name: Gateway 10 Location: Tukwila ssI-Joist Description ss ( 1 ) 28.0 -inch ssI 446R s: Top Flange SPF F5 2700 MSR 8* Bottom Flange SPF F5 2700 MSR ss Web Material OSB Point Loads: Number LL 1 0 lbs 600 lbs Uniform Loads: Number LL(PSF) 1 13.0 DL(PSF) 25.0 Loading 600 lbs PL(PSF) 0.0 Project Number: 97 -16 Mark Number: RPO2 TL(PSF) 38.0 Design Criteria DL TL / Distance Span (ft) 32.25 0. C. spacing (in) 96,00 Load Duration Factor 1.15 Repetitive Factor 1.00 Triangular Loads: Number BEG-LL(PLF) BEG-DL(PLF) END -LL(PLF) END-DL(PLF) Beg ))) > >)))))))))) NONE ((((((((((((((( from left end 7.00 ft Design ssI-Joist Conc Load over (U.L.) Allowable two joists Maximum Bending Moment 41648 ( 46417 ) 0 Maximum Horizontal Shear 5373 ( 5807 ) 0 ssI -Joist Deflection : Live Load..., 0.373 = L / 1037 Dead Load.... 0.782 Total Load... 1.155 = L / 335 Beg End 0.0 32.3 End SSI joists are fabricated by Standard Structures Inc. in accordance with ICOO PFC -4325. This analysis is to confirm that the SSI joist noted above is designed and conforms with current Standard Structures specifications and code accepted design properties. The loads, spans and spacings have been provided by others, and have not been reviewed by Standard Structures for adequacy. This information should be reviewed by the designer for consistency with the project. $ 010595 ssi , 3- 13-1997 SSI-JOIST CALCULATION 13:06 ■ l Project Name: Gateway 10 Location: Tukwila ssI -Joist Description tt ( 1 ) 28.0 -inch ssI 446R :: Top Flange SPF F5 2700 MSR :: Bottom Flange SPF F5 2700 MSR tt Web Material 0S8 Point Loads: Number LL 1 O lbs Uniform loads: Number LL(PSF) 1 13.0 DL 300 lbs DL(PSF) 25.0 Loading PL(PSF) 0.0 Project Number: 97 -16 Mark Number: RPO2 Span (ft) 0, C. spacing (in) Load Duration Factor Repetitive Factor TL(PSF) 38.0 Design Criteria Triangular Loads: Number BEG-LL(PLF) BEG - DL(PLF) END-LL(PLF) END - DL(PLF) Beg ))))))) >))))))) NONE ((((((((((((((( Design ssI -Joist Conc load over (U.L.) Allowable two joists Maximum Bending Moment 40583 ( 46417 ) 0 Maximum Horizontal Shear 5138 ( 5807 ) 0 ssI -Joist Deflection : Live Load.... 0.373 = L / 1037 Dead Load..,, 0.750 Total Load... 1.123 = L / 345 32.25 96.00 1.15 1.00 TL , from left end 300 lbs 7.00 ft Beg End 0.0 32.3 End SSI joists are fabricated by Standard Structures Inc. in accordance with IC80 PFC-4325, This analysis is to confirm that the 551 joist noted above is designed and conforms with current Standard Structures specifications and code accepted design properties. The loads, spans and spacings have been provided by others, and have not been reviewed by Standard Structures for adequacy. This information should be reviewed by the designer for consistency with the project, 1 010595 ssi SUBMITTAL Tag: SHE'PARD AIM %)LANCE All dimensions are in inches FILTER ACCESS DOOR HORIZONTAL ONLY DOWNFLOW CONDENSATE DRAIN CONNECTION 1.00 NPT Unit Model No. YCD150C4 VOIPIGOGW TRAM' 1 \2' NPT GAS INLET Ct. CARANCC GO' WI* - \ ` 00 1 CL( ARANCC GO' Table 1 Unit Wiring 2 DIA. HOLE UNIT POWER WIRES Unit Operating Voltage Range CLCARN/CC WtlrOrrtAl la tovwinV 30 NI X. CLCAR CC 40' Minimum Circuit Ampacity (Standard /Oversize) 414.506 Gil NOTES: 1. HACR breaker per NEC. 2. Values do not Include power exhaust accessory. Table 2 Unit Wiring with Power Exhaust 32/35 3" la' Accessory Accessory Operating Model No. Voltage Phase HP 1— BAYPWRXO17B 460 1 3/4 41004;4 Gib Table 3 Accessory Net Weights (Lbs)1' 2 Unit Model No. YCD150C Economizer Outside Air Damper Net 40 Motorized Manual 35 32 Roof Curb 165 1 1/2' PERIMETER CURB FLANGE 7 7/16' 59 1/0' 55 7/16' 1040 High Static Drive 2 NOTES: 1. Net weight should be added to unit weight when ordering factory installed accessories. SERVICE GAUGE PORT ACCESS Maximum Fuse Size Or Maximum Circuit Breaker' (Standard /Oversize) 40/45 rmiemml 2W2C Amps RPM FLA LRA .5 Oversized Motor Adder 5 7/0' DIA. HOLE (UNIT CONTROL WIRES> YCD 150 -SQ- 233.01 12 Ton Downflow Gas /Electric Packaged Unit YCD150C 3.2 8.4 Hard Start Kit N/A NOTE: Duct flanges mount 7-7116" down inside the curb on the 1 -112' curb flanges. See recommended duct dimensions on the next page. LPG Conversion Kit 5 All Zone Sensors 1 Power Exhaust 75 CITY OF OCT 0 7 1997 PERMIT CENTER Table 4 General Data Cooling Performance' Gross Cooling Capacity EER Nominal CFM /ARI Rated CFM ARI Net Cooling Capacity Integrated Pa Load Value System Power KW Heating Performance Heating Models Heating Input (Btuh) 1st Stage (2 Stage Only) Heating Output (Btuh) 1st Stage (2 Stage Only) AFUE % Steady State Efficiency ( %) No. Burners No. Stages Gas Connection Pipe Size (in.) YC0150C3, C4, CWL 151,000 8.3 5,000/4,400 142,000 8.7 17.11 Low Nigh 150,000 2410,1190 100,000 10490 122,000 28411000 81,000 lye} )e0 81.0 111!3 81 411 1 2 1/2 Compressor No/Type 2/CNmatuffe Sound Rating (BELS) 9.2 Outdoor Coil -Type HI-Performance Tube Size (in.) OD .375 Face Area (sq ft) 23.93 Rows/FPI 2/16 Indoor Coil -Typo Hi•Performance Tube Size (in.) .375 Face Area (sq ft) 12.63 Rows/FPI 3/15 Refrigerant Control Short Orifice Drain Connection NoJSize (in.) 1/1.00 NPT Outdoor Fan -Type Propeller No, Used/Diameter(in.) 1/26 Drive Type/No. Speeds Direct/1 CFM 7.800 No. Motors/HP 1/1.0 Motor RPM 1.125 Indoor Fan -Type FC Centrifugal No. Used/Diameter (in.) 1/15 x 15 Drive Type/No. Speeds Belt/1 No. Motors 1 Motor HP (Standard /Oversized) 3.0/5.0 Motor RPM (Standard /Oversized) 1,740/3,450 Motor Frame Size (Standard /Oversized) 145T/145T Filters - Typo /Fumished7 (No.) Size Recommended Throwaway/Yes (3116x20x2 (3)20x20x2 Refrigerant Charge (Lbs. of R•221 8.9/9.8/Circuit NOTES: 1. Cooling Performance Is rated at 95F ambient, 80 F entering dry bulb, 67 F entering wet bulb. Gross apathy does not Include the effect of fan motor heat ARI apadhy is net and includes the effect of fan motor heat. Units are suitable for operation to s 20% of nominal dm. Rated In aoordance with ARI Standard 210. 2. EER is rated at MI conditions and In accordance with DOE test procedures. Factory Installed options for oversize motors. multiply net capacity x 96. EER x 99. This Is provided in compliance with ARI certification program. 3. Integrated Pan Load Value is based on ARI Standard 210. Units are rated at 80 F ambient 80 F entering dry bulb. and 67 F entering wet bulb at MI rated dm. 4. Heating Performance Nmit settings and sting data were established and approved under laboratory test conddons using American Nadonal Standards Institute standards. Ratings shown are for elevations up to 2.000 feet For elevations above 2. 000 feet, ratings should be reduced at the rate of 4% for each 1,000 bet above see level. 5. AFUE and Steady State Effidency are rated In accordance with DOE test procedures. 6, Sound Rating Is Hued in accordance with ARI Standard 270. 7. Refdgerant charge is an approsdmate value. For a more precise value. see unit nameplate and service instructions. ■ All dimensions are in inches 33'/ Power Exhaust Side View NOTE: Duct flanges mount 7- 7/16" down inside the curb on the 1 -1 /2" curb flanges. ECONOMIZER END PANEL Power Exhaust End Panel View PANEL ECONOMIZER STANDARD END PANEL OF UNIT FRESH AIR HOOD (MANUAL) CENTER OF GRAVITY WIDTH A 0 CENTER OF GRAVITY r ___ CENTER OF GRAVITY LENGTH 3 CONDENSATE LOCATION r -� S I u I P 1 47.3/16 L Y l� Table 5 Maximum Weights, Comer Weights And Center Of Gravity Dimensions? R E T U R N I ra ^-- 141 L J • 1 1 \2' PERIMETER CURB FLANGE Maximum Weights (Lbs) Comer Weights (LbsP' Center of Gravity (In.) 54.13/16 4.1/4 C -- 7 Shipping Net A 6 CD Length Width 1599 1300 430 342 234 294 42" 26" NOTES: 1. Comer weights are given for Information only. Unh is to be supported continuously by a curb or equivalent frame support. 2. For comer weights unit location see diagram. CFM Airflow Bulb (F) 01 67 73 61 67 73 61 67 73 61 67 . 73 MBH SHO MOH SHC MBH SIC MBH SHC MBH SHC MOH SHC MBH SHC MBH SHC MBH SHC MOH SHC MBH SHC MBH SHC 75 139.0 113,0 157.0 88.8 166.0 60.3 127.0 107.0 148.0 83.9 160.0 56,8 115.0 101.0 136.0 78.4 152.0 52.8 102.0 94.7 122.0 77.3 142.0 48.3 4500 80 140.0 135.0 157.0 109.0 167.0 82.0 128.0 128.0 148.0 105.0 161.0 78,2 119.0 119.0 136.0 99.3 153.0 73,9 108.0 108.0 122.0 92.8 143.0 69.2 85 148.0 148.0 158.0 129.0 168.0 99.1 139.0 139.0 149.0 126.0 162.0 97.0 129.0 129.0 137.0 121.0 153.0 93.9119.0119.0124,0114.0143.0 89.9 90 156.0 156.0 159.0 149.0 170,0 117.0 148.0 148.0 148.0 148.0 163.0 116,0 139.0 139.0 140.0 138.0 154.0 113.0 129.0 129.0 129.0 129.0 143.0 110.0 75 142.0 120.0 159.0 92.0 167.0 60.9 131.0 114.0 151.0 87.5 161,0 57.6 118.0 107.0 139.0 82.1 153.0 63.8 03.0 103.0 125.0 75.7 144.0 49,2 5000 00 143.0 143.0 160.0 113.0 168,0 82.6 135.0 134.0 151.0 110.0 162.0 80.4 124.0 124.0 140.0 105.0 154.0 76.8 113.0 113.0 126.0 98.7 144.0 72.1 05 153.0 153.0 161.0 135.0 170.0 101.0 145.0 145.0 152.0 133.0 163.0 99.9 135,0 135.0 141.0 128.0 155.0 97.5 124.0 124.0 128.0 122.0 145.0 94.1 90 160.0 160.0 162.0 156.0 171.0 120.0 153.0 153.0 153.0 153.0 165.0 120.0 145.0 145.0 145.0 145.0 156.0 118.0 135.0 135.0 135.0 135.0 146.0 116,0 75 146.0 126.0 160.0 94.4 168.0 61.9 134.0 120.0 153.0 90,9 162.0 58.6 121.0 114.0 142.0 85.6 155.0 54.7 106.0 106.0 128.0 79.4 145.0 50.1 5500 80 149.0 148.0 161,0 117.0 169.0 83.9 139.0 139.0 153.0 115.0 164.0 83.1 129.0 129.0 142.0 110.0 155.0 70.9118.0118,0128.0104.0146.0 74.8 85 157.0 157.0 163.0 140.0 171.0 103.0 149.0 149.0 154.0 139.0 165.0 102.0 140.0 140.0 144.0 135.0 157.0 101.0 129.0 129.0 129.0 129.0 147.0 97.9 90 164.0 164.0 164,0 164.0 173.0 123.0 157.0 157.0 157.0 157.0 166.0 123.0 149.0 149.0 149.0 149.0 158.0 123.0 139.0 139.0 139.0 139.0 148.0 121.0 75 148.0 132.0 162,0 96.6 169.0 62.8 138.0 126.0 154.0 93.7 183.0 59.6 121.0 121.0 144,0 88.9 156.0 55.5 110.0 110.0 130.0 82.9 146.0 51.0 6000 80 152.0 152.0 163.0 120.0 170.0 86.9 143.0 143,0 155.0 119.0 165.0 84.7 133.0 133.0 144.0 115.0 156.0 80.6 122.0 122.0 131.0 110.0 147.0 77.1 85 160.0 160.0 164.0 144.0 172,0 106.0 153.0 153.0 156.0 144.0 166.0 105.0 144.0 144.0 144.0 144.0 158.0 103,0 133.0 133.0 133.0 133.0 149.0 101.0 90 166,0 166.0 166.0 166.0 174.0 125,0 160.0 160.0 160.0 160.0 168.0 126.0 152.0 152.0 152.0 152.0 160.0 127.0 143.0 143.0 143.0 143.0 149.0 126.0 1a, Table 6 Gross Cooling Capacities ( .1) 12'/2 Ton Three Phase YCD150C3, C4, L. ., ' Unit Model No, V61345007 YCD150C4 4 0061461 411/ Heat •:�* Low Enter 85 95 NOTES: 1. AI capacities shown are gross and have not considered Indoor fan heat. To obtain net cooling subtract Indoor lan heat. 2. MOH • Total Gross Cooling Capacity 3. 5110 a Sensible Heat Capacity Table 7 Electrical Characteristics - Motors - 60 Cycle Unit Model No. Y Heating Stages 2 NOTE: 1. High/Low Speed Standard Evaporator Fan Motor Amps No. Volts Phase HP FLA LRA 1 2 ^9 "" 7 3.99 19.5 01.0 1 460 3 3.00 4.8 40.6 No. Volts Phase NOTES: 1. Amp draw for each motor; multiply value by number of motors to determine total amps. Table 9 Combustion Blower Motor Data HP RPM' 1/20 3500/2800 HP Volts 208.230 Compressor Motors RPM Ambient Temperature Phase 1 4 Enterirxt Wet Bulb RLA No. Amps' LRA Amps 105 Volts 209 230 460 No. FLA LRA 0.5 0.78 Oversized Evaporator Fan Motor Phase 2 Table 8 Electrical Characteristics Compressor Motor And Condenser Motor - 60 Cycle Phase HP 115 Amps Condenser Fan Motors Amps' FLA LRA YC0160C4 2 460 3 6.25 3450 10.6 1.00 2.9 9.3 HP FLA LRA 5. 9 1C.7 189.8 7 5.00 7.6 54.9 4, 1.6 I Table 10 Evaporator Fan Performance External Static Pressure (Inches of Water) .10 .20 .30 .40 .50 .60 .70 .80 .90 1.00 1.10 1.20 1.30 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 3 HP Standard Motor & Field Supplied Low Static Drive (11 3 HP Standard Motor & Drive (2) 4000 604 1.11 647 1.27 687 1.44) 723 1.60 756 1.75 787 1.90 818 2.06 848 2.23 877 2.40 906 2.58 933 2.77 960 2.96 987 3.15 4500 669 1.53 706 1.71 745 1.90 780 2.09 811 2.27 841 2.44 869 2.60 896 2.77 923 2.96 950 3.15( 977 3.341002 3.54 1027 3.75 5000 35 2. 770 2.25 804 2.46 837 2.67 868 2.89 897 3.08 923 3.27 949 3.451 974 3.64 999 3.83 1023 4.03 1048 4.24 1072 4.46 5500 802 2.70 834 2.90 865 3.13 896 3.36 926 3.60 954 3.83 900 4.04 1004 4.25 1028 4.46 1051 4.66 1074 4.87 1096 5.07 1119 5.30 6000 869 3.46 898 3.68 928 3.92 956 4.17 984 4.42 1011 4.68 1037 4.94 1061 5.18 1064 5.40 1106 5.63 5 HP Oversize Motor & Drive For Standard Evapaalor Fan Speed (RPM) reference Tads 11 For Oversize Evaporator Fan Speed (RPM). reference Table 12. Data includes pressure drop due to fiitera and wet cals. Fan motor heat (MBH) - 3.15 x Fan Bhp. NOTES: 1. Field Supplied Fan Sheave BK90 Required, Field Supplied Bett may be 2 3 HP Standard Motor vAth Field Supplied Motor Sheave Si/P44 Required. 3. 5 HP Oversize Motor with Field Supplied Not Sheave 1 Required. 6 Turns Open 869 Table 13 CFM 4000 5000 6000 Trane's factory supplied motors, In commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result In nuisance tripping or premature motor failure. Our Necessary. product's warranty will not be affected. Field Supplied Bah may be Necessary. Field Supplied Bell may be Necessary. Table 10 (Continued) Ewen . atic • essure 1.40 1.50 1.60 1.70 1.80 1.90 2.00 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP (2) 5 HP Oversize Motor & Drive 1013 3.34 1038 3.54 1063 3.74 1067 3.95 1111 4.10 1134 4.37 1156 4.58 1052 3.96 1076 4.17 1100 4.38 1123 4.60 1146 4.82 1168 5,05 1190 5.28 1095 4.68 1118 4.90 1140 5.13f1163 5.36 1184 5.601 - 1141 5.531 0.08 0.12 0.17 ater CFM 4000 4500 5000 5500 6000 Standard Motor And Sheave /Fan Speed (RPM) 6Tums 5Tums •• 3T rr 1 Tum Open 0..n 756 807 857 Table 12 Oversize Motor And Sheave /Fan Speed (RPM) 5 Tums Open 923 Static Pressure Drops Through Accessories (Inches Water Cnlumnl Economizer with OA/RA Dampers' Filters 100% OA 100% RA 0.19 023 028 NOTES: 1.OA. Outside Mr and RA - Return Alf. 4 Tums Open 978 0.07 0.12 0.17 Table 14 Gas Fired Heating Capacities Unit Model No. Heating Input MBh YCD150C -1.' 150/100 Yri" COC 11' 3 Tums Open 1032 NOTES: 1. Second Stage Is total heating capacity. Second Stage / First Stage 5 2 Turns Open 1087 Heating Output MBh 122)81 Open Closed N/A 1 Tum Open Closed 1141 N/A Air Temperature Rise Range 10-40 General Units shall be dedicated downflow airflow. Operating range shall be between 115 °F and 0 °F cooling as standard from the factory for all units. Cooling performance shall be rated in accordance with DOE and/or ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -22, and 100% run tested before leaving the factory. Wiring intemal to the unit shall be colored and numbered for simplified identification. Units shall be UL listed and labeled, classified in accordance to ANSIZ21.47 for gas fired central furnaces and 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. Exterior surfaces shall be cleaned, phosphatized, and finished with a weather - resistant baked enamel finish. Unit's surface shall be tested 500 hours in a salt spray test in compliance with ASTM B117. Cabinet construction shall allow for all mainte- nance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing not more than three screws providing a water and air tight seal. All exposed vertical panels and top covers in the indoor air section shall be insulated with fire - resistant, permanent, odorless glass fiber material. The base of the downflow unit is insulated with a foil - faced, closed -cell material. The downflow units base pan shall have no penetrations within the perimeter of the curb other than the raised 1'/e" high supply /return openings to provide an added water integrity precaution should the condensate drain back up. The base of the unit shall have provisions for forklift and crane lifting. Mechanical Specifications Unit Top The top cover shall be one piece or where seams exist, it shall be double hemmed and gasket sealed to prevent water leakage. Filters Units shall bo provided with 2" throwaway filters as standard. Compressors All units shall have direct drive hermetic, reciprocating type compressor(s) with centrifugal oil pump providing positive lubrication to moving parts. Motor shall be suction gas - cooled and shall have a voltage utilizationrange of plus or minus 10 percent of unit nameplate voltage. Crankcase heater, internal temperature, and current- sensitive motor overload shall be included for maximum protection. Shall have internal spring Isolation and sound muffling to minimize vibration transmission and noise. Low pressure switches shall be standard. Refrigerant Circuits Each refrigerant circuit shall have independent capillary expansion devices, service pressure ports, and refrigerant line fitter driers factory installed as standard. An area shall be provided for replacement suction line driers. Evaporator And Condenser Coils Internally finned 3 /e" copper tubes mechanically bonded to configured aluminum plate fin shall be standard. Coils shall be leak tested at the factory to ensure pressure integrity. The evaporator coil and condenser coil shall be leak tested to 200 psig and pressure tested to 450 psig. Gas Heating Section The heating section shall have a drum and tube heat exchanger design using corrosion resistant steel components. A forced combustion blower shall supply premixed fuel to a 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, tho combustion shall purge the heat exchanger 45 seconds before ignition. After three unsuccessful 6 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. Units shall have two stage heating. Outdoor Fans The outdoor fans shall be direct drive, statically and dynamically balanced, and draw through in the vertical discharge position. The fan motors shall be permanently lubricated and have built -in thermal overload protec- tion. Indoor Fan Units shall have an adjustable idler -arm assembly for quick - adjustment to fan belts and motor sheaves. All motors shall be thermally protected. Oversized motors will be available for high static operations. Controls Unit shall be completely factory wired with necessary controls and contactor pressure lugs or terminal block for power wiring. Units shall provide an external location for mounting a fused disconnect device. Micro - processor 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 Micro - processor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. Nti N ( Mechanical Specifications Accessories Roof Curb —The roof curb shall be designed to mate with the downflow unit and provide support and a watertight installation when installed properly. The roof curb design shall allow field- fabricated rectangular supply/return ductwork to be con- nected directly to the curb. Curb design shall comply with NRCA requirements. Curb shall ship knocked down for field assembly and include wood nailer strips. Economizer —This accessory shall be either field or factory installed. The assembly Includes — fully modulating 0 -100% motor and dampers, baromet- ric relief, minimum position setting, preset linkage, wiring hamess with plug, and fixed dry bulb control. Solid state enthalpy and differential enthalpy control shall be a factory- supplied, field - installed accessory. The f actory- installed economizer arrives in the shipping position and shall bo moved to the operating position by the installing contractor. Remote Potentiometer — The minimum position setting of econo- mizer shall be adjusted with this accessory. Powered Exhaust —The powered exhaust shall assist the barometric relief damper in the economizer in relieving building pressurization. Motorized Outside Air Dampers — Manually set outdoor air dampers shall provide up to 50 percent outside air. Once set, outdoor air dampers shall open to set position when indoor fan starts. The damper shall close to the full closed position when indoor fan shuts down. Manual Outside Air Damper — Field installed rain hood and screen shall provide up to 25% outside air. Oversized Motors — Field or factory installed oversized motors shall be available for high static applications. High Static Drive — Field installed high static drive option shall allow the standard motor to operate with improved external static capabilities. 7 Control Options Trane Communication Interface (TCI) —Shall be provided to interface with the Trane Integrated Comfort"" systems. Zone Sensors — Shall be provided to interface with the Micro equipped Voyagers and shall be available in either manual, automatic programmable with night setback, with system mal- function lights or remote sensor options. Conventional Thermostat Interface (am —This field - installed circuit board shall provide interface with electro- mechanical thermostats or automation systems. Differential Pressure Switches — This field installed option allows individual fan failure and dirty fitter indication. The fan failure switch will disable all unit functions and "flash" the Service LED on the zone sensor. The dirty filter switch will light the Service LED on the zone sensor and will allow continued unit operation. Input/Output Expansion Accessory — This kit allows Integrated Comfort" Systems to read Supply Air Tempera- ture, Retum Air Temperature, Return Air Humidity, and direct indication of fan failure without the use of an economizer or motorized outside air accessory. Electronic Time Clock — This field installed accessory allows up to 4 units night set -back and unoccupied functions when using a standard (Dual Setpoint) zone sensor module. TRAHE TM All dimensions are in inches fLTER ACCESS DOOR HORIZONTAL so' CLEARANCE 36 J /e. 1/2 NPT CAS INLET �� 7 /e' a S/ `% y al% CLEARANCE 40 (AN..»3 as 3/e' CLEARANCE I9 HORIZONTAL 36 DOWNFLOW PICAL ROOF OPENING ›% 42 46 % CLEARANCE 36 Table 1 Unit Wiring Minimum Maximum Fuse Size Or Unit Circuit Maximum Unit Operating Ampacity Circuit Breaker' Model No. Voltage Range (Standard /Oversize) (Standard/Oversize) YCD120C4 414 -506 31/34 40/40 NOTES: 1. HACR breaker per NEC. 2. Values do not include power exhaust accessory. Table 2 Electrical Characteristics — Power Exhaust Accessory Accessory Model No. BAYPWRX0170 45 t/2' A ,�9l W � 7 /e' IA. HOLE (UNIT CONTROL WIRES) 2 01A. HOLE (UNIT POWER WIRES) Accessory Operating Voltage 460 YCD 120 -SQ- 232.02 Phase 1 Table 3 Accessory Net Weights (Lbs)1, 2 10 Ton Downflow Gas /Electric Packaged Unit YCD120C HP 3/4 RPM 1040 Amps FLA LRA 3.2 8.4 Economizer Outside Air Damper Oversized LPG All Roo( Motor Conversion Zone Power Net Motorized Manual Curb Adder Kit Sensors Exhaust 40 35 32 82 5 5 1 65 NOTES: 1. Net weight should be added to unit weight when ordering factory installed accessories. 2. Factory Installed options for economizers, multiply nel capacity x .99. EER X .97. For oversize motors, multiply net capacity x .98, EER x .93. This Is provided in compliance with ARI certification program. Table 4 General Data Cooling Performance' Gross Cooling Capacity EER Nominal CFM /ARI Rated CFM ARI Net Cooling Capacity Integrated Part Load Value System Power (KW) + YCD120C3, C4, CWL 125,000 9.0 4,000/3,500 117,000 8.9 13.00 Heating Performance Heating Models Low Medium Heating Input (Btuh) 135,000 2409!880 1st Stage (2 Stage Only) 1M!•!0 Heating Output (Btuh) 105,000 1M»00 1 st Stage (2 Stage Only) 132.000 AFUE% 81.0 1141e Steady State Efficiency ( %) 81.0 4940 No. Burners 1 No. Stages 1 4 Gas Connection Pipe Size (in.) 1/2 Compressor No/Type 2/Climatuft0) ARI Sound Rating (BELSI 9.2 Outdoor Coil -Type Hi- Performance Tube Size (in.) OD .375 Face Area (sq ft) 18.67 Rows/FPI 2/16 Indoor Coil -Type Hi- Performance Tube Size (in.) .375 Face Area (sq ft) 10.50 Rows/FPI 3/15 Refrigerant Control Short Orifice Drain Connection No./Size (in.) 1/0.75 PVC Outdoor Fan -Type Propeller No. Used/Diameter (in.) 1/26 Drive Type /No. Speeds Direct/1 CFM' 7,700 No. Motors/HP 1/1.0 Motor RPM 1,125 Indoor Fan- Type FC Centrifugal No. Used/Diameter (in.) 1/15 x 11 Drive Type /No. Speeds Belt/1 No. Motors 1 Motor HP (Standard /Oversized) 3.0/5.0 Motor RPM (Standard /Oversized) 1,740/3,450 Motor Frame Size (Standard /Oversized) 145T/145T Filters-Type/Furnished? (No.) Size Recommended ThrowawayNes (2)20x20x2 (2)16x20x2 Refrigerant Charge (Lbs. of R -22) 8.5 /Circuit NOTES: 1. Cooling Performance Is rated at 95 F ambient. 80 F entering dry bulb, 67F entering wet bulb. Gross capacity does not Indude the effect of fan motor heat. ARI capacity Is net and includes the effect of fan motor heat. Units are suhable for operation to s 20% of nominal dm. Rated in accordance with ARI Standard 210. 2. EER Is rated at ARI conditions and In accordance with DOE test procedures. 3. Integrated Pan Load Value Is based on ARI Standard 210. Units are rated at 80 F ambient, 80 F entering dry bulb, and 67 F entering wet bulb at AR1 rated cfrn. 4. Heating Performance limp 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 2,000 feet. For elevations above 2,000 feet, ratings should be reduced at the rate of 4% for each 1,000 feet above sea level. 5. AFUE and Steady State Eftdency are rated in accordance with DOE test procedures. 6. Sound Rating Is rated in accordance with AR1 Standard 270. 7. Refrigerant charge is an approhtmate value. For a more precise value, see unh nameplate and service Instructions. 2 ECONOMIZER END PANEL Power Exhaust End Panel View 331/2 ----I Power Exhaust Side View FRESH AIR HOOD (MANUAL) PANEL ECONOMIZER STANDARD END PANEL OF UNIT I CENTER OF GRAVITY WIDTH CENTER OF ORAVITY f--- LENGTH -- D CENTER OF GRAVITY Table 5 Maximum Weights, Comer Weights And Center Of Gravity Dimensions Maximum Weights (Lbs) Comer Weights (Lbs)' Center of Gravity (In.) Shipping Net A B CD Length Vudth 1191 984 334 252 171 227 38" 20" NOTES: 1. Comer weights are given for Informadon only. Unit Is to be supported continuously by a Grub or equivalent support. 3 All dimensions are in inches 35-1/4 i R E T U R N 3-3/8 to CONDENSATE LOCATION 3/4' 42 7/8 l CFM Airflow Bulb (F) 61 67 73 61 67 73 61 67 73 61 67 73 MBH 6110 MOH SHC MBH SHC MOH SHC MOH SHC MBH SHC MBH SHC MBH SHC 8914 SHC MBH SHC 808 SHC MOH SHC 75 115.0 06.2 129.0 74.8 136.0 49.8 106.0 91.1 123.0 70.8 132.0 47.2 95.4 85.9 113.0 66.2 126.0 44.2 85.5 80.9 101.0 63.2 118,0 40.7 3600 80 116.0 116.0 130.0 91.3 137.0 67.8 108.0 107.0 123.0 88.8 133.0 65.8 99.7 99.7 113.0 84.3 127.0 62.4 91.5 91.5 101.0 79.0 119.0 58.8 85 124.0 124.0 130.0 108.0 138.0 81.4 117.0 117.0 124.0 107.0 134.0 81.0 109.8109.0 114.0 103.0 127.0 79.4 100.0 100.0 103.0 97.4 119.0 76.5 90 130.0 130.0 132.0 125.0 139.0 96.3 124.0 124.0 124.0 124.0 135.0 98.8 117.0 117.0 117.0 117.0 128.0 96.1 109.0 109.0 109.0 109.0 119.0 94.0 75 118.0 102.0 131.0 78.6 137.0 50.5 109.0 96.9 125.0 73.9 133.0 48.0 98.1 91.6 115.0 69.6 127.0 45.0 86.9 86,9 104.0 64.4 120.0 41.7 4000 80 121.0 120.0 132.0 94.8 138.0 69.2 113.0 113.0 125.0 93.3 134.0 67.9 104.0 104.0 116.0 89.4 128.0 64.8 95.6 95.6 104.0 84.2 120.0 61.4 85 128.0 128.0 133.0 113.0 139.0 83.4 122.0 122.0 126.0 113.0 135.0 83.3 114.0 114.0 117.0 110.0 129.0 82.6 105.0 105.0 105.0 105.0 121.0 80.5 90 133.0 133.0 134.0 131.0 141.0 98.9 128.0 128.0 128.0 128.0 136.0 100.0 122.0 122.0 122.0 122.0 130.0 101.0 114.0 114.0 114.0 114.0 121.0 99.3 75 121.0 107.0 132.0 78.6 137.0 51.2 111.0 103,0 126.0 76.8 134.0 48.8 101.0 97.2 117.0 72.8 128.0 45.9 90.0 90,0 106.0 67.7 121.0 42.6 4400 80 124.0 124.0 133.0 97.8 139.0 70.0 117.0 117.0 127.0 97.4 135.0 69.9 108,0 108.0 118.0 04.3 129.0 66.5 99.2 09.2 106.0 89.2 122.0 63.9 85 131.0 131.0 134.0 117.0 140.0 85.1 125.0 125,0 128.0 118.0 136.0 85.6 118.0 118.0 120.0 116.0 130.0 85.4 109.0 109.0 109.0 108.0 122.0 84.0 90 136.0 136.0 136.0 136.0 142.0 101.0 131.0 131.0 131.0 131.0 137.0 103.0 125.0 125.0 125.0 125.0 131.0 104.0 118.0 118.0 118.0 118.0 123.0 104.0 75 123.0 112.0 133,0 80.3 138.0 51.9 114.0 108.0 127.0 79.1 134.0 49.6 102.0 102.0 119.0 75.9 129.0 46.7 92.8 92.8 107.0 70.8 122.0 43.3 4800 80 127.0 127.0 134.0 101.0 139.0 70.7 121.0 121.0 128.0 101.0 136.0 71.2 112.0 112.0 120.0 98.9 130.0 68.0 102.0 102,0 108.0 94.1 122.0 65.9 85 133.0 133.0 135.0 121.0 140.0 86.3 128.0 128.0 130.0 122.0 137.0 87.5 121.0 121.0 121.0 121.0 131.0 87.9 112.0 112.0 112.0 112.0 123.0 87.3 90 137.0 137.0 137.0 137.0 142.0 103.0 133.0 133.0 133.0 133.0 138.0 106.0 128.0 128.0 128.0 128.0 132.0 108.0 120.0 120.0 120.0 120.0 124.0 109.0 Unit Model No. fin, �H. Y O 1 0Gel YCD120C4 Heat Low Enter Dry Table 6 Gross Cooling Capacities (M( 85 NOTES: 1. AI capacities shown ws gross and hava not considered Indoor tan heat To obtain net cooling subtract Indoor tan heat. 2. MOH . Total Oroas Cooling Capacity 3, SHC . Sensible Heal Capacity Table 7 Electrical Characteristics - Motors - 60 Cycle Unit Model No. YCD12OC4 Heating Stages 1 NOTE: 1. High / Low Speed. No. No. HP 1/20 Volts 460 Volts Standard Evaporator Fan Motor Phase Phase Table 9 Combustion Blower Motor Data RPM 3350 HP 3.00 HP Volts 208.230 95 Amps FLA LRA • 4.8 40.5 • r Table 8 Electrical Characteristics Compressor Motor And Condenser Motor - 60 Cycle Compressor Motors RPM NOTES: 1. Amp draw for each motor; multiply value by number of motors to determine total amps. 2. HP for each compressor. Phase 1 Ambient Temperature 4 Entedna Wet Bulb RLA No. Amps' LRA Amps FLA LRA 0.4 1.00 105 Volts 460 No. Oversized Evaporator Fan Motor Amps FLA LRA Phase Phase HP 5.00 HP 115 7.6 Condenser Fan Motors FLA Amps' 54.9 LRA 460 3 5.00/4.30 3450 10.0 71 1.00 2.9 9.3 , Table ,10 CFM 3200 3600 4000 4400 4800 Evaporator Fan Performance .10 .20 .30 .40 RPM BHP RPM BHP RPM BHP RPM Standard Motor & Field 776 1.29 807 1.39 837 831 1.66 859 1.77 886 1.88 913 918 2.24 943 2.371 967 2.49 992 1005 2.95 1028 3.09 1050 3,23 1073 (2) For Standard Evaporator Fan Speed (RPM), reference Table 11. For Oversize Evaporator Fan Speed (RPM), teleran. Table 12. .50 .60 BHP RPM BHP RPM BHP Supplied Low Static Drive (1) 1.49 866 1.60 893 1.71 2.00 940 2.121 2.62 1016 2.75 1040 2.88 3.37 1095 3.51 1117 3.65 1195 4.57 NOTES: Data Includes pressure drop due to fitters and wet colts. Fan motor heat (MBH) - 3.15 x Fan Bhp. 1. Field Supplied Fan Sheave BK90 Required. Field supplied belt may be necessary. 2 5 HP Oversize Motor with Field Supplied Motor Sheave 1VL44 Required. Field Supplied Belt may be Necessary. External Static Pressure (Inches or Table 6 Turns 5Tums 4 urns 2 Open Open Ope . .. Factory set at 3 turns open. 920 1.82 945 1.94 970 2.05 966 2.24 99i 2136 1015 2.48 1038 2.61 1064 3.01 1086 3.15 1109 3.28 1139 3.80 1160 3.94 1181 4.09 1216 4.72 1236 4.88 1255 5.03 Table 10 (Continued). External Static Pressure (Inches ci Water) 1.40 1.50 1.60 1.70 1.80 1.90 2.00 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 3 HP Motor & Standard Drive 3200 1085 2.65 1107 2.77 1128 2.89 1149 3.02 1169 3.15 1189 3.28 1208 3.41 3600 1147 3.27 1167 3.40 1187 3.54 1207 3.67 1226 3.81 1245 3.95 1264 4.09 4000 1212 4.00 1231 4.15 1250 4.30 1269 4.45 1287 4.59 1306 4.74 1324 4.89 4400 1279 4.85 1298 5.01 1316 5.17 1334 5.33 1351 5.50 1369 5.66 - - 4800 - Table 12 Oversize Motor And Sheave /Fan Speed (RPM) 6Turns 5Tums 4Turns Open Open Open 1120 1180 1240 Table 13 Static Pressure Drops Through Accessories (Inches Water Column) CFM Filters 3200 4000 4800 0.11 0.17 0.25 Economizer with OA/RA Dampers' 100% OA 100% RA 0.15 0.10 0.19 0.15 0.22 0.22 NOTES: 1. OA - Outside Alr end RA - Return Air. .70 .80 .90 RPM 8HP RPM BHP RPM BHP 5 HP Oversize Motor and Drive otor And Sheave /Fan Speed (RPM) 3 Turns Open 1300 Table 14 Gas Fired Heating Capacities Unit Model No. YCD120C•L' 46642664441- 5 Heating Input MBh 135 NOTES: 1. Second Stage is total heating capacity. Socond Stage / First Stage. 1.00 1.10 RPM BHP RPM BHP 3 HP Motor 994 2.17 1018 2.29 1061 2.74 1083 2.87 1130 3.4211151 3.56 1202 4.24 1222 4.39 1275 5.19 1294 5.35 Trane's factory supplied motors, In commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditlons. Using the full horsepower range of our tan motors as shown in our tabular data will not result In nuisance tripping or premature motor failure, Our product's warranty will not be effected. b HP Oversize Motor and Drive 1081 1133 1186 1210 2 Turns Open 1360 Heating Output MBh 105 1.20 1.33 RPM BHP RPM BHP & Standard Drive 1041 2.41 1063 2.53 1105 3.00 1126 3.14 1172 3.71 1192 3.85 1241 4.54 1260 4.70 1313 5.52 1331 5.68 m n Closed 1 Tum Open Closed 1422 N/A Alr Temperature Rise Range 15.45 Y - Mechanical Specifications General Units shall be dedicated downflow airflow. Operating range shall be between 115 °F and 0°F cooling as standard from the factory for all units. Cooling performance shall be rated in accordance with DOE and /or ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -22 and 100% run tested before leaving the factory. Wiring internal to the unit shall be colored and numbered for simplified identification. Units shall be UL listed and labeled, classified in accordance to ANSIZ21.47 for gas fired central furnaces and 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. Exterior surfaces shall be cleaned, phosphatized and finished with a weather- resistant baked enamel finish. Unit's surface shall be tested 500 hours in a salt spray test in compliance with ASTM B117. Cabinet construction shall allow for all maintenance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing not more than three screws on the unit while providing a water and air tight seal. All exposed vertical panels and top covers in the indoor air section shall be insulated with fire- resistant, permanent, odorless glass fiber material. The base of the downflow unit is insulated with a foil - faced, closed -cell material. The downflow units base pan shall have no penetrations within the perimeter of the curb other than the raised 1 high supply /return openings to provide an added water integrity precaution should the condensate drain back up. The base of the unit shall have provisions for forklift and crane lifting. Unit Top The top cover shall be one piece or where seams exist, it shall be double hemmed and gasket sealed to prevent water leakage. Filters Two Inch filters shall be factory supplied on all units. Compressors Compressors shall be direct drive hermetic, reciprocating type with 6 centrifugal 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. Crankcase heater, internal temperature and current- sensitive motor overloads shall be included for maximum protection. Shall have internal spring isolation and sound muffling to minimize vibration transmission and noise. Low pressure switches shall be standard. Refrigerant Circuits Each refrigerant circuit shall have Independent fixed orifice 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 Internally finned Ve" copper tubes mechanically bonded to configured aluminum plate fin shall be standard. Coils shall be leak tested at the factory to ensure pressure integrity. The evaporator coil and condenser coil shall be leak tested to 200 psig and pressure tested to 450 psig. Gas Heating Section The heating section shall have a drum and tube heat exchanger design using corrosion resistant steel components. A forced combustion blower shall supply premixed fuel to a 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 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. Unit shall have two stage heating. Outdoor Fans The outdoor fans 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 Unit shall have belt driven, FC centrifugal fans with adjustable motor sheaves. Unit shall have an adjustable idler -arm assembly for quick - adjustment to fan belts and motor sheaves. All motors shall be thermally protected. Oversized motors will be available for high static operations. Controls — Unit shall be completely factory wired with necessary controls and contactor pressure lugs or terminal block for power wiring. Units shall provide an external location for mounting fused disconnect device. Micro- processor 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 Micro - processor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. Accessories Roof Curb — The roof curb shall be designed to mate with the downflow unit and provide support and a watertight installation when installed properly. The roof curb design shall allow field- fabricated rectangular supply /return ductwork to be connected directly to the curb. Curb design shall comply with NRCA requirements. Curb shall ship knocked down for field assembly and include wood nailer strips. Economizer — This accessory shall be either field or factory installed. The assembly includes — fully modulating 0 -100% motor and dampers, barometric relief, minimum position setting, preset linkage, wiring harness with plug and fixed dry bulb control. Mechanical Specifications Solid state enthalpy and differential enthalpy control shall be a factory- supplied, field - installed accessory. The factory- installed economizer arrives in the shipping position and shall be moved to the operating position by th installing contractor. Remote Potentiometer — The minimum position setting of economizer shall be adjusted with this accessory. Powered Exhaust — The powered exhaust shall assist the barometric relief damper in the economizer in relieving building prossurization. Motorized Outside Air Dampers — Manually set outdoor air dampers shall provide up to 50 percent outside air. Once set, outdoor air dampers shall open to set position when indoor fan starts. The damper shall close to the full closed position when indoor fan shuts down. Manual Outside Air Damper — Field installed rain hood and screen shall provide up to 25% outside air. Oversized Motors — Field or factory '- Installed oversized motors shall be available for high static applications. Control Options Trans Communication Interface (TCI) — Shall be provided to interface with the Trane Integrated ComfortTu System. Zone Sensors — Shall be provided to interface with the Micro equipped Voyagers and shall be available in either manual, automatic programmable with night setback, with system malfunction lights or remote sensor options. Conventional Thermostat Interface (CTI) — This field installed circuit board shall provide interface with electro- mechanical thermostats or automation systems. 7 Differential Pressure Switches — This'field installed option allows individual fan failure and dirty filter indication. The fan failure switch will disable all unit functions and lash" the Service LED on the zone sensor. The dirty filter switch will light the Service LED on the zone sensor and will allow continued unit operation. Input / Output Expansion Accessory — This kit allows Integrated Comfort' Systems to read Supply Air Temperature, Return Air Temperature, Return Air Humidity, and direct indication of fan failure without the use of an economizer or motorized outside air accessory. Electronic Time Clock —This field installed accessory allows up to 4 units night set -back and unoccupied functions when using a standard (Dual Setpoint) zone sensor module. TRANE Tag: '.S kkEPACt AMeo * su L E (AA All dimensions are in inches EVAPORATOR SECT ACCESS PANEL 1 / 2 N PT GAS CONNECTION CONTROL a COMPRESSOR ACCESS PANEL CLEARANCE 36 CLEARANCE 48 Table 2 Accessory Net Weights (lbs) ^ CLEARANCE 36 g al TYPICAL ROOF OPENING 46 si CLEARANCE 36 Table 1 Unit Wiring 2 DIA HOLE (NIT POWER WIRES) T / a DIA HOLE (UNIT COHIROL WIRES) Unit Unit Operating Model No. Voltage Range YCD036C4 NOTES: 1. HACR breaker per NEC. NOTES: 1. Used on 1 phase only. 2. Nat weight should be added to unit waigt( when misting factory Installed *committal. mot. .4T 76° 414 -506 '.. _D036 -SQ- 213.04 SUBMITTAL 3 Ton CoNI>E~R FAN Downf low Gas/ Electric Packaged Unit 3314 YCD036C 14 43 e '� 39z1y 15/'. 77% PPP- � 2 � _ 43% Minimum Circuit Ampacity Standard/Oversized 1n R/ 1g I1 0.4/0.7 77 Maximum Fuse Size Or Maximum Circuit Breaker' Standard/Oversized 15/15 Hard' LPG Economizer Outside Air Damper Roof Oversize Start Conversion All Zone Net= Ship Motorized Manual Curb Motor Kit Kit Sensors 40 55 N/A 32 80 24 6 5 1 Table 3 , General Data Cooling Performancel Gross Cooling Capacity SEER' Nominal CFM/MI Rated Y M MR1 Net Coding Capacity System Power (KW) Heating Performance' Heating Models • Heating Input (Btuh) Heating Output (Btuh) AFUE %' Steady State Efficiency ( %) No. Burners No. Stages Gas Connection Pipe Size (inn.) Compressor Nolrype Sound Rating (BELS) Outdoor CoII -Type Tube Size (in.) OD Face Area (sq ft) Rows/FPI Indoor CoII - Type Tube Size (in.) Face Area (sq ft) Rows/FPI Refrigerant Control Drain Connection No/Size (in.) Outdoor Fan - Type No, Used/Diameter (in.) Drive Type/No. Speeds CFMr No. Motors/HP Motor RPM Indoor Fan - Type No. Used/Diameter (in.) Drive Type/No. Speeds No. Motors Motor HP (Standard/Oversized) Motor RPM (StandardAlveretzed) Motor Frame Size (Standard/Oversized) Filters - Type Furnished ? (No.) Size Recommended Refrigerant Charge (Lbs of R•22)' 2 10.00 4 / 1200 1/2 8.2 tuff" High Low T1t P 120,000 80,000 10C,1501:1 000 65,000 0141100 8 81 felt 80 81 Sr 1 1 1/2 ormance 75 67 15 Orifice 1/ 4 PVC Iler 1/24 ect/1 150 1.25 Propeller 1/24 Direct/1 3150 1/.25 850 FC Centrifugal 1/9X9 Direct/2 1 .33/.40 107 /1400 1075/1400 48/48 Throwaway Yes (2)20X25X1 5.6 FC • trifugal 1 +X9 Di 5 1 40 48 Thr• way Y (2)20 4 X1 v. YCD036C3, C4,% , i 37,400 10.00 1200 36,000 3.99 1/Cltrnabif m 8.2 Hi- Performance .375 5.87 2/16 HI- Performance .375 3.67 2/15 Short Orifice 1/3/4 PVC NOTES 1. Cooling Performance is fated at 95 F ambient, 60 F entering dry bulb, 67 F entering wet bulb and nominal cfm listed. ARI rating ctm is 350 ern/ton for this product. Gross capacity does not include the effect of fan motor heat. ARI capacity is net and Includes the effect of fan motor heat. Units are suitable for operation to a20% of nominal chit. Rated in accordance with ARI Standard 210. 2. SEER is rated at ARI conditions and in accordance with DOE bat procedures. • 3. Healing Performance knit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up 10 2000 feet For elevation above 2000 feet, ratings should be reduoed at the rat. of 4% for each 1000 feet above sea level. 4. AFUE is rated in accordance with DOE test prooedues. 5. ARI Sound Rating le rated in accordance with ARI Standard 270. 6.Outdoor Fan cfm is rated with standard air-dry coil outdoor. 7. Refrigerant charge ban approximate value. For a more precise value, see unit nameplate and sendce Instructions. All dimensions are in inches ECONOMIZER - END PANEL Center Of Gravity Width Center Of Gravity FRESH AIR HOOD (MANUAL.) ECONOMIZER HOOD STANDARD END PANEL OF UNIT Center Of Gravity Length I S I I I I u ( P I 32-1/4 I P I L I I i L Y Table 4 Maximum Weights, Comer Weights And Center Of Gravity Dimensions Maximum Weight (Ibs) Corner Weights (Ws) Center of Gravity (in,) Shipping Net A 6 C D Length Width 782 621 209 158 116 138 37 19 NOTES: 1. Corner weights are given for Information only. 3 Compressor r -- i R E T U R N L .1 13-3/16 i-.-22 -3/16 —.-I 11-1/4 2 -7/8 39-7/8 C 4 3 3/8 3/4" PVC Condensate Location ...... Airflow (F) MBh SHC Witt SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MOh SHC MBh SHC MBh SHC 76 34.6 28.9 38.8 22.1 41.3 14.8 31.7 26.3 38.8 20.9 39.7 13.8 28.8 23.5 33.6 19.4 37.8 12.4 25.6 21.8 30.1 18.6 34.9 11.1 80 34.9 32.0 39.0 28.1 41.8 19.8 32.2 30.4 36.8 24.9 39.9 18.7 29.3 28.7 33.7 23.3 37.8 17.4 26.2 28.2 312 21.6 35.0 18.0 1093 85 35.9 35.9 39.3 30.9 41.9 24.2 33.8 318 36.9 29.8 40.2 23.4 31.2 31.2 33.9 28.3 37.9 22.3 28.5 28.6 30.5 28.5 35.2 21.0 90 38.2 38.2 39.8 36.7 42.3 28.5 38.1 38.1 37.3 348 405 27.9 33.8 33.8 34.8 33.4 38.2 27.1 31.0 31.0 31.1 31.1 35.4 25.9 76 35.6 28.5 39.5 22.1 41.5 148 32.8 28.8 37.3 20.8 40.0 13.8 29.5 25.1 34.5 19.3 38.0 12-8 28.2 23.3 30.9 17.5 35.4 11.3 1200 80 33.0 34.0 39.7 27.3 41.9 20.5 33.2 32-4 37.4 28.2 40.3 19.4 300 30.0 34.6 24.7 382 18.1 27.4 27.4 31.0 22.9 35.5 108 85 37.5 37.5 40.0 32.4 423 28.0 352 35.2 37.7 31.5 407 242 32.8 32.8 34.9 30.2 38.5 23.3 29.9 29.9 31.4 28.5 35.7 22.1 90 39.4 39.4 404 37.6 42.8 29.4 37.5 37.5 382 388 41.1 29.0 35.2 35.2 35.3 35.3 388 28.4 32.6 32.5 32.8 328 35.9 27.4 75 36.3 300 39.9 22.9 41.8 16.0 333 28.2 37.8 21.8 40.3 14.0 30.2 28.5 35.1 20.1 38.3 12.9 26.9 24.8 31.6 194 358 11.5 1320 80 37.0 38.0 40.2 282 42.2 21.2 33.8 338 38.0 27.3 407 301 31.2 31.2 352 26.0 388 18.8 284 284 31.8 24.3 35.9 17.4 85 388 388 40.6 33.7 42.8 27.1 38.5 365 38.3 33.0 410 28.0 33.9 33.9 35.6 32.0 389 24.1 31.1 31.1 32.2 313 38.2 23.1 90 40.4 40.4 41.1 39.1 43.2 30.1 388 38.8 39.0 38 41.6 310 383 38.3 38.4 36.4 39.2 29.6 33.8 us 33.9 33.9 38.5 28.7 76 37.0 31.4 40.3 23.8 41.9 162 340 29.7 38.2 22.3 40.5 14.2 30131 280 35.8 20.9 385 13.1 27.4 28.1 32.0 19.2 380 11.7 1440 BO 37.4 37.4 40.8 29.1 42.4 21.8 350 36.0 384 284 40.9 20.7 32.3 32.3 35.7 272 38.8 19.5 29.4 29.4 32.2 25.6 383 18.1 85 39.6 39.6 41.0 34.9 42.9 258 37.5 37.6 388 34.4 41.3 25.4 35.0 36.0 38.2 335 39.2 24.9 32.1 32.1 33.0 32-1 38.6 24.0 90 41.2 41.2 41.8 40.6 43.5 318 39.4 39.4 39.5 39.5 41.8 30.8 37.3 37.3 37.3 3.73 39.8 30.5 34.8 34.8 34.9 34.9 38.9 300 Table 5 Gross Cooling Capacities 1, ,h) do) Unit Model No. YCD036C4 Unit Model No. WRINill00EN YCD036C4 Eno. Orj as Entering Wit Bulb (F) 01 67 73 81 87 73 81 NOTES: 1. At capacities shown we gross and have not considered Indoor tan heat. To obtain net cooling subtract Indoor fan heat. 2. MB h Total Gross Capacity 3. SHC Sensible Haat Capacity Table 6 Electrical Characteristics - Evaporator Fan Motors - 60 Cycle Standard Evaporator Fan Motor No. Volts Phase HP FLA LRA No, Volts Phase HP FLA LRA nryi wart Table 7 Electrical Characteristics - Compressor Motor And Condenser Motor - 60 Cycle Condenser Fan Motors Compressor Motors No. Vohs Phase HP RPM 3.00 NOTES: 1. Amp draw for each motor, multiply value by number of motors to datermine total amps. 95 3450 Ambient Temperature n 17 4 'I A 1.1 RLA Amps 6.6 Amps' 7 1 2.2 61 105 87 Table 8 Combustion Blower Motor Data 1 73 1 1110 711 Ovorsized Evaporator Fan Motor 81 .PS .26 iftn .40 115 87 2 0 LRA No., Phase HP FLA LRA 2.6 1.9 .9 73 Amps Amps' 3.1 8.2 2.1 Amps Heating Stages HP RPM Volts Phase FLA LRA 4)il tztv:k Heat Low/ High 1 1/ 3350 208-230 1 0.4 1.00 • Table 9 Evaporator Fan Performance External Static Pressure (Inches of Water) & Motor Power (Bhp)' High Speed Low Speed CFM ESP BHP ESP BHP 900 .76 .28 .67 .26 1000 .69 .30 .68 .28 1100 .61 .32 .60 .30 1200 .63 .34 .38 .33 1300 .43 .38 .21 .38 1400 .32 .38 - - 1600 .20 .40 Standard Motor Oversized Motor Fan motor heat (Moth) • 4.39 x Fan alp Tran s's factory supplied motors. In commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our tan motors as shown In our tabular date will not result In nuisance tripping or premature motor failure. Our product's warranty will not be affected NOTES: 1. Data includes pressure drop due to wet coil and filter& Table 11 Gas -Fired Heating Capacities Unit Model No. YC0036C3, C4•L 6 Heating Input MBh 80,000 10"00 NOTES: 1. OA • Outside Air and RA • Return Air. 2. 1 fi ESP BHP 1.45 .61 1.32 .63 1.12 .68 .93 .69 .70 .73 .44 .77 Table 10 Static Pressure Drops Through Accessories (Inches Water Column) Economizer with OAJRA Dampers' CFM Filters= 100% OA 100% RA 960 0.03 0.05 0.01 1200 0.04 0.06 0.01 1440 0.04 0.07 0.01 Jr Temperature Heating Output MBh Rise Range 65,000 WON •R• 'f 1'i.M.MS nrxeu• w Ws- w..w. Mechanical Specifications General Units shall be dedicated downflow airflow. Operating range shall be between 115°F and 0°F cooling as standard from the factory for all units. Cooling performance shall be rated in accordance with DOE and /or ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -22 and 100% run tested before leaving the factory. Wiring internal to the unit shall be colored and numbered for simplified identification. Units shall be UL listed and labeled, classified in accordance to ANSIZ21.47 for gas fired central furnaces and 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. Exterior surfaces shall be cleaned, phosphatized and finished with a weather - resistant baked enamel finish. Unit's surface shall be tested 500 hours in a salt spray test in compliance with ASTM 13117. Cabinet construction shall allow for all maintenance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing only a single fastener on the units while providing a water and air tight seal. The downflow unit's base pan shall have no penetrations within the perimeter of the curb other than the raised 11/4" high supply /return openings to provide an added water integrity precaution, if the condensate drain backs up. The base of the unit shall have provisions for forklift and crane lifting. Unit Top The top cover shall be one piece or where seams exist, it shall be double hemmed and gasket sealed to prevent water leakage. Filters One inch, throwaway filters shall be standard on all units. Filter rack can be converted to two inch capability. Compressors Compressors shall be direct drive hermetic, reciprocating type with centrifugal 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. Crankcase heater, internal temperature and current - sensitive motor overloads shall be included for maximum protection. Shall have internal spring isolation and sound muffling to minimize vibration transmission and noise. Low pressure switches shall be standard. Refrigerant Circuits Each refrigerant circuit shall have independent fixed orfice 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 Internally finned W copper tubes mechanically bonded to configured aluminum plate fin shall be standard. Coils shall be leak tested at the factory to ensure pressure integrity. The evaporator coil and condenser coil shall be leak tested to 200 psig and pressure tested to 450 psig. Gas Heating Section The heating section shall have a drum and tube heat exchanger design using corrosion resistant steel components. A forced combustion blower shall supply premixed fuel to a 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 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. Units shall have a single stage high or low heat option. Outdoor Fans The outdoor fans 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. 4bnnmce,Mkhw� VMteleYAMeet Lu Specifications Indoor Fan The units shall have a direct drive, FC centrifigal fan. All motors shall be thermally protected. Oversized motors shall be available for high static operations. Controls — Unit shall be completely factory wired with necessary controls and contactor pressure Tugs or terminal block for power wiring. Units shall provide an external location for mounting fused disconnect device. Micro-processor 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 Micro-processor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. Accessories Roof Curb — The roof curb shall be designed to mate with the downflow unit and provide support and a watertight installation when installed properly. The roof curb design shall allow field - fabricated rectangular supply /return ductwork to be connected directly to the curb. Curb design shall comply with NRCA requirements. Curb shall ship knocked down for field assembly and include wood nailer strips. Economizer — This accessory shall be either field or factory installed The assembly includes — fully modulating 0-100% motor and dampers, barometric relief, minimum position setting, preset linkage, wiring harness with plug and fixed dry bulb control. Solid state enthalpy and differential enthalpy control shall be a factory- supplied, field - installed accessory. The factory- installed economizer arrives in the shipping position and shall be moved to the operating position by the installing contractor. 7 Remote Potentiometer — The minimum position setting of economizer shall be adjusted with this accessory. Manual Outside Air Damper — Field installed rain hood and screen shall provide up to 25% outside air. Oversized Motors — Field or factory installed oversized motors shall be available for high static applications. Coil Guards — Coil guards shall be field installed for.condenser coil protection. Control Options Trane Communication Interface (TCI) — Shall be provided to interface with the Trane Integrated ComforttM System. Zone Sensors — Shall be provided to interface with the Micro equipped Voyagers and shall be available in either manual, automatic programmable with night setback, with system malfunction lights or remote sensor options. Conventional Thermostat Interface (CTI) — This field installed circuit board shall provide interface with electro- mechanical thermostats or automation systems. Differential Pressure Switches — Thls field installed option allows individual fan failure and dirty filter indication. The fan failure switch will disable all unit functions and "flash" the Service LED on the zone sensor. The dirty filter switch will fight the Service LED on the zone sensor and will allow continued unit operation. Input / Output Expanslon Accessory — This kit allows Integrated Comfortn" Sytems to read Supply Air Temperature, Return Air Temperature, Return Air Humidity, and direct indication of fan failure without the use of an economizer or motorized outside air accessory. Electronic Time Clock — This field installed accessory kit will allow the unit to operate in the unoccupied mode or perform night setup /setback functions utilizing a standard individual scheduling. ■•••••• . vTt•+ c ••••∎,X ,fi, t79.1,Rx:1.1,4PR ",A,is`... ^ 1 TRAM ' All dimensions are in inches -4 5/16r FILTER ACCESS DOOR • HORIZONTAL ONLY DOWNFLOW CONDENSATE DRAIN CONNECTION 1.00 NPT LOW HEAT 1/2' NP GAS INLET HIGH HEAT 3/4' NPT GAS INLET CLEARANCE GO CLEARANCE 60 w 73 2 DIA. HOLE (UNIT CONTROL WIRES) /16 CLEARANCE 36 /1 6' 62'/2 /CLEARANCE Unit Model No. 1 a. YCD210C4 46 /1 Table 1 Unit Wiring Accessory Model No. BAYPWRX020A 7/8' DIA. HOLE (UNIT CONTROL WIRES) SERVICE GAUGE PORT ACCESS 1 1/2' PERIMETER CURB PLANGC 7 7/16 Unit Operating Voltage Range Accessory Operating Voltage 102 1/4' YCD21 O- SQ-234.O1 17 Ton Downflow Gas /Electric Packaged Unit YCD210C 414-506 47/50 60/60 • NOTE: Duct flanges mount 7- 7/16" down inside the curb on the 1 -1 /2" curb flanges. See recommended duct dimensions on page 3. Minimum Circuit Ampacity (Standard /Oversize) NOTES: 1. HACR breaker per NEC. 2. Values do not Include power exhaust accessory. Table 2 Electrical Characteristics — Power Exhaust Accessory Amps Phase HP RPM FLA LRA 3/4 1040 3.2 Maximum Fuse Size or Maximum Circuit Breaker' (Standard/Oversize) .5 8.4 Table 3 Accessory Net Weights (Lbs) Economizer Outside Air Damper Roof Not' Motorized Manual Curb 65 60 32 Oversized LPG All Low Motor Conversion Zone Static Power Adder Kit Sensors Drive Exhaust 205 5 5 1 10 95 NOTES: • 1. Net weight should be added to unit weight when ordering factory installed accessories. 2. Factory installed options for economizers, multiply net capacity x .99, EER X .97. For oversize motors, multiply net capacity x .98, EER x .93. This is provided in compliance with ARI certification program. Table 4 General Data Cooling Performance' Gross Cooling Capacity EER Nominal CFM /ARI Rated CFM ARI Not Cooling Capacity Integrated Part Load Value System Power (KW) Heating Performance Heating Models Heating Input (Btuh) 1st Stage Heating Output (Btuh) 1st Stage AFUE % Steady State Efficiency ( %) Fitters— Type/Fumished7 (No.) Size Recommended 2 YCD210C3, C4, CWL Low 250,000 175,000 203,000 142,000 80.7 81 208,000 8.3 7,000/5,800 192,000 8.5 23.13 No. Burners 1 No. Stages 2 Gas Connection Pipe Size (in.) 1/2 t#al Compressor No./Type 2/Trane H Sound Rating (BELS) 9.4 Outdoor Coil —Type Hl.Performance Tube Size (In.) OD .375 Face Area (sq ft) 28.21 Rows/FPI 2/16 Indoor Coil —Type Hi-Performance Tube Size (in.) .375 Face Area (sq ft) 17.50 Rows/FPI 3/15 Refrigerant Control Short Orifice Drain Connection No. /Size (in.) 1/1.00 NPT Outdoor Fan —Type Propeller No. Used/Diameter (in.) OD 2/26 Drive Type /No. Speeds Direct/1 CFM 14,100 No. Motors/HP 2/1.0 Motor RPM 1,125 Indoor Fan —Type FCCentrifugal No. Used/Diameter (in.) 1/15 x 15 DriveType/No. Speeds Belt/1 No. Motors 1 Motor HP (Standard/Oversized) 5.0/7.5 Motor RPM (Standard /Oversized) 3450/3470 Motor Frame Size (Standard/Oversized) 145T/184T Throwaway/Yes (2)20x20 x2 (4)20x25x2 Refrigerant Charge (Lbs. of R•22) 11.3 Circuit NOTES: 1. Cooling Performance is rated at 95 F ambient, 90 F entering dry bulb, 67 F entering wet bulb. Gross capacity does not Include the effect of fan motor heat ARI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to i 20% of nominal dm. Rated In accordance with ARI Standard 210. 2. EER Is rated at MI conditions end In accordance with DOE test procedures. 3. Integrated Part Load Value Is based on ARI Standard 210. Units are rated at 80 F ambient, 90 F entering dry bulb, and 67 F entering wet bulb et MI rated dm. 4. Heating Performance limit settings and rating data were established and approved under laboratory test conditions using American Nadonal Standards Institute standards. Ratings shown are for elevations up to 2,000 feet For elevations above 2,000 feet ratings should be reduced at the rate of 4% for each 1,000 feet above sea level. 5. AFUE and Steady State Efficiency are rated In accordance with DOE teat procedures. 6. Sound Rating is rated in accordance with NU Standard 270. 7. Refrigerant charge Is an approximate value. For a more precise value, see unit nameplate and service instructions. nextel1' 2fl4aC0 oesmo0 gain eta All dimensions are in inches Power Exhaust End Panel View 36 Power Exhaust Side View ECONOMIZER END PANEL NOTE: Duct flanges mount 7- 7/16" down inside the curb on the 1 -1 /2" curb flanges. FRESH AIR HOOD (MANUAL) PANEL ECONOMIZER STANDARD END PANEL OF UNIT CENTER OF GRAVITY WIDTH A 3 CENTER OF GRAVITY LENGTH r - -- 1 I s 1 U 1 P I • I 64.11/16 Y Table 5 Maximum Weights, Corner Weights And Center Of Gravity Dimensions L L — 1 1\2' PERIMETER CURB FLANGE CONDENSATE LOCATION E R E T U R N to CENTER OF GRAVITY °D I n —�+— 22-1/2 --.r• --1 to N 4 Maximum Weights (Lbs) Comer Weights (Lbs)t Center of Gravity (In.) 62.7/16 4 -1/4 Shipping Net A B C D Length Width 1987 1619 553 415 279 372 46' 29' NOTES: 1. Comer weights are given for Intonation only. Unit Is to be supposed continuously by a curb equivalent frame support. 2. For comer weights unh location see diagram. CFM Airflow Dry Bulb (F) 61 67 73 61 67 tnnenng 73 wen nulo 61 67 73 61 67 73 MBH SHC MBH SHC MBH SHC MBH SHC MBH SHO MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 191.0 151.0 218.0 120.0 229.0 83.9 175.0 142.0 204.0 113.0 221.0 79.5 159.0 133.0 188.0 106.0 211.0 74.5 142,0 125.0 170.0 97.6 107.0 68.4 6300 80 192.0 177.0 216.0 145.0 231.0 112.0 176.0 168.0 204.0 140.0 222.0 106.0 159.0 159.0 188.0 132.0 211.0 101.0 147.0 147.0 170.0 124.0 197.0 94.3 85 198.0 198.0 217.0 170.0 232.0 134.0 185.0 185.0 204.0 165.0 223.0 131.0 173.0 173,0 188.0 158.0 212.0 126.0 160,0 160.0 171.0 150.0 198.0 120.0 90 210.0 210.0 218.0 195.0 234.0 156.0 199.0 199.0 205.0 191.0 225.0 154.0 186.0 186.0 190.0 184.0 213.0 150.0 174.0 174.0 173.0 173.0 198.0 145.0 75 197.0 158.0 219.0 124.0 231.0 84.6 180.0 150.0 208.0 118.0 224.0 80.5 163.0 141.0 192.0 110.0 213.0 75.8 146,0 132.0 175.0 102.0 200.0 69.6 7000 80 198.0 187.0 220.0 151.0 233.0 115.0 182.0 179.0 208.0 146.0 225.0 110.0 166,0 166.0 193.0 139.0 214.0 104.0 153.0 153.0 175.0 131.0 201.0 97.9 85 206.0 206.0 221.0 177.0 234.0 137.0 194.0 194.0 209.0 173.0 226.0 135.0 181.0 181.0 193.0 187.0 215.0 131.0 67.0 167.0 175.0 159.0 201.0 126.0 90 218.0 216.0 222.0 203.0 237.0 160.0 208.0 208.0 210.0 201.0 228.0 159.0 195.0 195.0 194.0 194.0 216.0 157.0 81,0 181.0 181.0 181.0 202.0 152.0 75 201.0 166.0 221.0 127.0 233.0 86.0 184.0 157.0 211.0 122.0 225.0 82.0 167.0 148.0 196.0 115.0 215.0 76.9 150.0 140.0 178.0 107.0 202.0 70.8 7700 80 203.0 197.0 222.0 155.0 235.0 118.0 188.0 188.0 211.0 151.0 228.0 113.0 173.0 173.0 196.0 145.0 216.0 108.0 159,0 159.0 178.0 137.0 203.0 101.0 85 212.0 212.0 224.0 183.0 237.0 140.0 201.0 201.0 212.0 181.0 228.0 138.0 187.0 187.0 197.0 175.0 217.0 135.0 174,0 174.0 179.0 168.0 204.0 130.0 90 221.0 221.0 225.0 211.0 239.0 184.0 212.0 212.0 214.0 210.0 230.0 164.0 201.0 201.0 201.0 201.0 219.0 162.0 188.0 188.0 188.0 188.0 205.0 159.0 75 205.0 172.0 223.0 130.0 234.0 87.2 188.0 164.0 213.0 126.0 227.0 63.3 170.0 155.0 199.0 119.0 217.0 78.0 153,0 147.0 181.0 111.0 204.0 72.0 8400 80 207.0 205.0 225.0 159.0 237.0 121.0 192.0 192.0 214.0 156.0 228.0 114.0 178.0 178.0 199.0 151.0 218.0 110.0 164.0 164.0 181.0 143.0 205.0 105.0 85 218.0 218.0 226.0 188.0 238.0 143.0 208.0 208.0 215.0 187.0 230.0 141.0 193.0 193.0 200.0 183.0 220.0 139.0 179.0 179.0 183.0 176.0 206,0 135.0 90 226.0 226.0 228.0 217.0 241.0 187.0 217.0 217.0 217.0 217.0 233.0 168.0 206.0 206.0 206.0 206.0 221.0 167.0 193,0 193.0 193.0 193.0 207.0 165.0 Table 6 Gross Cooling Capacities (MBh) Enter NOTES: 1. Al capacities shown are gross and have not considered Indoor fan heal To obtain net cooling subtract Indoor fan heat. 2. MBH ■ Total Gross Cooling Capacity 3. SHC ■ Sensible Heat Capacity Table 7 Electrical Characteristics -- Evaporator Fan Motor - 60 Cycle Unit 'ti • Modal No. YCO210C4 Unit Model No. No. No. 85 Volts 460 V olts Standard Evaporator Fan Motor Phase • Phase HP 5.00 HP Heat Low 95 FLA 7.6 Table 8 Electrical Characteristics Compressor Motor And Condenser Motor - 60 Cycle Compressor Motors RPM NOTES: 1. Amp draw for each motor; multiply value by number of motors to determine total amps. 2. HP for each compressor. Table 9 Combustion Blower Motor Data Heating Stages 2 NOTE: 1. High/Low Speed. Amps Ambient Temperature 4 LRA 64.9 ALA HP 1/10 No. Amps' LRA RPM' 3500/2800 105 Volts 460 No. Phase Phase Volts 208-230 HP 7.50 HP Phase 1 115 Oversized Evaporator Fan Motor FLA 11.0 Condenser Fan Motors FLA Amps Amps' 0.8 Amps LRA 65.2 49.3 LRA FLA LRA 2.00 Table 10 Evaporator Fan Performance External Static Pressure (Inches ol Water) .10 .20 .30 .40 .50 .60 .70 .80 .90 1.00 1.10 1.20 1.30 ':FM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 5 HP Standard Motor with Low Static Drive Accessory 5 HP Standard Motor & Drive 5600 - - 706 2.20 730 2.32 754 2.44 778 2.57 802 2.71 825 2.85 848 3.00 870 3.15 893 3.30 916 3.46 939 3.63 962 3.80 6300 758 2.92 783 3.07 804 3.20 826 3.33 847 3.46 9 1 3 1 4.09 951 4.25 97 t 4.42 991 4.59 1012 4.76 7000 835 3.96 861 4.14 881 4.28 899 4.43 919 4.57 938 4.72 957 4.88 976 5.05 995 5.23 1014 5.41 1033 5.58 1051 5.77 1069 5.95 7700 913 5.21 938 5.43 957 5.60 975 5.761 992 6.92 1010 6.08 1027 6.24 1045 6.41 1062 6.59 1079 6.78 1097 6.98 1114 7.17 1131 7.37 8400 991 6.72 1016 6.96 1035 7.17 1052 7.35 1067 7.52 1083 7.69 1099 7.87 1115 8.05 1131 823 1147 8.42 1163 8.62 ( - - - - 7.5 HP Oversize Motor & Drive I For Standard Evaporator Fan Speed (RPM), reference Table 11. Trans's factory supplied motors, in commercial equipment, are definite purpose motors, For Standard Motor & Low Static DriveAccessory/Fan Speed (RPM), reference Table 12. specifically designed and tested to operate reliably and continuously at al cataloged conditions. For Oversize Evaporator Fan Speed (RPM), reference Table 13. Using the lull horsepower range of our tan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. NOTES: Fan motor heat (MBH) • 3.15 x Fan Bhp, Data Includes pressure Drop Due to West Coils and Filters. emu Unit ' Model No. YCD210C•L' Table 10 (Continued) External Static Pressure (Inches of Water) 1.40 1.50 1.60 1.70 1.80 1.90 2.00 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 5 HP Standard Motor & Drive 5600 964 3.99 1006 4.17 1029 4.36 1051 4.54 1073 4.73 1095 4.92 1117 5.12 6300 1032 4.94 1053 5.13 1073 5.32 1093 5.53 1113 5.731 5.94 1152 6.i5 7000 1087 6.14 1105 6.33 1123 6.52 1142 6.72 1160 6.92 1178 7.13 1197 7.36 � 1147 7.57 1164 7.77 1180 7.971196 8.18 1213 8.39 1230 8.601 - - 7.5 HP Oversize Motor & Drive 1 ble 11 Standard Motor And Sheave /Fan Speed (RPM) 6 u 5 Turns 4 Tums 3Tums 2 Turns 1 Tu Open •• n Open Open Open a pen Closed 869 923 978 1032 1141 NA Factory set at 3 turns open. Table 12 Standard 6 Tum NOTES: 1. OA. Outside Alr and RA. Return "Vs d Low Static Dr' = ry /Fan Speed (RPM) Turns 4Tums 3Tums 2Turns Turn Open Open Open Open 0 705 755 806 856 907 957 Table 13 Oversize Motor And Sheave /Fan Speed (RPM) 6Tums 5Tums 4Tums 3Turns 2Turns 1Turn Open Open Open Open Open Open Closed 949 1008 1068 1127 1187 1246 N/A Table 14 Static Pressure Drops Through Accessories (Inches Water Column) Economizer with OA!RA Dampers' CFM Filters 100% OA 100% RA 5600 0.09 0.30 0.04 7000 0.14 0.39 0.05 8400 0.20 0.47 0.06 Table 15 Gas Fired Heating Capacities 5 Heating Input MBh 250/175 NOTE: 1. Second Stage Is total heating capacity. Second StageJFlrst Stage. Air Temperature Heating Output MBh Rise Range 203/142 15.45 Closed .. _.....,.,-..,,.. ........,o-- .,....�...,.....»... «......,.+ w..,.......•.,... w.»...,.,...,.,.,,..,. �wr.. �..•»,. v..,, �.,,.,. so+ w, cwmwwwra .tsasrxwnrur!C+ew.rnn•na. Mechanical Specifications General Units shall be dedicated downflow airflow. Operating range shall be between 115°F and 0 cooling as standard from the factory for all units. Cooling performance shall be rated in accordance with DOE and /or ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -22 and 100% run tested before leaving the factory. Wiring internal to the unit shall be colored and numbered for simplified identification. Units shall be UL listed and labeled, classified in accordance to ANSIZ21.47 for gas fired central furnaces and 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. Exterior surfaces shall be cleaned, phosphatized and finished with a weather - resistant baked enamel finish. Unit's surface shall be tested 600 hours in a salt spray test in compliance with ASTM 8117. Cabinet construction shall allow for all maintenance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing not more than three screws on the unit while providing a water and air tight seal. All exposed vertical panels and top covers in the indoor air section shall be insulated with fire-resistant, permanent, odorless glass fiber material. The base of the downflow unit is insulated with a foil - faced, closed -cell material. The downflow units base pan shall have no penetrations within the perimeter of the curb other than the raised 1y." high supply /return openings to provide an added water integrity precaution should the condensate drain back up. The base of the unit shall have provisions for forklift and crane lifting. Unit Top The top cover shall be one piece or where seams exist, it shall be double hemmed and gasket sealed to prevent water leakage. Filters Two inch filters shall be factory supplied on all units above 71/2 tons. Compressors Compressors shall be direct drive hermetic, reciprocating type with centrifugal oil pump providing positive 6 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. Crankcase heater, intemal tem- perature and current - sensitive motor overloads shall be Included for maximum protection. Shall have intemal spring Isolation and sound muffling to minimize vibration transmission and noise. External high pressure cutout shalt be provided. Low pressure switches shall be standard. Refrigerant Circuits Each refrigerant circuit shall have independent fixed orfice 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 Internally finned 3" copper tubes mechanically bonded to configured aluminum plate fin shall be standard. Coils shall be leak tested at the factory to ensure pressure integrity. The evaporator coil and condenser coil shall be leak tested to 200 psig and pressure tested to 450 pslg. Gas Heating Section The heating section shall have a drum and tube heat exchanger design using corrosion resistant steel components. A forced combustion blower shall supply premixed fuel to a 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 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. Unit shall have two stage heating. Outdoor Fans The outdoor fans 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 Unit shall have belt driven, FC centrifugal fans with adjustable motogr sheaves. Unit shall have an adjustabi idler -arm assembly for quick - adjustment to fan belts and motor sheaves. All motors shall be thermally protected. Oversized motors will be available for high static operations. Nh , Controls — Unit shall be completely " factory wired with necessary controls and contactor pressure lugs or terminal block for power wiring. Units shall provide an external location for mounting fused disconnect device. Micro - processor 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 Micro-processor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. Accessories Roof Curb — The roof curb shall be designed to mate with the downflow unit and provide support and a watertight installation when installed properly. The roof curb design shall allow field - fabricated rectangular supply /return ductwork to be connected directly to the curb. Curb design shall comply with NRCA requirements. Curb shall ship knocked down for field assembly and include wood nailer strips. Economizer — This accessory shall be either field or factory installed. The assembly includes — fully modulating 0 -100% motor and dampers, barometric relief, minimum position setting, preset linkage, wiring harness with plug and fixed dry bulb control. Solid state enthalpy and differential Mechanical Specifications enthalpy control shall be a factory- supplied, field- installed accessory. The factory- installed economizer arrives in the shipping position and shall be moved to the operating position by the installing contractor. Remote Potentiometer — The minimum position setting of economizer shall be adjusted with this accessory. Powered Exhaust — The powered exhaust shall assist the barometric relief damper in the economizer in relieving building pressurization. Motorized Outside Air Dampers — Manually set outdoor air dampers shall provide up to 60 percent outside air. Once set, outdoor air dampers shall open to set position when indoor fan starts. The damper shall close to the full closed position when indoor fan shuts down. Manual Outside Air Damper — Field installed rain hood and screen shall provide up to 25% outside air. Oversized Motors — Field or factory Installed oversized motors shall be available for high static applications. Low Static Drive — Field installed low static drive option shall allow the standard motor to operate at lower static performance. Control Options Trane Communication Interface (TCI) — Shall be provided to interface with the Trane Integrated Comforts"" System. Zone Sensors — Shall be provided to interface with the Micro equipped Voyagers and shall be available in either manual, automatic programmable with night setback, with system malfunction lights or remote sensor options. Conventional Thermostat Interface (CTI) — This field installed circuit board shall provide interface with electro- mechanical thermostats or automation systems. 7 Differential Pressure Switches — This field installed option allows Individual fan failure and dirty filter indication. The fan failure switch will disable all unit functions and "flash" the Service LED on the zone sensor. The dirty filter switch will light the Service LED on the zone sensor and will allow continued unit operation. Input / Output Expansion Accessory — This kit allows Integrated Comfort" Systems to read Supply Air Temperature, Return Air Temperature, Return Air Humidity, and direct indication of fan failure without the use of an economizer or motorized outside air accessory. Electronic Time Clock — This field installed accessory allows up to 4 units night set -back and unoccupied functions when using a standard (Dual Setpoint) zone sensor module. ' MANE" X_. D 102- SC1-231.02 SUBMITTAL Tag: All dimensions are in inches. nLTER ACCESS DOOR HORIZONTAL ONLY CLEARANCE 36 8t96 CLEARANCE 48 ✓ /a. 1 HP7 GAS INLET 87 7/8' 6 3/4' 42 (Amv-.1 88 3/8' PICAL ROOF OPENING )q 6 CLEARANCE 18 HORIZONTAL 36 DOWN FLOW 46 ill CLEARANCE 36 Table 1 Unit Wiring Unit Model No. YCD102C4 JrGDi9SCW Accessory Model No. BAYPWRX017B 7/8 (UNIT CON TROL VARES) 2 " 01A. HOLE (UNIT POWER WIRES) Accessory Operating Voltage 460 45 1/2' Table 3 Accessory Net Weights (Lbs1 81/2 2 To n Downflow Gas /Electric Packaged Unit YCD102C Unit Operating Voltage Range 414.506 • 141 NOTES: 1, HACR breaker per NEC. 2. Values do not Include power exhaust accessory. Table 2 Electrical Characteristics - Power Exhaust Accessory Phase 1 Minimum Circuit Ampacity (Standard /Oversize) 31/34 611/ Maximum Fuse Size Or Maximum Circuit Breaker' (Standard /Oversize) 40/40 ..10/30 Amps HP RPM FLA LRA 3/4 1G "G G G 1 1.5 3/4 1040 3.2 8.4 Economizer Outside Air Damper Oversize LPG High All Roof Motor Conversion Static Zone Power Net Motorized Manual Curb Adder Kit Drive Kit Sensors Exhaust 40 35 32 82 5 5 2 1 65 NOTES: 1. Net weight should be added to unit weight when ordering factory installed accessories. 2. Factory installed options for economizers, multiply net capacity x .99, EER X .97. For oversize motors. multiply net capacity x.98, EER x,93. This Is provided in compliance with ARI certification program. Table 4 General Data Cooling Performance' Gross Cooling Capacity EER • Nominal CFM /ARI Rated CFM ARI Net Cooling Capacity Integrated Part Load Value System Power (KW) Filters — Type /Furnished? (No.) Size Recommended 2 Heating Performance' Heating Models Low Heating Input (Btuh) 135,000 1st Stage (2 Stage Only) Heating Output (Btuh) 105,000 1st Stage (2 Stage Only) AFUE % 81.0 Steady State Efficiency ( %) 81.0 No. Burners No. Stages 1 Gas Connection Pipe Size (in.) YCD102C3, C4, CWL , 107,000 9.0 3,400/3,000 101,000 9.2 11.22 1/2 Compressor No./Type 2/Climatuff8 ARI Sound Rating (BELS) 9.2 Outdoor Coil —Type Hi-Performance Tube Size (in.) OD .375 Face Area (sq ft) 18.03 Rows/FPI 2/16 Indoor Coll —Typo Hi-Performance Tube Size (in.) .375 Face Area (sq ft) 10.50 Rows/FPI 2/15 Refrigerant Control Short Orifice Drain Connection NoJSize (in.) 1/0.75 PVC Outdoor Fan —Type Propeller No. Used/Diameter (in.) 1/26 Drive Type /No. Speeds Direct/1 CFM 7,000 No. Motors/HP 1/1.0 Motor RPM 1,125 Indoor Fan —Type FC Centrifugal No. Used/Diameter (in.) 1/15 x 11 Drive Type /No. Speeds Belt/1 No. Motors 1 Motor HP (Standard /Oversized) 2.0/3.0 Motor RPM (Standard /Oversized) 1,740/1,740 Motor Frame Size (Standard/Oversized) 145T/145T Throwaway/Yes (2)16x20 x2 (2)20x20x2 Refrigerant Charge (Lbs. of R•22) 7.1/Circuit NOTES: 1. Coding Perfomunoe is rated at 95 F ambient, 80 F entering dry bulb, 67 F entering wet bulb. Gross capacity does not Include the effect of fn motor Mat NU capacity is net and includes the effect of fan motor heal Units are suitable for operation to s 20% of nominal dm. Rated in accordance with ARI Standard 210. 2. EER is rated at ARI conditions and in accordance with DOE test procedures. 3. Integrated Part Load Value is based on ARI Standard 210. Units are need at 80 F ambient 80 F entering dry bulb, and 67 F entering wet bulb at ARI rated dm. 4. Heating Performanoe 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 2,000 feet. For elevations above 2,000 feet, ratings should be reduced at the rate of 4% for each 1,000 feet above sea level. 5 AFUE and Steady State Efficiency are rated in accordance with DOE test procedures. 6. Sound Rating is rated In accordance with MI Standard 270. 7. Refrigerant charge is an approadmate value. Fora more psecise value, see unit nameplate and service instnxtions. ) , All dimensions are in inches Power Exhaust End Panel View 33'/2 Power Exhaust Side View ECONOMIZER END PANEL FRESH AIR HOOD (MANUAL) PANEL ECONOMIZER STANDARD END PANEL OF UNIT r CENTER OF GRAVITY WIDTH D CENTER OF GRAVITY t- LENGTH ---► CENTER OF GRAVITY 1 1/2 41 14_2 -- 0-E -22 1/2 Table 5 Maximum Weights, Corner Weights And Center Of Gravity Dimensions= 16 /e CONDENSATE LOCATION 3/4• Maximum Weights (Lbs) Corner Weights (Lbs)' Center of Gravity an.) Shipping Net A B C D Length Width 1169 962 329 244 165 223 38" 20" NOTES: 1. Comer weights are given for infonnadon only. Unit Is to be supported continuously by a curb or equivalent frame support. 2. For comer weights unit location see diagram. 3i CFM Air Flow ury Bulb (F) 61 67 73 61 67 =mixing 73 rem Du,. 61 67 73 61 67 73 MBH SHC MBH SHO MBH SHC MBH SHC MOH SIC MBH SHC MBH SHC MBH SHC MBH SHC MBH SIC MBH SHC MBH WIC 75 98.2 78.0 110.0 61.6 115.0 42.2 89.7 73.5 105.0 58.7 112.0 40.3 81.5 69.3 96.8 54.8 108.0 38.0 73.6 65.2 87.2 54.4 102.0 35.5 3060 80 99.0 92.2 110.0 74.7 116.0 57.0 91.0 87.9 105.0 72.4 113.0 54.4 82.5 82.5 96.9 68.5 108.0 51.9 76.2 76.2 87.4 64.1 103.0 49.1 85 102.0 102.0 111.0 87.6 116.0 67.6 96.2 96.2 105.0 65.9 113.0 66.7 89.4 89.4 97.2 82.3 109.0 65.1 82.9 82.9 88.0 78.0 103.0 62.7 90 108.0 108.0 112.0 101.0 118.0 78.7 103.0 103.0 106.0 99.4 114.0 78.6 96.8 96.8 96.8 96.8 109.0 77.7 89.9 89.9 90.6 89.9 103.0 75.8 75 101.0 82.3 111.0 63.6 116.0 42.5 92.4 77.9 107.0 61,0 113.0 40.7 83.8 73.5 99.5 57.6 109.0 38.6 75.5 69.4 89.6 53.1 104.0 36.1 3400 80 102.0 97.9 112.0 77.2 117.0 58.1 93.0 93.0 107.0 75.7 114.0 56.2 86.2 86.2 99.6 72.4 110.0 53,8 79.5 79.5 89.7 68.0 104.0 51.0 85 106.0 106.0 113.0 91.0 117.0 C9.3 101.0 101.0 107.0 90.2 115.0 68.4 93.7 93.7 100.0 87.5 110.0 67.4 86.8 86.8 90.6 83.2 104.0 65.5 90 111.0 111.0 114.0 105.0 118.0 80.4 107.0 107.0 109.0 105.0 116.0 81.0 101.0 101.0 101.0 101.0 111.0 80.8 94.2 94.2 94.2 94.2 105.0 79.6 75 103.0 86.4 112.0 65.0 116.0 43.0 94.8 82.1108.0 63.1 114.0 41.3 85.8 77.6 102.0 59.0 110.0 39.3 77,4 73.4 01.6 55.5 104.0 36.6 3740 00 103.0 103.0 113.0 79.4 117.0 59.0 96.8 96.8 108.0 78.6 114.0 57.0 89.5 89.5 102.0 76.0 111.0 55.5 82.6 82.6 91.7 71.6 105.0 52.8 85 109.0 109.0 114.0 93.9 110.0 70.8 104.0 104.0 109.0 94.0 115.0 69.9 97.6 '97.6 102.0 92.3 111.0 69.3 90.2 90.2 93.0 88.2 105.0 67.9 90 113.0 113.0 115.0 108.0 119.0 81.9 110.0 110.0 110.0 110.0 117.0 83.0 105.0 105.0 105.0 105.0 112.0 83.4 98.1 98.1 98.0 98.0 106.0 82.8 75 105.0 90.0 113.0 66.2 116.0 43.5 97.0 86.1 109.0 64.9 114.0 41.9 87.7 01.5 103.0 62.1 110.0 39.8 77.6 77.6 93.2 67.8 105.0 37.2 4080 80 106.0 106.0 114.0 81.2 118.0 59.6 100.0 100.0 110.0 81.1 115.0 57.8 92.6 92.6 103.0 79.2 111.0 56.3 85.3 85.3 93.5 75.2 106.0 54.5 85 111.0 111.0 115.0 96.4 119.0 71.9 107.0 107.0 110.0 97.3 116.0 71.0 101.0 101.0 104.0 96.3 112.0 70.9 93.3 93.3 93.3 93.3 106.0 70.0 DO 115.0 115.0 116.0 111.0 120.0 83.3 112.0 112.0 112.0 112.0 117.0 84.7 107.0 107.0 107.0 107.0 113.0 85.7 01.0 101.0 101.0 101.0 107.0 85.8 Table 6 Gross Cooling Capacities (MBh) 85 Unit Model No. Enter 95 Ambient Temperature NOTES: 1. AI capacities shown are gross and have not considered Indoor tan heat. To obtain net cooling subtract Indoor fan heat. 2. MOH . Total Gross Cooling Capacity 3. SHC . Sensble Heat Capacity Table 7 Electrical Characteristics - Evaporator Fan Motor - 60 Cycle Unit Model No. YCD.1G9! 2 YCD102C4 Table 8 Electrical Characteristics Compressor Motor And Condenser Motor - 60 Cycle YCD102C4 No. No. Vohs Standard Evaporator Fan Motor Phase HP FLA LRA No. Volts Phase HP Vohs 460 Phase HP= Heat Low 4.30 2.00 Heating Stages 1 NOTE: 1. High/Low Speed 3.4 Compressor Motors NOTES: 1. Amp draw for each motor multiply value by number of moderato determine total amps. 2. HP Mr each compressor. Amps 23.6 RPM RLA LRA 3450 4 10.0 HP 1/20 Amps' 1 71 RPM 3350 105 460 Oversized Evaporator Fan Motor No. Phase HP Table 9 Combustion Blower Motor Data Volts 208 -230 1 3.00 1.00 Phase 1 115 Condenser Fan Motor Amps FLA LRA 4.8 2.9 0.4 Amps 40.5 0.3 01.0 Amps' FLA LRA 9.3 FLA LRA 1.00 7 ticai�v'�:r pi Table 10 Evaporator Fan Performance External Static Pressure (Indies of Water) .10 .20 .30 .40 .50 .60 .70 .80 .90 1.00 1.10 1.20 1.30 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 2 HP Standard Motor & Field Supplied Low Static Drive (1) 2720 628 0.72 665 0.81 703 0.91 3060 6913 1.001731 1.10 764 1.21 3400 768 1.35 798 1.46 828 1.57 3740 839 1.78 867 1.89 894 2.01 4060 910 2.29 •'• 1 t'c. (2) For Standard Evaporator Fan Speed (RPM), reference Table 11. For Standard Motor & High Static Drive Acdacory /Fan Speed (RPM). reference Table 12. For Oversize Evaporator Fan Speed (RPM). reference Table 13. NOTES: Data Includes pressure drop duo to litters and wet coils. Fan motor heat (MBH) - 3.15 x Fan Bhp. 1. Field Supplied Motor Sheave 1V140 required. Field Supplied Belt may be necessary. 2. 3 HP Oversize Motor with Field Supplied Motor Sheave 114.44 required. Field Supplied Boll may be necessary. 2 HP Standard Motor & 2 HP Standard Motor & Drive HI Static Drive Accy 739 1.02 772 1.12 803 1.23 832 1.33 859 1.42 885 1.52 910 1.61 934 1771 957 1.81 960 1.91 796 1.32 830 1.44 859 1.56 887 1.68 914 1.60 940 1.911 963 2.021 987 2.12 1009 2.231 1031 2.33 858 1.69 888 1.82 917 1.96 944 2.091 970 2. 995 2.35 1019 2.48 1041 2.60 1063 2.72 1084 2.84 921 2.14 948 2.28 976 2.42 1002 2.57 1027 2.7 1051 2.86 1074 3.00 1097 3.14 1118 3.28 1139 3.42 • t 1036 2.96 1061 3.12 1085 3.28 1109 3.44 3 HP Oversize Motor & Drive -LA. . Table 13 Oversize Motor And Sheave /Fan Speed (RPM) 1 • . • r._.r. N/A 725 Factory set at 3 turns open. Table 12 Standard Motor • - ' gh Static CFM 2700 3400 4000 ble 11 Standard Motor And Sheave /Fan Speed (RPM) 6 Tu Open 6 Tums 0 N/A 6 Turns Open 975 0.08 0.13 0.18 Table 10 (Continued) External btattc Pressure (Inches of Water) 1.40 1.50 1.60 1.70 1.80 1.90 2.00 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 2 HP Standard Motor & High Static Drive Accessory 3 HP Oversize Motor & Drive 2720 1003 2.02 1025 2.12 1047 2.23 1068 2.35 1088 2.46 1109 2.57 1128 2.68 3060 1052 2.44 1073 2.55 1094 2.67 1114 2.78 1134 2.91 1153 3.03 1173 3.15 3400 1105 2.96 1125 3.08 1144 3.19 1163 3.31 1182 3.43 - - . - - 3740 4060 5Tums 4Tums n Open 4 Tums Open Open 870 895 5 Tums Open 1035 746 Table 14 Static Pressure Drops Through Accessories (Inches Water Column) Economizer with 0A/RA Dampers' Freers 100% OA 100% RA 0.13 0.07 0.16 0.11 0.19 0.16 Table 15 Gas Fired Heating Capacities Unit Model No. Heating Input MBh 5 1 2 HdlStandand Motor & High Static Drive Accessory 3 Turns Open 796 3 Turns Open 945 2 Turns Open 845 2 Tum Open 994 4Turns 3Turns Open Open 1095 1155 1215 2 Tums Open Heating Output MBh YCD102C -L' 135 105 V68462C N' 805/16 melt! NOTES: 1. Second Stage Is total heating capacity. Second Stage / First Stage aw.. a.. ua.. �t+ t.. m.' MY�esY .•'tlinWVCVlYN!1'^htM•4ha.. 1 Tum 0 y Closed :•5 967 /Fan Speed (RPM) 1 Tum n 1 Tum Open 1275 Closed 1064 1112 Closed N/A Air Temperature Rise Range 15-45 26-56--- - y Mechanical Specifications General Units shall be dedicated downflow airflow. Operating range shall be between 115°F and 0°F cooling as standard from the factory for all units. Cooling performance shall be rated in accordance with DOE and /or ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -22 and 100% run tested before leaving the factory. Wiring internal to the unit shall be colored and numbered for simplified identification. Units shall be UL listed and labeled, classified in accordance to ANSIZ21.47 for gas fired central furnaces and 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. Exterior surfaces shall be cleaned, phosphatized and finished with a weather - resistant baked enamel finish. Unit's surface shall be tested 500 hours in a salt spray test in compliance with ASTM 3117. Cabinet construction shall allow for all maintenance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing not more than three screws on the unit while providing a water and air tight seal. All exposed vertical panels and top covers in the indoor air section shall be insulated with fire - resistant, permanent, odorless glass fiber material. The base of the downflow unit is insulated with a foil - faced, closed-cell material. The downflow units baso pan shall have no penetrations within the perimeter of the curb other than the raised 1+ /e" high supply /retum openings to provide an added water integrity precaution should the condensate drain back up. The base of the unit shall have provisions for forklift and crane lifting. Unit Top The top cover shall be one piece or where seams exist, it shall be double hemmed and gasket sealed to prevent water leakage. Filters Two inch filters shall be factory supplied. Compressors Compressors shall be direct drive hermetic, reciprocating type with a centrifugal 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. Crankcase heater, internal temperature and current - sensitive motor overloads shall be included for maximum protection. Shall have internal spring isolation and sound muffling to minimize vibration transmission and noise. Low pressure switches shall be standard. Refrigerant Circuits Each refrigerant circuit shall have independent fixed orfice 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 Internally finned W copper tubes mechanically bonded to configured aluminum plate fin shall be standard. Coils shall be leak tested at the factory to ensure pressure integrity. The evaporator coil and condenser coil shall be leak tested to 200 psig and pressure tested to 450 psig. Gas Heating Section The heating section shall have a drum and tube heat exchanger design using corrosion resistant steel components. A forced combustion blower shall supply premixed fuel to a 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 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. Unit shall have two stage heating. Outdoor Fans The outdoor fans 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 Fen Unit shall have belt driven, FC centrifugal fans with adjustable motor �� sheaves. Unit shall have an adjustable I idler -arm assembly for quick - adjustment to fan bolts and motor sheaves. All motors shall be thermally . f protected. Oversized motors will be ` available for high static operations. Controls — Unit shall be completely factory wired with necessary controls and contactor pressure lugs or terminal block for power wiring. Units shall provide an external location for mounting fused disconnect device. Micro - processor 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 Micro-processor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. Accessories Roof Curb — The roof curb shall be designed to mate with the downflow unit and provide support and a watertight installation when installed properly. The roof curb design shall allow field - fabricated rectangular supply /return ductwork to be connected directly to the curb. Curb design shall comply with NRCA requirements. Curb shall ship knocked down for field assembly and include wood nailer strips. Economizer — This accessory shall be either field or factory installed. The assembly includes — fully modulating 0-100% motor and dampers, barometric relief, minimum position setting, preset linkage, wiring harness with plug and fixed dry bulb control. Solid state enthalpy and differential enthalpy control shall be a factory- supplied, field - installed accessory. The . Mechanical Specifications factory- installed economizer arrives in the shipping position and shall be moved to the operating position by the installing contractor. Remote Potentiometer — The minimum position setting of economizer shall be adjusted with this accessory. Powered Exhaust — The powered exhaust for units shall assist the barometric relief damper In the economizer in relieving building pressure. Motorized Outside Air Dampers — Manually set outdoor air dampers shall provide up to 50 percent outside air. Once set, outdoor air dampers shall open to set position when indoor fan starts. The damper shall close to the full closed position when indoor fan shuts down. Manual Outside Air Damper — Field installed rain hood and screen shall provide up to 25% outside air. Oversized Motors — Field or factory Vt"°""' installed oversized motors shall be available for high static applications. High Static Drive — Field installed high static drive option shall allow the standard motor to operate with improved external static capabilities. Control Options Trans Communication Interface (ICI) — Shall be provided to interface with the Irene Integrated Comfortu" System. Zone Sensors — Shall be provided to interface with the Micro equipped Voyagers and shalt be available in either manual, automatic programmable with night setback, with system malfunction lights or remote sensor options. Conventional Thermostat Interface (CTI) — This field installed circuit board shall provide interface with electro- mechanical thermostats or automation systems. 7 Differential Pressure Switches — This field installed option. allows individual fan failure and dirty filter indication. The fan failure switch will disable all unit functions and "flash" the Service LED on the zonb sensor. The dirty filter switch will light the Service LED on the zone sensor and will allow continued unit operation. Input / Output Expansion Accessory — This kit allows Integrated Comfort' Systems to read Supply Air Temperature, Return Air Temperature, Return Air Humidity, and direct indication of fan failure without the use of an economizer or motorized outside air accessory. Electronic Time Clock — This field installed accessory allows up to 4 units night set -back and unoccupied functions when using a standard (Dual Setpoint) zone sensor module. r •G MANE"' Tag: Skike•Aet. #u4' _, ) All dimensions are in inches EVAPORATOR SECT ACCESS PANEL spa 1/2 NPT GAS CONNECTION CONTROL & COMPRESSOR ACCESS PANEL CLEARANCE 36 81% CLEARANCE 40 Net' Economizer CLEARANCE 36 Table 3 Accessory Net Weights (Lbs) Outside Air Damper PICAL ROOF OPENING TOP PANEL 42 Unit Model No. t „ Y YCD090C4 Accessory 49 NOTES: 1. Net weight should be added to unit weight wtwn adoring lame/ installed aoonwnuar. SUBMITTAL CONDENSER FAN 1 e 2 ,1% 7 /e HOLE HO (UNIT CONTROL WIRES) 46 CONDENSER COD. 463/8 10 CLEARANCE 36 Table 1 Unit Wiring 2' DIA HOLE (UNIT POWER WIRES) Unit Operating Voltage Range 81% Minimum Circuit Ampacity' Standard/Oversized YCDO90 -SQ- 217.04 7/2 Ton Downf low Gas/ Electric Packaged Unit Single Compressor YCD090C 61 414 -506 20.9/22.1 NOTES: 1. HACK breaker per NEC. 2. Values do not Include power exhaust accessory. Table 2 Electrical Characteristics — Power Exhaust Accessory Accessory Operating Model Number Voltage 1 SAYPW1iX016A 460 1 Roo( Oversize Power Ship Motorized Manual Curb Motor Exhaust Maximum Fuse Size Or Maximum Circuit &saker' Standard/Oversized Amps Phase HP RPM FLA LRA Y4 1400--813-1•917 1100 3.1 6.4 3 /4 LPG Conversion All Zone Kit Sensors 40 70 35 32 82 45 66 5 1 u Nni.K�'••.:arS'.^.x'vaM1�P.7[!'1 ::tlY1p••&,di,�ryr!.i.�•,: A.:,..:.. 14 ir .rc-ww.-n,.ti...- aw:vbv: v 5 'able 4 General Data ; YCD090C3, C4,CW Cooling Performance' Gross Cooling Capacity 92,000 EER' 9.00/— Nominal CFM / ARI Rated CFM 3,000 / 2,625 ARI Net Cooling Capacity r 88,000 Intergrated Part Load Value — System Power (KW) 9.78 Heating Performance' Heating Models Low Heating Input (Btuh) 120,000 arr 1st Stage Units Only_ Heating Output (Btuh) 97,000 /l em 1st Stage Unite Only 16E4800 AFUE 96' 81.0 __ Steady State Efficiency 81 K No, Burners 1 No. Stages 1 t! Gas Connection Pipe Size (in.) 1/2 Compressor No./Type 1/Trane H Sound Rating (BELS)' 8.8 Outdoor CoU - Type Hi- Performance Tube Size (In.) OD .375 Face Area (sq ft) 12.09 Rows/FPI 2/16 Indoor Coll - Type Hi-Performance Tube Size (in.) .375 Face Area (sq 11) 7.88 Rows/FPI 3/15 Refrigerant Control Short Orifice Drain Connection No./Size (in.) 1 /'4 PVC Outdoor Fan - Type Propeller No. Used/Diameter (in.) 1/24 Drive Type/No. Speeds Direct/1 CFM 5,450 No. Motors/HP 1/.50 Motor RPM 1,075 Indoor Fan - Typo FC Centrifugal No. Used/Diameter (In.) 1/12 X 9 Drive Type/No. Speeds Beak No. Motors 1 Motor HP (Standard/Oversized) 1.0/2.0 Motor RPM (Standard/Oversized) 1725/1725 Motor Frame Size (Standard/Overslzed) 58/56 Fitters - Type Throwaway Furnished ? Yes (No.) Size Recommended (3) 16 X 25 X 1 Refrlgennt Charge (Liu of R-22)' 10.6 NOTES 1. Cooling P.donmance Is rated at 95 F ambient, 80 F entering dry bulb, 67 F entering wet bulb and nominal cfm Bated. ARI rating cfm Is 350 cfmAon for this product Gross capacity does not Include the affect of fan motor Mal ARI capacity w net and Includes the .fact of fan motor heat Units era suitable for operation to :20% of nominal cfm. Rated in accordance with ARI Standard 210. 2. Floating 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 2000 rest. For elevations above 2000 feet, ratings should be reduced at the fete 014% for each 1000 feet above sea level 3. AFUE is rated In accordance with DOE lest procedures. 4. ARI Sound Rating Is rated In accordance with ARI Standard 270. 5. Refrigerant charge Is an approximate value. Fora more precise value, see unit nameplate and service instructions. 6.. EER is rated at ARI condtions and In accordance with DOE test procedures. 2 nu. nvw« awn+.r..rSwrmwrot sO s irof.* **0**t, 1Mi All dimensions are in inches ECONOMIZER END PANEL Center Of Gravity Width j Center Of Gravity FRESH AIR HOOD (MANUAL) STANDARD END PANEL OF UNIT ECONOMIZER HOOD Center Of Gravity I Length ... Table 5 Maximum Weights, Corner Weights And Center Of Gravity Dimensions r -- i r -1 R S E U T P 36-1/4 R I L I N L Y J + L J 16 -3/16 22.1 /2 --H N rr- 42 -7/8 C 4 3-3/8 3/4" PVC Condensate Location 12.16/16 3 -1/4 Maximum Weight (ibe) Corner Weights Ober Center of Gravity (in.) Shipping Net A 8 C D Length Width 982 793 262 203 151 177 NOTES: 1. Comer rvsfgha No porn for Infanrtfon only. 3 39 21 11/2 Ak1bw 0) MBh SHC MBh SHC MBh SHC M9h SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 76 86.3 684 913 65.9 1010 38.3 79.3 84.6 902 63.2 981 34.3 720 608 83.7 60.1 922 31.7 84.7 57.0 75.8 48.5 88.3 29.1 2700 80 87.1 01.1 95.7 86.3 1010 49.6 80.4 714 90.6 63.0 918 47.2 728 728 84.0 69.7 927 44.5 668 618 75.9 619 88.6 41.5 85 898 818 983 770 1020 59.6 84.4 84.4 90.9 76.2 981 68.3 786 78.6 844 723 93.0 56.6 725 726 76.8 686 86.9 54.1 90 843 94.3 97.1 888 103.0 89.9 89.8 898 918 87.4 99.0 69.4 84.4 84.4 858 86.1 917 68.2 783 783 786 78.8 872 66.1 76 88.4 722 96.6 66.4 101.0 30.9 813 68.4 91.7 628 97.7 34.8 729 64.6 85.6 49.5 93.1 324 663 007 77.4 45.7 87.4 29.5 3000 93 89.6 881 97.1 67.7 1020 513 829 826 920 66.9 982 481 76.9 76.9 85.7 63.1 937 482 69.7 69.7 77.8 693 87.7 43.3 85 927 927 97.7 803 1010 66.1 87.9 87.9 926 79.1 893 627 820 82.0 862 76.8 84.2 68.7 76.7 787 786 73.2 880 68.6 80 978 97A 98.7 928 104.0 71.8 927 927 938 92.2 100.0 71.8 87.6 87.8 87.7 87.7 94.9 712 81.8 81.8 820 820 88.5 69.7 76 90.0 76.0 976 573 1011.0 37.6 831 721 928 646 983 35.4 76.5 682 08.7 61.4 936 33.0 87.9 84.3 78.8 47.8 882 311 3300 80 913 90.4 98.1 89.8 103.0 530 048 84.8 832 6118 998' 49.4 786 706 888 66.1 943 476 722 722 79.1 828 886 46.0 85 950 96.0 96.9 831 1048 819 904 904 93.9 826 100.0 866 841 84.9 87.7 80.8 952 6118 784 784 80.4 77.8 89.0 689 90 998 99.0 1008 98.2 1060 73.5 96.0 960 960 968 101.0 74.0 910 90.0 802 902 980 73.9 84.3 84.3 84.5 84.5 89.6 729 75 913 787 982 59.2 1020 380 84.7 76.6 917 68.4 88.9 35.9 77.0 71.7 87.8 63.3 94.4 314 693 67.8 801 49.8 088 308 3600 63 824 924 998 71.7 1010 64.6 87.4 87.4 94.2 718 99.6 60.2 81.1 81.1 87.8 69.0 060 48.6 74.4 74.4 814 66.7 892 48.3 85 96.9 98.9 999 86.7 104.0 70.6 924 924 961 85.8 101.0 829 87.1 87.1 89.0 84,6 96.9 623 819 80.9 81.2 81.2 89.9 81.1 90 1018 101.0 1018 99.3 1060 76.0 96.8 911.8 96.8 98.8 1020 75.9 91.0 920 92.1 921 868 78.8 86.4 86.4 86.6 885 918 75.9 Table 6 Gross Cooling Capacities (MBh) Ewer. Dry nl,e, 86 95 Entering Wet Bub (9 81 67 73 61 67 73 61 NOTES: 1. All capacities shown are woes and have not considered indoor fan heat. To obtain net cooling subtract indoor fan heat. 2. MBh • Total Gross Capacity 3. SHC . Sensible Heat Capacity Table 7 Electrical Characteristics - Evaporator Fan Motors - 60 Cycle Unit Model No. Y Unh Model No. r..$ 06000000 YCD090C4 No. Standard Evaporator Fan Motor Volts YCD090C3 -L 1 a: e ) 01019000460 0 YCDO90C4 -L 1 208 -230 3 1.00 5.9 32.2 1 20 460 3 Table 8 Electrical Characteristics - Compressor Motor And Condenser Motor - 60 Cycle Compressor Motors No. Vohs Phase HP RPM 7.50 Phase HP FLA LRA No. Volts Phase HP FLA LRA 3450 NOTES: 1. Amp draw for each motor; muhipfy value by number of motors to determine total snipe. Ambient Temperature (9 1•.00 0.3 1.00 3.2 Table 9 Combustion Blower Motor Data Heating Amps rl,4 %,,,'} Heat Stages HP RPM Volts Phase FLA LRA �. Low 1 1/20 3350 208-230 1 0.4 1.00 rileh 2 . /a0 ^CCG 200 °30 1 0.4 'At 4 12.2 4C.1 16.1 Amps' 79 106 67 73 208 -230 4 €O 0 460 3 61 RLA LRA No. Phase HP 2.00 115 67 Oversized Evaporator Fan Motor 73 Amps Amps 0 2.00 8.8 53.0 4.4 26.5 G7i 3 100 0.1 .18.4 Condenser Fan Motors Amps' FLA LRA 2.4 5.4 • Table 10 Evaporator Fan Performance External Static Pressure finches of water) Unit .10 .20 .30 .40 .60 .60 .70 .80 .90 1.00 1.25 1.50 Model No. CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP YCD090C -1..H 1 HP Standard Motor & Sheens 2400 721 .62 760 .66 801 .71 840 .76 879 .80 916 .85 962 .89 988 .921026 .96 1058 .99 1421.0512261.10 2700 802 .86 836 .92 872 .97 9081.03 9431.08 977 1.13 1011 1.17 1043 1.22 1076 1.27 1108 1.31 1188 1.401269 1.47 3000 8841.17 : • _. r . 4 042 r 1104 1.57 1134 1.63 1163 1.68 1236 - 3300 9681.. 9941.6010221.6710611.73 1081 1.801111 1.8711391.93 11671.991195 205 223 - - - - 3600 10481.98 1076 206 1101 21 2 1126 220 1163 227 1181 234 1208 242 1234 2.49 1 260 265 2 HP Oweetrsd Motor & Shawes Data includes pressure drop due to filters and wet ooiL Fan motor heat (Mehl c 3.16 x Fan Shp Trans's factory supplied motors, in commercial equipment, are definite purpose motors. specifically designed and tested to operate reliably and continuously at e11 cataloged conditions. Using the fun horsepower tangs of our Ian motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected 5 Turns Open Open • Table 11 Standard Motor And Sheave /Fan Speed (Rpm) 3 Turns 2 a,.. • 0 Table 12 Oversize Motor And Sheave /Fan Speed (Rpm) Table 14 Gas Fired Heating Capacities , Unit Model No. 6 Turns 4 Turns 3 Turns 2 Turns 1 Turn Open Open Open Open Open Closed 990 1048 1106 1164 1222 1280 YCD090C -L 6 Air Temperature Heating Input MBh Heating Output MBh Rise Range 120,000 860 NOTES: 1. Second stage is total heating capacity. Second Stage/Fkat Stage. 929 n 97,000 NOTES: 1. 1' fitter 2. OA . Outside Ain RA . Return Ak Turn Open Closed Table 13 Static Pressure Drops Through Accessories (Inches Water Column) 25.65 Economizer with OKRA Dampers/ CFM Fitters' 100% OA 100% RA 2400 0.06 0.12 0.02 3000 0.10 0.16 0.03 3600 0.15 0.20 0.03 General Units shall be dedicated downflow airflow. Operating range shall be between 115 F and 0 F cooling as standard from the factory for all units. Cooling performance shall be rated in accordance with DOE and /or ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -22 and 100 percent run- tested before leaving the factory. Wiring internal to the unit shall be colored and numbered for simplified identification. Units shall be UL listed and labeled, classified in accordance to ANSIZ21.47 for gas fired central furnaces and 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, Exterior surfaces shall be cleaned, phosphatized and finished with a weather - resistant baked enamel finish. Unit's surface shall be tested 500 hours in a salt spray test in compliance with ASTM 13117: Cabinet construction shall allow for all mainte- nance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing only a single fastener while providing a water and air tight seal. The base pan shall have no penetra- tions within the perimeter of the curb other than the raised 1 /e' high supply/ return openings to provide an added water integrity precaution, if the condensate drain backs up. The base of the unit shall have provisions for forklift and crane lifting. Unit Top The top cover shall be one piece or where seams exist, it shall be double hemmed and gasket sealed to prevent water leakage. Filters One inch, throwaway filters shall be standard. Mechanical Specifications Compressors All units shall be direct- drive her- metic, reciprocating type comp- ressor(s) with centrifugal 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. Crankcase heater, internal tempera- ture and current - sensitive motor overloads shall be included for maximum protection. Shall have Internal spring isolation and sound muffling to minimize vibration trans- mission and noise. Low pressure switches shall be standard. Refrigerant Circuits Each refrigerant circuit shall have Independent fixed orifice 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 Internally finned 3/8' copper tubes mechanically bonded to configured aluminum plate fin shall be standard. Coils shall be leak tested at the factory to ensure pressure integrity. The evaporator coil and condenser coil shall be leak tested to 200 psig and pressure tested to 450 psig. Gas Heating Section The heating section shall have a drum and tube heat exchanger design using corrosion resistant steel components. A forced combustion blower shall supply premixed fuel to a 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 45 seconds before ignition. After three unsuccessful ignition attempts, the entire heating system shall be locked out until manually reset at the thermostat. 6 Units shall be suitable for use with natural gas or propane (field installed kit) and also comply with California requirements for low NOx emissions. Outdoor Fans The outdoor fans 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 centrifu- gal fans with adjustable motor sheaves, All motors shall be thermally protected. Oversized motors shall be available for high static operations. Units shall be capable of providing 1" ESP at nominal unit CFM (400 CFM/1'on). Controls Unit shall be completely factory wired with necessary controls and contactor pressure lugs or terminal block for power wiring. Units shall provide an external location for mounting fused disconnect device. Micro - processor 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 Micro- processor shall provide anti -short cycle timing and time delay between compressors to provide a higher level. of machine protection. Accessories to Roof Curb - Downflow — The roof curb shall be designed to mate with the downflow unit and provide support and a watertight installation when installed properly. The roof curb design shall allow field- fabricated rectangular supply /return ductwork to be connected directly to the curb. Curb design shall comply with NRCA requirements. Curb shall ship knocked down for field assembly and include wood nailer strips. • Mechanical Specifications "• Economizer - Downf low — This accessory shall be either field or factory installed. The assembly includes — fully modulating 0 -100 percent motor and dampers, baro- metric relief, minimum position setting, preset linkage, wiring hamess with plug and fixed dry bulb control. Solid state enthalpy and differential enthalpy control shall be a factory- supplied, field - installed accessory. The factory- installed economizer arrives in the shipping position and shall be moved to the operating position by the installing contractor. Remote Potentiometer — The minimum position setting of econo- mizer shall be adjusted with this accessory. 'N Powered Exhaust — The powered exhaust shall assist the barometric relief damper in the economizer in relieving building pressurization. Motorized Outside Air Dampers — Manually set outdoor air dampers shall provide up to 50 percent outside air. Once set, outdoor air dampers shall open to set position when indoor fan starts. The damper shall close to the full closed position when indoor fan shuts down. Manual Outside Air Damper — Field installed rain hood and screen shall "kk provide up to 25% outside air. ""^N Oversized Motors — Field or factory installed oversized motors shall be available for high static applications. Coll Guards — Coil guards shall be field - installed for condenser coil protection. Control Options Trane Communication Interface (TCI) — Shall be provided to interface with the Trane Integrated Comfort' systems. Zone Sensors — Shall be provided to interface with the Micro equipped Voyagers and shall be available in either manual, automatic program- mable with night setback, with system malfunction lights or remote sensor options. 7 Conventional Thermostat Interface (CTI) —This field - installed circuit board shall provide interface with electro - mechanical thermostats or automation systems. Differential Pressure Switches — This field installed option allows individual fan failure and dirty filter indication. The fan failure switch will disable all unit functions and "flash" the Service LED on the zone sensor. The dirty filter switch will light the Service LED on the zone sensor and will allow continued unit operation. Input / Output Expansion Accessory — This kit allows Integrated Comfort'"' Sytems to read Supply Air Temperature, Retum Air Temperature, Retum Air Humidity, and direct indication of fan failure without the use of an economizer or motorized outside air accessory. Electronic Time Clock -- This field installed accessory kit will allow the unit to operate in the unoccupied mode or perform night setup /setback functions utilizing a standard individual scheduling. TRANE Tracker 0 l & S NE PA D 1-1 A#41• AJ E Building Management System Installation Guide Software Version 6.0 EMTK -IN -7 C 22- 6036 -05 Includes Trackers used with: • Thermostat Control ModulesTt`t • VoyagerT "t Rooftop Units • VariTracT`t II Central Control Panels • Specifications Power Requirements Operating Environment Storage Environment Cabinet Memory Backup EMTK -IN -7 20-30 VAC, 60 Hz,1 Ph 20 VA Minimum Class 2 Transformer Required 32to120°F 10 to 90% relative humidity, non - condensing -40 to 140° F 10 to 90% relative humidity, non - condensing NEMA 1 Enclosure Mounting Mount directly on wall surface ormount on recessed 4" x 4" conduit box. Dimensions 12" high x 9 -3/4" wide x 2 -3/4" deep Weight 4 pounds Communication Link Wiring Communication link wiring must be 18 AWG twisted, shielded pair wire. Each conductor must be stranded tinned copper. The maximum total wire length is 5,000 feet. Wire must meet the specifications of Trane wire ordering number 400- 20 -28. See Figure 1 for specifications. Analog Temperature Input Thermistor device, range -30 to 150° F Binary Input Voltage Provided: 10 - 14 VDC Current Provided: 10 -14 mA U.L. Approval The Tracker is U.L. approved. Upon a power loss, all operator - edited data stored in the Tracker, such as area names, setpoints, and Time of Day schedules, will be maintained permanently. System time and date will be maintained for a minimum of 14 days at a temperature below 104° F (40° C). General Information Unit Description The Tracker is a building management system designed to provide centralized access (status and setup) to the following Trane devices: EMTK -IN -7 0 • Thermostat Control Module (TCM: thermostat 2H2C, heat pump, and slave) • Voyager Rooftop Unit • VariTrac II Central Control Panel and zone damper Unit Control Module (UCM) The two models of the Tracker panel are the Stat 7 and the Stat 16. The Tracker Stat 7 is a smaller version, meant to communicate with a limited number of units. The Tracker Stat 16 includes all Tracker Stat 7 capabilities, but is able to communicate to a greater number of units, and is additionally capable of Demand Limiting. The Tracker provides input monitoring and output control based on distributed control through the Thermostat Control Modules, Voyager Rooftops, and VariTrac II Central Control Panels. The Tracker provides one thermistor input for an outdoor air temperature sensor. The Stat 16 model also provides one binary input for a pulse meter. The Tracker maintains time and date, and provides time of day (TOD) scheduling for the connected devices. Also, Tracker provides setpoint control for day /night heating and cooling temperatures of the connected devices. The Tracker ships with a default set of pre - programmed comfort operating parameters, and automatically assigns default point names to undefined devices with which it is communicating. The Tracker also automatically names binary outputs for slave TCMs. This feature minimizes the amount of operator editing required to start up a system and serves as an example for customizing names. The operator interface with the Tracker includes both a 16 -key front panel keypad with a two line by 40 character display, and a full access RS -232 edit terminal communications port that is used with a CRT terminal. A second communication port on the modem board can be used for remote communications over phone lines. This optional internal modem is a separate circuit board inside the Tracker panel. Additional building control features of the Tracker include the following: • Alarming of communication failures, high and tow temperature conditions, and system/unit diagnostics which can be viewed at the front panel display, the edit terminal port using a CRT terminal, or remotely via the optional internal modem. • Trend logging to record space temperatures and other data at fixed intervals. • A slave Thermostat Control Module whose outputs can be operator controlled and assigned to TOD schedules, and whose inputs can monitor temperatures and status values. • Optimal start. • Holiday and exception scheduling. • Four - character password security protection. • Demand Limiting (Tracker Stat 16 model only). 7 8 Unit Description Figure 2 Typical Tracker Application Figure 3 Tracker Terminator Card Component Layout 0 General Information Figure 2 illustrates a typical Tracker application. Figure 3 shows the major Tracker terminator card components. Optional Outdoor Air Temperature l Sensor Interconnecting Wiring: Single Twisted, Shielded Poir link for Twc -Way Communication Optional Pulse Meier (Slot 16 Only) Tracker 8uildl -g V.anogenenl Sys +em 1 Voyager Rooftop OpBono: Printer To Optional Tracker Wirral Modem VonIroe VariTrot Zone Dampen l lone Dampers • VoriTroc 11 Central Control Panel — A-olog Inputs --- Eno y Inputs Emory Outputs 2H2C TCM 1 I 1 .. RS -232 Cable c:� . ' I I I Optional CRT leiephone Une Voyager Rooftop —i -- Analog Inputs Binary Inputs MM Binary Outputs Steve TCU Modem n Ett Ll� VarTroc 11 Central Control Panel To Additionoi 1'orilroc R Cenhot Control Pane's. ICUs, and /0r Voyager Rooftops Connected lo IOM PC with Terminal Emulation Software or 8JIlding Management Network Voyager Roo'lcp • Terminal Block 0 0 11 2 „41 VI= IIP 1 2 3 4 5 6 7 8 910 U RS232 PI P) SI IE ON 1 Pp u O war e • 12 L.1>" :D TX 5v "a a Tx 3 2 Rx 3 O 0 RS -232 Port for Local CRT or PC ON /OFF Switch Status/ Diagnostics LED's EMTK -IN -7 • 0110) Mw w. .r•■w ■ 4 General Information Communication Link Shipment Storage EMTK -IN -7 0 The Tracker has a serial communication link to allow it to communicate with Thermostat Control Modules, Voyager Rooftop Units and VariTrac II Central Control Panels. Table 1 lists the total device counts for each Tracker model. Table 1 Device Counts for Tracker Models l < r Note: Total device count on a Tracker $tat 16 may not exceed 16 plus 2 Slave TCMs. Total device count on a TrackerStat 7 may not exceed 7 plus 2 Slave TCMs. The Tracker and service literature are shipped in the same package. When unpacking, make sure that the literature is not lost or discarded with the packing material, Visually inspect the Tracker for obvious defects or damage. All components are thoroughly inspected before leaving the factory. Any claims for damage incurred in shipping should be filed with the carrier. If the unit is to be stored for a period of time, the storage temperature should be -40° to 140° F. The relative humidity of the storage location should be 10 to 90 percent, non - condensing. A controlled indoor environment is recommended for storage. l.: Communication Link Unit Mounting . Figure 4 Dimensions for Tracker Enclosure 2 13/16" 71mm 4 5/16" 110mm 3 3/8" 86mm 1 25.4mm 7 1 " 3 86mm L - - 3 5/8" 92mm 5" 127mm 203mm 8" 6 1/4' 159mm TOP VIEW 3 3/8' 86mm 9 13/16" 250mm FRONT VIEW • 3 5/8" 92mm 19mm 3/4' 0 7/8" (22mm) AND 0 1 5/64" (27M1A) KNOCKOUT [1/2" (12mm) OR 3/4" (19mm) CONDUIT) 24 VAC INPUT POWER. LOW VOLTAGE INPUT AND COMMUNICATION LINK WIRING. 1" 25,4mm 6 1/16" 154 0 3/16" (5mm) - 7X (MOUNTING MOLES) 4x4" (102 x 102mm) KNOCKOUT (4" X 4" CONDUIT BOX LOCATED 57 1/2" ABOVE FLOOR LEVEL) ENTRY FOR 24. VAC INPUT POWER, LOW. VOLTAGE INPUT AND COMMUNICATION LINK WIRING. SIDE VIEW 12 d Installation EMTK -IN -7 ...., n .;.,uwy.r,M ::faw cFaa. b. .4..i wn.n.r...ew +r .u. «.vww .n+ wn.wu nu.s ✓w..— w.. rw,rw .wn .... nur w +n Y. rWUMUr,.y xn•rr m«f. p «nwwn 4wiroYlx wnY tY MMC. #Yp:1 ]W •?tr S1F}Y,ry1M 404:A1 installation AC Power Wiring AC Power Checkout 0 EMTK -IN -7 Figure 5 Location of Front Panel Door Screw J Location or Front panel Door Screw AC Power Wiring Power Supply A dedicated 24 VAC, 20 VA class 2 transformer is required to power the Tracker. CAUTION :: The 24 VAC power supply must not be used to power any devices other than the Tracker. This could result in malfunction of the Tracker due to electrical noise. The Tracker requires 3 -wire service with a nominal voltage of 24 VAC and a utilization range of 20 to 30 VAC. We recommend you use 16 AWG wire and metal conduit. All wiring must comply with the National Electrical Code and local codes. WARNING: To prevent injury or death from electrical shock, disconnect power external to the Tracker before making power connections. AC Power Connections The 24 VAC line can enter the Tracker cabinet through the 4" x 4" knockout or through the knockouts in the top of the panel. CAUTION: To avoid damaging the circuit board, do not use the knockout at the bottom of the panel A warning sticker is attached to the bottom knockout. Remove the sticker and clean off the residue with rubbing alcohol. Figure 4 shows the 24 VAC conduit entry holes. Connect the 24 VAC line to the unit at TB 1, located on the terminator card inside the Tracker, as shown in Figure 3. Connect the 24 VAC wires to TB 1 -1 and TB 1 -2 and connect the ground wire from the circuit breaker panel ground to TB l -3. Use copper conductors only. CAUTION: Do not run AC power wires in the same conduit or wire bundle with any input/output or communication link wires. This may cause the Tracker to malfunction due to electrical noise. 1. After the 24 VAC connections have been made at TB 1, apply AC power by closing the circuit breaker for the class 2 transformer. 13 Communication Link Wiring Figure 7 Tracker Field Wiring Connections 16 CIRCUIT BITCAKCR PANEL GROUND L CHASSIS GROUND r...r •••• 120 vAC r ■•— �° POIYCR i ...off I 1 1.-o- - 21 VAC : ,- SOURCE ll� 24 VAC 781 1 1 1 2 1 3 4 1 5 (6 7 1 8 1 9 1101 CLASS 2 7 'BINARY TRANSFORMER � COMM DOOR I INPUT ICS SN OUT- LINK RS232 INICRFACC •• 1 P7 i TEMP TERMINATOR FOR OPTION AI l CARD LOCAI TERMIN • Y «,1,K • CENIPAL ® I 1 ® AVE x WINO, ® 1 C U ® TCU J 4 •••(L Al 1 • • TMPSE NSOR y BINARY INPUT CONTACT T (STAT 16 ONLY) INTERNAL 1100114 OP11ON P9 1 CUSTOMER NOTES 1 'S• COMPONENTS AND WANING SHOWN DASHED ARE FURNISHED AND INSTALLED BY CUSTOMER. & ALL CUSTOMER KIRING MUST 6E IN ACCORDANCE MATH NATIONAL CLEC7RIC CODES AND LOCAL COOLS. ��• 06 !'OWCR AT 1431 MUST 01 20 -30 VAC. 50/60 HZ. 20 VA FROM A CLASS 2 TRANSFORMER (CUSTOMER SuPPLICD). THE CHASSIS GROUND TBI -3 MUST BE CONNECTED TO THE CIRCU11 BREAKER PANEL GROUND THAT SUPPLIES THE TRANSFORMER. MAxIMUM BINARY INPUT WIRING DISTANCE IS 1000 FEET (305m). SEE NOTE 12 FOR WIRE SPfC1FICATIONS. Al BINARY CONTACT, SHIELD MUST BE CUT BACK AND TAPED. Al SEAT TERMINATOR. SHIELD WIRE MUST BE CONNECTED TO IERUINAI 101 -10. �L' INC BINARY INPUT WS! BE AN ISOLATED, UNGROUNDED CONTACT. itt, Al OUTDOOR AIR TEMPERATURE SENSOR, SHIELD MUST BE CUT BACK AND TAPED. AT SIA1 TERMINATOR, SHIELD WIRE UU51 BE CONNECTED 10 1ERUINAI 101 -8. SEE NOTE 12 FOR YARE SPECKICATIONS. UAXIUUU AIRING DISTANCE (5 300 FEET (Blm), A RA or -30' 10 PER SENSOR IS A RESISTANCE 1NERAIISIOR DEVICE (PART NUMBER 4190 -1063) YAM INC S1A1 ICS COMMUNICATIONS LINK IS FOR CODUUNICATION WITH VARIOUS MANE ICS EOLIPMCNT •I•POLLCPS 1.IAI:ILUM .CS WRE LENGTH IS 5000 FEET (1524m). SCE NOTE 12 f0R WIRE SPEOFICATIONS. 1 i•IL STAT TERI/ SHIELD MUST BC CONNECTED TO TERMINAL 101 -6. Al THE ICS EOUP LIENT STDEL.0 '7: NF 1 7,41 BE SPLICED VON THE 5411110 FROM THE NEXT SECTION OF CODUUNICAIION LINK AIRING AND TAPED TG PREVENT ANY CONNECTION BETWEEN THE SHIELD AND GROUND 11 SLAT 7 CAN SUPPORT UP 10 4 VARITRAC II CENTRAL CONTROL PANELS, 7 VOYAGER MICRO ROOFTOPS, 7 THERMOSTAT CONTROL MODULES (TCMs), AND 2 SLAVE TCMS. THE COMBINED TOTAL OF VARITRAC AVM CENTRAL CONTROL PANELS. VOYAGERS, AND 1C14 UHITS CANNOT ExCEEO 7 PLUS 2 SLAVE 1CM5. 1THER 16 CAN MOSTAT OSTAT U CONTROL MODULES (TCUS), AND 2 SLAVE 10.15. THE MICRO ROOFTOPS. II R PANELS. COMBINED TO VOYAGER Of VARITRAC II CENTRAL 60I11R01 PANELS, VOYAGERS. AND Km UNAT5 CANNOT EXCEED 16 PLUS 2 SLAVE ICUS. T HC R5 -232 CONNECTION P7 15 AN R3 -12 STYLE SOCKET RNICH REQUIRES A MANE 3591 -4260 CABLE AND MODULAR ADAPTER. REFER TO TABLE A FOR ADAPTER PART NUMBERS. J4RECODUENDED WRE FOR BINARY INPUTS, OUTDOOR AIR SENSOR. AND ICS LINK WARING 15 TRANE PART NUMBER 400 - 20 -28 WS WIRE IS PLENUM RA1E0, 150'[, 18 CA, SHIELDED, TWISTED PAIN. EACH CONDUCTOR IS STRANDED, TINNED UPPER. CAPACITANCE BCTWCEN CONDUCTORS 15 23 +1-2 PICOFARA05 PER 1001. (IF PLENUM 15 N01 RLOUIREO. ADDITIONAL MANE WRE OPTIONS ARE AVAILABLE. SEE 1RANC HIRE SUBMITIAL FOR SPECIFIC A 110N5). ,ThE •NTEPNAL MODEM IS 4 SCPARAIF STAND - Off BOARD LOCATED ON 1411 BALK OF 1411. MAIN 804R0 �']DC N01 PJN AC PONER MRCS IN THE SAME CONDUIT On WIRE BUNDLE WITH ANY INPUT /OUTPUT WIRE: OR COMIJLIRICATIDN ;N' AWPE5 VOYACCP MA:P0- 00E10P DIAL. -UP PHONE LINO TABLE A MODULAR ADAPTER PART N0. MODULAR A DESCRIPTION 359 9 PIN E(MALL (PC) 35914763 75 PIN - FEMALE ;PC) 35414264 75 PIN.MA;C(1(PUn.AI). O i Installation EMTK -IN -7 { • TRAM' Packaged Gas /Electric Rooftop Units YC -D -7 October 1996 Voyager TM 3 throug 25 Tons -- 60 Hz l • Table 10 -1 General Data Cooling Performance' Gross Cooling Capacity EER /SEER' Nominal CFM / ARI Rated CFM ARI Net Cooling Capacity Integrated Part Load Value' System Power (KW) Heating Performance' Healing Models Heating Input (Btuh) 1st Stage (2 Stage Only) Heating Output (Bluh) 18t Stage (2 Stage Only) AFUE % Steady Stale Efficiency (%) No. Burners No. Stages Gas Connection Pipe Size (in,) Compressor No./Type Sound Rating (BELS)" Outdoor CoII • Type Tube Size (in.) OD Face Area (sq fl) Rows/FPI Indoor Coll • Type Tube Size (In.) Face Area (sq It) Rows/FPI Refrigerant Control Drain Connection No. /Size (in.) Outdoor Fan - Type No. Used /Diameter (in.) Drive Type /No. Speeds CFM No. Motors/HP Motor RPM Indoor Fen • Typo No. Used/Diameter (in.) Drive Type/No. Speeds No. Motors Motor HP (Standard /Oversized) Motor RPM (Standard /Oversized) Motor Frame Size (Standard /Oversized) Filters - Type Furnished ?- Downllow • Horizontal (No.) Size Recommended Refrigerant Charge (Lbs of R -22)' *Indicates both downhlow and horizontal units. 5 Ton Downllow and Horizontal YC *060C1 YC *060C3, C4, CW 64,000 62,500 -/9.85 - /10.00 2,000/2,000 2,000/2,000 61,500 60,000 6.95 6.71 Low High Low High 90,000 135,000 90,000 135,000 70,000 105,000 73,000 109,000 78 78 81 81 80.0 80.0 81.0 81.0 1 1 1 1 1/2 1/2 1 /Climatull® 8.6 High•Performance ,375 11.32 2/16 High - Performance .375 6.33 2/15 Short Orifice 1/ 3/4 PVC Propeller 1/24 Direct/1 4,900 1/.50 975 FC Centrifugal 1/12 X 9 Direct/2 1 .60/.75 850/1040 Throwaway Yes Yes (2)20X25X 1 8.4 General Data 1 /Climatull 8.6 High-Performance .375 9.76 2/16 High- Performance .375 6.33 2/15 Short Orifice 1/ 3/4 PVC Propeller 1/24 Direct/1 4,270 1/.40 1,075 FC Centrifugal 1/12 X 9 Direct/2 1 .60/.75 850/1040 48/48 48/48 Throwaway Yes Yes (2)20X25X 1 7.9 10 6'/4 Ton Downllow and Horizontal YC*075C3, C4, CW 75,000 9.00 /- 2,500/2.188 72,000 8.00 Low High 120,000 205,000 150,000 97,000 166,000 122,000 81 81 81.0 81.0 1 1 2 1/2 1 /Climatuff 8.8 High - Performance .375 11.32 2/16 High•Perlormance .375 7.00 2/15 Short Orifice 1/ 3/4 PVC Propeller 1/24 Direct/1 4,870 1/.50 1,075 FC Centrifugal 1/12 X 9 Bolt/1 1 1.0/2.0 1725/1725 56/56 Throwaway Yes Yes (3) 16X25X 1 9.1 a °k�i1111vi7f'(l LificiR„'t1r. y 7 Ton Downllow and Horizontal Single Compressor Dual Compressor YCe090C3, C4, CW YC*090D3, 04, DW 92,000 9.00 " /- 3,000/2,625 88,000" 9.78" Low High 120,000 205,000 150,000 97,000 166,000 122,000 81 81 81.0 81.0 1 1 2 1/2 1/Trane H 8.8 High - Perlormance .375 12.09 2/16 High - Performance .375 7.08 3/15 Short Orifice 1/ 3/4 PVC Propeller 1/24 Direct/1 5,450 1/.50 1,075 FC Centrifugal 1/12 X 9 Belt/1 1 1.0/2.0t 1725/1725 56/56 Throwaway Yes Yes (3)16X25X1 10.6 t.L..l 90,000 9.00''/- 3,000/2,625 86,000' 9.4' 9.56' Low High 120,000 205,000 150,000 97,000 166,000 122,000 81 81 81.0 81.0 1 2 1/2 2 /Climatull 8.8 High•Pertormance .375 14.00 2/16 High-Performance .375 7.88 2/15 Short Orifice 1/ 3/4 PVC Propeller 1/24 Direcl/1 5,620 1/.50 1,075 FC Centrifugal 1/12 X 9 Bell/1 1 1.0/2.0 1725/1725 56/56 Throwaway Yes Yes (3)16X25X1 6.3 /Circuit 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 Ian motor heal. ARI Capacity Is not and includes the effect of tan motor heat. Urtts are suitable for operation to 120% of nominal cim. Rated in accordance with ARI Standard 210 /240 and 360. 2. EER and /or SEER are rated at ARI conditions and in accordance with DOE lest procedures. 3. Integrated Pan Load Value Is based on ARI Standard 210/240 or 360. Units are rated at 80 F ambient, 80° F entering dry bulb, and 67° F entering wet bulb al ARI rated ctm. 4. Heating Performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings crown aro for elevations up to 2000 feet. For elevations above 2000 feet. ratings should be reduced at the rate of 4% tor each 1000 feet above sea level. 5. AFUE is rated in accordance with DOE lest procedures. 6. Sound Rating is rated in accordance with ARI Standard 270 or 370 7. Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions 8. YCH090C, high heat has 86,000 Bluh ARI Net Capacity, 9.66 system KW, and 8.9 EER. 9. YCH0900, high heal has 85.000 Bluh ARI Net Capacity, 9.55 system KW, 8.9 EER and 9.1 IPLV. 10. YCH high heal models 2.0 HP standard motor • 0)1 LElectrical Data Table 59-1 Electrical Characteristics - Combustion Blower Motor Unit Heating Amps Model No. Heat Stages HP RPM Volts Phase FLA LRA , YC*036-091, 102C, 120C Low 1 1/20 3350 208 -230 1 0.4 1.00 YCo036 -060 High 1 1/20 3350 208.230 1 0.4 1.00 YC*061-091, 102C High 2 1/20 3500/2800' 208-230 1 0.4 1.40 YC*120C Med 2 1/20 3500/2800' 208-230 1 0.4 1.40 YC*103, 1218, 150C, 151B Low 2 1/20 3500/2800' 208-230 1 0.5 0.78 YC*180, 1818, 210C, 2118, 2408-3008 Low 2 1/10 3500/2800' 208.230 1 0.8 2,00 YC*103- YC4301 High 2 1/10 3500/2800' 208-230 1 0.8 2.00 1, High/Low Speed. Table 59 -2 Unit Wiring - Standard Efficiency Standard Indoor Fan Motor Oversize Indoor Fan Motor Unit Minimum Maximum Fuse Minimum Maximum Fuse Unit Operating Circuit Size Or Maximum Circuit Size Or Maximum Tons Model No. Voltage Range Ampacity' Circuit Breaker' Ampacily' Circuit Breaker' YCD036C1 187-253 27.1 40 28.3 45 3 YCD036C3 187 -253 18.6 25 19.8 30 YCD036C4 414-506 9.4 15 9.7 15 YC'048C1 187-253 36.3 60 38.7 60 4 YCo048C3 187-253 • 24.8 35 27.2 40 YCa048C4 414-506 11.9 15 13.0 20 YC*048CW 517-633 9.5 15 10.3 15 YC*060C1 187-253 46.5 60 47.8 60 YCs060C3 187 -253 31.3 45 32.6 50 5 YC *060C4 414-506 16.3 25 16.9 25 YCo060CW 517-633 12.0 15 N/A N/A YC*075C3 187 -253 36.6 50 39.5 60 61/4 YC*075C4 414-506 17.7 25 18.9 25 YC *075CW 517-633 14.2 20 14.7 20 *Indicates both downtlow and horizontal units. 59 YC *090C3 /D3 187-253 43.1/41.7' 60/50' 46.0/44.8' 60/50' 71 YC *09004/D4 414-506 20.9/20.8' 30/25' 221/22.0' 30/25' YCa090CW /DW 517-633 16.7/16.0' 25/20' 17.2/16.5' 25/20' YC*102C3 187-253 49 60 53 60 81/2 YC*102C4 414 -506 29 35 31 40 YCs102CW 517.633 19 20 20 25 YC*120B3 187-253 56 70 59 70 YCa120B4 414-506 29 35 31 40 10 YC*120BW 517-633 21 25 22 25 YC*120C3 187-253 55 60 59 70 YC*120C4 414-506 31 40 34 40 YC ' 120CW 517.633 22 25 24 30 YC*150C3 187 -253 71 80 77 90 121/2 YC*150C4 414-506 32 40 35 45 YC#150CW 517-633 25 30 27 35 YC4180B3 187-253 82 90 88 100 15 YC*180B4 414-506 37 45 40 50 YC*180BW 517-633 30 35 32 40 YC*210C3 187-253 100 110 107 125 171/2 YC*210C4 414-506 47 60 50 60 YC*210CW 517-633 37 45 40 50 YC4'24093 187.253 123 150 130 150 20 YC *240B4 414-506 53 60 57 70 YC*240BW 517-633 42 50 45 50 YC*30083 187.253 132 150 N/A N/A 25 YC *30084 414-506 57 70 N/A N/A YC*300BW 517-633 45 60 N/A N/A NOTES: 1. HACR breaker per NEC. 2. MCA values do not include Power Exhaust accessory. See Table 53.1 for this information. 3. Oversize motor is standard on YCH090C,D, high heat models. C -Electrical Data Table 61 -1 Electrical Characteristics — Power Exhaust Accessory Accessory Amps Accessory Operating Model Number Voltage Phase HP RPM FLA LRA BAYPWRX013A 208-230 1 .75 . 1100 6.6 0 1/2 BAYPWRX015A 460. 1 .75 1100 3.1 BAYPWRX014A 575. 1 .75 1100 2.4 BAYPWRX016B 208-230 1 3/4 1040 6.6 13.5 81/2, 10', 12 BAYPWRX017B 460 1 3/4 1040 3,2 8.4 BAYPWRX01 BB 575 1 3/4 1040 2,1 5.2 BAYPWRX019A 208-230 1 3/4 1040 6.6 13.5 460 1 3/4. 1040. 3.2 8.4 17'h, 20, 25 BAYPWAX021A 575 1 3/4 1040 2,1 5,2 10 15, BAYPWRX020A I. 10 and 12yi Ton Standard Unit. 2. 10 and 12» Ton High Efficiency Unit. 61 13.5 6.4 5.2 All dimensions are In Inches. EVAPORATOR SECT ACCESS PANEL 1 / Z NPT GAS CONNECTION CONTROL a COMPRESSOR ACCESS PANEL CURB DIMENSIONS CLEARANCE 36 81% CLEARANCE 48 Dimensional / / .� Data T YPICAL ROOF OPENING 74 46% CONDENSER FAN 42 ? t lA T / DIA HOLE (UNIT CONTROL WIRES) 49 l. CLEARANCE 18 HORIZONTAL 36 DOWNFLOW CONDENSER COIL 2" DIA HOLE (UNIT POWER WIRES) 46 Igo CLEARANCE 36 1 1 . AW All dimensions are in inches. Data Downflow Duct Connections — Field Fabricated Horizontal Unit Supply /Return .....,..... ...w.+w,+n.«+..,....,.�........ ,. w.,..,...,.... �.. �.........,...... w........>... w. o,.. v. w. r- wnwn.. m.. .wrov...ua.r.00 »....wr w+w�mnrnrf�l.»�h.M 75 C Dimensional Coh `a 'qctrt Standard Efficiency 5,6 Ton High Efficiency .!+.}lNtb0kR4+`JM1.4WW WMKSN YC *0900IYC *0910 Dual Compressor *Indicates both downllow and horizontal units, Weights Table 88.1 Maximum Unit And Corner Weights (Lbs) And Center Of Gravity Dimensions (In.) Unit Maximum Weights (Lbs) Corner Weights (Lbs)' Center of Gravity (In.) Tons Model No. Shipping Net A B C D Length Width 3 YC D036C/YC D037C 782/811 621/651 209/217 158/159 116/124 138/151 37/36 19/20 4 YC*048CJYC *049C 011/845 639/672 216/221 159/168 123/131 142/153 37/37 19/20 5 YC *060CJYC *061C 831/901 659/713 219/230 163/176 126/137 152/170 36/38 20/21 _� 6% YC *075C/YC *074C 938/956 750/767 238/240 192/199 144/151 176/177 39/40 21/21 ...so—/ YC *090CIYC*086C 982/965 793/777 262/246 203/199 151/151 177/180 39/39 21/21 7'12 Single Compressor 1044/1057 855/869 297/298 208/214 151/156 199/200 37/37 20/20 • 81/2 YC *102C/YC *103C 1169/1532 962/1233 329/395 244/326 165/231 223/280 38/43 20/26 10 VC *120B/YC *120C 1546/1191 1247/984 425/334 331/252 215/171 278/227 41/38 25/20 YC *121C 1891 1523 516 391 266 '351 46 29 121 YC *150C/YC *151C 1599/1915 1300/1547 430/523 342/383 234/271 294/370 42/45 26/30 15 YC *180B/YC *181C 1906/2476 1538/2017 535/693 387/507 259/345 357/472 45/52 29/35 171 YC *210C/YC *211C 1987/2547 1619/2088 553/701 415/538 279/369 372/480 46/53 29/35 20 YC *240B/YC *241C 2415/2645 1995/2186 656/751 503/568 352/373 459/494 53/53 35/34 25 YC *300BIYC *301C 2525/2650 2105/2191 701/755 537/569 376/373 491/495 53/53 35/34 NOTE: 1. Corner weights are given to inlorrnallon only. 8!425 ton units must be supported continuously by a curb or equivalent frame support. 2. Weights are approximate. Horizontal and Downflow unit and corner weights may vary slightly. CENTER Of GRAVITY WIDTH A CENTER OF GRAVITY r___ CENTER OF GRAVITY LENGTH C FROM : PRO —STAFF MECHANICAL INC. Apia peon" 411 3ON1IN31NIIIW 3A11N3A3Hd 301Ad31 A3N3ad3W3 W1ON PZ N011110I11QIId 1YS3W D3Na NOIly111118NI 1 N01110 W31NA8 Sd01OV111110O 1111 O01WW00 nrp uvul JUL! VW) 1 bt00-19C :XVI 1[00-19£(901) • r• T ��ssi sets XV ! OCT.24.1997 8:56AM P 1 PHONE NO. : 286 361 0071 tt1Wb VM J LI V3S' ££186 VM'3111V3S 1S HlLtl 'N ZO6 OL£££ X08 'O'd :40HS/S3O1JJO '9N11NO1NvHW3W ddVl!•OBd 'DM 'IV I IVHD N 3.W.LS Id ` APJ3U1s ar I/ nc (r 4 - rr J ft� `..Las 4 961 *I .15Y ie :a9gssayi :Atojjo; of saSvd ;o iagmn :.agmnx xea Sa33N N0IiVH3911:1J3H ONINOIJIaNO3 HIV 'DNII,V3H 11110A HO.J ��dls -oad :os r n J 136 4"1 FLUE UP • . EQUIP. \\ • EX18TING CO 5215OR CONt■IECT TO EF -9 ED-1(104) 150 Ch • OF •?0' a 3t0 RD -1 T8 "x8 ") I E 1eo CR l AIL/KEYS/RADIO 110 •272F+ 16 "x8" RD -I WANT' 660 CM u 12 ; ED-1(124) r7r \\ 10 250 C1', 9 r 1 RD -I (10 "x10 ") • RD -a a CAIN CDi8 CR1 T 250 cR I CD -I (8 "1) 180 0 3 • 0 CD -1 (10 "0) 180 Cfi1 TYP. 3 { A 12 " x8Si k W -. cn _e c, .:Yk is ;? ?'ts:si'r °:. :e.......,...,.aisu.r :q� ;s':r.+�r r�sati sex - Anatn.:vJi`:t�3.d:ta iK�tfilf r.:s x: ";nr.K:, IL�:t;wG'"'d;$: �7" i` ` +•i' f. #�i; ,`Y(;,;;•4;; ?l�`.P:. '. 59.r?N?ik�G", •he`.-:r4.7 - `l City of Tukwila Fire Department Fire Department Revi w Control # MC'1 -C)V5L . Re: H.V.A.C. at $he kki /a e Dear Sir: t 3O )S C7CJW 0 ( The attached set of building plans have been reviewed by The Fire Prevention Bureau and are acceptable with the following concerns: 1. H.V.A.C. units rated at greater than 2,000 cfm require auto - shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #1742) H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting the power source of the air - moving equipment upon detection of smoke in the main supply -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (UMC 608) 2. Duct smoke detectors shall be capable of being reset from the alarm panel. (City Ordinance #1742) Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #1742) 3. In areas that are not continuously occupied, automatic smoke detection shall be provided at each control unit(s) location to provide notification of fire at that location. (NFPA 1 -5.6) The installation of wiring and equipment shall be in John W. Rants, Mayor Thomas P. Keefe, Fire Chief Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Phone: (206) 5754404 • Fax (206) 575.4439 Av 4 City of f Tukwila Fire Department Page number 2 Yours truly, The Tukwila Fire Prevention Bureau cc: TFD file ncd accordance with N.F.P.A. 70, Article 760, Fire Protective Signaling Systems. (NFPA 72 -1- 5.5.4) 4. When the control panel is located inside a room, the door to the room shall have a sign with one -inch letters which reads "Fire Alarm" or "Fire Alarm Control ". (City Ordinance #1742) Dedicated fire alarm system circuit breaker(s) shall be equipped with a mechanical lockout device. (NFPA 72 (1- 5.2.8.2)) 5. All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #1742) (UFC 1001.3) Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (UFC 10.503) (City Ordinance #1742) Any overlooked hazardous condition and /or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. John W. Rants, Mayor Thomas P. Keefe, Fire Chief Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Phones (206) 575•4404 • Fax (206) S754439 STATE OF WASHINGTON COUNTY OF KING I CERTIFY THAT THE POSSESSION DATED 9-15-97 .V0 41 .st THIS IS A TRUE '&111/21.9itRECT COPY OF A DOCUMENT IN OF PRO STAFF% l'4.ECIIANICIiI;%,I . 0. NC AS OF THIS DATE • 's L.) • • 4 ; • • !4 m ft • MY COMMI,SSI RES 12/00 • ,,, RECEIVED CITY OF TUKWILA OCT 0 7 1997 PERMIT CENTER • • .or •fr, :••••••::: , • '"'"`"! • • . — EXHAUST-.FAN SCHEDULE MARK AREA - SERVED '11 S.P. 11 MOTOR MANUFACTURER MODEL NO. MANUFACTURER MODEL No- HP VOLTS is ACCESSORIES '-' SECOND AREA FLOOR TOILET 140 025 I/e II5 I I, 2, 3,4 GREENHECK G -140 -C EE_2 FIRST FLOOR TOILET AREA 126 0 50 I/4 . 115 1 I, 2, 3, 4 GREENHECK G -110 -C ER-3 TOILET 128 300 062 118 115 1 1, 2, 3, 4 GREENHECK G -130 -C EF 4 GARAGE lkSTING) 5100 038 3/4 230 I NEW 4, 5 DAYTON 3(55310 Er_5. VEHICL!NEW) E EXHAUST 1500 32, I 12 460 3 3, 5 BATLEY BI -122 EF-6 VEHICLE EXHAUST (EXISTING) 1500 3.0 I - 240 NEW 5 BATLEY 5I -122 a _ ELEVATOR MACH. ROOM 150 025 1140 115 I 1,2,3,4 GREENHECK G -85 -E EF_8 WELDER EXHAUST 1400 25 I 460 3 6 NEDERMAN 510222522235 EF-9 (EXISTING-) (GARAGE 5100 038 3/4 230 I NEW 4,5 DAYTON 3C553D GRILLES, REGISTERS 4 DIFFUSERS MARK MAX N,. FINISH DAMPER FRAME TYPE MANUFACTURER MODEL NO. R'IKS WHITE PRIME SPECIAL O.BD. NONE LAY -IN SURFACE SPECIAL CD-1 25 $ $ $ ANEMOSTAT PM SERIES ! 2 CD -2 25 $ $ * ANEMOSTAT. PM SERIES RD -1 25 $ * $ ANEMOSTAT 3P SERIES I 2 EG -1 25 $ $.. ANEMOSTAT 3P SERIES ER-1 25 $ $ * ANEMOSTAT GC50 SERIES AC AFF APPROX ARCH ASHRAE BFC BTU BDD CFM CHEM CIRC CW DB DBA DIA DIM DN DX EA EAT ESP ETC EXIST EW EXP FD FiA FC FIN FLR F.O. FPI FT GA GPH GPM AIR CONDITIONING ABOVE FINISHED FLOOR APPROXIMATE ARCHITECT AMERICAN SOCIETY OF HEATING VENTILATION AND AIR CONDITIONING ENGINEERS BELOW FINISHED CEILING: BRITISH THERMAL UNITS BACKDR DAMPER CUBIC FEET PER MINUTE CHEMICAL CIRCULATING COLD WATER DRY -BULB TEMPERATURE DECIBELS - A WEIGHTED DIAMETER DIMENSION DOWN DIRECT EXPANSION EACH ENTERING AIR TEMPERATURE EXTERNAL STATIC PRESSURE ET CETRA EXISTING ENTERING WATER TEMPERATURE EXPANSION FIRE DAMPER FAHRENHEIT OR FIRE FRESH AIR FORWARD CURVED FINISHED FLOOR FLAT OVEL DUCT FINS PER INCH FOOT, FEET GAUGE GALLONS PER HOUR GALLONS PER MINUTE HP HORSEPOWER HR HOUR Hdv HEATING AND VENTILATION HvAC HEATING VENTILATION AND AIR CONDITIONING HW HOT WATER HWC HOT WATER CIRCULATION KW 1000 WATTS LAT LEAVING AIR TEMPERATURE LWT LEAVING WATER TEMPERATURE MAX MBH MCA MCG MIN MTG MFG N1C NFPA NG NO NTS OA OAT OC OBD OFRD PD PH POC PSI RA RD OFRD R5 RL READ RPM SHT SI SM SP 5PD S PEC 55T SLUT TDH TPD TSP TV TYP VA VTR WB W/ W/O WHA NOTE: MAXIMUM 1000 BTU PER HOUR MINIMUM CIRCUIT AMPS MOTOR CONTROL CENTER MINIMUM MOUNTING MANUFACTURER NOT IN CONTRACT NATIONAL FIRE PROTECTION ASSOCIATION NATURAL GAS NORMALLY OPEN NOT TO SCALE OUTSIDE AIR OUTSIDE AIR TEMPERATURE ON CENTER OPPOSED BLADE DAMPER OVERFLOW ROOF DRAIN PRESSURE DIFFERENTIAL PHASE POINT OF CONNECTION POUNDS PER SQUARE INCH RETURN AIR ROOF DRAIN OVERFLOW ROOF DRAIN REFRIGERANT SUCTION REFRIGERANT LIQUID REQUIRED REVOLUTIONS PER MINUTE SHEET INTERNALLY SPRING ISOLATED SHEET METAL STATIC PRESSURE STATIC PRESSURE DROP SPECIFICATIONS SATURATED SUCTION TEMPERATURE SWITCH TOTAL DYNAMIC HEAD TOTAL PRESSURE DROP TOTAL STATIC PRESSURE TURIN AN TYPICAL VOLT VALVE VENT THROUGH ROOF WET BULB TEMPERATURE WITH WITHOUT WATER HAMMER ARRESTER DRAWINGS MAY NOT CONTAIN ALL ABBREVIATIONS SHOWN SYMBOLS 4 ABBREVIATIONS SYMBOL XXI Mq7o s6 OR X� FCO -I I WCO a D ABBR DESCRIPTION Gv CV PRv REL v RELIEF VALVE - PRESSURE AND /OR TEMPERATURE THERMOMETER PRESSURE C -AGE W CW HW HWC NB WCO SIR STR 0 VTR VTR D "@ D "m GAE VALVE (UNLE NOTED OTHERWISE) BUTTERFLY VALVE CHECK VALVE PRESSURE REDUCING VALVE PUMP (DIRECTION SHOIUN BY ARROW) FAN, BLOWER DETAIL OR SECTION SHEET WHERE DRAWN LIGHT LINE, EXISTING- OR BACKGROUND I HEAVY LINE, NEW WORK FIRE PROTECTION NATURAL GAS SOIL OR WASTE VENT COLD WATER HOT WATER HOT WATER CIRC. HOSE BIB FCC CLEAN OUT -FLUSH WITH FLOOR CLEAN OUT -FLUSH WITH WALL PIPE SLOPE DOWN THIS DIRECTION SIZE REDUCTION IN DIRECTION OF ARROW WYE STRAINER WITH BLOWOFF VALVE WYE STRAINER VENT THROUGH ROOF BACKFLOW PREVENTER, DOUBLE CHECK TYPE UNION EQUIPMENT ITEM XX GENERAL NOTES D "@ D "@ 7 r 4 9. THE BUILDING 15 PROTECTED BY A SPRINKLER FIRE PROTECTION SYSTEM. REFER ALSO TO SPECIFICATION SECTION 5300. FIRE PROTECTION SYSTEM DESIGN AND INSTALLATION SHALL BE RESPONSIBILITY OF THE FIRE PROTECTION CONTRACTOR SYMBOL ABBR DESCRIPTION 0 'Wf 7 I I� D 7L 7 I-� R 7Z R OR 5 THE MECHANICAL SYSTEM SHALL CONSIST OF ALL WORK SHOWN ON THE DRAWINGS, INCLUDING PLANS, DIAGRAMS, DETAILS ETC., AND ALL WORK AS IDENTIFIED IN THE SPECIFICATIONS. WORK INCLUDES FURNISHING-, INSTALLING SYSTEM INTEGRATION, TESTING, TRAINING AND WARRANTY OF THE MECHANICAL SYSTEMS AS SHOWN AND SPECIFIED, PROVIDE A COMPLETE AND WORKABLE MECHANICAL SYSTEM COMPLETE WITH ALL MECHANICAL WORK AS REQUIRED FOR SYSTEM OPERATION. 2 THE DESIGN OF MECHANICAL SYSTEMS HAS BEEN BASED UPON THE EQUIPMENT AS MANUFACTURED BY THE MANUFACTURERS LISTED ON THE EQUIPMENT SCHEDULE. EQUIPMENT NAMED IN THE SPECIFICATIONS MAY BE SUBSTITUTED PROVIDED THAT THE EQUIPMENT "MEETS OR EXCEEDS ALL SCHEDULED AND SPECIFIED CRITERIA, AND HAS THE WRITTEN APPROVAL OF THE ENGINEER COORDINATE THE INSTALLATION WITH ALL TRADES AND GUARANTEE IN WRITING THAT NO ADDITIONAL COST WILL BE INCURRED DUE TO PRODUCT SUBSTITUTION. a. CONTRACTOR SHALL FIELD VERIFY ALL BUILDING AND SITE DIMENSIONS BEFORE BEGINNING CONSTRUCTION OR ORDERING EQUIPMENT. DO NOT SCALE FROM PLANS. 4. D1MENSICNN SHOWN FOR SOUND LINED DUCTWORK SHALL 5E NET FREE DIMENSION WITH SOUND LINING INSTALLED_ PIPING OR DUCTWORK PENETRATIONS THROUGH WALLS, PARTITIONS, CEILINGS AND ROOFING SYSTEMS SHALL BE SEALED AIRTIGHT. PIPING, DUCTWORK, OR STRUCTURAL COLUMN PENETRATION THROUGH PLENUMS, DUCTS OR RETURN SHAFTS SHALL BE SEALED AIRTIGHT. PROVIDE ALL REQUIRED ELECTRICAL POWER, MOTOR STARTERS AND CONTROL INTERFACE AND CONNECTIONS AS REQUIRED FOR OPERATION. COORDINATE REQUIREMENTS WITH THE ELECTRICAL CONTRACTOR PROVIDE ALL REQUIRED EQUIPMENT GUARDS AND STRUCTURAL SUPPORT AS RECOMMENDED BY EQUIPMENT MANUFACTURERS TO SUPPORT EQUIPMENT AND TO ASSURE SYSTEM PERFORMANCE AND SAFE OPERATION. COORDINATE PRIOR TO INSTALLATION. PROVIDE ACCESS PANELS AS REQUIRED TO MAINTAIN EQUIPMENT, ACCESS VALVES AND DAMPER OPERATORS. COORDINATE FIRE RATING WITH THE ARCHITECTURAL DOCUMENTS. 8. COORDINATE LOCATION OF ALL THERMOSTATS AND ALL WALL MOUNTED EQUIPMENT, WITH THE ARCHITECT. LOCATIONS AS SHOWN ON THE DRAWINGS ARE FOR REFERENCE ONLY. LOCATE THERMOSTATS 4' -6" AFF. MOD EXH RET CUH A -I BB 'ICI DIRECTION OF FLOW ROUND DUCT EXHAUST OR RETURN INLET SUPPLY OUTLET MOTOR OPERATED DAMPER vD VOLUME DAMPER FD FIRE DAMPER COMBINATION SMOKE AND FIRE DAMPER DUCTWORK, SINGLE LINE DUCTUKJRK, DOUBLE LINE SECTION EXHAUST OR RETURN AIR DUCT SUP SECTION SUPPLY AIR DUCT SECTION, ROUND DUCT ACOUSTICALLY LINED DOUBLE WALL ROUND DUCT. FLEX FLEXIBLE CONNECTION TERMINAL UNIT WITH COIL THERMOSTAT CONTROL FOR VAV UNIT NO. N CABINET UNIT HEATER OFFSET DOWN IN FLOW DIRECTION OFFSET UP IN FLOW DIRECTION SOUNDLINE DUCTWORK, OR DOUBLE WALL DUCTWORK TRANSITION ROUND TO RECTANGULAR Tv TURNING VANES IN SQUARE DUCT SUPPLY GRILLE OR DIFFUSER RETURN OR EXHAUST GRILLE DIFFUSER OR GRILLE CALL OUT X PLAN OR HORIZONTAL DIMENSION Y ELEVATION OR VERTICAL DIMENSION • TER^I?NAL UNIT TYPE B MAX'MUM CSI' (FAN) C. NUMBER • MINIMUM PRIMARY CR1 MECHANICAL EQUIPMENT S C H E D U L E MARK AC -1 AC -2 DH -1 `SPUTTER DAMPER FUNCTION ACCESSORIES: I. ROOF CURB 2. ECONOMIZER - DOWNFLOW 3. REMOTE POTENTIOMETER 4. POWERED EXHAUST OVERSIZED MOTOR 6. INSULATION KIT 1. FIELD SUPPLIED DRIVE 6. ALTERNATE DRIVE ACCESSORIES, 1. SPEED CONTROL. 2. ROOF CURB 3. FACTORY INSTALLED DISCONNECT 4. BACKDRAFT DAMPER 5. ISOLATION BASE 6. FANMOSE SUPPORT 2. 24"x24" OR 24 "x48" PANEL SIZE. SPECIFICATION SHOP AIR 10 HP AIR COMPRESSOR RATED FOR 41N ACM AT 125 P51. 120 GALLON VERTICAL ANNIE CODE RECEIVER 200 P51 NIP. 460 VOLTS, 3 PHASE. PROVIDE DX REFRIGERATED Al R DRYER RATED FOR 50 CFM, AND HIGH EFFICIENCY COALESCING FILTER SHOP Al R (`LOCATE EXISTING 5 HP Al R COMPRESSOR 230 VOLTS, I PHASE. (EXISTING/ RELOCATE EXISTING FUSED DISCONNECT, FILTER AND REGULATOR DUCT 2000 WATT DUCT HEATER 2 STEPS OF CONTROL. HEATER r'On1 INfx RTII■ FIRST FLOOR 2490 500' 10215 EXTERIOR 19660 54000 0.95 9ID 19 99 FIRST FLOOR 4900 480 123,000 131,580 INTERIOR 52,160 0.95 9.0 34 201 VOLTS -PH 460 -3 460 -3 460 -3 242 MCA 18 322 WEIGHT LBS. 1250 2200 M5 ACCESSORIES 123,45 , 9 123,45, R 123,45 MANUFACTURER M00 VANE 481,10008 CARRIER 48TJD012 MARK AHU -1 AHU -2 AHU -3 AHU -4 AHU -5 SECOND FLOICE OR 6015 1160 151000 05,000 OPEN OFF AHU -6 AHU -1 AHU -0 AHU -9 SECOND FLOOR EXTERIOR EAST SECOND FLOOR EXTERIOR SOUTH SECOND FLOOR EXTERIOR L EST TRAINING/ EXERCISE 2660 23'00 3115 2210 260 200 440 440 16,050 11,825 82.110 51225 19,165 11,200 93300 60,650 A I R H A N D L I N G U N I T S C H E D U L E 128600 42510 38,925 56240 35,500 005 085 0.85 .5 0.95 8.9 90 8.9 9ID 9.0 49 22 19 22 19 251 116 99 116 99 460 -3 460 -3 460 -3 360 - 3 460 -3 4l 20.1 18 20.1 18 2860 1250 1250 2050 1250 123,45,1,9 23,450, 55 129.450, 5 123,4500, 12345, i CARRIER 48 CARRIER 461,0009 CARRIER 481,10008 CARRIER 481,10009 CARRIER 48TJD008 DESIGN CONDITIONS: ENTERING COIL DEW. -80/54 WITH 45' SATURATED SUCTION TEMPERATURE RELOCATE EXISTING INFRARED TUBE HEATERS, 115 VOLTS, I PHASE, 15 FLA. NOTES, q, DVLT SMOKE_ 0E'Fc -i r>>Z IN AWP PU/ A-.I 003-0 )5 A LL s4 ITS DELIVE.2iNL 0050 OFM SE ejRE,cT 7-000 GPO OK A RKA F K NOTES: I. VERIFY EX STING HORSEPOWER AND VOLTAGE I. CONTRACTOR SHALL COORDINATE WITH GENERAL CONTRACTOR MOUNTING .5 SURFACE CONSTRUCTION PRIOR TO FURNISHING MATERIAL. MANUFACTURER/ MODEL NO. INGERSOLL RAND 2540VEI0 5500000 OPTION SPACE- RAY /00X UNIT HEATER S C H E D U L E MARK UH -1 UH -2 BR/1-1 OUTPUT 20000 20000 a=r-t 380 380 AFUE ELECTRICAL HP VOLTS PH FLA 150 80% 150 115 115 I 22 REZ NOR rE25 1.9 MANUFACTURZR/ MODEL NO. REZNOR FE25 ACCESSORIES: I. SPARK-IGNITED PILOT W/ ELECTRONIC FLAME 2. SUPERVISION 4 TIMED LOCKOUT 3. MANUAL 51.0MMER/WINTER SWITCH 4. 4 POINT SUSPENSION KIT 5. TSTAT e RELAY KIT 6. VENT CAP (AGA) SEPARATE PEPM1'. j REQ2I0513 FOP= I MECHANIC,- iT E LEC .:" cm of Tuxv +.0 X0 9' PERMIT CENTER SHEPA14 ?D AMBULANCE BUILDING F1'Lt COPY TI Che T f - - Permit No 00T 0 s 1997 PFA Sr,fF nTCHANICAL 7 r O N 5 1 - 1nGt It. F' NO. TEN AN T MarvinSt�ciates,Inc. yT4n. de 8tim 2221 5th Avenue • Seattle Washington • (206) 441 -1449 REPRODUCTION, ALTERATION OR PUBLICATION OF THIS DRAWING, WITHOUT EXPRESS PERMISSION BY MS.. IS A VIOLATION OF FEDERAL COPYRIGHT LAW. COPYRIGHT BY MS. 1997. DRAWN BY 300, 550 CHECKED BY:'. 352 REVISIONS: SHEET TITLE: REVISIONS INDICATED THUS SYMBOLS ABBREVIATIONS SCHEDULES 300 NO.: 51035 DATE: 10/2/51 SCALE: I/O ° = I' -0 DATE SHEPARD AMBULANCE M1.0 OF 1 RD-1 (16 640 CHM LP „\\ 250 CFM ; K.0-1 (10,10, 250 CFM L RD-I (16 560 CFM 12 11 0 1 OF-FiC IIRD-I W1 I 43 : Tycop-.13,erm)f,1 , - ' 1 r i', , Isla CFM : 1 I 10" II 14 16,6 6 ur • 14 12"0 20 --- \T - 1 - 7 - ' 71.-- ‘1 ■ , . - - , - 71 .-- ,1 , - 1! - 7 .1I■k , ii›- 1-11;2' : 4" FLUE Lip 1j1iS, SERvICE S.:ZS:VICE! 734 EC TYP 2' 7 -11- . I I22 ! \ SERI,' CE F3.4 WASH RACK , '111I1'7H.,_J, , 1 \ NG 1!,31 , \EXISTI 0 ) SELF-STORING ' HOSE ASSEMBLY \ „ \=! HIGH SF , , 5Am , CONNECT TO , , ..„---- NEW DUCT I 1 1 '' \ ----ti _ Nefgri-0156 1 3 : _HOOD AND HOSE ASSEMBLY RD-I (10"X10") 200 CR TYP. 2 S. OFFICE 4 FLUE LIP - CI= E 11 i) 13j SERvICE j1 UP-1 EXISTING / CD-I (IVA) -200 1 7 , FLAG NOTES: c. CD-1 (IVO) 180 CFM TYP. 2 > EQUIPMENT TO BE DISCONNECTED AT EXISTING FACILITY AND MOVED TO NEW SITE. PIPE PER DRAWING AND MANUFACTURERS RECAMMENDATION. REPORT ANT EQUIPMENT DAMAGE TO ARCHITECT AND OWNER PR/OR TO RELOCATION. > GARAGE AREA IS TO ST TREATED AS A SEMI-HEATED SPACE. THERMOSTATS SHELL BE MOUNTED NOT LOWER THAN THE HEATING UNIT MND CAPABLE OF PREVENTING HEATING ABOVE 44 SPACE TEMPERATURE. COMPLY WITH WASHINGTON STATE ENERGY CODE. r TO • • • , ,,H --- .] , , • , ‘,1---- , T cr op - 7 1 , 0041 . ffk,,,, OFFICE CORRIOOR OFFICE C,1, E, O 4 E , 74IL PLAN NOTES: .'CAGE 301 4• FLUE UP I. ALL CONTROL THERMOSTATS ARE NEW. i T .:2-1 (W) TOr 123 RRIDOR 1 - CD ' CtP 1, I111 100 ILI -. „.‘ CD-1,12,P ' ' 250 cFm rsi DRYER cadVEcTIONI ‘ 3 xi" 11.1/ 01T1 Ci fl f:1i 2 g 197 -7111117- I as^: 1 r 7 0 ,-1 , 42 1 "x12") 7, 0 pH-1 (21 I 1 sc! ,- 1-- Or,.. , !, !, 1'1.! - . I. 1 sT, Ai: I, ,, gal L TR'40-1c,Th. 41", ;r * 5.3. a * 124 SI, -• 1.79 1 4', ATLIKEYeiRADIO 21 1 1;_xtr L RD-I 064 ire 325 f 59 20 (10 250 C-3 160 FDA I I I n EXERC1SE ROOM ; 240 cFri 1.48; 1 1 '1!s- ' AIN1NG C1 0 !i_j a ! I ! 71 ,_ _ , ' ii ' il 0 2 ' . a4 Ll'i SgT"' Tr. 3 11 s - 11 1 , , , , •--11___A___ H _ RD !■, ,1 RD-1,18,t1a 1 --1rn-1-1 ' ! , L,_. 1- RD= 1 1 ,,,,,. (18,1 , S , P 11 t.7 1 I ! ' 1-1--- 1 11 - , 1171. S,D -., TYPICAL .. .! ! I ' d 1 I 1 7 7105,. 4 11 L il i 0 1 IIK,,, RD 1 (16,16, 1 ; --.--___... -• : 1ST FLOOR PLAN 1 /8"= 1 '--- 0" crrr OCT 0 7 1997 PERMIT C,ENTER I oN.s, sm/ss SHEPA/13 AMBULANCE BUILDING MarvinSt ciates,Inc. pqactge, destv 2221 5th Avenue • Seathe Washington • (206) 44-1-1449 TAT,GEHx`T'Rgs:ar%Z. AN Y JSD, SPR JOB NO.: 81038 CHECKED BY: JLL DATE: 10/2/81 SCALE: 1/8' REVISIONS: NO. REVISIONS INDICATED THUS A DATE TENANT: SHEPARD AMBULANCE SHEET TITLE: HVAC 1ST FLOOR PLAN 1M 3.1 OF 1 300 ( R1 300 CrT1 TY, COQ ERE CE RD -I (10" 0) CD -I (12" 0) 220 CFM 240 CFM 25 ..c RD -I (10"0) 210 CFM VA VA VA VA AHU -1 RD -I (12 480 CFM VA 1800 CFM 0 • tv T X RD I f?S"z8 �bg � RD -I (22,46 I) O. EN OFFICE 20"x16" DP CD I (103, 180 CR OP? VA VA 23'3,1, UP 32"x12 \ UP 10"X10" UP TO EF -3 VA VA VA NE_ NCE VA ERE VA VA �cD (1044) cFri 2 18 ) TY, 26 VA VA 44 VA VA O CD -1 (12"6) 265 CPI TY, RD -I (I6 "x16") 630 CFM x \ 28 "x14 "�\ AHU-8 \ 28"x14" UP �-` 1 „x i AHU -5 24 "x16" UP VA VA VA CD -1 (12"6) 265C 11 T YR'S 222 OPEN OwiCE 4” 0 FLUE UP W/ CAP 26 - r7.6' ^. UP 6 VA ^ 26'x16" \\\\\ 32"x12" 0 \� o f 16 "x2 6 6 16"x12" 176 K \2 36 " #0" UP 46"x16" UP AHU -5 14"6 AHU - L \a' 14"x10" 10"0 12, CD -I (10','67 200 CFM RD -1 (16"x16') 630 CFM 1800 CP`1 223,16" CE 12" 8" RD -I (22"x46 ") 12"4 CD -I (12"01 265 , I TYP.3 VA CD- i(a4m) 130' TYR. 2 10"x10" RD -1 112 ,12 390 CFM 7,x2A"ri RD -1 (10"x10") 2m0_CkM Ib UP 14x40" UP 163 12 m 22a OPEN OFFICE 02 UNITARY CONTROLLERS: 1 371 IIORK RO AHU -i 1 - 40'x14" UP I6 "x36" UP '1' It II CD -1 (16) 4/ 200 C M TYP. 2 'DER 1 (12X12 ") 300 CFM � � . 41"P HU -. CD (8 1 \ SLGrE'14 I 143x14" DN 14"r(Y4"DP ry 2(10 250 CFM EG ‘ I (6 50 TYP. 2 ' VA RD -81(22 N22 ")'.. 145dl1CFM MU EGO v s- :N - s � r ;L2y xa' cp - z -op "m) ILr�L_ 2,71 � CD -1 (8 120 12 EN A 1 L Rp -I (10 "x10") 250 CFM BRE MU -3 AHU -3 I .. Gd I RD -I (12"0) CD -I (10'0) 3 CCFN 200 GP TYP2 CD -I n0 > � 180 CPI -:P3 NE ER - (26'X26") \. W/2 X26" (VERIFY) ✓ ?\ UP TO EF U'- OPEN r te\ 4 m FLOE ' \ \\ UPW /C RD-1 !11 "41 550 CFM M 9n -o156 1 1 � / / 4 FLU GOOSENECK 1{\ 4 CD -1 Y10"m) 220.71 TYP2 OUNCE \ CD -I n0"m) TY6 \ 200 CFM \ TYP.6 —CD -1 (12°6 260 CFM 213 oFFICE _N OFFiC= RD -I (16"x;6') 100 CFM L ' 2 OFFICE 2331 OPEN CFFiC` (12 6) 325 C -1 TYP.S yy 2'91' FLAG NOTES: 12341, EN O rICE RD -I (16 "x16") 100 CFM t RD -1 (16'x16 ") 400 CFh? TYP \2 OPEN RD -1 (10, 180 CR1 CD -I (I 2p0 006 OPEN O - RD -1 (8"m) 130 CFM CD -I (10 150 CFM ]2aE OFFICE WRAP SUPPLY AND REM. AIR DUCTWORK FOR 20 FEET DOWNSTREAM OF AHU WITH 1 "/8R. FT. LOADED NOISE BARRIER (KINETICS KNM- 100AL, OR EQUAL). r >.- EQUIPMENT TO BE DISCONNECTED AT EXISTING FACILITY AND MOVED TO NEW SITE. DUCT PER DRAWING MD MANUFACTURER'S RECOMMENDATION. REPORT ANY EQUIPMENT DAMAGE TO ARCHITECT AND OWNER PRIOR TO RELOCATION. 3� TWO 8"x4" COMBUSTION AIR DUCTS UP TO ROOFCAP, GREENHECK GRS -a. TERMINATE COMBUSTION AIR DUCTS 12" AFF AND 12" BELOW FINISHED CEILING AS REQUIRED IN CHAPTER I OF UMC. PROVIDE ROOFCAP WITH BIRDSCREEN AND 12" CUO35. TERMINATE COMBUSTION AIR DUCTS WITH TITUS 350 GRILLES. CD -I (12"6) 240 CFM TYP2 12041 L . CD -1 (OUT) 250 CPI r1 200 CI, PLAN NOTES: CD -1 (10, 260 CrR1 103x12" TYP.4 12"x26" UP 18'x12" UP J. "x12" 0m1 20x16" ON TOP. RD- 1118"x18") 'S cr, fi 18"x10" 20"X10" EF -2 EG- f 140 CFM 12x12 "UP TO ET--I CD -I 18 120 CFM -p _8 "m ,AHU 9 40"x14" UP 12"0 El. 14328" �. V 6Ti '"Xl'" OJ II OPEN O`•=CE I. MECHANICAL EQUIPMENT AND DUCTS AND/OR PIPES a SPRINKLER SYSTEMS SHALL NOT BE SUSPENDED FROM OR SUPPORTED BY THE 2X6 STIFFENERS WITHOUT. PRIOR CONSENT OF THE ENGINEER ALL MECHANICAL EClUIPTENT ON THE ROOF SHALL BE SUPPORTED ON OR NEAR THE.GLULAM BEAMS 2 IT'S SUPPORT SHALL BE REVIEWED BY THE ENGINEER PRIOR TO PLACEMENT. SHOP DRAWINGS SHOWING THE SIZE, WEIGHT 4 LOCATION CF ALL MECHANICAL EQUIPMENT C SPRINKLER LINES SHALL BE SUBMITTED TO THE ENGINEER PRIOR TOGLULAM FABRICATION. 2. SOUND LINE ALL SUPPLY AND RETURN DUCTWORK A MINIMUM OF 20' -0" STARTING FROM ROOF PENETRATION. EDGE O- SEGOND =BUR RD -I (22"x22 ") 450 CP1 © 7 0 v cG- r CD -1 _+ 150 CFM CD -I /12., 290 C.1 M..10 2ND FLOOR PLAN /8 " =1' =0" E 9 . 7 Cm a of ruvw:; e ECU 0 7 IOU PERMrr GEN!ER SHEPARD AM-WLAN7CE BUILDING MarvinSt s°ciateginc. 2221 5th Avenue Seattle Washington " (206) 441 -1449 REPROOUCPON, ALTERATION OR PUBLICATION OF IRIS DRAWING. WITHOUT EXPRESS PERMISSION BY MS.. IS A VIOLATION OF FEDERAL COPYRIGHT LAW. COPYRIGHT BY MS&A 1997. DRAWN ON (RD, SPR CHECKED 50: (LIG REVISIONS NO. REVISIONS INDICATED 74U5 A TENANT JOB NO. 91038 SHEET TITLE: DA ' 0/2/91 SCALE: I/O ' I' - SHEPARD AMBULANCE HVAC 2ND FLOOR PLAN DATE M3.2 OF