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Permit M92-0144 - BOEING #9-101
m92-0144 boeing #9-101 hvac 9725 east marginal way south City of Ttikwtlb Permit No: M92 -0144 Type: B -MECH Category: NRES UMC Edition:. MECHANICAL PERMIT Address: 9725 EAST MARGINAL WY S Location: Parcel #: 000340 -0018 Contractor License No: BOEINC294ML REVISING „ACONDITIONING FOR PHASE 2D ;.EEIP. Permit Center "`Authorized ` Signature Da ae, _ Title: Valuation: Total Permit'Fee Community Development / Public Works • 6300 Southcenter Boulevard, Suite 100 • Tukwila, Washington 98188 **********'*:* * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Date (206) 431-3670 Status: ISSUED Issued: 08/17/1992 Expires: 02/13/1993 TENANT THE BOEING COMPANY #9 -101 9725 EAST MARGINAL WAY SOUTH, SEATTLE, WA 98124 OWNER THE BOEING COMPANY PO BOX 3707 - M/S 1F -09, SEATTLE WA 98124 CONTRACTOR BOEING INC. Phone: 206 544 -2975 9725 EAST MARGINAL WY” S, SEATTLE, WA 981242207 ******************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Permit Description : ;"" 000.00 90.63 * * * * * * * * * * * * * ** I herebY:;certify that :I have read"an:d exam this permit, and know the same to be true an;d correct: A114rovisi,ons of law and ordinances governing this work will be complied w.ith`,`whether specified herein-Or not The granting othis permit does not presume " togive authority . to violate or cance.lthe provisions of any other state ' or,_ local laws regulating constructi'on theperformance of work.I" am authorized to sign,' : for and obtain th ;is.buiiding permi Signature.: Print Name: 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. PERMIT NO. CONTACTED r ,� Q (RQC - ` DATE READY DATE NOTIFIED O 5 `qa BY:: /I (init.) PERMIT EXPIRES 2nd NOTIFICATION BY: (init.) AMOUNT OWING cio. (D.3 3RD NOTIFICATION BY: (init.) PLAN CHECK NUMBER mco-ofHu INSTRUCTIONS TO STAFF • Contacts with applicants or requests for information should be summarized in writing by staff so that any time the status of the project may be ascertained. • Plan corrections shall be completed and approved prior to sending on to the next department. • Any conditions or requirements for the permit shall be noted on the plans or summarized concisely in the form of a formal letter or memo, which will be attached to the permit. • Please fill out your section of the tracking chart completely. Where information requested is not applicable, so note by using "N /A ". DEPARTMENTAL REVIEW "X" in box indicates which departments need to review the project. O OTHER BUILDING - initial review �- )IRE ��� /(�lc'.!2 O PLANNING "K BUILDING - final raviaw REVIEW COMPLETED PROJECT NAME a� [o. SITE ADDRESS 7 let tz ROUTED) INIt. INIT: INIT: MECHANICA( PERMIT APPLICATION TRACKING Ma CONSULTANT: Date Sent FIRE PROTECTION: ZONING: EQIR FIRE DEPT. LETTER DATED : -/ - SCREENING REQUIRED? fYes REFERENCE FILE NOS.: UMC EDITION (year): EM [BAWLAND USE CONDITIONS? nYes U No n No SUITE NO. Date Approved - INSPECTOR: s -1 0W17 /oo SITE ADDRESS SUiTE # — 9725 E. MARGINAL WAY SO. BLDG .# 9 - 101 VALUE OF CONSTRUCTION - $ 402, 000.00 PROJECT NAME/TENANT BOEING MILITARY AIRPLANE TYPE OF WORK: ® New /Addition ❑ Modifications ❑ Repair ❑ Other: DESCRIBE WORK TO BE DONE: SEE TITLE SHEET ::'TYPE :: s: .. ;::; ;: . :_ ;:FtAATING/SIZE °:.: ; : : ; : :: ;.::> : :..... : :; :NUMBER C3F UNiTS .: • ADDRESS PO BOX 3707 M/S 46 -87 SEATTLE, WA. 98124 -2207 CONTRACTOR 5," BUILDING USE (office, warehouse, etc.) OFFICE NATURE OF BUSINESS: AIRPLANES WILL THERE BE A CHANGE IN USE? Q No ❑ Yes IF YES, EXPLAIN: WILL THERE BE STORAGE OR USE OF FLAMMABLE, COMBUSTIBLE OR HAZARDOUS MATERIALS IN THE BUILDING? Q No ❑ Yes IF YES, EXPLAIN: PROPERTY OWNER BOEING MILITARY AIRPLANES AMOUNT RCPT # DATE (PHONE 544 PHONE -2975 ZIP ADDRESS PO BOX 3707 M/S 46 -87 SEATTLE, WA. 98124 -2207 CONTRACTOR 5," ADDRESS PLAN CHECK;. FEE ZIP WA. ST. CONTRACTOR'S LICENSE # � ,7 !' ,9 9 gig/ EXP. DATE / _ /— c3 PHONE ARCHITECT ADDRESS ZIP DESTION AMOUNT RCPT # DATE BASIC PERMIT FEE UNIT(S) FEE PLAN CHECK;. FEE OTHER:::::; . >: >; > > :;':;:;. :`' TOTAL OF TUKWILA Department of Community Development - Building 6200 Southcenter Boulevard, Tukwila WA 98188 (206) 433 -1849 NAME KERNHAN JOB# 910805 -0' PLAN CHECK NUMBER APPLICATION MUST BE FILLED OUT COMPLETELY CONTACT PERSON DATE APPLICATION ACCEPTED l ADDRESS PO BOX 3707 M/S 46 -87 TERRY L. BENNETT Mechanical Fee Worksheet must also be filled out and attached to this application. a MECHANIC NL PERMIT APPLICATION FEES (for staff use only) I ; N�a %7'RUE'AND OOFRECT BUILDING OWNER SIG( OR PRIf AUTHORIZED AGENT THORIZ CITY /ZIP SEATTLE, 98124 PHONE 544 - 2975 JULY 20,1992 PHONE 544 -2975 APPLICATION SUBMITTAL In order to ensure that your application is accepted for plan review, please make sure to fill out the application completely and follow the plan submittal checklist on the reverse side of this form. A completed "Mechanical Permit Fee Worksheet" must accompany this permit application. Handouts are available at the Building counter which provide =re daiaiied Inforrnatiots on applicaiiorl and plan submittal roquiromonts. ",ppilcatic :; and plans must be complete in order to be accented for plan review. 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. VALUATION OF CONSTRUCTION The valuation is for the work covered by this permit and must be filled in by the applicant. This figure is used for budget reporting purposes only and not to calculate your fees. EXPIRATION OF PLAN REVIEW Applications for which no permit is issued within 180 days following the date of application shall expire by limitation. • The Building Official may extend the time for action by the applicant for a period not exceeding 180 days upon written request by the applicant as defined in Section 304(d) of the Uniform Mechanical Code (current edition). No application shall be extended more than once. If you have any questions about our process or plan submittal requirements, please contact the Department of Community Development at 433 -1849. DATE APPLICATION EXPIRES 03)29!99 6./, T ,jr I uArr,LH Department of Community Development - Building Division 6200 Southcenter Boulevard, Tukwila WA 98188 (206) 433 -1849 THIS WORKSHEET MUST ACCOMPANY YOUR MECHANICAL PERMIT APPLICATION. : INSTRUC •. Complete the worksheet, indreating. the number of tfnits being installed ! n . each; category; •multiplied by the unit cost. ;Then . tally the subtotal column highlighted at the b af worksheet. At time of su s ta ff w calculate the remaining fees. DESCRIPTION UNIT COST NO. OF UNITS X TOTAL COST BASIC FEE $15.00 1 Installation or relocation of each forced -air gravity -type furnace or burner, including ducts and vents attached to such appliance, up to and including 100,000 Btu /h. $9.00 X 2 Installation or relocation of each forced -air or gravity -type furnace or bumer, Including ducts and vents attached to such appliance over 100,000 Btu /h. $11.00 X 3 Installation or relocation of each floor furnace, including vent. $9.00 X 4 Installation or relocation of each suspended heater, recessed wall heater or floor- mounted unit heater. $9.00 X 5 Installation, relocation or replacement of each appliance vent installed and not Included in an appliance permit. $4.50 x 6 Repair of, alteration of, or addition to each heating appliance, refrigeration unit, cooling unit, absorption unit, or each heating, cooling, absorption, or evaporative cooling system, including installation of controls regulated by this code. $9.00 X 7 Installation or relocation of each boiler or compressor to and including three horsepower, or each absorption system to and including 100,000 Btu /h. $9.00 X 8 Installation or relocation of each boiler or compressor over three horsepower to and including 15 horsepower, or each absorption system j over 100,000 Btu /h and including 500,000 Btu /h. Installation or relocation of each boiler or compressor over 15 horsepower to and including 30 horsepower, or each absorption system over 500,000 Btu /h to and including 1,750,000 Btu /h. $16.50 $22.50 X X 10 Installation or relocation of each boiler or compressor over 30 horsepower to and including 50 horsepower, or for each absorption system over 1,000,000 Btu /h to and including 1,750,000 Btu /h. $33.50 x 11 Installation or relocation of each boiler or refrigeration compressor over 50 horsepower, or each absorption system over 1,750,000 Btu /h. $56.00 X 12 Each air - handling unit to and including 10,000 cubic feet per minute, including ducts attached thereto. (NOTE: This fee shall not apply to an air - handling unit which is a portion of a factory- assembled appliance, cooling unit, evaporative cooler or absorption unit for which a permit is required elsewhere in this code.) $6.50 2 X 13 Each air - handling unit over 10,000 cim. $11.00 2 X 14 Each evaporative cooler other than a portable type. $6.50 X 15 Each ventilation fan connected to a single duct. $4.50 6 x 16 Each ventilation system which is not a portion of any heating or air - conditioning system authorized by a permit. $6.50 X 17 Installation of each hood which is served by mechanical exhaust, including the ducts for such hood. $6.50 X 18 Installation or relocation of each commercial or industrial -type incinerator. $11.00 X 19 installation or relocation of each commercial or industrial -type incinerator. $45.00 x 20 Each appliance or piece of equipment regulated by the code but not classed in other appliance categories, or for which no other fee is listed in this code. $6.50 X SUBTOTAL (unit fee) PLAN CHECK FEE ;uatoi.0 GRAND TOTAL $ MECHANICAL PERMIT FEE W�rRKSHEET * itiely*IvOrOt CITY OF.TUKWIL,W 1 ' • . TRANSMIT *******?elele*)kir4eirfIrt*A".k.triti4***************Icirlritirl4.1e***#****ii******** TRANSMIT 92000851„mount: 90.63 08/,17/92 i323 ' Permit:Na'v:M92 Type: 13--MECI MECHANICAL' PERMIT. PE • :•,• . 0 i 3/4.792 • • Site Address: EST MAItOINAL WY 8 . 1.,ayment, Method: CHECK Notlatjo'n: BOEING - TERRY.. SLB icir'icor.ko(i Account Code Description' • raiu 600/345;830 ,01.(114.DHEC1( NONRES 18.13 0 0O/32 2:19 0 MECHANICAL 7 NONRES. 72.50 Total 9 0 3 •.:., .. Total. Feesl: Toal.. Al 1 P4yinents1 • 9 0 6 3 9C)-. 6 3 7V5 , . , • ! ' • • • " ' ," CHECIt • GENERA 90.63 GENERA 25.00 TOTAL 115.63 115.63 CHANGE 0.00 2520A000 1331 Address: 9725 EAST MARGINAL WY S Tenant: THE BOEING COMPANY #9 -101 Type: B -MECH Parcel #: 000340 -0018 CITY OF TUKWILA Permit No: M92 -0144 Status: ISSUED Applied:. 07/20/.1992 Issued: 08/17/1992 ************ * * * * * * * * * * ** * * * * * * * * * ** * * * * * * ** Permit Conditions: 1. 'No .changes will be made to the plans unless approved by the Tukwila Building Division. 2- Electrical permit :shall be obt.a.ihed.,,,t,hnough the Washington State Division of Labor, a d Indust-iNes,,and „a1�1 electrical work will be i n s p e c.t; p. d +, bry -if a t agency f'277; 2 7 k, 3. All permits, ins .i,`c i•on recolds, an._ ,approved'{ l ns shall be maintained ava. le at e J et site`' prior, t t i s art of any construc 9 Ties 4 Gu minte r arke,, to 413 ,r i nta;1 ne:�d • 'available uf1 S I f;in l 41ns• ect1on approval i ,4gra�►Nted`:` �,m�aw•�� , 9� 4 ;. Any exposi , �' nsulat•io:ns ba.ck�ifng mater l F ave .,a i� 1(a;�ne Spread 13 " < g bf`` c or f1 'ess, a d material '511%„,a1 {bear 'vfid i- re per rating a 'ther ,, \. 6.. Val idi of Pernilt,„ e r u of a permit • or approval o plans, sp cilfi Cat , .�i > ons an�d,'corirputat shall not the cols stru f to 14,0 permit r, or'�,a.n,,.,approval of, any `'Yiold ; t #ion of 31 .o .. th e fo ppovisaons of t i,11 code, or of ' any other s ,,,u, k2, ord anc o.f the Jurisd ict -i,on No ..permit presuming ":,to gyiv,e. aut .',o it or vvfo l ate4'..Oi - '• cancel \ the p''ro "l's-i�o.ns of th..i s c y.�W y k. .,,, . - k13.e. i i r°` 0 .R� �.r`N� :Z ma S yy , •�4i 1 y .. �... .. 4LL cAGW t ��/i4G � t1NUC Actro Dear Sir: City of Tukwila FIRE DEPARTMENT 444 Andover Park East Tukwila, Washington 98188 -7661 (206) 575 -4404 Fire Department Review Control #M92 -0144 (512) s/z July 31, 1992 John W. Rants, Mayor Re: Boeing Company Building #9 -101 - 9725 East Marginal Way South 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 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 #1528) 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 #1528) (UFC 10.503) Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #1528) Call the Tukwila Fire Department at 575 -4404 for approval of any system shut down. Have job site address, name, and the Tukwila Fire Department Job Number available to confirm shut down approval. (City Ordinance #1528) Any overlooked hazardous condition and /or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. Project Name 1) C / NC 4'1 /C Address `v7 / . Ls S i (. ' , Retain current inspection schedule Needs shift inspection Approved without correction notice Approved with correction notice issued Sprinklers: Fire Alarm: Hood & Duct: Halon: Monitor: Pre - Fire: Permits: Authorized Signature Date FINALAPP.FRM it :t:irr15,40 ...}- Yi.i.,v�.�•,i rl 1.4 City of Tukwila FIRE DEPARTMENT 444 Andover Park East Tukwila, Washington 98188-7661 (206) 575-4404 TUKWILA FIRE DEPARTMENT FINAL APPROVAL FORM Gary L. VanDusen, Mayor Control No in L- " 0 Permit No. Suite # T.F.D. Form F.P. 85 Project: /OQi� --1 /> Type of Inspection: " /77Al Addresso S� ...i. ` / t i , Date Called: 6_2 Spedal Instructions: Date Wanted: r- 60--2- -e? etr P.m. Requester: i' Phone No.: INSPECTIONN CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Bivd.,' #100, Tukwila, WA 98188 V Approved per applicable codes. COMMENTS: Inspect l INSPECTION RECORD ( Retain a copy with perm! Date: ,M 7z 0/ lit/ HW N0. 206) 431 -3670 ❑ Corrections required prior to approval. ❑ "U REINSPECTION F E REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. L °.: Date: CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 Approved per applicable codes. COMMENTS: 'INSPECTION RECORD' Retain a copy with permit I' PY Pe ❑ Corrections required prior to approval. a PERMIT NO. (206) 431 -3670 ❑ $30.00 EINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. CaII to schedule reinspection. t Hecept No.: Date: • ype o ns . ton: 'b1.4 .:. oe.v) 9 Address: 9, ,5 ._ e: /2la,9 . /07 Date Called: zi 7 Special hetructions: 61. fr ti . off ,' e.4. P, ( .4.4.6-441 Oz-e (A . eloSe /9 .. '..p.m. Date Wanted: e i 7 . ) Requesta r 1 ° Phone No.:5; q 7 39 c i / CITY OF TUKWILA BUILDING DIVISION 6300 Southcerrer Blvd., #100, Tukwila, WA 98188 KApproved per applicable codes. ReceOt No.: O INSPECTION RECORD Retain a copy with permit 0 Date: PEWIT NO (206) 431 0 Corrections required prior to approval. COMMENTS: ' CLd-ort.. a eLA4 6.44A-A 0 $30.00 REINSPECTION FEE REQUIRED. Prior to relnspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Project: � 1 1 70 1 Type of Inspection: �. n A J Y U(it Address: -I -✓ �� f, ' �✓it a Called: Special Instructions: �� a te Wanted: 2 - 1/ r /f 2 �^ (am.Jp,m. Requester: ! J PhoneNo.:PtA )`• l � [Approved per applicable codes. INSPECTION RECORD Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206) 431 -3670 O Corrections required prior to approval. COMMENTS: ' UGH - OF 1^1fr-/ --0 J914C OF W ES SA VE A P�t,vt;O ( C To 3 it R Inspect Dete 11-'13 O $30.00 REINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Cali to schedule reinspection. be&c engineers c BE &C ENGINEERS MECHANICAL CALCULATIONS FOR HVAC SYSTEMS: AH2G6A, AH2J4A, AH2J6A BUILDING 9 -101, SEATTLE, WA EEIP PHASE 2 -D July 6, 1992 Prepared By: BE &C ENGINEERS P.O. Box 3707 Seattle, Washington 98124 -2207 BOEING SUPPORT SERVICES Seattle, Washington DOCUMENT NUMBER: 326- 90133 - CALC -M -13 Prepared By: Figured by: osse /A.Killip Checked by: .Smith, P. Approved by: PA K. Ramsey, P.E. K1I L.. :UU1ai -M•1 6/17/92 building load calculations BE&C ENGINEERS P.O. Box 3707 Seattle, Washington 98124.2207 Mail Stop: PROJECT. JOB NO. FIG. BY CHECKED BY DATE SHEET_ OF_. coooling load input data system system vane Air Conditioning Economics By: Trane Customer Direct Service Network ** TRACE 600 ANALYSIS by Summer Clearness Number: Winter Clearness Number: Summer Design Dry Bulb: Summer Design Wet Bulb: Winter Design Dry Bulb: Sumner Ground Relectance: Winter Ground Relectance: Weather File Code: SEATTLE. Location: SEATTLE WEATHER DATA Latitude: 47.0 (deg) Longitude: 122.0 (deg) Time. Zone: 8 Elevation: 386 (ft) Barometric Pressure: 29.5 (in. Hg) BUILDING LOAD CALCULATIONS FOR: AHU AH2G6A (WEST UNIT) 9 -101 BLDG EE1P PROJECT, PHASE 2 -D BOEING MILITARY AIRPLANES FIG. 8Y: A.KILLIP - 04 -14 -92 Air Density: Air Specific Heat: Density- Specific Heat Prod: Latent Heat Factor: Enthalpy Factor: Design Simulation Period: System Simulation Period: Cooling Load Methodology: ** 0.95 0.95 85 68 20 0.20' 0.20 0.0749 0.2444 1.0988 4,836.9 4.4953 (F (F) (F) (Lbm/cuft) (Btu /lbm /F) (Btu- min. /hr /cuft /F) (Btu- min. /hr /tuft) (Lb- min, /hr /tuft) July To July January To December CLTD /CLF (Transfer Function Method) Time /Date Program was Run: 10:31 :17 6/22/92 Dataset Name: AH2G6A .TM ** V 60 PAGE 1 My Ia /x00'I8///O9//////58/58/t/Lb E 00T / Zv 56/O8/95/95/T/£v Tv NffliSZd /2iIK�L52I /T /SING /A'Iddns / / / / /5'S /5'S /t /ZV 6 xavo23 /AVA /tt /6 8 £ £ oozi // /1/ / c sC oLZ / / /t /£ /Z£ t,£ OLZ / / /T /Z /Z£ ££ OTV9 / / /t /t /Z£ Z£ 89/ 56 /ZNV1LSNO0 /9tT /O9Z' / / / /T /w /Z£ t£ 35- 1443045' /3S- W30/5' /v /6Z OC 3S -1430 /Z • /3S- W30 /Z' /144 /6Z 6Z WU 02Id32i /T /v /8Z 8Z SLLVM /0991/ xv32is /t /£ /8z LZ o/oot /o /ooT // /Ross /000vz % o o3 s N s%z % Z %sz sz IN3 a ln0a a3I330 /t /8Z vz 0 /O /OOT /oot / / /3s -L1LV /89Z' £ / t / 2iai�svw /t /w /Sz £Z 5Z/ 5t 'T / ZSVUHSK /3s- ISKM /L•T/55£/55£ /SUSS 3S /o0T /N /LZ Zz s3A /t /v /zZ tz 7 S /t /£ /zz Oz SaA / T / z / zz 61 SaA /t /t /ZZ 81 L' / / /9t /Z90' / / /SaA /T /144 /ZZ LT t /oozi /w i o24d22i /v /v /oz 91 t /oLZ /Wd x` alia /£ /£ /oz 5T T /oLZ 0024 3N00 SS3M /z /z /OZ VT T /OZi�9 /a0I33o Z 3 9 /T /t /OZ £T 9Z /98L'1 /LT /L / / / /t /T %6t Tt ON//Z �dnZOK /ZKnsO�i / /0IVI1 /3'IJ- gS'I / 6 'Inr /Znr /6o 8 Z'/ Z '//OZ/89/58/56'/56'/a'IZSvas/80 L . Z6-VT-V0- dITIIx'V :AS '0I3 /TO t SaNV'1d2iIV A24YSI'IIN 9NI30S /TO t a -z SSVHd '1L03r0 d diaa JG'IS TOT -6/10 v (SINn Ism; ti9OZHV fHV /TO C :2103 SNOISv'In0'Ivo avo'I JNIarlIns /0r Z aNI'I WI • Y9OZHv \KSVa \fiUMML \sa0\ :3 : 30 SZNaJNO0 Trane Air Conditioning Economics By: Trane Customer Direct Service Network AIRFLOW - ALTERNATIVE 1 �1 Main Auxil. Room Outside Cooling Heating Return Exhaust Supply Exhaust System System Airflow Airflow Airflow Airflow Airflow Airflow Airflow Number Type (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) 1 VAV 1,992 10.389 0 10,389 10,389 0 0 Totals 1,992 10,389 0 10.389 10.389 0 0 CAPACITY - ALTERNATIVE 1 SYSTEM SUMMARY (Design Capacity Quantities) Cooling Heating Main Sys. Aux. Sys. Opt. Vent Cooling Main Sys. Aux. Sys. Preheat Reheat Humidif. Opt. Vent Heating System System Capacity Capacity Capacity Totals Capacity Capacity Capacity Capacity Capacity Capacity Totals Number Type (Tons) (Tons) (Tons) (Tons) (Btuh) (Btuh) (Btuh) (Btuh) (Btuh) (Btuh) (Btuh) 1 VAV 32.3 0.0 0.0 32.3 - 20,753 0 - 68,017 0 0 0 - 88,770 Totals 32.3 0.0 0.0 32.3 - 20,753 0 - 68,017 0 0 0 - 88,770 The building peaked at hour 14 month 7 with a capacity of 32.3 tons ENGINEERING CHECKS - ALTERNATIVE 1 Percent Cooling - -- Heating - - -- ( m Main/ System Outside Cfm/ Cfm/ Sq Ft Btuh/ Cfm/ Btuh/ Floor Area r Auxiliary Type Air Sq Ft Ton /Ton Sq Ft Sq Ft Sq Ft Sq Ft ' 1 Main VAV 19.17 1.27 321.5 252.5 47.52 0.00 -10.88 8,160 SYSTEM SUMMARY (Oesign Airflow Quantities) ENGINEERING CHECKS ? 0 ail Cot/. -r /,S r3AS,`%L) oA/ /OCR p Fo L Lv ws c'o C,sw+ / l T W n CFoi G 4 Zo 45V ac, L 4.2 / Z4- a70 CoAge. kre7 02 0 8,e4irf.r .. 7 5'¢ /2 - 0 0 2L = ? 4o ?,o 24o -E LG o B!• ��lLs7 CO 7?-6-9/ ,9 Gso 4 i) 5 ,.5 ) 1 2 . 0 0 b c",„ L� LiZcri�, % M,t ✓C- 24 c # 2.4 dri„cc /i 7?l 364 644 i � T C syS7 i 4=4 494/4 = /C 3.? t Zoo = / 9 9Z c V 600 PAGE 2 Trane Air Conditioning Economics By: Trane Customer Direct Service Network System 1 d at Time ■■> .ie Air =_> Envelope Loads Skylite Solr Skylite Cond Roof Cond Glass Solar Glass Cond Wall Cond Partition Exposed Floor Infiltration Sub Total ==> Internal Loads Lights People Misc Sub Total ==> Ceiling Load Outside Air Sup. Fan Heat Ret. Fan Heat Ouct Heat Pkup OV /UNDR Sizing Exhaust Heat Terminal Bypass Grand Total = => MIg Aux" Clg Opt Vent Totals Capacity (Mbh) Main Htg -20.8 Aux Htg 0.0 Preheat -68.0 Reheat -0.0 Humidif 0.0 Opt Vent 0.0 Total -88.8 Block VAV - VARIABLE AIR VOLUME Space Sens. +Lat. (Btuh) 42,38 42,38 40,83 57,93 96,32 195.09 6,51 0 243,991 Total Capacity (Tons) (Mbh) 32.3 387.8 0.0 0.0 0.0 0.0 32.3 387.8 HEATING COIL SELECTION COOLING COIL PEAK Mo /Hr: 7/14 OA0B /W8 /HR: 84/ 69/ 83 1 Ret, Air Sensible (Btuh) 0 0 14,459 0 0 0 14.459 13,612 24,000 37,612 -6,517 0 0 - 11,317 -5,517 0 28,719 Ret. Air Latent (Btuh) Net Total (Btuh) 14,45 42,38 56,83 54,44 57,93 0 120,32 0 232.70 0 59,34 44,42 0 -5,51 0 0 387,80 COOLING COIL SELECTION Coil Airfl Ent Lvg Type (cfm) Deg F Deg F Vent 0 0.0 0.0 lnfil 0 0,0 0.0 Supply 1,992 20.0 51.1 Mincfm 0 0,0 0.0 Return 0 0.0 0.0 Exhaust 0 0.0 0.0 Rm Exh Auxil Percnt Of Tot (%) 0.00 0.00 3.73 0.00 0.00 0.00 0.00 10.93 0.00 14.66 14.04 14.94 31.03 60.01 0.00 15.30 11.46 0.00 0.00 0,00 -1.42 -0.00 100.00 0 0 Sens Cap. Coil Airfl Entering DB /WB /HR (Mbh) (cfm) Deg F Deg F Grains 320.1 10.299 78.9 62.7 60.4 0.0 0 0.0 0.0 0.0 0.0 0 0.0 0.0 0.0 AIRFLOWS (cfm) Cooling Heating 1,992 0 10,389 0 10,389 1.992 CLG SPACE PEAK Mo /Hr: 7/17 OADB: 83 Space Sensible (Btuh) 42.38 42,38 40,83 28,96 96,32 166,12 8,39 0 0 0 0 0 0 0 0 0 * Percnt * Of Tot * (%) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 19.54 0,00 19.54 18.83 13.36 44.41 76.59 3.87 0.00 0.00 0.00 0.00 0,00 0.00 0.00 216,898 100.00 Leaving DB /WB /HR Deg F Deg F Grains 51.1 49.3 50.1 0.0 0.0 0.0 0.0 0.0 0.0 Space Peak Space Sens (Btuh) HEATING COIL PEAK Mo /Hr: 13/ 1 OADB: 20 -20,31 -- ENGINEERING CHECKS- - Clg % OA 19.2 Clg Cfm /Sqft 1.27 Clg Cfm /Ton 321.48 Clg Sqft/Ton 252.50 Clg Btuh /Sqft 47.52 No. People 82 Htg % OA 0.0 Htg Cfm /SqFt 0.00 Htg 8tuh /SqFt -10.88 0 Coil Peak Tot Sens (Btuh) -20,75 -20,75 - 20,310 -20,75 V 600 PAGE 3 Percnt Of Tot ( %) 0.00 0.00 100.00 0.00 0.00 0.00 0.00 0.00 0.00 100.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 100.00 AREAS Gross Total Glass (sf) ( %) Floor Part ExFlr Roof Wall 8,160 0 8,150 8,160 0 0 0 0 0 -- TEMPERATURES (F) - -- Type Clg Htg SADB 56.0 68.1 Plenum 77.5 61.0 Return 77.5 64.8 Ret /OA 78.9 20.0 Runarnd 75.0 68.0 Fn MtrTD 0.6 0.6 Fn B1dTD 1.3 1.3 Fn Frict 2.0 2.0 Trane Air Conditioning Economics By: Trane Customer Direct Service Network MAIN SYSTEM COOLING.- ALTERNATIVE 1 MAIN SYSTEM HEATING - ALTERNATIVE 1 PEAK COOLING LOADS (Main System) PEAK HEATING LOADS (Main System) Space Peak OA Rm Supp. Space Floor Time Cond. Dry Ory Air Flow (r e Description (SgAFt) Mo /Hr DB (F) (F) B (F) (Cfm) 1 GENERAL OFFICE . 6,420 13/ 1 20 18 68 66.1 Zone 1 Total /Ave. 6,420 20 18 68 68.1 Zone 1 Block 6,420 13/ 1 20 18 68 68.1 2 WEST CONF ROOM 270 13/ 1 20 18 68 68.1 Zone 2 Total /Ave. 270 20 18 68 68.1 Zone 2 Block 270 13/ 1 20 18 68 68.1 3 BREAK RM 270 13/ 1 20 18 68 68.1 Zone 3 Total /Ave. 270 20 18 68 68.1 Zone 3 Block 270 13/ 1 20 18 68 68.1 4 REPRO RM 1,200 13/ 1 20 18 68 68.1 Zone 4 Total /Ave. 1,200 . 20 18 68 68.1 Zone 4 Block 1,200 13/ 1 20 18 68 68.1 System 1 Total /Ave. 8,160 20 18 68 68.1 System 1 Block 8,160 13/ 1 20 18 68 68.1 -15,979 13/ 1 20 18 68 68.1 - 15,979 20 18 68 68.1 - 15,979 13/ 1 20 18 68 68.1 -672 13/ 1 20 18 68 68.1 -672 20 18 68 68.1 -672 13/ 1 20 18 68 68.1 -672 13/ 1 20 18 68 68,1 -672 20 18 68 68.1 -672 13/ 1 20 18 68 68.1 -2,987 13/ 1 20 18 68 68,1 -2,987 20 18 68 68.1 -2,987 13/ 1 20 18 68 68.1 - 20,310 20 18 68 68.1 - 20,310 13/ 1 20 18 68 68.1 Coil V 600 PAGE 4 Space Coil Peak OA Rm Supp. Space Space Space Peak OA Rm Supp. Coil Coil Coil Time Cond. Dry Dry Air Sens. Lat. Time Cond. Dry Dry Air Sens. Lat. Room Mo /Hr DB /WB Bib Bulb Flow Load Load Mo /Hr DB /WB Blb Bulb Flow Load Load Number Description (F) (F) (F) (Cfm) (Btuh) (Btuh) (F) (F) (F) (Cfm) (Btuh) (Btuh) 1 GENERAL OFFICE 7/17 83 65 75 56.0 7,973 166,460 22,791 7/14 84 69 75 56.0 7,939 249,279 47,726 Zone 1 Total /Ave. 83 65 75 56.0 7,973 166,460 22,791 84 69 75 56.0 7.939 249,279 47,726 Zone 1 Block 7/17 83 65 75 56.0 7,973 166,460 22,791 7/14 84 69 75 56.0 7,939 249,279 47,726 2 WEST CONF ROOM 7/17 83 65 75 56.0 463 9,657 958 7/14 84 69 75 56.0 452 12,802 2,007 Zone 2 Total /Ave. 83 65 75 56.0 463 9,657 958 84 69 75 56.0 452 12,802 2,007 Zone 2 Block 7/17 83 65 75 56.0 . 463 9,657 958 7/14 84 69 75 56.0 452 12,802 2,007 3 BREAK RM 7/17 83 65 75 56.0 463 9,657 958 7/14 84 69 75 56.0 452 12,802 2,007 Zone 3 Total /Ave. 83 65 75 56.0 463 9,657 958 84 69 75 56.0 452 12,802 2,007 Zone 3 Block 7/17 83 65 75 56.0 463 9,657 958 7/14 84 69 75 56.0 452 12,802 2,007 4 REPRO RM 7/17 83 65 75 56.0 1,491 31,124 4,260 7/14 84 69 75 56.0 1,456 45,738 15,912 Zone 4 Total /Ave. 83 65 75 56.0 1.491 31.124 4,260 84 69 75 56.0 1.456 45,738 15,912 Zone 4 Block 7/17 83 65 75 56.0 1,491 31,124 4.260 7/14 84 69 75 56.0 1,456 45.738 15,912 System 1 Total /Ave. 83 65 75 56.0 10.389 216,698 28,968 84 69 75 56.0 10,299 320,622 67,652 System 1 Block 7/17 83 65 75 56.0 10,389 216,898 28,968 7/14 84 69 75 56.0 10,299 320,147 67,652 Space Peak OA Rm Supp. Coil Coil Sens. Time Cond. Dry Dry Air Sens. Load Mo /Hr DB /WB Blb Bulb Flow Load (Btuh) (F) (F) (F) (Cfm) (Btuh) - 15,979 - 15,979 - 15,979 -720 -720 -720 -720 -720 -720 -3,333 -3,333 -3,333 - 20,753 - 20,753 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK : ALTERNATIVE 1 Lights Room Room Sensible Number Description (Btuh) 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block COOLING LOADS AT SPACE PEAK ALTERNATIVE 1 Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block Lights Room Sensible (Btuh) INTERNAL COOLING LOADS (At time of Coil Peak) Lights Ret. Air Lites Sensible CLF (Btuh) 32,128 10,709 1.000 22,791 22,791 1.000 71,607 32,128 10,709 1.000 22,791 22,791 1.000 71,607 32,128 10,709 1.000 22,791 22,791 1.000 71.607 1.351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5.666 6,005 2,002 1.000 4,260 4,260 1.000 13,384 6,005 2.002 1.000 4,260 4.260 1.000 13.384 6,005 2,002 1.000 4,260 4.260 1.000 13,384 40,835 13,612 1.000 28,968 28.968 1.000 96,322 40,835 13,612 1.000 28,968 28.968 1.000 96.322 INTERNAL COOLING LOADS (At time of Space Peak) Lights Ret. Air Lites Sensible CLF (Btuh) Misc. People People Peopl Space Sensible Latent CLF Sensible (Btuh) (Btuh) (Btuh) Misc. People People Peopl Space Sensible Latent CLF Sensible (Btuh) (Btuh) (Btuh) 32,128 10,709 1.000 22,791 22.791 1.000 71,607 32,128 10,709 1.000 22,791 22,791 1.000 71,607 32,128 10,709 1.000 22,791 22,791 1.000 71,607 1,351 450 1.000 958 958 1.000 5.666 1,351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5,666 1.351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5,666 1,351 450 1.000 958 958 1.000 5,666 6,005 2,002 1.000 4,260 4,260 1.000 13,384 6,005 2,002 1.000 4,260 4,260 1.000 13,384 6,005 2,002 1.000 4,260 4,260 1.000 13,384 40,835 13,612 1.000 28,968 28.968 1.000 96,322 40,835 13,612 1.000 28,968 28,968 1.000 96,322 Misc. Space Latent (Btuh) Misc. Space Latent (Btuh) Misc. Ret. Air Misc. Sensible CLF Total (Btuh) (Btuh) 24,00 1.000 24,00 1.000 24,00 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 24,00 1.000 24,00 1.000 Misc. Ret. Air Misc. Sensible CLF Total (Btuh) (Btuh) 24,00 1.000 24,00 1.000 24,00 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 24.00 1.000 24,00 1.000 V.600 PAGE 5 184,026 184,026 184,026 9,384 9,384 9,384 9,384 9,384 9,384 29,911 29,911 29,911 232,705 232,705 184,026 184,026 184,026 9,384 9,384 9,384 9.384 9,384 9,384 29,911 29,911 29,911 232,705 232,705 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 C Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block Room Number Description ( 1 71 GENERAL OFFICE 1 Total /Ave. 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block Room Number Description 1 GENERAL OFFICE Roof Return Air Sensible Load (Btuh) BUILDING ENVEL (Roof (At time Roof Roof Space Roof R.A. Sensible Space CLTO Load CLTD (F) (Btuh) (F) 11,229 28.2 11.229 28.2 11.229 28.2 507 30.3 507 30.3 507 30.3 507 30.3 507 30.3 507 30.3 2,216 29.8 2,216 29.8 2,216 29.8 14.459 28.6 14,459 28.6 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 BUILDING E VELOPE COOLING LOADS (Wall - Window) (At time of Coil Peak) Wall Wall Wall Wall Glass Glass Glass Plenum Plenm Space Space Space Return Air Solar Load CLTO Load CLTD Solar Solar CLF (Btuh) (F) (Btuh) (F) (Btuh) (Btuh) Exposed Floor Sensible (Btuh) 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 BUILDING (Exposed Expsd Floor, CLTD (F) 33,332 20.0 E N Floor (At 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 VELOPE - Partitions time of Coil OPE COOLING LOADS - Skylight) of Coil Peak) Skylight Skylight Skylt Return Air Space Solar Solar Solar CLF (Btuh) (Btuh) 0.000 0.000 0.000 0.000 • 0,000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0,000 0.000 0.000 0.000 0.000 0.000 0,000 0.000 0.000 0.000 0,000 0.000 0.000 COOLING LOADS - Infiltration) Peak) Skylight Return Air Conduction Load (Btuh) Glass Space Conduction (Btuh) Skylt R.A. CLTD (F) Glass Space CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Glass Return Air Conduction (Btuh) V 600 PAGE 6 Skylight Space Skylt Conduction Space Load CLTD (Btuh) (F) Glass R.A. CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 Plenm - Ceiling Partition Part. Infilt. Infilt. Infilt. Dry B Sensible Envelope Sensible CLTD Airflow Sensible Latent Temp, Load Total (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) (Btuh) 0 0.0 0 0 0 77,9 5.880 50,440 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Trane Air. Conditioning Economics By Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 ) BUILDING ENVELOPE COOLING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Coil Peak) Exposed Expsd Plenm Ceiling Floor Floor Partition Part. lnfilt. Infilt. Infilt, Dry 8 Sensible Envelope Room Sensible CLTD Sensible CLTO Airflow Sensible Latent Temp. Load Total Number Description (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (8tuh) (Btuh) Zone 1 Total /Ave. 33,332 20.0 Zone 1 Block 33,332 20.0 2 WEST CONF ROOM 1,404 20.0 Zone 2 Total /Ave. 1,404 20.0 Zone 2 Block 1,404 20.0 3 BREAK RM 1,404 20.0 Zone 3 Total /Ave. 1.404 20,0 Zone 3 Block 1,404 20.0 4 REPRO RM 6.240 20.0 Zone 4 Total /Ave. 6,240 20.0 Zone 4 Block 6,240 20.0 System 1 Total /Ave. 42,380 20.0 System 1 Block 42,380 20.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 V 600 PAGE 7 77.9 5,880 50,440 77.9 5,880 50,440 75.8 68 1,979 75.8 68 1,979 75.8 68 1,979 75.8 68 1,979 75.8 68 1.979 75.8 68 1.979 76.3 502 8,958 76.3 502 8,958 76.3 502 8.958 77.5 6,517 63,356 77.5 6,517 63,356 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT SPACE PEAK - ALTERNATIVE 1 C 7 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3- Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block Room Number (C 2 Zone Zone Zone Zone Zone Zone System System 3 4 Description GENERAL OFFICE 1 Total /Ave. 1 Block WEST CONF ROOM 2 Total /Ave. 2 Block BREAK RM 3 Total /Ave. 3 Block REPRO RM 4 Total /Ave. 4 Block 1 Total /Ave. 1 Block Room Number Description 1 GENERAL OFFICE Roof Return Air Sensible Load (Btuh) 15,147 15,147 15,147 637 637 637 637 637 637 2,831 2,831 2,831 19.252 19,252 Wall Plenum Load (Btuh) BUILDING ENVEL (Roof (At time Roof Roof Space Roof R.A. Sensible Space CLTD Load CLTD (F) (Btuh) (F) 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 BUILDING E VELOPE COOLING LOADS (Wall - Window) (At time of Space Peak) 0 0 0 0 0 0 0 0 0 0 0 0 O 0 Wall Plenm CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Wall Space Load (Btuh) BUILDING EN (Exposed Floor (At time of 41.3 41.3 41.3 41.3 41.3 41.3 41.3 41.3 41.3 41.3 41.3 41.3 41.3 41.3 Wall Space CLTD (F) 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 33,332 20.0 0 0.0 OPE COOLING LOADS - Skylight) of Space Peak) Skylight Skylight Skylt Return Air Space Solar Solar Solar CLF (Btuh) (Btuh) Glass Space Solar (Btuh) Glass Return Air Solar (Btuh) Exposed Expsd Floor Floor Partition Part. lnfilt. lnfilt. Sensible CLTD Sensible CLTD Airflow Sensible (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) 0 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0,000 0.000 0.000 Glass Solar CLF 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 VELOPE COOLING LOADS - Partitions - Infiltration) Space Peak) Infilt. Latent (Btuh) Skylight Return Air Conduction Load (Btuh) Glass Space Conduction (Btuh) Plenm Dry 8 Temp. (F) 0 78.2 Skylt R.A. CLTD (F) Glass Space CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Glass Return Air Conduction (Btuh) Skylight Space Conduction Load (Btuh) V 600 PAGE 8 Skylt Space CLTD (F) Glass R.A. CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Ceiling - Sensible Envelope Load Total (Btuh) (Btuh) 6,603 55,082 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Trane Air. Conditioning Economics • By: Trane Customer. Direct Service Network COOLING LOADS AT SPACE PEAK - ALTERNATIVE 1 Room Number Zone 1 Total /Ave. 33,332 20.0 Zone 1 Block 33,332 20.0 2 WEST CONF ROOM 1,404 20.0 Zone 2 Total /Ave. 1,404 20.0 Zone 2 Block 1,404 20.0 3 .BREAK RM 1,404 20.0 Zone 3 Total /Ave. 1,404 20:0 Zone 3 Block 1,404 20.0 4 REPRO RM 6,240 20.0 Zone 4 Total /Ave. 6,240 20.0 Zone 4 Block .6,240 20.0 System 1 Total /Ave. . 42,380 20.0 System 1 Block 42,380 20.0 Description BUILDING ENVELOPE COOLING LOADS (Exposed floor - Partitions - Infiltration) (At time of Space Peak) Exposed Expsd Plenm Ceiling Floor Floor Partition Part. Infilt. Infilt. Infilt. Dry B Sensible Envelope Sensible CLTD Sensible CLTD Airflow Sensible Latent Temp. Load Total (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) (Btuh) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0:0 0.0 0.0 0.0 0.0 0 0 0 0 0 0 0 0 0 0 0 0 0 V 600 PAGE 9 78.2 6,603 55,082 78.2 6,603 55,082 78.2 278 2,319 78.2 278 2,319 78,2 278 2,319 78.2 278 2,319 78.2 278 2,319 78.2 278 2,319 78.2 1,234 10,305 78.2 1,234 10,305 78.2 1,234 10,305 78.2 8,393 70,025 78.2 8,393 70,025 Trane Air Conditioning Economics By: Trane Customer Direct Service Network . HEATING LOADS AT COIL PEAK - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block Room Number Description x ,,� 1 GENERAL OFFICE �� 1 Total /Ave. 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone ' 4 Block System 1 Total /Ave. System 1 Block Room Number Description 1 GENERAL OFFICE (Roof - Skylight) (At time of Coil Peak) Roof Roof Return Air Roof Space Roof Skylight Sensible R.A. Sensible Space Return Air Load CLTD Load CLTD Solar (Btuh) (F) (Btuh) (F) (Btuh) - 15,979 -40.1 - 15,979 -40.1 - 15,979 -40.1 -720 -43,0 -720 -43.0 -720 -43.0 -720 -43.0 -720 -43.0 -720 -43.0 -3,333 -44.8 -3,333 -44.8 -3,333 -44.8 - 20,753 -41.0 - 20,753 -41.0 Wall Plenum Load (Btuh) BUILDING ENVELOPE HEATING LOADS BUILDING E (At Wall Plenm CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0,0 0.0 0.0 BUILDING (Exposed Wall Space Load (Btuh) EN Floor (At -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 VELOPE HEATING (Wall - Window) time of Coil Peak) Wall Space CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 VELOPE - Partitions time of Coil Glass Space Solar (Btuh) Skylight Space Solar (Btuh) Glass Return Air Solar (Btuh) Skylt Solar CLF 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 LOADS Glass Solar CLF 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0,000 0.000 HEATING LOADS - Infiltration) Peak) Skylight Return Air Conduction Load (Btuh) Glass Space Conduction (Btuh) Skylt R.A. CLTO (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 Exposed Expsd Plenm Ceiling Floor Floor Partition Part. Infilt. Infilt. Infilt, Dry B Sensible Sensible CLTD Sensible CLTD Airflow Sensible Latent Temp. Load (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) 0 0.0 0 0.0 0 0 0 60.1 - 15,979 Skylight Space Conduction Load (Btuh) V 600 PAGE 10 Skylt Space CLTD (F) Glass Glass Glass Space Return Air R.A. CLTD Conduction CLTD (F) (Btuh) (F) 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Envelope Total (Btuh) - 31,959 Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT COIL PEAK - ALTERNATIVE 1 Room Number Description Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block BUILDING ENVELOPE HEATING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Coil Peak) Exposed Expsd Plenm Ceiling Floor Floor Partition Part, Infilt. ' Infilt. Infilt. Dry B Sensible Envelope Sensible CLTD Sensible CLTD Airflow Sensible Latent Temp. Load Total (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) (Btuh) 0,0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 V 600 PAGE 11 60.1 - 15,979 - 31,959 60.1 - 15,979 - 31,959 63.0 -425 -1,146 63:0 -425 -1,146 63.0 -425 -1,146 63.0 -425 - 1,146 63,0 -425 -1,146 63.0 -425 -1,146 64,8 -1,219 -4,552 64.8 -1,219 -4,552 64.8 -1,219 -4,552 61.0 - 18,049 - 38,802 61.0 -18,049 - 38,801 C Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT SPACE PEAK - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone - 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block Room Number Description 1 GENERAL OFFICE 1 Total /Ave. 1 Block r 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block Room Numoer Description Roof Return Air Sensible Load (Btuh) BUILDING ENVEL (Roof (At time Roof Roof Space Roof R.A. Sensible Space CLTD Load CLTD (F) (Btuh) (F) - 15.979 -40.1 - 15,979 -40.1 - 15,979 -40.1 -672 -40.1 -672 -40.1 -672 -40.1 -672 -40.1 -672 -40.1 -672 -40.1 -2,987 -40.1 -2,987 -40.1 -2.987 -40.1 - 20,310 -40.1 - 20,310 -40.1 BUILDING E VELOPE HEATING (Wall - Window) (At time of Space Peak) Wall Wall Plenum Plenm Load CLTD (Btuh) (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 Wall Space Load (Btuh) -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 Wall Space CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 BUILDING ENVELOPE H (Exposed Floor - Partitions (At time of Space OPE HEATING LOADS - Skylight) of Space Peak) Skylight Skylight Skylt Return Air Space Solar Solar Solar CLF (Btuh) (Btuh) Glass Glass Space Return Air Solar Solar (Btuh) (Btuh) 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0,000 0.000 0.000 0.000 LOADS Glass Solar CLF 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0,000 0.000 0.000 0.000 0.000 0.000 EATING LOADS - Infiltration) Peak) Skylight Skylight Return Air Skylt Space Conduction R.A. Conduction Load CLTD Load (Btuh) (F) (Btuh) Glass Space Conduction (Btuh) 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0,0 0,0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Glass Glass Space Return Air CLTD Conduction (F) (Btuh) V 600 PAGE 12 Skylt Space CLTD (F) Glass R.A. CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Exposed Expsd - Plenm Ceiling Floor Floor Partition Part. Infilt. Infilt. Infilt. Dry B Sensible Envelope Sensible CLTD Sensible CLTD Airflow Sensible Latent Temp. Load Total (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) (Btuh) 1 GENERAL OFFICE 0 0.0 0 0,0 0 0 0 60.1 - 15,979 - 31,959 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT SPACE PEAK - ALTERNATIVE 1 C Room Number Description Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block BUILDING ENVELOPE HEATING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Space Peak) Exposed Expsd Floor Floor Partition Part. Infilt. Sensible CLTD Sensible CLTD Airflow (Btuh) (F) (Btuh) (F) (Cfm) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Infilt. Sensible (Btuh) V 600 PAGE 13 Plenm Ceiling Infilt. Dry B Sensible Envelope Latent Temp. Load Total (Btuh) (F) (Btuh) (Btuh) 60.1 - 15,979 - 31.959 60.1 - 15,979 - 31.959 60.1 -672 -1,344 60.1 -672 -1,344 60.1 -672 -1,344 60.1 -672 -1.344 60.1 -672 -1,344 60.1 -672 -1,344 60.1 -2.987 -5,974 60.1 -2,987 -5,974 60.1 -2,987 -5,974 60.1 - 20,310 40,620 60.1 - 20,310 - 40,620 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 Room Number 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 WEST CONF ROOM Zone 2 Total /Ave. Zone 2 Block 3 BREAK RM Zone 3 Total /Ave. Zone 3 Block 4 REPRO RM Zone 4 Total /Ave. Zone 4 Block System 1 Total /Ave. System 1 Block COOLING AIRFLOW HEAT GAIN /LOSS - ALTERNATIVE 1 Zone Zone Zone Zone oom er 1 2 3 Zone Zone 4 Zone Zone System System Ventilation Airflow Sensible Description (Cfm) (Btuh) 1,284 13,317 1,284 13.317 1,284 13.317 54 560 54 560 54 560 54 560 54 560 54 560 600 6,223 600 6.223 600 6.223 1,992 20.661 1,992 20,661 Duct Supply Heat Fan Pickup Heat Description (Btuh) (Btuh) GENERAL OFFICE 1 Total /Ave. 1 Block WEST CONF ROOM 2 Total /Ave. 2 Block BREAK RM 3 Total /Ave. 3 Block REPRO RM 4 Total /Ave. 4 Block 1 Total /Ave, 1 Block 8.723 34,245 8,723 34,245 8,723 34,245 497 1,952 • 497 1,952 497 1,952 497 1,952 . 497 1,952 497 1,952 1,600 6,280 1,600 6,280 1.600 . 6,280 • .11.317 44,428 11,317 44,428 AIRFLOW COOLING LOADS (At time of Coil Peak) Latent Airflow (Btuh) (Cfm) 24,935 24,935 24,935 1,049 1,049 1,049 1,049 1,049 1.049 11,652 11,652 11,652 38,684 38,684 AIRFLOW (At Return Fan Heat (Btuh) HEAT GAIN AND LOSS time of Coil Peak) System Exhaust Heat Loss (Btuh) Optional Ventilation -4,078 -4,078 -4,078 -47 -47 -47 -47 -47 -47 -871 -871 -871 -5,043 -5,517 Cooling System Exhaust Total Airflow (Btuh) (Cfm) 38,890 1,284 38,890 1,284 38,890 1,284 2,402 54 2,402 54 2.402 54 2,402 54 2,402 54 2,402 54 7,008 600 7,008 600 7.008 600 50,702 1,992 50,228 1,992 Room Exhaust Airflow (Cfm) Bypass Sensible Latent Airflow Sensible Latent (Btuh) (Btuh) (Cfm) (Btuh) (Btuh) Ducted Plenum Airflow Airflow (Cfm) (Cfm) 7.939 7,939 7,939 452 452 452 452 452 452 1.456 1,456 1,456 10.299 10,299 Run Around Airflow (Cfm) V 600 PAGE 14 Ov /Undr Sizing (Btuh) System Corridr Return Airflow Airflow (Cfm) (Cfm) 7,939 7,939 7,939 452 452 452 452 452 452 1,456 1,456 1,456 10,299 10,299 Trane Air Conditioning Economics By: Trane Customer Direct Service Network SYSTEM PSYCHROMETRICS - ALTERNATIVE 1 Cm 1 PSYCHROMETRIC STATE POINTS Dry Wet Relat. Humid. Temp. Bulb Bulb Humid. Ratio Enthalpy Diff, (F) (F) (%) (GR) (Btu /Lb) (F) Space 75.0 60.1 41.9 55.0 26.6 Main System Return Air Heat Pickup 3.2 Return Fan 0.0 Return Air 78.2 61.3 37.6 55.0 27.4 Outdoor Air 84.4 69.0 46.1 83.1 33.3 Return /Outdoor Air Mix 79.4 62.8 39,6 60.4 28.5 Blow through Fan 0.0 Entering Coil 79.4 62.8 39.6 60.4 28.5 Leaving Coil 51.1 49.6 90.6 51.3 -20.2 Draw Through Fan 1.9 Duct Frictional Heat 2.0 Supply Duct Heat Gain 1.0 Cold Deck Supply Air 56.0 51.7 75.6 51.3 21.4 Supply Air 56.0 51.7 75.6 51.3 21.4 Percent Outside Air Sensible Heat Ratio (SHR) Percent Supply Air Bypassing Coil Coil Airflow BUILDING U- VALUES - ALTERNATIVE 1 19.17 (X) 0.882 0.00 (%) 10,389 (Cfm) BUILDING U - VALUES t 7f k Room U- Values Room Room (Btu /hr /sqft /F) Mass Capac. Room Summr Wintr Summr Wintr (lb/ (Btu/ Number Description Part. ExF1r Skylt Skylt Roof Windo Windo Wall Ceil, sqft) sqft /F) 1 GENERAL OFFICE 0,000 0.260 0.000 0.000 0.062 0.000 0,000 0.000 0.317 97.8 20.46 Zone 1 Total /Ave. 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 2 WEST CONF ROOM 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 Zone 2 Total /Ave. 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20,46 3 BREAK RM 0.000 0.260 0.000 0.000 0.062 0.000 0,000 0.000 0.317 97,8 20.46 Zone 3 Total /Ave. 0,000 0.260 0,000 0.000 0.062 0.000 0.000 0.000 0.317 97,8 20.46 4 REPRO RM 0,000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 Zone 4 Total /Ave. 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 System 1 Total /Ave. 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 Building 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 V 600 PAGE 15 Trane Air Conditioning Economics By: Trane Customer Direct Service Network BUILDING AREAS - ALTERNATIVE 1 Floor Number of Area /Dupl Room Duplicate Room Number Description Flr Rm (sqft) 1 GENERAL OFFICE 1 1 6,420 6,420 Zone 1 Total /Ave. 6,420 2 WEST CONF ROOM 1 1 270 270 Zone 2 Total/Ave. 270 3 BREAK RM 1 1 270 270 Zone 3 Total /Ave. 270 4 REPRO RM 1 1 1,200 1,200 Zone - 4 Total /Ave. 1,200 System 1 Total /Ave. 8,160 Building 8,160 BUILDING AREAS Total Exposed Floor Partition Floor Skylight Skl Net Roof Window Win Net Wall Area Area Area Area /Rf Area Area /W1 Area (sqft) (sqft) (sqft) (sqft) (%) (sqft) (sqft) (%) (sgft) 6,410 6,410 270 270 270 270 1,200 1,200 8,150 8,150 6,420 6,420 270 270 270 270 1,200 1,200 8,160 8,160 V 600 PAGE 16 rave Air Conditioning Economics By: Trane Customer Direct Service Network Summer Winter Summer Summer Winter Summer Winter TRACE by BUILDING LOAD CALCULATIONS FOR: AHU AH2J4A (NORTH UNIT) 9 -101 BLDG EEIP PROJECT, PHASE 2 -0 BOEING MILITARY AIRPLANES FIG. BY: A.KILLIP - 4 -17 -92 Weather File Code: Location: Latitude: Longitude: Time Zone: Elevation: Barometric Pressure: Clearness Number: Clearness Number: Design Dry Bulb: Design Wet Bulb: Design Dry Bulb: Ground Relectance: Ground Relectance: Air Density: Air Specific Heat: Density- Specific Heat Prod: Latent Heat Factor: Enthalpy Factor: 600 ** ANALYSIS SEATTLE. SEATTLE WEATHER DATA 47.0 (deg) 122.0 (deg) 8 386 (ft) 29.5 (in. Hg) 0.95 0.95 85 (F) 68 (F) 20 (F) 0.20 0.20 0.0749 (Lbm /cuft) 0.2444 (Btu /lbm /F) 1,0988 (Btu- min. /hr /cuft /F) 4,836.9 (Btu- min. /hr /cuft) 4.4953 (Lb- min. /hr /cuft) Design Simulation Period: July To September System Simulation Period: January To December Cooling Load Methodology: CLTD /CLF (Transfer Function Method) Time /Date Program was Run: 12:54 :29 4/17/92 Dataset Name :. AH2J4A .TM • ** V 60 PAGE 1 J 00 q / / / / / /t /8', Et ME dQ /?I0o'IS / / /09 / / / / / /58 /S8 /t /Lii z£ oot //srz s-- xa /T/��' • t£ 56/08/95/95 0£ wnMaId /HIvLSu /T /SIwo /x'Iddns / / / / /S' S / 9'Z /T /Zb 6z alV0H /AVA /T/6£ 9Z 017£ / / /T /Z£ 6Z 89/ 56/ SNP 'LSNO3 / Ot /68LO / /9Z /Z9Z /t /t /t£ ZZ 3S -N 0 /Z' /3S- 1430 /ZVW /6Z tZ 0/004 /o /oW / /Hnsa /000tz /sus oasmvugz sz oz o /o /oot /ooT / / /3s- SSvM /s9z a / uassvw /t /w /sz 8T T/LZ LT 5Z/ ST' T/ ZS VUHSV/3S- IIVM /L't /55£ /55£ /SHad S /00t /,N /LZ 91 oi7£L /t /SSA /T /T /ZZ ST L' / / /9T /Z90' / / /SSx /t /N /ZZ bt T /Oi7£L/ oI33o Z S O /T /T /OZ £T 9Z /98L'T /L1 /L / / / /t /W /0Z Zt T /6T TT oN/A rdnIOV /'Ivnsov / /asVn /3r10- W1040Z 6 d2S /'Inr /60 8 Z'/ Z' /oZ /89_/58/56'/56'/H7IIVSS/8o ( c Z6_ / Satrnd2IIv I AUVLI 'IIN JNI aOS / TO 9- . a -z SSYHd 'soar ud dlss OU'IS TOT -6 /TO b :2103 SNOLL 0 V'InoavoQY v 0'I O 9NTQ'IIns /T Z T - SOr 1 # SNIT Ns' NaTZ W\VIVG \VUszns \sao\ : 3 : 30 SIINSZNOO Trane Air Conditioning Economics By: Trane Customer Direct Service Network AIRFLOW - ALTERNATIVE 1 c CAPACITY - ALTERNATIVE 1 ENGINEERING CHECKS - ALTERNATIVE 1 SYSTEM SUMMARY (Design Airflow Quantities) Main Auxil. Room Outside Cooling Heating Return Exhaust Supply Exhaust System System Airflow Airflow Airflow Airflow Airflow Airflow Airflow Number Type (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) 1 VAV 1,468 9,640 0 9,640 9,640 0 0 Totals 1,468 9,640 0 9,640 9,640 0 0 SYSTEM SUMMARY (Design Capacity Quantities) ENGINEERING CHECKS Percent Cooling - -- Heating -- em Main/ System Outside Cfm/ Cfm/ Sq'Ft Btuh/ Cfm/ Btuh / Floor Area 1r Auxiliary Type Air Sq Ft Ton /Ton Sq Ft Sq Ft Sq Ft Sq Ft a,... 1 Main VAV 15.23 1.31 331,0 252.0 47.62 0.00 -9.32 7;340 V 600 PAGE 2 Cooling Heating Main Sys. Aux. Sys: Opt. Vent Cooling Main Sys. Aux. Sys. Preheat Reheat Humidif. Opt. Vent Heating System System Capacity Capacity Capacity Totals Capacity Capacity Capacity Capacity Capacity Capacity Totals Number Type (Tons) (Tons) (Tons) (Tons) (Btuh) (Btuh) (Btuh) (Btuh) (Btuh) (Btuh) . (Btuh) 1 VAV 29.1 0.0 0.0 29.1 - 18,269 0 - 50,125 0 0 0 - 68,394 Totals 29.1 0.0 0.0 29.1 - 18,269 0 - 50,125 0 0 0 - 68,394 The building peaked at hour 14 month 7 with a capacity of 29.1 tons Trane Air Conditioning Economics By: Trane Customer Direct Service Network System 1 i at Time =_> !e Air =_> Envelope Loads Skylite Solr Skylite Cond Roof Cond Glass Solar Glass Cond Wall Cond Partition Exposed Floor Infiltration Sub Total ==> Internal Loads Lights People Misc Sub Total==> Ceiling Load Outside Air Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup OV /UNDR Sizing Exhaust Heat Terminal Bypass te , lg A ._ ;:1 g Opt Vent Totals Main Htg Aux Htg Preheat Reheat Humidif Opt Vent Total Total (Tons) 29.1 0,0 0.0 29.1 Block VAV - VARIABLE Space Sens. +Lat. (Btuh) 10.74 38,16 48,91 36.73 52,11 81,86 170,71 6,89 HEATING COIL SELEC ION Grand Total ==> 226,529 0 Capacity (Mbh) 349.5 0.0 0,0 349.5 COOLING COIL PEAK Mo /Hr: 7/14 OADB /WB /HR: 84/ 69/ 83.1 Ret, Air Sensible (Btuh) 0 0 12,667 0 0 0 12,667 12,244 24,000 36,244 -6,898 0 0 - 10,551 -4,785 0 26,677 Capacity Coil. Air 1 Ent (Mbh) (cfm) Deg F -18,3 0.0 0.0 0.0 -50.1 1,46 20.0 -0.0 0.0 0.0 0.0 0.0 0.0 -68.4 AIR VOLUME COOLING COIL SELECTION Lvg Type Deg F Vent 0.0 Infil 0.0 Supply 51.1 Mincfm 0.0 Return 0.0 Exhaust 0.0 Rm Exh Auxil Ret. Air Net Percnt * Latent Total Of Tot * (Btuh) (Btuh) (R) * 0 0.00 * 0 0.00 12,667 3.62 * 0 0.00 * 0 0.00 • 0 0.00 * 10,749 3.08 38,168 10.92 * 0 0,00 61.584 17.62 * * 48,976 14.01 52,114 14.91 * 0 105,868 30.29 * 0 206,958 59.21 0 0.00 0 44,338 12.69 * 41.422 11.85 * 0 0.00 * 0 0.00 * 0 0.00 * 0 -4,785 -1.37 * 0 0 -0.00 * * 0 349,516 100.00 * Sens Cap. Coil Airfl Entering DB /WB /HR (Mbh) (cfm) Deg F Deg F Grains 294.3 9,602 79.0 62.3 58.8 0.0 0 0.0 0.0 0.0 0.0 0 0.0 0.0 0.0 Space Sensible (Btuh) AIRFLOWS (cfm) Cooling Heating 1,468 0 0 0 9,640 0 0 0 9,640 0 1,468 0 0 0 0 0 CLG SPACE PEAK Mo /Hr: 7/17 OADB: 83 10.74 38.16 48,91 36,73 26,05 81,86 144.65 7,69 0 201,264 * Percnt * Of Tot * (%) * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * 5.34 * 18.96 * 0,00 * 24.31 * * 18.25 * 12.95 * 40.68 * 71.87 * 3.82 * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * * 100.00 * Leaving DB /WB /HR Deg F Deg F Grains 51.1 49.4 50.4 0.0 0.0 0.0 0.0 0.0 0.0 -- ENGINEERING Clg % OA Clg Cfm/Sqft Clg Cfm /Ton Clg Sqft /Ton Clg Btuh /Sqft No. People Htg % OA Htg Cfm/SqFt Htg Btuh /SqFt HEATING COIL PEAK Mo /Hr: 13/ 1 OADB: 20 Space Peak Space Sens (Btuh) -18,26 0 Coil Peak Tot Sens (Btuh) -18,26 -18.26 - 18,269 -18,26 V 600 PAGE 3 Percnt Of Tot (%) 0.00 0.00 100.00 0.00 0.00 0.00 0.00 0.00 0.00 100.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 100.00 AREAS Gross Total Glass (sf) (%) Floor 7.340 Part 6.812 ExF1r 7.340 Roof 7,340 0 0 Wall 0 0 0 CHECKS -- -- TEMPERATURES (F) - -- 15.2 Type Clg Htg 1.31 SADB 56.0 68.1 330.98 Plenum 78,0 60.1 252.01 Return 78.0 60.1 47.62 Ret /OA 79.0 20.0 73 Runarnd 75.0 68.0 0.0 Fn MtrTD 0.6 0.6 0.00 Fn B1dTD 1.3 1.3 -9.32 Fn Frict 2.0 2.0 Trane Air Conditioning Economics By: Irene Customer Direct Service Network MAIN SYSTEM COOLING - ALTERNATIVE 1 Peak Time Room Mo /Hr Number Description 1 GENERAL OFFICE 7/17 Zone 1 Total /Ave. Zone 1 Block 7/17 System 1 Total /Ave. System 1 Block 7/17 COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block OA Rm Supp. Cond. Dry Dry DB /WB Blb Bulb (F) (F) (F) 83 65 83 65 83 65 83 65 83 65 Lights Room Sensible (Btuh) 75 75 75 75 75 56.0 56.0 56.0 56.0 56.0 Lights Ret. Air Lites Sensible CLF (Btuh) PEAK COOLING LOADS (Main System) Space Space Space Air Sens. Flow Load (Cfm) (Btuh) 9,640 201,264 9,640 201,264 9,640 201,264 9,640 201,264 9,640 201,264 Space Peak OA Rm Supp. Lat. Time Cond. Dry Dry Load Mo /Hr DB /WB Blb Bulb (Btuh) (F) (F) (F) 26,057 26.057 26,057 26,057 26,057 7/14 7/14 7/14 INTERNAL COOLING LOADS (At time of Coil Peak) 84 69 75 56.0 84 69 75 56.0 84 69 75 56.0 84 69 75 56.0 84 69 75 56.0 Misc, Misc. People People Peopl Space Space Sensible Latent CLF Sensible Latent (Btuh) (Btuh) (Btuh) (Btuh) 36,732 12,244 1,000 26,057 26,057 1.000 81,868 0 36,732 12,244 1.000 26,057 26,057 1.000 81,868 0 36,732 12,244 1.000 26,057 26,057 1.000 81,868 0 36,732 12,244 1.000 26,057 26,057 1.000 81,868 0 36,732 12,244 1.000 26,057 26,057 1.000 81,868 0 V 600 PAGE 4 Coil Coil Coil Coil Air Sens. Lat. Flow Load Load (Cfm) (Btuh) (Btuh) 9,602 294.347 55,169 9,602 294,347 55,169 9,602 294,347 55,169 9,602 294,347 55,169 9,602 294,347 55,169 Misc. Ret. Air Misc. Sensible CLF (Btuh) 24,000 1.000 24,000 1.000 24,000 1.000 24,000 1.000 24,000 1.000 Total (Btuh) 206.958 206,958 206,958 206,958 206,958 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT SPACE PEAK - ALTERNATIVE 1 r� Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 ..Block System 1 Total /Ave. System 1 Block Lights Room Sensible (Btuh) 36,732 36,732 36,732 36,732 36,732 INTERNAL COOLING LOADS (At time of Space Peak) Lights Ret. Air Lites Sensible CLF (Btuh) 12,244 1.000 12,244 1.000 12,244 1.000 12,244 1.000 12,244 1.000 Misc. People People Peopl Space Sensible Latent CLF Sensible (8tuh) (Btuh) (Btuh) 26,057 26,057 1.000 81,868 26,057 26,057 1.000 81,868 26,057 26,057 1.000 - 81,868 26,057 26,057 1.000 81,868 26,057 26,057 1.000 81,868 V 600 PAGE 5 Misc. Misc. Space Ret. Air Misc. Latent Sensible CLF Total (Btuh) (Btuh) (Btuh) 0 24,000 1.000 206,958 0 24,000 1.000 206,958 0 24,000 1.000 206,958 0 24,000 1.000 206,958 0 24,000 1.000 206,958 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 r Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block n Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block Roof Return Air Sensible Load (Btuh) BUILDING ENVELOPE COOLING LOADS (Wall - Window) (At time of Coil Peak) Wall Wall Wall Wall Glass Glass Glass Glass Glass Glass Glass Plenum Plenm Space Space Space Return Air Solar Space Space Return Air R.A. Load CLTD Load CLTO Solar Solar CLF Conduction CLTD Conduction CLTD (Btuh) (F) (Btuh) (F) (Btuh) (Btuh) (Btuh) (F) (Btuh) (F) 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0• 0 0 0.000 0 0.0 0 0.0 0 0,0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0,0 0 0.0 0 0 0.000 0 0.0 0 0.0 12,667 27.8 12,667 27.8 12.667 27.8 12,667 27.8 12,667 27.8 38,168 38,168 38,168 38,168 38,168 BUILDING ENVEL (Roof (At time Roof Roof Space Roof R.A. Sensible Space CLTD Load CLTD (F) (Btuh) (F) BUILDING EN (Exposed Floor (At Exposed Expsd floor Floor Sensible CLTD (Btuh) (F) Partition Sensible (Btuh) 20.0 10,749 20.0 10.749 20,0 10,749 20,0 10.749 20.0 10,749 0 30.8 0 30.8 0 30.8 0 30.8 0 30.8 VELOPE - Partitions time of Coil Part. CLTD (F) 20.0 20.0 20.0 20.0 20.0 OPE COOLING LOADS - Skylight) of Coil Peak) Skylight Skylight Return Air Space Solar Solar (Btuh) (Btuh) COOLING LOADS - Infiltration) Peak) Infilt. Airflow (Cfm) 0 0 0 .0 0 0 0 0 0 0 Infilt. Sensible (Btuh) 0 0 0 0 0 V 600 PAGE 6 Skylight Skylight Skylt Return Air Skylt Space Skylt Solar Conduction R.A. Conduction Space CLF Load CLTD Load CLTD (Btuh) (F) (Btuh) (F) 0 0.000 0 0.0 0 0.0 0 0.000 0 0,0 0 0.0 0 0.000 0 0.0 0 0.0 0 0,000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 Infilt. Latent (Btuh) 0 0 0 0 0 Plenm Dry B Temp. (F) 78,0 78.0 78,0 78.0 78.0 Ceiling Sensible Envelope Load Total (Btuh) (Btuh) 6.898 68,482 6.898 68.482 6,898 68,482 6,898 68,482 6,898 68,482 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT SPACE PEAK - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave, Zone 1 Block System 1 Total /Ave. System 1 Block Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave, Zone 1 Block System 1 Total /Ave. System 1 Block Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block Roof Return Air Sensible Load (Btuh) 38,168 38,168 38,168 38,168 38,168 BUILDING ENVELOPE COOLING LOADS (Roof - Skylight) (At time of Space Peak) Roof Roof Space Roof Skylight R.A. Sensible Space Return Air CLTD Load CLTD Solar (F) (Btuh) (F) (Btuh) 17,063 37.5 17,063 37.5 17.063 37.5 17,063 37.5 17,063 37.5 BUILDING E Wall Wall Plenum Plenm Load CLTD (Btuh) (F) (At Wall Space Load (Btuh) 0 0,0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 BUILDING EN (Exposed Floor (At time of Exposed Expsd Floor Floor Sensible CLTD (Btuh) (F) 20.0 20,0 20.0 20.0 20.0 10.749 10,749 10.749 10,749 10,749 40.8 0 0 0.000 0 0.0 0 0.0 40.8 0 0 0.000 0 0.0 0 0.0 40.8 0 0 0.000 0 0.0 0 0.0 40.8 0 0 0.000 0 0.0 0 0.0 40.8 0 0 0.000 0 0.0 0 0.0 VELOPE COOLING LOADS (Wall - Window) time of Space Peak) Wall Space CLTD (F) VELOPE COOLING LOADS - Partitions - infiltration) Space Peak) Partition Part. Infilt. Infilt. Sensible CLTD Airflow Sensible (Btuh) (F) (Cfm) (Btuh) 20.0 20.0 20.0 20.0 20.0 Glass Glass Space Return Air Solar Solar (8tuh) (Btuh) 0 0 0 0 0 Skylight Skylight Skylight Skylt Return Air Skylt Space Skylt Space Solar Conduction R.A. Conduction Space Solar CLF Load CLTD Load CLTD (Btuh) (Btuh) (F) (Btuh) (F) 0 0 0 0 Infilt. Latent (Btuh) Plenm Ceiling Dry B. Sensible Temp. Load (F) (Btuh) 0 78.3 0 78.3 0 78,3 0 78,3 0 78.3 7,690 7,690 7,690 7,690 7,690 V 600 PAGE 7 Glass Glass Glass Glass Glass Solar Space Space Return Air R.A. CLF Conduction CLTD Conduction CLTD (Btuh) (F) (Btuh) (F) Envelope Total (Btuh) 73,670 73,670 73,670 73,670 73,670 Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT COIL PEAK - ALTERNATIVE 1 Room Number 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block BUILDING ENVELOPE HEATING LOADS (Roof - Skylight) (At time of Coil Peak) Roof Roof Skylight Skylight Return Air Roof Space Roof Skylight Skylight Skylt Return Air Skylt Space Skylt Sensible R.A. Sensible Space Return Air Space Solar Conduction R.A. Conduction Space Load CLTD Load CLTD Solar Solar CLF Load CLTO Load CLTD Description (Btuh) (F) (Btuh) (F) (Btuh) (Btuh) (Btuh) (F) (Btuh) (F) - 18,269 -40.1 - 18,269 -40.1 - 18,269 -40.1 - 18.269 -40.1 - 18.269 -40.1 V 600 PAGE 8 -48.0 0 0 0,000 0 0.0 0 0.0 -48.0 0 0 0.000 0 0.0 0 0.0 -48.0 0 0 0.000 0 0.0 0 0.0 -48.0 0. 0 0.000 0 0.0 0 0.0 -48.0 0 0 0.000 0 0.0 0 0.0 BUILDING E VELOPE HEATING LOADS (Wall - Window) (At time of Coil Peak) Wall Wall Wall Wall Glass Glass Glass Glass Glass Glass Glass Plenum Plenm Space Space Space Return Air Solar Space Space Return Air R.A. Room Load CLTD Load CLTD Solar Solar CLF Conduction CLTO Conduction CLTD Number Description (Btuh) (F) (Btuh) (F) (Btuh) (Btuh) (Btuh) (F) (Btuh) (F) 1 GENERAL OFFICE 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 Zone 1 Total /Ave. 0 0.0 0 0.0 0 0 0,000 0 0.0 0 0.0 Zone 1 Block 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 System 1 Total /Ave. 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 System 1 Block 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 BUILDING ENVELOPE HEATING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Coil Peak) Exposed Expsd Plenm Ceiling Floor Floor Partition Part. Infilt. Infilt. Infilt. Dry 8 Sensible Envelope Sensible CLTD Sensible CLTD Airflow Sensible Latent Temp: Load Total Number Description (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) (Btuh) 1 GENERAL OFFICE 0 0.0 0 0.0 0 0 0 60.1 - 18,269 - 36,538 Zone 1 Total /Ave. 0 0.0 0 0.0 0 0 0 60.1 - 18.269 - 36,538 Zone 1 Block 0 0.0 0 0.0 0 0 0 60.1 - 18,269 - 36,538 System 1 Total /Ave. 0 0.0 0 0,0 0 0 0 60.1 - 18,269 - 36,538 System 1 Block 0 0.0 0 0,0 0 0 0 . 60.1 -18,269 - 36,538 Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT SPACE PEAK - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total/Ave. System 1 Block Roof Return Air Sensible Load (Btuh) - 18.269 - 18,269 - 18.269 - 18.269 - 18,269 BUILDING ENVEL (Roof (At time Roof Roof Space Roof R.A. Sensible Space CLTD Load CLTD (F) (Btuh) (F) -40.1 -40.1 -40.1 -40,1 -40.1 -48.0 -48.0 -48.0 -48.0 -48.0 OPE HEATING LOADS - Skylight) of Space Peak) Skylight Skylight Return Air Space Solar Solar (Btuh) (Btuh) 0 0 0 0 0 BUILDING E VELOPE HEATING LOADS (Wall - Window) (At time of Space Peak) V 600 PAGE 9 Skylight Skylight Skylt Return Air Skylt Space Skylt Solar Conduction R.A. Conduction Space CLF Load CLTD Load CLTD (Btuh) (F) (Btuh) (F) 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 Wall Wall Wall Wall Glass Glass Glass Glass Glass Glass Glass Plenum Plenm Space Space Space Return Air Solar Space Space Return Air R.A. Load CLTD Load CLTD Solar Solar CLF Conduction CLTD Conduction CLTD (Btuh) (F) (Btuh) (F) (Btuh) (Btuh) (Btuh) (F) (Btuh) (F) 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 0 0.0 0 0.0 0 0 0.000 0 0.0 0 0.0 BUILDING ENVELOPE HEATING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Space Peak) Exposed Expsd Plenm Ceiling Floor Floor Partition Part. Infilt. Infilt. Infilt. Dry B Sensible Sensible CLTD Sensible CLTD Airflow Sensible Latent Temp. Load (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) 0 0,0 0 0.0 0 0 0 60,1 - 18,269 0 0.0 0 0,0 0 0 0 60.1 - 18,269 0 0.0 0 0,0 0 0 0 60,1 - 18,269 0 0,0 0 0,0 0 0 0 60.1 - 18,269 0 0,0 0 0.0 0 0 0 60,1 - 18,269 Envelope Total (Btuh) -36,538 - 36,538 - 36,538 - 36,538 - 36,538 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 Room Number 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block COOLING AIRFLOW HEAT GAIN /LOSS - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block System 1 Total /Ave. System 1 Block AIRFLOW COOLING LOADS (At time of Coil Peak) Ventilation Optional Ventilation Bypass Ov /Undr Airflow Sensible Latent Airflow Sensible Latent Airflow Sensible Latent Sizing Description, (Cfm) (Btuh) (Btuh) (Cfm) (Btuh) (Btuh) (Cfm) (Btuh) (Btuh) (Btuh) 1,468 15.226 29.112 0 0 0 0 0 0 0 1,468 15,226 29.112 0 0 0 0 0 0 0 1,468 15,226 29,112 0 0 0 0 0 0 0 1.468 15,226 29,112 0 0 0 0 0 0 0 1,468 15.226 29.112 0 0 0 0 0 0 0 AIRFLOW HEAT GAIN AND LOSS (At time of Coil Peak) Duct Supply Return System Heat Fan Fan Exhaust Pickup Heat Heat Heat Loss (Btuh) (Btuh) (Btuh) (Btuh) 10,551 41,422 0 -4,785 10,551 41,422 0 -4,785 10,551 41,422 0 - 4,785 10,551 41,422 0 -4,785 10.551 41,422 0 -4,785 Cooling System Room Run Exhaust Exhaust Ducted Plenum Around Total Airflow Airflow Airflow Airflow Airflow (Btuh) (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) 47,188 1.468 47,188 1,468 47,188 1,468 47,188 1,468 47,188 1,468 0 0 0 0 0 0 0 0 0 9,602 9,602 9,602 9,602 9,602 Corridr Airflow (Cfm) V 600 PAGE 10 System Return Airflow (Cfm) 0 0 9,602 0 0 9,602 0 0 9.602 0 0 9,602 0 0 9,602 Trane Air Conditioning Economics By: Trane Customer Direct Service Network SYSTEM PSYCHROMETRICS - ALTERNATIVE 1 Dry Wet Relat. Humid. Temp. Bulb Bulb Humid. Ratio Enthalpy Diff. (F) (F) ( %) (GR) (Btu /Lb) (F) Space 75.0 60.0 41.4 54.4 26.5 Main System Return Air Heat Pickup Return Fan 0.0 Return Air 78.3 61.2 37.1 54,4 27.3 Outdoor Air 84.4 69.0 46.1 83.1 33.3 Return /Outdoor Air Mix 79.2 62.4 38.8 58.8 28.2 Blow through Fan Entering Coil 79.2. 62.4 38.8 58.8 28.2 Leaving Coil 51,1 49.5 89.9 50.9 20.1 Draw Through Fan 1.9 Duct Frictional Heat 2.0 Supply Duct Heat Gain 1,0 Cold Deck Supply Air 56.0 51.6 75.1 50.9 21.3 Supply Air 56.0 51.6 75.1 50,9 21.3 Percent Outside Air 15.23 ( %) Sensible Heat Ratio (SHR) 0.885 Percent Supply Air Bypassing Coil 0.00 ( %) Coil Airflow 9,640 (Cfm) BUILDING U- VALUES - ALTERNATIVE 1 1 PSYCHROMETRIC STATE POINTS BUILDING U- VALUES Room U- Values Room Room (Btu /hr /sqft /F) Mass Capac. Room Sunmr Wintr Summr Wintr (lb/ (Btu / Number Description Part. ExF1r Skylt Skylt Roof Windo Windo Wall Cell, sqft) sgft /F) 1 GENERAL OFFICE 0.079 0.260 0.000 0.000 0,062 0.000 0.000 0.000 0.317 141.1 .29.12 Zone 1 Total /Ave. 0.079 0.260 0,000 0.000 0.062 0.000 0.000 0.000 0.317 141.1 29.12 System 1 Total /Ave. 0.079 0.260. 0,000 0.000 0.062 0.000 0.000 .0.000 .0.317 141,1 29.12 Building . 0,079 0,260 0.000 0.000 0.062 0.000. 0.000 0.000 0.317 .141.1 29.12 V 600 PAGE 11 Trane Air Conditioning Economics By: Irene Customer Direct Service Network BUILDING AREAS - ALTERNATIVE 1 (7 BUILDING AREAS V 600 PAGE 12 Floor Total Exposed Number of Area /Oupl Floor Partition Floor Skylight Sk) Net Roof Window Win Net Wall Room Duplicate Room Area Area Area Area /Rf Area Area /W1 Area Number Description Fir Rm (sqft) (sqft) (sqft) (sqft) (sqft) (%) (sqft) (sqft) (%) (sqft) 1 GENERAL OFFICE 1 1 7,340 7,340 6,812 . 7,340 0 0 7,340 0 0 0 Zone 1 Total /Ave. 7,340 6,812 7,340 0 0 7.340 0, 0 0 System 1 Total /Ave. 7,340 6,812 7,340 0 0 7.340 0 0 0 Building 7,340 6,812 7,340 0 0 7,340 0 0 0 rane Air Conditioning Economics By: Trane Customer Direct Service Network * * TRACE 600 ANALYSIS by ** BUILDING LOAD CALCULATIONS FOR: AHU AH2J7A (CENTRAL UNIT) 9 -101 BLDG EEIP PROJECT, PHASE 2 -0 BOEING MILITARY AIRPLANES FIG. BY: A.KILLIP - 4 -22 -92 Weather File Code: SEATTLE. Location: - SEATTLE WEATHER Latitude: 47.0 (deg) Longitude: 122.0 (deg) Time Zone: 8 Elevation: 386 (ft) Barometric Pressure: 29.5 (in. Hg) Summer Clearness Number: Winter Clearness Number: Summer Design Dry Bulb: Sumner Design Wet Bulb: Winter Design Dry Bulb: Summer Ground Relectance: Winter Ground Relectance: Air Density: Air Specific Heat: Density- Specific Heat Prod: Latent Heat Factor: Enthalpy Factor: Design Simulation Period: System Simulation Period: Cooling Load Methodology: Time /Date Program was Run : Dataset Name: 0.95 0,95 85 (F) 68 (F) 20 (F) 0,20 0.20 0.0749 0.2444 1.0988 4,836.9 4.4953 DATA (Lbm/cuft) (Btu /lbm /F) (Btu- min. /hr /tuft /F) (Btu- min. /hr /cuft) (Lb- min. /hr /cuft) July To July January To December CLTD /CLF (Transfer Function Method) 11: 6:12 .6/22/92 AH2J7A .TM ** V 60 PAGE 1 Mvua /) oo'a ///o9//////s8/98/t/L6 tZ oot / /sznqs- 2�a /T /�v cc 96/08/99/99/t/£b Z£ WA NS' Id /2iIVZS2i /T /SIWO /1�rlddns / / / / /9' t /9' b /T /z6 T £' Z /t /t /tt' o£ xavo1 /wA / /o 6Z 06Z / / /t�Z %Z£ 9Z 9zL8 / / /t /t /Z£ 9Z 89/96/1 KSSNOO /911 /09Z' / / / /T /W /Z£ vz 0 / /0 /d- 1430 /0z /d- W30 /OZ/ /6Z £Z S�LSVM /099t/W21 3N00 /t /Z /8Z ZZ 0 /OOt /o /OOT / / /HnIa /OOOvzisua 03SN'd2is/z/ tZ SNSyidln SDIdaO /t /t /8Z OZ o /o /oot /oot / / /3s -ss�d /s9z•£ /2iaLS /t /W /sz 61 9Z/ 9t' t ZSVUHSv aS- ZyvM /L't / 99£ /99£ /S2iSd- 3S /0ot /N /LZ 81 sa / t /z /zz LT SSA/, 91 L' / / /9t /z90 / / /sax / t/ /zz 9T T / O6Z /W0021 aNN00 /Z /Z /oZ VT T /9ZL /98L / / L / / / / /W /0Z ZT T /6T TT oN / /7VnIOVIVILLOV //as�in/3'I0 sz0 /0T 01 'Inr /'Inr /6o 8 z'/ Z ' / /oz /89 /9s /96' /96' /S'isamas /so L Z6 -ZZ -V - dITIIx'V :AS '0I3 / t0 9. SSNtt'Id2tIY AHVII'IIW DNISOH /TO a -z SSv-(d 'Z0 r02id dISS Oa'I9 101-6 /10 SINn 'flf JNao) VL2ZHV EHV /tO E :2103 SNOISK"InO'IVO av0'I ONIa'IIn9 /t o Z T - SO2 # 3NI'I WZ' vLrzHv\vZKa \v2is'Ins\ sa0\ : S : 30 SSNSZN00 Trane Air Conditioning Economics By: Trane Customer Direct Service Network AIRFLOW - ALTERNATIVE 1 System System Number Type 1 VAV Totals CAPACITY - ALTERNATIVE 1 System System Number Type 1 VAV Totals ENGINEERING CHECKS - ALTERNATIVE 1 Main/ Auxiliary SYSTEM SUMMARY (Design Airflow Quantities) Main Auxil. Room Outside Cooling Heating Return Exhaust Supply Exhaust Airflow Airflow Airflow Airflow Airflow Airflow Airflow (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) (Cfm) 1,803 11,301 0 11,301 11,301 0 0 1.803 11,301 0 11,301 11.301 0 0 33.4 0.0 33.4 0.0 System Type VAV Cooling Main Sys. Aux. Sys. Opt. Vent Capacity Capacity Capacity (Tons) (Tons) (Tons) Percent Outside Air 15.95 0.0 0.0 Cfm/ Sq Ft Cooling Totals (Tons) The building peaked at hour SYSTEM SUMMARY (Design Capacity Quantities) 33.4 33.4 ENGINEERING CHECKS 1.25 338.4 Cooling Cfm/ Sq Ft Ton /Ton Main Sys. Capacity (Btuh) - 22,490 - 22,490 Aux. Sys. Capacity (Btuh) Preheat Capacity (Btuh) 0 - 62,978 0 . - 62.978 14 month 7 with a capacity of 33.4 tons V 600 PAGE 2 Heating Reheat Humidif. Opt. Vent Heating Capacity Capacity Capacity Totals (Btuh) (Btuh) (Btuh) (Btuh) Heating - - -- Btuh/ Cfm/ Btuh/ Floor Area Sq Ft Sq Ft Sq Ft Sq Ft 270.0 44.45 0.00 -9.48 9,015. 0 0 0 - 85,468 0 0 0 - 85,468 Trane Air Conditioning Economics By: Trane Customer Direct Service Network System 1 ld at Time *_> ide Air ■ ■> Envelope Loads Skylite Solr Skylite Cond Roof Cond Glass Solar Glass Cond Wall Cond Partition Exposed Floor 46,87 Infiltration . Sub Total==> 46,87 15,864 Internal Loads Lights People Misc Sub Total ■ => Ceiling Load Outside Air Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup OV /UNDR Sizing Exhaust Heat Terminal Bypass Space Sens. +Lat. (Btuh) 0 Grand Total = => 266,741 I 1 g Aux Clg Opt Vent Totals Total Capacity (Tons) (Mbh) 33.4 400.7 0.0 0.0 0.0 0.0 33.4 400.7 Block VAV - VARIABLE 45,11 15,038 64,007 102,981 24,000 212,102 39.038 7,761 -7,761 0 0 HEATING COIL SELECTION COOLING COIL PEAK Mo /Hr: 7/14 OADB/W8/HR: 84/ 69/ 83.1 Ret. Air Sensible (Btuh) 0 0 15,864 0 0 0 0 - 12,355 -5,383 0 Capacity Coil Airfl Ent (Mbh) (cfm) Deg F Main Htg -22.5 0 0.0 Aux Htg 0.0 0 0.0 Preheat -63.0 1,803 20.0 Reheat -0.0 0 0.0 Humidif 0.0 0 0.0 Opt Vent 0.0 0 0.0 Total -85.5 Ret. Air Latent (Btuh) AIR VOLUME 46,87 62.74 60.15 64,00 0 126,98 0 251,14 0 52,54 39,68 0 -5,38 0 COOLING COIL SELECTION Net Percnt Total Of Tot (Btuh) (%) 0.00 0.00 15,86 3.96 0.00 0.00 0.00 0.00 11,70 0.00 15.66 29.403 0 400,723 100.00 * * Sens Cap. Coil Airfl Entering DB /WB /HR (Mbh) (cfm) Deg F Deg F Grains 334.9 11,244 78.8 62.6 60.3 0.0 0 0.0 0.0 0.0 0,0 0 0.0 0.0 0.0 Lvg Type Deg F Vent 0.0 lnfil 0.0 Supply 51.8 Mincfm 0.0 Return 0.0 Exhaust 0.0 Rm Exh Auxil * * * * * 46,87 * * 46,87 * 15.01 * 45,11 15.97 * 32,00 31.69 62.67 0.00 13.11 9.90 0.00 0.00 0.00 -1.34 -0.00 AIRFLOWS (cfm) Cooling Heating 1,803 0 11.301 0 11,301 1,803 0 0 CLG SPACE PEAK * Mo /Hr: 7/17 * OADB: 83 * * Space * Sensible * (Btuh) * * * * 102,981 * 180,099 * 8,967 * 0 * * * * 0 * * 235,944 * Percnt * Of Tot * (%) * 0.00 * 0.00 * 0.00 * 0,00 * 0.00 0.00 * 0.00 * 19.87 * 0.00 * 19.87 * * 19.12 * 13.56 * 43.65 * 76.33 * 3.80 * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * 0.00 * * * 100.00 Leaving DB /WB /HR Deg F Deg F Grains 51.8 50.0 51.6 0.0 0.0 0.0 0.0 0.0 0.0 Space Peak Space Sens (Btuh) HEATING COIL PEAK Mo /Hr: 13/ 1 OADB: 20 -22,43 -- ENGINEERING CHECKS- - Clg % OA 16.0 Clg Cfm /Sqft 1.25 Clg Cfm /Ton 338.43 Clg Sqft/Ton 269.96 Clg Btuh /Sqft 44.45 No. People 90 Htg % OA 0.0 Htg Cfm /SqFt 0.00 Htg Btuh /SqFt -9.48 0 Coil Peak Tot Sens (Btuh) AREAS -22,49 -22,49 - 22,438 -22,49 Gross Total Glass (sf) Floor 9,015 Part 0 ExFlr 9,015 Roof 9,015 Wall 0 V 600 PAGE 3 Percnt Of Tot (%) 0.00 0.00 100.00 0.00 0.00 0.00 0.00 0.00 0.00 100,00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 100.00 (%) 0 0 0 0 -- TEMPERATURES (F) - -- Type Clg Htg SADB 56.0 68.1 Plenum 77.7 60.2 Return 77.7 63.0 Ret /OA 78.8 20.0 Runarnd 75.0 68.0 Fn MtrTD 0.5 0.5 Fn B1dTD 1.1 1.1 Fn Frict 1.6 1.6 Trane Air Conditioning Economics By: Trane Customer Direct Service Network MAIN SYSTEM COOLING - ALTERNATIVE 1 Space Coil Peak OA Rm Supp. Space Space Space Peak OA Rm Supp. Coil Coil Coil Time Cond. Dry Dry Air Sens. Lat. Time Cond, Dry Dry Air Sens. Lat. Room Mo /Hr DB /WB Bib Bulb Flow Load Load Mo /Hr DB /WB Blb Bulb Flow Load Load Number Description (F) (F) (F) (Cfm) (8tuh) (Btuh) (F) (F) (F) (Cfm) (Btuh) (Btuh) 1 GENERAL OFFICE. 7/17 83 65 75 56.0 10,825 226.001 30,974 7/14 84 69 75 56.0 10,777 322,004 63,726 Zone 1 Total /Ave. 83 65 75 56.0 10,825 226,001 30,974 84 69 75 56.0 10,777 322,004 63,726 Zone 1 Block 7/17 83 65 75 56.0 10,825 226,001 30.974 7/14 84 69 75 56.0 10,777 322,004 63.726 2 CONF ROOM 7/17 83 65 75 56.0 476 9,943 1.030 7/14 84 69 75 56.0 466 12,874 2.118 Zone 2 Total /Ave. 83 65 75 56.0 476 _ 9,943 1,030 84 69 75 56.0 466 12,874 2,118 Zone 2 Block 7/17 83 65 75 56.0 476 9.943 1.030 7/14 84 69 75 56.0 466 12,874 2,118 System 1 Total /Ave. 83 65 75 56.0 11,301 235.944 32,003 84 .69 75 56.0 11.244 334,879 65,844 System 1 Block 7/17 83 65 75 56.0 11,301 235,944 32,003 7/14 84 69 75 56.0 11.244 334,879 65.844 MAIN SYSTEM HEATING - ALTERNATIVE 1 Room Number PEAK COOLING LOADS (Main System) V 600 PAGE 4 PEAK HEATING LOADS (Main System) Space Coil Peak OA Rm Supp. Space Space Peak OA Rm Supp. Coil Coil Floor Time Cond. Dry Dry Air Sens. Time Cond. Dry Dry Air Sens. Area Mo /Hr 08/W8 Blb Bulb Flow Load Mo /Hr OB /WB Bib Bulb Flow Load Description (Sq Ft) (F) (F) (F) (Cfm) (Btuh) (F) (F) (F) (Cfm) (Btuh) 1 GENERAL OFFICE 8,725 13/ 1 20 18 68 68.1 Zone 1 Total /Ave. 8,725 20 18 68 68.1 Zone 1 Block 8,725 13/ 1 20 18 68 68.1 ,/". 2 CONF ROOM 290 13/ 1 20 18 68 68.1 2 Total /Ave. 290 20 18 68 68.1 2 Block 290 13/ 1 20 18 68 68.1 System 1 Total /Ave. 9,015 - 20 18 68 68.1 System 1 Block 9,015 13/ 1 20 18 68 68.1 - 21,716 13/•1 20 18 68 68.1 0 - 21,716 - 21,716 20 18 68 68.1 0 - 21,716 - 21,716 13/ 1 20 18 68 68.1 0 - 21,716 -722 13/ 1 20 18 68 68.1 0 -774 -722 20 18 68 68,1 0 -774 -722 13/ 1 20 18 68 68,1 0 -774 - 22,438 20 18 68 68.1 0 - 22,490 - 22,438 13/ 1 20 18 68 68.1 0 - 22,490 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 Lights Room Room Sensible Number Description (Btuh) 1 GENERAL OFFICE 43,663 Zone 1 Total /Ave. 43,663 Zone 1 Block 43,663 2 CONF ROOM 1,451 Zone 2 Total /Ave. 1,451 Zone 2 Block 1,451 System 1 Total /Ave. 45,114 System 1 Block 45,114 COOLING LOADS AT SPACE PEAK Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 12 CONF ROOM 2 Total /Ave. 2 Block System 1 Total /Ave. System 1 Block - ALTERNATIVE 1 Lights Room Sensible (Btuh) 43,663 43,663 43,663 1,451 1,451 1,451 45,114 45,114 INTERNAL COOLING LOADS (At time of Coil Peak) Lights Ret. Air Lites Sensible CLF (Btuh) 14,554 1.000 14,554 1.000 14,554 1.000 484 1.000 484 1.000 484 1.000 15,038 1.000. 15,038 1.000 INTERNAL COOLING LOADS (At time of Space Peak) Lights Ret. Air Lites Sensible CLF (Btuh) 14,554 1.000 14,554 1.000 14,554 1.000 484 1.000 484 1.000 484 1.000 15,038 1.000 15,038 1,000 Misc. People People Peopl Space Sensible Latent CLF Sensible (Btuh) (Btuh) (Btuh) 30,974 30,974 1.000 30,974 30.974 1.000 30,974 30.974 1.000 1,030 1.030 1.000 1.030 1,030 1,000 1.030 1,030 1.000 32.003 32.003 1.000 32.003 32.003 1.000 97,316 97,316 97.316 5,666 5,666 5,666 • 102,981 102,981 Misc. People People Peopl Space Sensible Latent CLF Sensible (Btuh) (Btuh) (Btuh) 30,974 30,974 1.000 97,316 30,974 30.974 1.000 97,316 30,974 30,974 1.000 97,316 1,030 1,030 1.000 5,666 1,030 1,030 1.000 5,666 1,030 1,030 1.000 5,666 32.003 32,003 1.000 102,981 32,003 32.003 1.000 102,981 Misc. Space Latent (Btuh) Misc. Space Latent (Btuh) V 600 PAGE 5 Misc. Ret. Air Misc. Sensible CLF Total (Btuh) (Btuh) 24,00 1.000 241,480 24.00 1,000 241,480 24,00 1.000 241.480 1.000 9,660 1.000 9,660 1.000 9,660 24,00 1.000 251.140 24,00 1.000 251,140 Misc. Ret, Air Misc. Sensible CLF Total (Btuh) (Btuh) 24,00 1.000 241,480 24,00 1.000 241,480 24.00 1,000 241,480 1.000 9,660 1.000 9,660 1.000 9,660 24,00 1.000 251.140 24,00 1,000 251,140 Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT COIL PEAK - ALTERNATIVE 1 r Lights Lights Room Ret. Air Room Sensible Sensible Number Description (Btuh) (Btuh) 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block System 1 Total /Ave. System 1 Block HEATING LOADS AT SPACE PEAK - ALTER 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block c CONF ROOM ( 2 Total /Ave. 2 Block Sy 1 Total /Ave. System 1 Block 0. 0 0 0 0 0 0 0. INTERNAL HEATING LOADS (At time of Coil Peak) ATIVE 1 Misc, Misc. Lites People Peopl Space Ret. Air Misc. CLF Sensible CLF Sensible Sensible CLF Total (Btuh) (Btuh) (Btuh) (Btuh) 0.000 0 0.000 0.000 0 0.000 0.000 0 0,000 0.000 0 0.000 0.000 0 0.000 0.000 0 0.000 0.000 0 0.000 0.000 0 0.000 INTERNAL HEATING LOADS (At time of Space Peak) Lights Lights Misc. Misc. Room Ret. Air Lites People Peopl Space Ret. Air Misc. Room Sensible Sensible CLF Sensible • CLF Sensible Sensible CLF Total Number Description (Btuh) (Btuh) (Btuh) (Btuh) (Btuh) (Btuh) 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0 0 0.000 0 0 0.000 0 0 0.000 0 0 0.000 0 0 0.000 0 0 0,000 0 0 0.000 0 0 0.000 0.000 0 0,000 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 V 600 PAGE 6 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 1 : ) BUILDING ENVELOPE COOLING LOADS (Roof - Skylight) (At time of Coil Peak) Roof Roof Skylight Skylight Return Air Roof Space Roof Skylight Skylight Return Air Skylt Space Skylt Sensible R.A. Sensible Space Return Air Space Conduction R.A. Conduction Space Room Load CLTD Load CLTD Solar Solar Load CLTD Load CLTD Number Description (Btuh) (F) (Btuh) (F) (Btuh) (Btuh) (Btuh) (F) (Btuh) (F) 1 GENERAL OFFICE 15.320 28.3 Zone 1 Total /Ave. 15.320 28.3 Zone 1 Block 15,320 28.3 2 CONF ROOM • 544 30.2 Zone. 2 Total /Ave. 544 30.2 Zone 2 Block 544 30.2 System ' 1 Total /Ave. 15,864 28.4 System 1 Block 15,864 28.4 BUILDING E (At 31.1 31.1 31.1 31.1 31.1 31.1 31.1 31.1 Wall Wall Wall Wall Plenum Plenm Space Space Room Load CLTD Load CLTD Number Description. (Btuh) (F) (Btuh) (F) 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block , - ^ . em 1 Total /Ave. m 1 Block 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Exposed Expsd Floor Floor Partition Part. lnfilt. Infilt. Room Sensible CLTO Sensible CLTD Airflow Sensible Number Description (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) 1 GENERAL OFFICE 45,370 20.0 Zone 1 Total /Ave. 45,370 20.0 Zone 1 Block 45,370 20.0 2 CONF ROOM 1,508 20.0 Zone 2 Total /Ave. 1.508 20.0 Zone 2 Block 1,508 20,0 System 1 Total /Ave. 46,878 20.0 System •1 Block 46.878 20.0 VELOPE COOLING (Wall - Window) time of Coil Peak) 0 0.0 0 0.0 0 0.0 0 0.0 0 0.0 0 0.0 0 0.0 0 0.0 BUILDING ENVELOPE COOLING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Coil Peak) 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0,0 Skylt Solar CLF 0.000 0.000 0.000 0.000 0,000 0.000 0.000 0.000 LOADS Glass Glass Glass Glass Glass Glass Glass Space Return Air Solar Space Space Return Air R.A. Solar Solar CLF Conduction CLTD Conduction CLTD (Btuh) (8tuh) (Btuh) (F) (Btuh) (F) 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 V 600 PAGE 7 0.0 0.0 0,0 0.0 0.0 0,0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Plenm Ceiling Infilt. Dry 8 Sensible Envelope Latent Temp. Load Total (Btuh) (F) (Btuh) (Btuh) 0 77.8 7,683 68,373 • 0 77,8 7.683 68.373 0 77,8 7,683 68,373 0 75.9 78 2.130 0 75.9 78 2,130 0 75.9 78 2,130 0 77.7 7,761 70,503 0 77,7 7,761 70,503 Trane Air Conditioning Economics By: Trane Customer Direct Service Network COOLING LOADS AT SPACE PEAK - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total/Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total/Ave. Zone 2 Block System \ Total/Ave. System \ Block Room Number Description \ Zone Zone 2 Zone Zone t GENERAL OFFICE 1 Total/Ave. I Block CONF ROOM 2 Total/Ave. 2 Block 1 Total/Ave. \ Block Room Number Description 1 GENERAL OFFICE Zone I Total/Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total/Ave. Zone 2 Block System I Total/Ave. System 1 Block BUILDING ENVELOPE COOLING LOADS (Roof (At time Roof Roof Return Air Roof Space Roof Sensible R.A. Sensible Space Load CLTD Load CLTD (Btuh) (F) (Btuh) (F) 20.643 38.2 20.643 38.3 20.648 38.2 686 38.2 686 38.2 686 38.2 21.329 38.2 21,329 38.2 BUILDING E Wall Wall Plenum Plenm Load CLTD (Btuh) (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Exposed Expsd Fluor Floor Sensible CLTD (Btuh) (F) 46.370 20.0 45,370 30.0 45.370 20.0 1.508 20.0 1,508 20.0 1,508 20.0 *0.870 20.0 46,878 20.0 (At 41.3 41.3 41.3 41.3 41.3 41.3 @.3 41.3 Wall Nall Space Space Load CLTD (Btuh) (F) Partition Sensible (Btuh) VELOPE COOLING LOADS (Wall - Window) time of Space Peak) 0 0.0 O 0.0 0 0.0 0 0.0 0 0.0 0 0.0 0 0.0 0 0.0 Part. CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Glass Glass Space Return Air Solar Solar (Btuh) (Btuh) InfOt. lnfilt. Airflow Sensible (Cfm) (Btuh) - Skylight) of Space Peak) Skylight Skylight Skylt Return Air Space Solar Solar Solar CLF (Btuh) (Btuh) 0.000 0.000 0.000 0.000 0.000 0,000 0.000 0.000 Glass Solar CLF 0 0,000 0 0.000 0 0.000 V 0.000 0 0.000 0 0.000 0 0.000 0 0.000 BUILDING ENVELOPE CVVLING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Space Peak) Skylight Return Air Conduction Load (Btuh) Glass Space Conduction (Btuh) Skylt R.A. CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Skylight Space Conduction Load (Btuh) V 800 PAGE 8 Skylt Space CLTD (F) Glass Glass Glass Space Return Air V.A. CLTD Conduction CLTD (F) (Btuh) (F) 0.0 0 0.0 0.0 0 ' 0.0 0.0 0 0.0 0.0 0 0.0 0,0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 0 0.0 Plenm Ceiling Dry B Sensible Envelope Temp. Load Total (F) (Btuh) (Btuh) 78.1 8.678 74,692 78.1 8.08 74.692 78.1 8.60 74.692 /O.i 288 2.48$ 78.1 288 2,483 78.1 288 2,483 /V.l 8.967 77.174 78.1 8.967 77.174 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT COIL PEAK - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block System 1 Total /Ave. System 1 Block Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block rem 1 Total /Ave. ,. m 1 Block Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block System 1 Total /Ave. System 1 Block Roof Return Air Sensible Load (Btuh) - 21,716 - 21,716 - 21,716 -774 -774 -774 - 22,490 - 22,490 Wall Plenum Load (Btuh) Exposed Floor Sensible (Btuh) BUILDING ENVEL (Roof (At time Roof Roof Space Roof R.A. Sensible Space CLTD Load CLTD (F) (Btuh) (F) -40.1 -40.1 -40.1 -43.0 -43,0 -43.0 -40.2 -40.2 BUILDING E Wall Plenm CLTD (F) 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 Expsd Floor CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 (At Wall Space Load (Btuh) Partition Sensible (Btuh) -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 -48.0 OPE HEATING LOADS - Skylight) of Coil Peak) Skylight Skylight Return Air Space Solar Solar (Btuh) (Btuh) VELOPE HEATING LOADS (Wall - Window) time of Coil Peak) Wall Glass Glass Glass Space Space Return Air Solar CLTD Solar Solar CLF (F) (Btuh) (Btuh) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0,000 BUILDING ENVELOPE HEATING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Coil Peak) Part. CLTD (F) 0.0 0,0 0.0 0,0 0.0 0.0 0,0 0,0 lnfilt. Airflow (Cfm) Infilt. Sensible (Btuh) Skylight Skylight Skylt Return Air Skylt Space Skylt Solar Conduction R.A. Conduction Space CLF Load CLTD Load CLTD (Btuh) (F) (Btuh) (F) 0.000 0 0,0 0 0.0 0.000 0 0.0 0 0.0 0.000 0 0.0 0 0.0 0.000 0 0.0 0 0.0 0.000 0 0,0 • 0 0.0 0.000 0 0.0 0 0.0 0.000 0 0,0 0 0.0 0.000 0 0.0 0 0.0 Glass Space Conduction (Btuh) lnfilt, Latent (Btuh) Glass Space CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Glass Return Air Conduction (Btuh) V 600 PAGE 9 Glass R.A. CLTD (F) 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 Plenm Ceiling Dry B Sensible Envelope Temp. Load Total (F) (Btuh) (Btuh) 60.1 - 21,716 - 43,433 60.1 - 21,716 - 43,433 60.1 - 21,716 - 43.433 63.0 -457 -1,231 63.0 -457 -1,231 63.0 -457 -1,231 60.2 - 22,173 - 44,663 60.2 - 22,173 -44,663 Trane Air Conditioning Economics By: Trane Customer Direct Service Network HEATING LOADS AT SPACE PEAK - ALTERNATIVE 1 1:7 BUILDING ENVELOPE HEATING LOADS (Roof - Skylight) (At time of Space Peak) Roof Roof Skylight Skylight Return Air Roof Space Roof Skylight Skylight Skylt Return Air Skylt Space Skylt Sensible R.A. Sensible Space Return Air Space Solar Conduction R,A. Conduction Space Room Load CLTD Load CLTD Solar Solar CLF Load CLTD Load CLTD Number Description (Btuh) (F) (Btuh) (F) (Btuh) (Btuh) (Btuh) (F) (Btuh) (F) 1 GENERAL OFFICE - 21.716 -40.1 -48.0 Zone 1 Total /Ave. - 21,716 -40.1 -48.0 Zone 1 Block - 21,716 -40.1 -48.0 2 CONF ROOM -722 -40,1 -48.0 Zone ' 2 Total /Ave. -722 -40.1 -48.0 Zone 2 'Block -722 -40,1 -48.0 System 1 Total /Ave. - 22.438 -40.1 -48.0 System 1 Block - 22,438 -40.1 -48.0 BUILDING E VELOPE HEATING LOADS (Wall - Window) (At time of Space Peak) Wall Wall Wall Wall Glass Glass Glass Glass Glass Glass Glass Plenum Plenm Space Space Space Return Air Solar Space Space Return Air R.A. Room Load CLTD Load CLTD Solar Solar CLF Conduction CLTD Conduction CLTD Number Description (Btuh) (F) (8tuh) (F) (Btuh) (Btuh) (Btuh) (F) (Btuh) (F) 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block r em 1 Total /Ave. n 1 Block BUILDING ENVELOPE HEATING LOADS (Exposed Floor - Partitions - Infiltration) (At time of Space Peak) Exposed Expsd Plenm Ceiling Floor Floor Partition Part. Infilt. Infilt. Infilt. Dry B Sensible Envelope Room Sensible CLTD Sensible CLTD Airflow Sensible Latent Temp. Load Total Number Description (Btuh) (F) (Btuh) (F) (Cfm) (Btuh) (Btuh) (F) (Btuh) (Btuh) 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block System I Total /Ave. System 1 Pock 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0,0 0 0.0 0 0.000 0 0,0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0,000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0,0 0 0.000 0 0.0 0 0.0 0 0,000 0 0.0 0 0.0 0 0.000 0 0.0 0 0,0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0 0.000 0 0.0 0 0.0 0,0 0 0 0 60,1 - 21,716 - 43,433 0,0 0 0 0 60.1 - 21,716 - 43,433 0.0 0 0 0 60.1 - 21,716 - 43,433 0,0 0 0 0 60.1 -722 -1,444 0,0 0 0 0 60.1 -722 -1,444 0.0 0 0 0 60.1 -722 -1,444 0.0 0 0 0 60.1 - 22.438 - 44,876 0,0 0 0 0 60,1 - 22,438 - 44,876 V 600 PAGE 10 Trane Air Conditioning Economics 8y: Trane Customer Direct Service Network COOLING LOADS AT COIL PEAK - ALTERNATIVE 1 C Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block • 2 CONF ROOM Zone 2 Total /Ave. Zone 2 Block System 1 Total /Ave. System 1 Block COOLING AIRFLOW HEAT GAIN /LOSS - ALTERNATIVE 1 Room Number Description 1 GENERAL OFFICE Zone 1 Total /Ave. Zone 1 Block 2 CONF ROOM ( 2 Total /Ave. 2 Block System 1 Total /Ave. System 1 Block Airflow (Cfm) 1,745 18,099 1.745 18,099 1,745 18,099 58 602 ' 58 602 58 602 1.803 18,700 1,803 18,700 Duct Heat Pickup (Btuh) 11,842 11,842 11,842 512 512 512 12,355 12,355 Ventilation Sensible (Btuh) AIRFLOW COOLING LOADS (At time of Coil Peak) AIRFLOW HEAT GAIN AND LOSS (At time of Coil Peak) Supply Fan Heat (Btuh) 38,038 38,038 38,038 1,645 1,645 1,645 39,683 39,683 Latent Airflow (Btuh) (Cfm) 32,752 32,752 32,752 1,089 1,089 1,089 33,841 33,841 Return Fan Heat (Btuh) System Exhaust Heat Loss (Btuh) Optional Ventilation -5,329 -5,329 -5,329 -54 -54 -54 -5,383 -5,383 Sensible (Btuh) 0 0 0 0 0 0 0 0 Total (Btuh) 44,551 44,551 44,551 2,103 2,103 2,103 46,655 46,655 1,745 1,745 1,745 58 58 58 1,803 1,803 0 0 0 0 0 0 0 0 Bypass Latent Airflow Sensible Latent (Btuh) (Cfm) (Btuh) (Btuh) Cooling System Room Exhaust Exhaust Ducted Plenum Airflow Airflow Airflow Airflow (Cfm) (Cfm) (Cfm) (Cfm) 10,777 10,777 10,777 466 466 466 11.244 11,244 Run Around Airflow (Cfm) V 600 PAGE 11 Ov /Undr Sizing (Btuh) 0 0 0 0 0 0 0 0 System Corridr Return Airflow Airflow (Cfm) (Cfm) 10,777 10,777 10,777 466 466 466 11,244 11,244 Trane Air Conditioning Economics By: Trane Customer Direct Service Network SYSTEM PSYCHROMETRICS - ALTERNATIVE 1 Cern 1 PSYCHROMETRIC STATE POINTS Ory Wet Relat. Humid. Temp. Bulb Bulb Humid. Ratio Enthalpy Diff. (F) (F) ( %) (GR) (Btu /Lb) (F) Space 75.0 60.3 42.6 56.0 26.7 Main System Return Air Heat Pickup Return Fan 0.0 Return Air 78.1 61.4 38.3 56.0 27.5 Outdoor Air 84,4 69.0 46.1 83.1 33.3 Return /Outdoor Air Mix 79.1 62,7 39.9 60.3 28.4 Blow through Fan • 0.0 Entering Coil 79.1 62.7 39.9 60.3 28.4 Leaving Coil 51,8 50.2 89.9 52.3 20.5 Draw Through Fan 1.6 Duct Frictional Heat 1,6 Supply Duct Heat Gain 1.0 Cold Deck Supply Air 56.0 52.0 77.1 52.3 21,6 Supply Air 56.0 52.0 77.1 52.3 21.6 Percent Outside Air 15.95 ( %) Sensible Heat Ratio (SHR) 0.881 Percent Supply Air Bypassing Coil 0.00 ( %) Coil Airflow 11,301 (Cfm) BUILDING U- VALUES - ALTERNATIVE 1 BUILDING U- VALUES Room U- Values 3.1 '' Room Room Room Summr Wintr /hr /sgft Sunmr Wintr (lb/ (Btu/ Number Description Part. ExFlr Skylt Skylt Roof Windo Windo Wall Ceil. sqft) sqft /F) 1 GENERAL OFFICE 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 Zone 1 Total /Ave. 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0,317 97,8 20.46 2 CONF ROOM 0,000 0.260 0.000. 0.000 0.062 0,000 0.000 0.000 0.317 97.8 20,46 Zone 2 Total /Ave, 0,000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20.46 System 1 Total /Ave, 0.000 0:260 0,000 0.000 0.062 0.000 0.000 .0.000, 0.317 97.8 20.46 Building 0.000 0.260 0.000 0.000 0.062 0.000 0.000 0.000 0.317 97.8 20,46 V 600 PAGE 12 Trane Air Conditioning Economics By: Trane Customer Direct Service Network BUILDING AREAS - ALTERNATIVE 1 (17 Floor Total Exposed Number of Area /Dupl Floor Partition Floor Skylight Skl Net Roof Window Win Net Wall Room Duplicate Room Area Area Area Area /Rf Area Area /W1 Area Number Description Flr Rm (sqft) (sqft) (sgft) (sqft) (sqft) ( %) (sqft) (sqft) ( %) (sgft) 1 GENERAL OFFICE 1 1 8,725 8,725 Zone 1 Total /Ave. 8,725 2 CONF ROOM 1 1 290 290 Zone 2 Total /Ave, 290 System 1 Total /Ave. 9,015 Building 9,015 BUILDING AREAS 8,725 0 8,725 0 290 .0 290 : 0 9,015 0 9.015 0 8.725 8,725 290 290 9,015 9,015 0 0 0 0. 0 0 V 600 PAGE 13 BE&C ENGINEERS P.O. Box 3707 Seattle, Washington 981242207 Mail Stop: PROJECT JOB NO. FIG. BY CHECKED BY DATE SHEET OF_ MS-85(R) TOMER NAME EEIP PHASE 2D ( .:QUENCE NUMBERS: 1 & 2 JOB ITEM: !AH2U7K: McQUAY F A N DESIGN EXT. SP. TOTAL BRAKE FAN OUTLET ALTITUDE MODEL SIZE TYPE (ACTUAL) (ACTUAL) SP VEL NO. ACFM INCHES wC INCHES WC HP RPM FPM FT MSL122 STD AF 11548. MSL122 OPT AF 11548. DRAW-THRU UNIT SINGLE ZONE UNIT ARRANGEMENT - HORIZONTAL FAN DISCHARGE - TOP HORIZ. VAV METHOD - INLET VANES INTERNAL AIR PRESSURE DROPS: JOB NAME AIR HANDLER SELECTION B.E. & C. REP NAME & CITY SALESMAN 4.50 5.91 15.69 2166. 4.50 5.91 14.85 1798. COOLING COIL .88 HEATING COIL .13 BAG FILTER SECTION WITH 85-95%EF.BAG FILTERS .19 WITH 35% EFF. PREFILTERS .17 MIXING BOX DAMPER .04 ( ,..d OF INTERNAL STATIC PRESSURE DROP 1.41 REFER TO AIR HANDLER UNIT CATALOG FOR MAXIMUM COIL DEPTH OF COIL SECTIONS (IN THE DIRECTION OF AIRFLOW). SnyderGeneral Systems VERSION 3.41 RUN: 04/01/92 1947. O. 1620. 0. TOTAL SOUND POWER LEVELS AS CALCULATED BY ASHRAE METHOD(REF.10EXP-12 WATTS) OCTAVE BANDS 1 2 3 TOTAL PWL 92 94 92 93 89 84 76 93 TOTAL PWL 92 94 92 93 89 84 76 93 TO OBTAIN RADIATED SOUND POWER AS CALCULATED BY ASHRAE, SUBTRACT 15 dB FROM EACH OCTAVE BAND AND FROM dB A. 4 5 6 7 dB A MS -85(R) • CUSTOMER NAME COOLING COIL SELECTIONS B.E. & C. JOB NAME EEIP PHASE 2D REP NAME & CITY SnyderGeneral Systems SALESMAN r ' UENCE NUMBER: 1 JOB ITEM: AH2J7A RUN: 04/01/92 AIR HANDLER - -> < COIL DIMENSIONS > < - - -- MISC - - - -> IX FV AHU SECT # TYPE FH FL <- SPECIFIED -> FA GLY WPD ALTI FPM SIZE SIZE IN IN FIN ROW SRP FTA2 % FT FT 500. 122 XL 1 W 39.0 89.5 10 6 24.24 0 0 < ENTERING CONDITIONS > < LEAVING CONDITIONS A -FLOW EDB EWB EWT FLOW LDB LWB TOTAL SENSIBLE LWT ACFM F F F GPM F F BTUH BTUH F 11548. 79.1 62.8 45.0 51.8 50.2 57.0 MS -85(R) OUTPUT DATA ARI CERTIFIED VERSION = 3.40 SEL COIL MODEL TOTAL SENSIBLE FV LDB LWB W -FLOW LWT WV WPD APD CONN BTUH BTUH. FPM F F GPM F FPS F -H20 I -H20 NPT FINS AND ROWS SPEC & 1 5WL1006C 399633. 355483. 476 50.9 50.6 68.4 56.7 3.8 9.9 .88 2.50 STANDARD FIN AND STANDARD TUBE. & TOTAL LOAD IS BELOW 410553. AND /OR SENSIBLE LOAD IS. BELOW 344737. HEATING COIL SELECTIONS < - - -- AIR HANDLER - - - -> PM SIZE SE SIZE N i7 500. 122 XL : - -- ENTERING CONDITIONS - - -> A -FLOW EDB EWT FLOW ACFM F F GPM 11548. 62.0 180.0 QTY TYPE FH IN MS -85(R) OUTPUT DATA SEL COIL MODEL CAPACITY FV LDB W -FLOW BTUH FPM F GPM MOST ECONOMICAL SELECTION 1 5WB0901H 238805. 476 80.9 STANDARD FIN AND STANDARD TUBE. 1 W 39.0 89.5 10 < -- LEAVING CONDITIONS - -> LDB LWT TOTAL BTUH 80.0 140.0 COIL DIMENSIONS FL <--- SPECIFIED - - -> IN FIN ROW SERP 0. ARI CERTIFIED VERSION = 3.40 LWT WV WPD APD CONN F FPS F -H20 I -H20 NPT 11.4 138.0 1.9 .9 .13 1.50 � e, C 4 4) ,4 FT 24.24 < - - -- MISC - - - -> ALT GLY FT PROJECT ze/P 9 -/o FIG. BY "9"A • X.23771 REV. 5/90 BE &C P.O. Box 3707 ENGINEERS Seattle, Washington 98124.2207 CHECKED BY f.2. 74 - Wee- ,v( Col( c,q c 44 77414 m∎55/oit/ 410,40 (gtrwr otvl-4 o . 90 / s . o G Z x (fie ° - �� a. 4 Sa Mail Stop: QQ JOB NO. (C ` DATE .4 / SHEET_ OF__ 02 $ y 5/ 4-:✓7 C.. /9 - r sw. spy 460 e/k io n _ 2 �� 00 70 z /13 ) f• .' DC) A10 vs d Gas 77(01, °e•4. %. 3> exec._ /!i /9e2 /44.f? % ar /` x a zo ) ( 26( /S'oo i /Jia II • rp = GZ 4 of4,K rc // S o c, is 1.1 (e;4.. 4. for aA MS -85 (R) C)TOMER NAME QUENCE NUMBERS: McQUAY MODEL JOB NAME EEIP PHASE 2D 1 & 2 JOB ITEM: `AH2J4A4li t F A N DESIGN EXT. SP. SIZE TYPE (ACTUAL) INCHESL) FM WC AIR HANDLER SELECTION B.E. & C. INTERNAL AIR PRESSURE DROPS: TOTAL INCHES MSL122 STD AF 9640. 4.50 5.74 MSL122 OPT AF 9640. 4.50 5.74 DRAW -THRU UNIT SINGLE ZONE UNIT ARRANGEMENT - HORIZONTAL FAN DISCHARGE - TOP HORIZ. VAV METHOD - INLET VANES COOLING COIL HEATING COIL BAG FILTER SECTION WITH 85 -95 %EF.BAG FILTERS WITH 35% EFF. PREFILTERS MIXING BOX DAMPER REP NAME & CITY SALESMAN BRAKE FAN OUTLET ALTITUDE WC HP RPM FPM FT 12.12 2003. 1626. 0. 11.97 1694. 1352. 0. 1 OF INTERNAL STATIC PRESSURE DROP 1.24 SnyderGeneral Systems VERSION 3.41 RUN: 04/02/92 REFER TO AIR HANDLER UNIT CATALOG FOR MAXIMUM COIL DEPTH OF COIL SECTIONS (IN THE DIRECTION OF AIRFLOW). TOTAL SOUND POWER LEVELS AS CALCULATED BY ASHRAE METHOD(REF.10EXP -12 WATTS) OCTAVE BANDS 1 2 3 4 5 6 7 dB A TOTAL PWL 91 93 91 92 88 83 75. 92 TOTAL PWL 91 93 94 89 88 83 75 92 TO OBTAIN. RADIATED SOUND POWER AS CALCULATED BY ASHRAE, SUBTRACT 15 dB FROM EACH OCTAVE BAND AND FROM dB A. MS -85(R) CUSTOMER NAME UENCE NUMBER: 1 AIR HANDLER - -> < X FV AHU SECT i TYPE FPM SIZE SIZE 500. 122 LA A -FLOW ACFM ENTERING CONDITIONS EDB EWB EFT COOLING COIL SELECTIONS SnyderGeneral Systems B.E. & C. JOB NAME EEIP PHASE 2D JOB ITEM: AH2J4A -N COIL DIMENSIONS > FH FL <- SPECIFIED -> FA IN IN FIN ROW SRP FT 1 W 36.0 84.5 FLOW PM SEL COIL MODEL TOTAL SENSIBLE FV LDB BTUH BTUH FPM F FINS AND ROWS SPEC & 1 5WL1006C 343300. 308004. 456 50.0 STANDARD FIN AND STANDARD TUBE. LDB REP NAME & CITY 10 6 21.13 0 LEAVING CONDITIONS LWB TOTAL SENSIBLE LWT 9640. 79.2 62.4 45.0 51.1 49.5 55.0 ------- - - - - -- ------------------------------------------------------------------ MS -85(R) OUTPUT DATA ARI CERTIFIED VERSION = 3.40 LWB W -FLOW LWT WV WPD APD CONN F GPM F FPS F -H20 I -H20 NPT 49.7 69.4 54.9 4.1 11.0 .82 2.50 & TOTAL LOAD IS BELOW 346949. AND /OR SENSIBLE LOAD IS BELOW 296212. SALESMAN <---- RMI 04/02/92 GLY WPD ALTI % FT 0 HEATING COIL SELECTIONS < - - -- AIR HANDLER - - - -> < COIL DIMENSIONS > AX FV AHU SECTION QTY TYPE FH FL < - -- SPECIFIED - - -> FA FPM SIZE SIZE IN IN FIN ROW SERP FTA2 500. 122 LA 1 W 36.0 84.5 21.13 • -- ENTERING CONDITIONS - - -> < -- LEAVING CONDITIONS - -> < - - -- MISC - - - -> A -FLOW EDB EWT FLOW LDB LWT TOTAL ALT GLY WPD ACFM F F GPM F F BTUH FT % FT 9640. 62.0 180.0 MS -85(R) OUTPUT DATA 80.0 140.0 0. ARI CERTIFIED VERSION = 3.40 SEL COIL MODEL CAPACITY FV LDB W -FLOW LWT WV WPD APD CONN BTUH FPM F GPM F FPS F -H2O I -H2O NPT MOST ECONOMICAL SELECTION 1 5WB0801H 189869. 456 80.0 9.5 140.0 1.7 .7 .11 1.50 STANDARD FIN AND STANDARD TUBE. heating MCQUAY MODEL MS -85(R) TOMER NAME JOB NAME EEIP PHASE 2D ;QUENCE NUMBERS: 1 & 2 JOB ITEM: AH2G6A F A N DESIGN EXT. SP. TOTAL BRAKE FAN SIZE TYPE (ACTUAL) (ACTUAL)_ SP ACFM INCHES WC INCHES WC HP RPM MSL122 STD AF 10900. MSL122 OPT AF 10900. DRAW -THRU UNIT SINGLE ZONE UNIT ARRANGEMENT - HORIZONTAL FAN DISCHARGE - TOP HORIZ. VAV METHOD - INLET VANES INTERNAL AIR PRESSURE DROPS: wt. r ti OF INTERNAL STATIC PRESSURE DROP AIR HANDLER SELECTION B.E. & C. COOLING COIL HEATING COIL BAG FILTER SECTION WITH 85- 95%EF.BAG FILTERS WITH 35% EFF. PREFILTERS MIXING BOX DAMPER REFER TO AIR HANDLER UNIT CATALOG FOR MAXIMUM COIL DEPTH OF COIL SECTIONS (IN THE DIRECTION OF AIRFLOW). TOTAL PWL 92 94 92 93 89 TOTAL PWL 92 94 95 90 89 TO OBTAIN RADIATED SOUND POWER AS CALCULATED BY ASHRAE, SUBTRACT 15 dB FROM EACH OCTAVE BAND AND FROM dB A. REP NAME & CITY 4.50 5.80 14.28 2103. 4.50 5.80 13.68 1754. SnyderGeneral Systems VERSION 3.41 84 84 . 80 . 13 . 18 . 16 . 04 1.30 SALESMAN RUN: 04/14/92 OUT LET ALTITUDE EL FPM FT 1838. 0. 1529. 0. TOTAL SOUND POWER LEVELS AS CALCULATED BY ASHRAE METHOD(REF.10EXP -12 WATTS) OCTAVE BANDS 1 2 3 4 5 6 7 dB A 76 93 76 93 MS -85(R) CUSTOMER NAME JOB NAME BMA EEIP PHASE 2D ' -- UENCE NUMBER: 1 AIR HANDLER - -> < IX FV AHU SECT # TYPE FPM SIZE SIZE A -FLOW ACFM 500. 122 XL ENTERING CONDITIONS EDB EWB EFT 10900. 79.1 62.7 45.0 MS -85(R) COOLING COIL SELECTIONS SnyderGeneral Systems B.E. & C. REP NAME & CITY JOB ITEM: AH2G6A COIL DIMENSIONS > FH FL <- SPECIFIED -> FA IN IN FIN ROW SRP FTA2 1 W 39.0 89.5 10 6 24.24 > < FLOW OUTPUT DATA ARI CERTIFIED SEL COIL MODEL TOTAL SENSIBLE FV LDB BTUH BTUH FPM F FINS AND ROWS SPEC & 1 5WL1006C 381336. 339313. 450 50.6 STANDARD FIN AND STANDARD TUBE. & TOTAL LOAD IS BELOW 399500. AND /OR SENSIBLE LOAD IS BELOW LEAVING CONDITIONS LWB TOTAL SENSIBLE LWT 399500. 329900. 57.0 LWB W-FLOW LWT WV GPM F FPS 50.3 66.6 56.5 3.7 RUN: 04/14/92 < - - -- MISC - - -> GLY WPD ALTI % FT 0 VERSION = 3.40 WPD APD CONN F -H20 I -H20 NPT 9.4 .80 2.50 329900. SALESMAN 0 HEATING COIL SELECTIONS < - - -- AIR HANDLER - - - -> MAX FV SIZE SECTION E 500. 122 XL < - -- ENTERING CONDITIONS - - -> A-FLOW EDB EFT FLOW PM 10900. 62.6 180.0 MS -85(R) SEL COIL MODEL CAPACITY FV BTUH FPM MOST ECONOMICAL SELECTION 1 5WB1001H 253999. 449 83.9 STANDARD FIN AND STANDARD TUBE. QTY TYPE FH 1 W 39.0 89.5 10 < -- LEAVING CONDITIONS - -> LDB LWT TOTAL COIL DIMENSIONS FL <--- SPECIFIED - - -> IN FIN ROW SERP 80.0 140.0 248100.0 0. < - - -- MISC - - - -> ALT G% WPD FT OUTPUT DATA ARI CERTIFIED VERSION = 3.40 LDB W -FLOW LWT WV WPD APD CONN F GPM F FPS F -H20 I -H20 NPT 12.4 139.0 2.0 1.0 .13 1.50 FTA2 24.24 heating coil transmission load BE&C ENGINEERS P.O. Box 3707 Seattle, Washington 98124.2207 Mail Stop: PROJECT JOB NO. FIG. BY CHECKED BY DATE SHEET_ OF 51 '� ;. ����.: .. �::+^. vav terminal comparison trane duct design model vccd static pressure requirement BE&C ENGINEERS CFM P,O. Box 3707 Seattle, Washington 98124.2207 INLET STATIC PRESSURE CONTROL TYPE UNIT' SIZE MAXIMUM FLOW SETTING MINIMUM CUULING FLOW SETTING MINIMUM HEATING 71 ` vNGc 5/F --'a (ssq ) S-" Direct Digital& /o' iz" 03 150- 300 cfm 60- 300 cfm 60- 300 cfm 06 300 -. 66U cfm 90- 6UU cfm 90 -'600 cfm 11 55U- 1210'cfm 170 -1100 cfm • 170 -1100 cfm 17 85Q-1U70' Gfm• 270 -1700 cfm 270 -1700 cfm 24 1200 -2640 efm 390 -2400 cfm 53U -3200 cfm 390 -2400 cfm 32 1600 -3520 cfm cfm PROJECT n � `!/7 � - P * V - ! JO NO. , Q ! O 3. ? FIG. BY n' / CHECKED BY DATE ` / 2.-.0 SHEEP OF' TABLE 43 -2 NOTES: el Zz)( 2»1i - PRIMARY AIR CONTROL (APPLIES TO TRANE DDC /UCM CONTROLS BE&C ENGINEERS 2. Flow rinys are provided with all unit sizes. P.O. Box 3707 Seattle, Washington 98124.2207 Mail Stop: 1 . Minimum flow and maximum flow settings must have at least a .05 0 P flow sensor signal difference. See Chart 55 -1. A minimum cooling flow and /or minimum heatiny flow settiny of zero is permissible. V Unit Dim. Model BBD•11 4 8" 4" Terminal Slit 8" CFM Min LPI 8" Room Noise Criterion (NC 8 12" Min. L.P. Min. dPi +0.75" Min. Ps +1.50" MIn.AP. +3.0" 12 Mech. Rad. Diech, Red. 17W Mach. Rad. Mach. Rad. 4 23346" 100 11 26W — — 33" — — 25 — 31 — %150••.: •22 ..- 200 .37 — — 31 — 37 21 4 t 27 5 175 .09 — — — — 30 — 36 — .. 265 • . . • ' - - ' 25 • — 33 • — 39 20 350 .33 — — 28 — 35 — 44 25 6 250 .05 — — — — 28 — 33 20 ' 375 • .13 • — — 24 — 31 — 37 24 500 .23 — — 25 — 33 23 40 28 8 501Q_ — — — — 30 — 38 23 ] 70] i .16_ — — 24 — 32 ' 20 39 25 1000 .27 — — 28 — 34 23 40 28 10 750 .05 — — — — 30 — 35 22 1125 • .10•• — — 24 — 31 21 • 37 25 1500 18 — — 30 21 33 25 38 28 12 1000 .05 — — — — 31 — 37 22 1500 .11 — — 25 — 33 21 1 40 25 2000 19 23 — 33 21 36 24 42 30 14 1250 04 — — 22 — 30 — 36 26 1875 .08 — — 31 — 35 23 40 27 2500 . 14 24 — 33 24 38 26 44 31 16 1600 04 — — 24 — 32 — 37 26 2400 .08 — — 28 20 34 24 40 31 3200 15 25 — 32 26 36 28 42 34 18 1900 .04 -. — 28 — 35 23 40 30 2850 .10 23 — 31 22 37 28 42 35 3800 16 31 — 33 27 39 33 46 37 20 2300 .05 — — 29 — 33 21 38 26 3450 .12 20 — 30 20 35 26 40 31 4600 . 22 25 — 32 25 38 31 45 34 24 2900 .05 — — 30 — 35 24 41 29 4350 ,10 23 — 31 24 37 30 45 34 5800 .19 30 21 33 30 40 35 48 39 Unit Dim. Dim. 4 8" 4" 5 8" 6' 6 8" 8" 8 12" 8 ". 10 14" 11" 12 18" 14W 14 22" 17W 16 26" 20'6" 18 32" 23346" 20 40" 26W — 24 40" 33" PROJECT FIG. BY AIII FLOW AIR 01.DW SENSOR AIR FLOW F --- "/a' MAXI X•23771 REV. 5/90 6' 13' INLET COLLAR (ROUND OR OVAL STANDARD) BE&C P.O. Box 3707 ENGINEERS - P I:- 2 1) JOB NO. CHECKED BY DATE C '1L SHEET 1 4 ‘CfrfAelSO 0 4- ed / , W — OUTLET (SLIP & DRIVE STANDARD) 3h" ?• INSULATION • • AIR FLOW CONTROLLER L W (ALL INTERIOR SURFACES) CFM ADJUSTMENT • IPRESSURE•INDEPENDENT) PNEUMATIC ACTUATOR (OPTIONAL) ELECTRIC ACTUATOR (OPTIONAL) 10' PERFORMANCE DATA Seattle, Washington 98124.2207 Mail Stop: • oval inlet •• rectangular inlet duct system inpu for ah2j7a LE - MODEL VCCD QUICK SELECT M D L D S N MINIMUM P TAG NUMBER CFM (INCHES W.G) NOTES 1. NC levels are based on the following assumptions: a. 10 db room effect in each octave band b. 1/2 pass STC -39 ceiling transmission loss 2. Arrangement Z or Y is assumed. 3. Pressure independent setting ranges may vary if the Trane UCM (DDC) is used. 4. A minimum CFM setting of zero is permissible. ,p-t ,��_�✓�= ' /z vv (it VCCD 03 300 .33 VCCD 06 600 .31 VCCD 32 3200 VCCD 42 4200 1100 .14 25 15 170 640 VCCD 11 VCCD 17_ 1700 .21 VCCD 24 2400 2.4 .16 32 .24 31 .19 33 .2 ,I4 /o RADIATED NOISE 1.5 INCHES PLUS MINIMUM 6,P DESIGN 1/2 DESIGN CFM CFM NC NC 25 26 15 30 17 � Z",bJJ / 7 PRESSURE INDEPENDENT MINIMUM CFM MAXIMUM CFM SETTING SETTING LOW HIGH LOW HIGH 16 60 220 135 415 90 340 215 650 4 400 1200 270 1020 450 1930 19 390 1480 930 2800 19 530 2000 1270 3800 20 700 2630 1660 5000 /0 i ,gyp 64/66'1 /1• . * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network PROGRAM VERSION: VARITRANE DUCT DESIGN PROGRAM EEIP 9 -101 DEV. CENTER BMA A.K. 5/22/92 RUN 8.04 PHASE 2D FOR AH2J7A, RUN DATE: 05/22/92 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network PROGRAM INPUT GENERAL SPECIFICATIONS OF THE SYSTEM ALL STATICS AND CFMs SHOULD BE INPUT AT ALTITUDE AIR TOTAL APPROX EST SP MAX FAN DISCHARGE DENSITY CFM DESIGN LOSS SP FAN VEL .076 11550. 4.75 3.75 4.80 1320. FAN DESIGN MAX NC CEILING FAN FITTINGS DESIRED TYPE METHOD LEVEL EFFECT(DB) EFF% NOT USED VELOCITY DRAW THRU MAX. H.P. 35 10 80. NO LIMIT M CALCULATE INSULATE MAX % RATIOED FIXED RUNOUT DUCT HEAT ALL SUP AIR DOWNSTREAM DOWNSTREAM PRESSURE PICK UP DUCTS INCREASE STATIC PRES. STATIC PRES. BALANCE YES YES 0. .50 .00 .70 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network PROGRAM INPUT TRUNK DUCT DATA TRNK UP LENG NO. TKOFF DIVER MAX # CON FIRE SP VEL OUT TEMP INS LIM # TR STRM ELBOW SITY ASPC STRICT DAMP LOSS DUCT RATIO DUCTS FIT 1 -1. 16. 0 1 0 NO 0. 0 .00 50. 1.10 I 0 2 1. 10. 2 0 90 NO 0. 0 .00 50. 1.10 I 0 3 2. 9. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 4 3. 10. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 5 4. 4. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 6 5. 6. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 7 6. 7. 0 0 0. NO 0. 0 .00 50. 1.10 I 0 8 7. 4. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 9 1. 4. 1 0 90 NO 0. 0 .00 50. 1.10 I 0 10 9. 8. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 11 10. 6. 0 0 0 NO 0. 0 .00 '50. 1.10 I 0 12 11. 6. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 13 12. 4. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 14 13. 4. 0 0 0 NO 0. 0 .00 50. 1.10 I 0 14 TRUNKS SPECIFIED FOR THIS SYSTEM * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network PROGRAM INPUT RUN -OUT DATA C DUCT CONN TAG UNIT UNIT RUN -OUT FITTING UNIT DESIRED ROOM -NC ADDTL NUMBER CFM TYPE LENGTH TYPE (SIZE) ROOM NC CORRECT SP LOSS 2 J7B 1000. VCCDE 16. 0 1100 35 0 .00 3 J7A 1500. VCCDE 16. 0 2400 35 0 .00 4 J6E 1000. VCCDE 16. 0 1100 35. 0 .00 5 J6D 750. VCCDE 16. 0 1100 35 0 .00 6 J6C 500. VCCDE 16. 0 1100 35 0 .00 7 J6B 1500. VCCDE 16. 0 2400 35 0 .00 8 J6A 910. VCCDE 16. 0 1100 35 0 .00 9 J7C 690. VCCDE 16. 0 1100 35 0 .00 10 J7D 430. VCCDE 16. 0 1100 35 0 .00 11 J8A 1000. VCCDE 16. 0 1100 35 0 .00 12 J8B 750. VCCDE 16. 0 1100 35 0 .00 13 J8C 900. VCCDE 16. 0 1100 35 0 .00 14 J8D 600. VCCDE 16. 0 1100 35 0 .00 13 RUN -OUTS SPECIFIED FOR THIS SYSTEM * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network * UNIT STATIC PRESSURE REQUIREMENT AND SOUND POWER PERFORMANCE BASED ON AUGUST 1987 CATALOG. * NOTE: THE ROOM NC OUTPUT IS VALID ONLY IF THREE PARAMETERS ARE MET. 1) THE ACTUAL SOUND POWER LEVEL OF THE FAN IN THE THIRD OCTAVE BAND IS AT LEAST AS LOW AS THE LEVEL OUTPUT. 2) A 90 DEGREE ELBOW IS INCLUDED IN MAIN TRUNK BETWEEN FAN AND FIRST RUNOUT 3) NON -METAL FLEX DUCT IS USED BETWEEN THE VARITRANE UNIT AND THE DIFFUSER. * IF VFCD VFWD OR VFED UNITS WERE USED, THE SOUND OUTPUT IS FOR THE PRIMARY SIDE ONLY * TRUNK AND RUNOUT DUCT STATIC PRESSURES ARE ADJUSTED FOR ALTITUDE. UNIT SPECIFICATION TABLE HAS SEA LEVEL STATIC AND ALTITUDE STATIC IF BELOW .072 AIR DENSITY. ERROR AND DIAGNOSTIC MESSAGES * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network BLOCK CFM FROM THE FAN ((INCLUDES DUCT HEAT PICKUP) FAN TOTAL STATIC PRESSURE A �IN) AT SEA LEVEL 5.56 AT ALTITUDE... THIRD ((UATI ON IN SOUND�ABSORBERI BASED ON ASSUMED FAN THIRD OCTAVE BAND SOUND POWER LEVEL OF TOTAL PEAK CFM AS INPUT 11531. AFTER DUCT HEAT PICKUP... DIVERSITY OF THE SYSTEM 100% OPTIMIZED AIR DISTRIBUTION SYSTEM 12031. 5.63 7�DB 95 DB 12031. * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network /T RUNK TRNK CFM DUT 1 1 12031. 24. 3 2 6419. 22. 4 3 4874. 20. 5 4 3834. 20. 6 6 2518. 14. 8 7 958. 12. 9 1 4576.• 18. 10 9 3857. 16. 11, 10 3403. 16. 12 11 2364. 16. 13 .12 1578. 14. 14 13 636. 10. DUCT LNGTH 16. 10. 10. 4. 6. 7. 4. 4. 8. 6. 6. 4. 4. TRUNK DUCT DATA SPACE '0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. # # FITTING FIRE STATIC INS DIVER CNSTR ELBOWS DAMP 45 90 0 0 1 REDUCER 1.38 0 3 0 Y FTG 1 1.36 0 0 0 REDUCER 1.31 0 0 0 REDUCER 1.34 0 0 0 COUPLING 1.45 0 0 0 REDUCER 1.09 0 0 0 COUPLING 1.21 0 0 0 REDUCER 1.43 0 2 0 Y FTG 2 1.31 0 0 0 REDUCER 1.20 0 0 0 COUPLING 1.28 0 0 0 COUPLING 1.45 0 -0 0 REDUCER 1.48 0 0 0 REDUCER 1.51 I NO I NO' I NO I NO I NO I NO I I NO I NO I NO I NO * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network RUN -OUT DATA 'DUCT UNIT UNIT ELEC COIL DESIRED NC DIAM LNGTH FITTING ORIF SP CFM SPEC KW STGS NC ACTUAL DIAM ALT 2 1035. VCCDE1100 3 1546. VCCDE2400 4 1040. VCCDE1100 5 786. VCCDE1100 6 530. VCCDE1100 7 1560. VCCDE2400 8 958. VCCDE1100 9 719. VCCDE1100 10 455. VCCDE1100 11 1039. VCCDE1100 12 786. VCCDE1100 13 942. VCCDE1100 14- 636. VCCDE1100 . 00 35 30 8. 16. 45 T . 00 35 27 12. 16. 90 T . 00 35 30 8. 16. 45 T . 00 35 27 8. 16. 45 'T . 00 35 25 8. 16. 90 T .00 35 27 12. 16. 90 T . 00 35 29 8. 16. 45.T . 00 35 27 8. 16. 90 T . 00 35 23 8. 16. 90 T . 00 35 30 8. 16. 45 T . 00 35 27 8. 16. 45 T . 00 35 29 8. 16. 45 T . 00 35. 24 8. 16. 45 T . 00 .00 . . 00 .59 . 00 1.03 .80 . ▪ 00 . • 00 .79 . 00 1.00 . 00 .59 . 00 1.02 . 00 .72 6.00 .76 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network STATIC PRESSURE ANALYSIS OF RUNOUTS i 4.:7 RUNOUT TRUNK RUNOUT RUNOUT RUNOUT RUNOUT STATIC ORIFICE DIST. SP SP REQUIRED UNIT DWNSTM OVER DIA FROM AVAILABLE SP SP SP . PRESSURE FAN 2 1.36 .66 .57 .13 .45 .09 .00 26. 3 1.31 .90 .35 .07 .29 .55 .00 35. 4 1.34 .59 .58 .13 .45 .01 .00 45. 5 1.45 1.03 .35 .07 .28 .67 .00 49. 6 1.09 .81 .35 .03 .32 .46 .00 55. 7 1.21 .80 .35 .07 .29 .44 .00 62. 8 1.43 .61 .49 .11 .38 .11 .00 66. 9 1.31 .79 .35 .06 .29 .44 .00 20. 10 1.20 1.00 .35 .02 .33 .64 .00 28. 11 1.28 .59 .58 .13 .45 .01 .00 34. 12 1.45 1.02 .35 .07 .28 .66 .00 40. 13 1.48 .72 .48 .10 .37 .25 .00 44. 14 1.51 .76 .35 .05 .31 .41 6.00 48. * NOTE: ORIFICE INTERVAL CAUSED STARRED OVER PRESSURES TO BE GREATER THAN STATIC PRESSURE BALANCE TOTAL PRESSURES AT SEA LEVEL WITHIN TRUNK DUCTS TRNK # TP TRNK # TP TRNK # TP TRNK # TP TRNK # TP 2 2. 3 2. 4 2. 5 2. 1 6 7 2. 8 2. 9 2. 10 2. 11 2. 12 2. 13 2. 14 2. * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive ROUND DUCT DIAN 14 16 18 20 22 24 28 TOTALS NOTE -THE DUCT WEIGHT IN LBS DOES NOT INCLUDE A WASTE FACTOR. GAUGE THICKNESS BASED ON SMACNA RECOMMENDATIONS CHECK PROGRAM PREFAB DUCT LBS /LINEAR FT AGAINST ACTUAL PREFAB DUCT WEIGHT. FEET OF INSULATED TRUNK DUCTS 98.0 QUANTITY OF INSULATION ON TRUNK DUCTS 518.9 SQ FEET UPSTREAM TRNK 16 18 20 24 28 TOTALS use by: Trane Customer Direct Service Network TRUNK DUCT MATERIAL SUMMARY LENGTH SURF AREA THICKNESS GALVANIZED STD GAUGE DUCT FT SQ FEET GAUGE STEEL LBS LBS /LINEAR FT 4.0 10.5 26 9.5 2.55 4.0 12.6 26 11.4 3.04 17.0 62.3 26 56.5 3.50 20.0 83.8 24 96.8 5.10 4.0 18.8 24 21.8 5.73 14.0 73.3 24 84.7 6.37 9.0 51.8 24 59.9 7.00 10.0 62.8 24 72.6 7.77 16.0 117.3 22 164.9 11.07 98.0 493.2 578.2 TRUNK CONNECTION MATERIAL SUMMARY 90 DEGREE 45 DEGREE FIRE COUPLERS ELBOWS ELBOWS DAMPS 0 0 0 0 0 0 0 0 0 1 1 2 0 3 0 5 0 0 0 0 0 1 2 0 1 0 0 4 PREFAB WT DUCT LBS 10.20 12.16 59.50 102.00 22.92 89.18 63.00 77.70 177.12 613.78 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network "1 TRUNK TRANSITION MATERIAL SUMMARY ...REDUCER.... ..45 DEGREE.. ..45 -90 DEGREE:. ....Y FITTING.... UP # DWNSTRM # DWNSTRM # DWNSTRM # DWNSTRM DWNSTRM DIAM DIAM DIAM DIAM DIAM 1 DIAM 2 FAN 1 28 28 0 0 0 0 0 0 1 24 18 24 1 22 0 0 0 0 0 0 0 22 1 20 0 0 0 0 0 0 0 20 1 14 0 0 0 0 0 0 0 18 1 16 0 .0 0 0 .0 0 0 16 1 14 0 0 0 0 0 0 0 14 1 12 0 0 0 0 0 0 0 14 1 10 0 0 0 0 , 0 0 0 TOTALS .7 REDUCERS 0 45 DEGREE 0 45 -90 T 1 Y- FITTINGS * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network RUNOUT MATERIAL SUMMARY RUNOUT FLEX DUCT 90 DEGREE C 90 DEGREE 45 DEGREE STRAIGHT OR DIAMETER FEET TAKEOFFS TAKEOFFS TAKEOFFS REDUCER. 8 176 3 12 32 2 TOTALS 208.. 5 . 0 0 0. 8 0 8 . VARITRANE UNIT MATERIAL SUMMARY 600 1100 1700 2400 3200 4200 0 11 0 2 0 0. 0, 0 . 0. * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network VARITRANE UNIT SCHEDULE • DUCT UNIT TRANE 'UNIT INLET CONTROL DESIGN MAXIMUM PROJECTED • CONN TAG MODEL # SIZE DIAM(IN) TYPE CFM* UNIT ROOM NC PRESSURE LEVEL DROP (SEA LEVEL) 2 J7B VCCD 1100. 8. ELEC 1035. 3 J7A VCCD 2400. 12. ELEC 1546. 4 J6E VCCD 1100. 8. ELEC 1040. 5 J6D VCCD 1100. 8. ELEC 786. 6 J6C VCCD 1100. 8. ELEC 530. 7 J6B VCCD 2400. 12. ELEC 1560. 8 J6A VCCD 1100. 8. ELEC 958. 9 J7C VCCD 1100. 8. ELEC 719. 10 J7D VCCD 1100. 8. ELEC 455. 11 J8A VCCD 1100. 8. ELEC 1039. 12 J8B VCCD 1100. 8. ELEC 786. 13 J8C VCCD 1100. 8. ELEC 942. 14 J8D VCCD 1100. 8. ELEC 636. * ADJUSTED FOR DUCT HEAT PICKUP . 12 . • 13 .03 .11 . 06 . 02 . 12 . 07 . 10 . 05 30. 27. 30. 2. 25. 27. 29. 23. 30. 27. 29. 24. . duct system input for ah2j4a Y) 0 /Z J - MODEL VCCD QUICK SELECT M D L D S N M NIMUM P TAG NUMBER CFM (INCHES W.G.) VCCU 03 300 .33 VCCD 06 600 VCCD 11 1100 VCCD 17 1700 VCCD 24 2400 VCCD 32 3200 VCCD 42 4200 NOTES 1. NC levels are based on the following assumptions: a. 10 db room effect in each octave band b. 1/2 pass STC -39 ceiling transmission loss 2. Arrangement 2 or Y is assumed. 3. Pressure independent setting ranges may vary if the Trane UCM (DDC) is used. 4. A minimum CFM setting of zero is permissible. 7 &li ►✓ C -7 ', , ��_ - 4.7.440 - , ,._ p V CC, �•N. SSA -I( � / � 4 ' S , 2ix AP / / V C ( 4 - Ze 1/ 0 ' /eoo0 1 -) o�- Zvzro 2.4. . 31 26 15 90 340 215 650 . 14 25 15 170 640 400 1200 .21 30 17 270 1020 '650 1930 .16 32 19 390 1480 930 2800 . 24 31 19 530 2000 1270 3800 .19 33 20 700 2630 1660 5000 / .� .2/ s/G /O?j IZ �� RADIATED NOISE 1.5 INCHES PLUS MINIMUM AP PRESSURE INDEPENDENT DESIGN 1/2 DESIGN MINIMUM CFM MAXIMUM CFM CFM CFM SETTING SETTING 7 NC NC LOW HIGH LOW HIGH 25 16 60 220 135 415 / 0 / a /4- P we. err . O & //x 6 ,l4/xE. p ✓c= L /) 4 s 6' * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network VARITRANE DUCT DESIGN PROGRAM PROGRAM VERSION: 8.04 RUN DATE: 05/21/92 EEIP 9 -101 PHASE 2D DEV. CENTER BMA 5/21/92 RUN FOR AH2J4A * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network PROGRAM INPUT GENERAL SPECIFICATIONS OF THE SYSTEM ALL STATICS AND CFMs SHOULD BE INPUT AT ALTITUDE AIR TOTAL APPROX EST SP MAX FAN DISCHARGE DENSITY CFM DESIGN LOSS SP FAN VEL .076 9620. 4.75 3.75 4.80 1349. FAN TYPE DRAW THRU CALCULATE DUCT HEAT PICK UP' YES DESIGN METHOD MAX. H.P. MAX NC CEILING FAN 'FITTINGS DESIRED LEVEL EFFECT(DB) EFF% 140T USED VELOCITY 35 10 80. NO LIMIT. M • INSULATE MAX % RATIOED FIXED RUNOUT ALL SUP AIR DOWNSTREAM.. DOWNSTREAM PRESSURE DUCTS INCREASE STATIC PRES. STATIC PRES. BALANCE YES 0. .50 .00 .70 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network '") PROGRAM INPUT °„} TRUNK DUCT DATA TRNK UP LENG NO TKOFF DIVER MAX # CON FIRE SP. VEL OUT TEMP INS LIM # TRNK ELBOW SITY ASPC STRICT DAMP LOSS DUCT RATIO DUCTS FIT 45 1 -1. 16. 0 0 0 NO 0. 0 2 1. 12. 1 0 90 NO 0. 0 3. 2. 8. 0 0 0 NO 0. 0 4 3. 15. 0 0 0 NO 0. 0 5 4. 5. 0 0 0 NO 0. 0 6. 1. 13. 3 0 90 NO 0. 0 7 6. 8. 0 0 0 NO 0. 0 • 8 7. 14. 0 0 0 NO 0. 0 9 8. 7. 1 0 90 NO 0. 0 9 TRUNKS SPECIFIED FOR THIS SYSTEM . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 .00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 .00 50. 1.10 I 0 . 00 50. 1.10 I 0 PROGRAM INPUT RUN -OUT DATA 1r ;.DUCT CONN TAG. UNIT UNIT RUN -OUT FITTING UNIT DESIRED ROOM -NC ADDTL NUMBER CFM TYPE LENGTH TYPE (SIZE) ROOM NC CORRECT SP LOSS 2 J4A 1500. VCCDE 16. 0 2400 35 0 .00 3 J3C 1200. VCCDE 16. 0 2400 35 0 .00 4 J3B 1780. VCCDE 16. 0 0 2400 35 0 35 0 .00 5 J3A 720. VCCDE 16. 6 J4B 1350. VCCDE 16. 0 2400 35 0 .00 7 J5A 1200. VCCDE 16. 0 2400 35 0 .00 8 J5B 1200. VCCDE 16. 0 2400 35 0 .00 9 J5C 670. VCCDE 16. 0 1100 35 0 .00 RUN -OUTS SPECIFIED FOR THIS. SYSTEM * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network V * UNIT STATIC PRESSURE REQUIREMENT AND SOUND POWER PERFORMANCE BASED ON AUGUST 1987 CATALOG. * NOTE: THE ROOM NC OUTPUT IS VALID ONLY IF THREE PARAMETERS ARE MET. 1) THE ACTUAL SOUND POWER LEVEL OF THE FAN IN THE THIRD OCTAVE BAND IS AT LEAST AS LOW AS THE LEVEL OUTPUT. 2) A 90 DEGREE ELBOW IS INCLUDED IN MAIN TRUNK BETWEEN FAN AND FIRST RUNOUT. 3) NON -METAL FLEX DUCT IS USED BETWEEN THE VARITRANE UNIT AND THE DIFFUSER. * IF VFCD VFWD OR VFED UNITS WERE USED, THE SOUND OUTPUT IS FOR THE PRIMARY S TRUNKNAN * D RUNOUT DUCT STATIC PRESSURES ARE ADJUSTED FOR ALTITUDE. UNIT SPECIFICATION TABLE HAS SEA LEVEL STATIC AND ALTITUDE STATIC IF BELOW .072 AIR DENSITY. ERROR AND DIAGNOSTIC MESSAGES * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK For exclusive use by: Trane Customer Direct Service Network OPTIMIZED AIR DISTRIBUTION SYSTEM ( : ` BLOCK CFM FROM THE FAN NCLUDES DUCT HEAT PICKUP) FAN TOTAL STATIC PRESSURE(IN) ) AT SEA LEVEL 4.76 AT ALTITUDE... T FAN SOUND BASED ON ASSUMED FAN THIRD OCTAVE BAND SOUND POWER LEVEL OF..... TOTAL PEAK CFM AS INPUT 9621. AFTER DUCT HEAT PICKUP.. DIVERSITY OF THE SYSTEM 100% 10001. 4.82 3.75 95 DB 10001. * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network TRUNK DUCT DATA RUNK UPSTRM CFM DUCT DUCT MAX # # FITTING FIRE STATIC INS DIVE) # TRNK DIAM LNGTH SPACE CNSTR ELBOWS DAMP (ALT) SITY 1 -1 10001. 28. 16. 0. 0 0 0 REDUCER .80 I NO 2 1 5397, 22. 12. 0. 0 2 0 Y FTG 1 .77 I NO 3 2 3852. 20. 8. 0. 0 0 0 REDUCER .82 I NO 4 3 2608. 18. 15. 0. 0 0 0 REDUCER .85 I NO 5. 0. 0 0 0 REDUCER .92 I NO 5 6 4605. 12. 13. 0. 0 4 0 Y FTG 2 .71 I NO 7 6 3211. 18. 8. 0. 0 0 0 REDUCER .76 I NO 8 7 1967. 16. 14. 0. 0 0 0 REDUCER .81 I NO 9 8 713. 12. 7. 0. 0 3 0 REDUCER .86 I NO * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK 2 1545. VCCDE2400 3 1243. VCCDE2400 4 1846. VCCDE2400 5 762. VCCDE1100 6 1393. VCCDE2400 7 1244. VCCDE2400 8 1254. VCCDE2400 9 713. VCCDE1100 * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network RUN -OUT DATA it r7 ))UCT UNIT UNIT ELEC COIL DESIRED NC DIAM LNGTH FITTING ORIF SP ;` # CFM SPEC KW STGS NC ACTUAL DIAM ALT . 00 35 25 12. 16.45 T . 00 35 22 12. 16. 45 T . 00 35 26 12. 16. 45 T . 00 35 26 8. 16. 45 T . 00 35 23 12. 16. 45 T . 00 35 22 12. 16. 45 T . 00 35 22 12. 16. 45 T . 00 35 26 8. 16. 45 T . • 00 .40 .00 .39 .00 .68 . 00 .67 .00 .40 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network STATIC PRESSURE ANALYSIS OF RUNOUTS RUNOUT TRUNK RUNOUT RUNOUT RUNOUT RUNOUT STATIC ORIFICE DIST. SP SP REQUIRED UNIT DWNSTM OVER DIA FROM AVAILABLE SP SP SP PRESSURE FAN 2 .77 .61 .35 .07 .29 .25 3 .82 .73 .35 .04 .31 .38 4 .85 .40 .40 .10 .30 .00 5 .92 .39 .35 .07 .29 .03 6 .71 .62 7 .76 .67 .35 .04 .31 .31 9 .86 .40 .35 .06 .30 .04 * NOTE: ORIFICE INTERVAL CAUSED STARRED OVER PRESSURES . 00 . 00 . 00 .00 . 00 . 00 . 00 TO BE GREATER THAN STATIC PRESSURE BALANCE TOTAL PRESSURES AT SEA LEVEL WITHIN TRUNK DUCTS TRNK # TP TRNK # TP TRNK 3 # TP TRNK # TP TRNK # TP 1 1. 2 1. 6 1. 7 1. 8 1. .. 9 1. 5 1. 28. 36. 51. 29. 51. 58. * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive ROUND DUCT DIAN (IN) 12 16 20 22 28 TOTALS NOTE -THE. DUCT WEIGHT IN LBS DOES NOT INCLUDE A WASTE FACTOR. GAUGE THICKNESS BASED ON SMACNA RECOMMENDATIONS CHECK PROGRAM PREFAB DUCT LBS /LINEAR FT AGAINST ACTUAL PREFAB DUCT WEIGHT. FEET OF INSULATED TRUNK DUCTS 98.0 QUANTITY OF INSULATION ON TRUNK DUCTS 526.7 SQ FEET UPSTREAM 90 DEGREE TRNK DIAM ELBOWS 12 20 22 use by: LENGTH 12.0 14.0 23.0 21.0 12.0 16.0 98.0 0 0 0 Trane Customer Direct Service Network TRUNK DUCT MATERIAL SUMMARY SURF AREA SQ FEET 37.7 58.6 108.4 110.0 69.1 117.3 501.1 45 DEGREE ELBOWS . 3 4 2 TOTALS 0 9 THICKNESS GAUGE 24 24 24 22 TRUNK CONNECTION MATERIAL SUMMARY FIRE DAMPS 0 0 0 0 GALVANIZED STD STEEL LBS LBS/ 34.2 67.8 125.3 127.1 79.9 164.9 1 599.1 COUPLERS 0 0 0 0 GAUGE DUCT LINEAR FT 3.04 5.10 5.73 6.37 7.00 1.07 PREFAB WI DUCT LBS 36.48 71.40 131.79 133.77 84.00 177.12 634.56 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network TRUNK TRANSITION MATERIAL SUMMARY 1(7 ) ....REDUCER.... ..45 DEGREE.. ..45 -90 DEGREE. .. .Y FITTING.... UPSTRM # DWNSTRM # DWNSTRM # DWNSTRM # DWNSTRM DWNSTRM DIAM DIAM DIAM DIAM DIAM 1 DIAM 2 FAN 1 28 28 0 0 22 1 20 20 2 18 18. 1 16 0 0 0 18 1 12 0 0 ' . 0 .. 16 1 12 0 0 0 0 0 0 0 0 0 0 0 0 0 TOTALS 6 REDUCERS 0 45 DEGREE 0 0 0 • 0 45-90-T 22 20 0 0 0 0 0 0 0 1 Y- FITTINGS * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network RUNOUT MATERIAL SUMMARY RUNOUT FLEX DUCT 90 DEGREE C 90 DEGREE 45 DEGREE STRAIGHT OR DIAMETER FEET TAKEOFFS TAKEOFFS TAKEOFFS REDUCER 12 96 0 • 0 6 0 TOTALS 128. 0. 0. 8. 0. VARITRANE UNIT MATERIAL SUMMARY RATED CFM 300 600 1100. 1700 2400 3200. 4200 'TOTAL. UNIT TYPE VCCDE 0 0 2 0 6 0 0 8 c * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network VARITRANE UNIT SCHEDULE DUCT CONN TAG MODEL SIZE DIAM(IN) CONTROL DESIGN MAXIMUM PROJECTED PRESSURE LEVEL DROP (SEA LEVEL) 2 J4A VCCD 2400. 12. ELEC 1545. .07 25. 3 J3C VCCD 2400. 12. ELEC 1243. .04 22. 4 J3B VCCD 2400. 12. ELEC 1846. .09 26. 5 J3A VCCD 1100. 8. ELEC 762. .07 26. 6 J4B VCCD 2400. 12. ELEC 1393. .05 23. 7 J5A VCCD 2400. 12. ELEC 1244. .04 22. 8 J5B VCCD 2400. 12. ELEC 1254. .04 22. 9 J5C VCCD 1100. 8. ELEC 713. .06 26. ADJUSTED FOR DUCT HEAT PICKUP duct system input for ah2g6a (!) C> _. /Z 0 t s:10 0 -- /boo 0 G LE - MODEL VCCD QUICK SELECT MODEL D N M NIMUM P TAG NUMBER CFM (INCHES W.G.) NOTES VCCD 03 300 .33 25 16 60 220 135 415 VCCD 06 600 .31 26 15 90 340 215 650 VCCD 11 1100 .14 25 15 170 640 400 3' 1200 VCCD 17 1700 .21 30 17 270 1020 '650 1930 VCCD 24 2400 .16 32 19 390 1480 930 2800 VCCD 32 3200 .24 31 19 530 2000 1270 3800 VCCD 42 4200 .19 33 20 700 2630 1660 5000 1. NC levels are based on the following assumptions: a. 10 db room effect in each octave band b. 1/2 pass STC -39 ceiling transmission loss 2. Arrangement Z or Y is assumed. 3. Pressure independent setting ranges may vary if the Trane UCM (DDC) is used. 4. A minimum CFM setting of zero is permissible. / / / 24 . 2/ /G .. b /Z" RADIATED NOISE 1.5 INCHES PLUS MINIMUM AP PRESSURE INDEPENDENT DESIGN 1/2 DESIGN MINIMUM CFM MAXIMUM CFM CFM CFM SETTING SETTING 7 NC / 0 • /4 NC LOW HIGH LOW HIGH ■•. i avtc • / //x 6 c cA/oL • /./. 475)K 8. • /� / � %dx� * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network VARITRANE DUCT DESIGN PROGRAM PROGRAM VERSION: 8.04 RUN DATE: 05/07/92 EEIP 9-101 PHASE 2D DEV. CENTER BMA A.K. 5/06/92 RUN FOR AH2G6A * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network PROGRAM INPUT GENERAL SPECIFICATIONS OF THE SYSTEM ALL STATICS AND CFMs SHOULD BE INPUT AT ALTITUDE AIR TOTAL APPROX EST SP MAX FAN DISCHARGE DENSITY CFM DESIGN LOSS SP FAN VEL .075 10890. 4.75 3.75 4.80 1245. FAN DESIGN MAX NC CEILING FAN FITTINGS DESIRED TYPE METHOD LEVEL EFFECT(DB) EFF% NOT USED VELOCITY DRAW THRU MAX. H.P. 35 10 80. NO LIMIT M CALCULATE INSULATE MAX % RATIOED FIXED RUNOUT DUCT HEAT. ALL SUP AIR DOWNSTREAM DOWNSTREAM PRESSURE PICK UP DUCTS INCREASE STATIC PRES. STATIC PRES. BALANCE YES YES 0. .50 .00 .70 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network PROGRAM INPUT TRUNK DUCT DATA .: TRNK UP LENG NO. TKOFF DIVER MAX # CON FIRE SP VEL OUT TEMP INS LIM UM # ANGLE SITY SPC STRICT DAMP LOSS DUCT RATIO DUCTS FIT TRNK 45 90 AVM' 1 -1. 30. 0 1 0 NO 0. 0 2 1. 10. 0 0 90 NO 0. 0 3 2. 5. 0 0 0 NO 0. 0 4 3. 5. 0 0 0. NO 0. 0 5 4. 5. 0 0 0 NO 0. 0 6 5. 7. 0 0 0 NO 0. 0 7 6. 5. 0 2 0 NO 0. 0 8 1. 8. 0 0 0 NO 0. 0 9 8. 5. 0 0 0 NO 0. 0 10 9. 5. 0 0 0 NO 0. 0 10 TRUNKS SPECIFIED FOR THIS SYSTEM . 00 50. 1.10. I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 . 00 50. 1.10 I 0 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** . For exclusive use by: Trane Customer Direct Service Network PROGRAM INPUT RUN -OUT DATA 47 DUCT CONN TAG UNIT UNIT RUN -OUT FITTING UNIT DESIRED ROOM -NC ADDTL NUMBER CFM TYPE LENGTH TYPE (SIZE) ROOM NC CORRECT SP LOSS 2 G7B 1500. VCCDE 16. 0 2400 35 0 .00 3 G7A 1500. VCCDE 16. 0 2400 35 0 .00 4 F7D 1200. VCCDE 16. 0 2400 35 0 .00 5 F7C 750. VCCDE 16. 6 F7B 720. VCCDE 16. 0 1100 3 5 0 .00 7 F7A 720. VCCDE 16. 0 '1100 35 0 .00 8 G7C 1500. VCCDE 16. 0 2400 35 0 .00 9 G7D 1500. VCCDE 16. 10 G7E 1500. VCCDE 16. 0 2400 35 0 .00 RUN -OUTS SPECIFIED FOR THIS SYSTEM * * * * * * * * ** CUSTOMER DIRECT - SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network ERROR AND DIAGNOSTIC MESSAGES 4: - Y * UNIT STATIC PRESSURE REQUIREMENT AND SOUND POWER PERFORMANCE BASED ON AUGUST 1987 CATALOG. * NOTE: THE ROOM NC OUTPUT IS VALID ONLY IF THREE PARAMETERS ARE MET. 1) THE ACTUAL SOUND POWER LEVEL OF THE FAN IN THE THIRD OCTAVE BAND IS AT LEAST AS LOW AS THE LEVEL OUTPUT. 2 A 90 DEGREE ELBOW IS INCLUDED IN MAIN TRUNK BETWEEN FAN AND FIRST RUNOUT. 3 ) NON -METAL FLEX DUCT IS USED BETWEEN THE VARITRANE UNIT AND THE DIFFUSER. * IF VFCD VFWD OR VFED UNITS WERE USED, THE SOUND OUTPUT IS FOR THE PRIMARY SIDE * D RUNOUT DUCT STATIC PRESSURES ARE ADJUSTED FOR ALTITUDE. UNIT SPECIFICATION TABLE HAS SEA LEVEL STATIC AND ALTITUDE STATIC IF BELOW .072 AIR DENSITY. * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network OPTIMIZED AIR DISTRIBUTION SYSTEM ( BLOCK CFM FROM THE FAN ((INCLUDES DUCT HEAT PICKUP) FAN TOTAL STATIC PRESSURE A �IN AT SEA LEVEL 4.92 AT ALTITUDE... THIRD FAN SOUND BASED ON ASSUMED FAN THIRD OCTAVE BAND SOUND POWER LEVEL OF......... TOTAL PEAK CFM AS INPUT 10891. AFTER DUCT HEAT PICKUP... DIVERSITY OF THE SYSTEM 100% 11300. 4.92 5�DB 95 DB 11300. * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network TRUNK DUCT DATA CRUNK UPSTRM CFM DUCT DUCT MAX # # FITTING FIRE STATIC INS DIVER # TRNK DIAM LNGTH SPACE CNSTR ELBOWS DAMP (ALT) SITY 45 90 1 -1 11300. 28. 30. 0. 0 0 1 REDUCER .69 I NO 2 1 6650. 24. 10. 0. 0 1 0 Y FTG 1 .75 I NO 3 2 5103. 22. 5. 0. 0 0 0 REDUCER .78 I NO 4 3 3554. 18. 5. 0. 0 0 0 REDUCER .74 I NO 5 4 2309. 16. 5. 0. 0 0 0 REDUCER .81 I NO 6 5. 1522. 14. 7. 0. 0 0 0 REDUCER .83 I NO 7 6 763. 12. 5. 0. 0 0 2 REDUCER .87 I NO 8 1 4650. 20. 8. 0. 0 1 0 Y FTG 2 .74 I NO 9 8 3104. 18. 5. 0. 0 0 0 REDUCER .81 I NO 10. 9 1554.'14. 5. 0. 0 0 0 REDUCER .85 I NO * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network RUN -OUT DATA UCT UNIT UNIT ELEC COIL DESIRED NC DIAM LNGTH FITTING ORIF SP CFM SPEC KW STGS NC ACTUAL 2 1547. VCCDE2400 3 1549. VCCDE2400 4 1245. VCCDE2400 5 787. VCCDE1100 6 759. VCCDE1100 7. 763. VCCDE1100 8 1547. VCCDE2400 9 1550. VCCDE2400 10 1554. VCCDE2400 . 00 . 00 .00 .00 .00 . 00 35 25 35 25 35 27 35 26 35 24 35 24 12. 16. 45 T 12. 12. 16. 45•T 45 T 8. 16. 45 T 8. 12. 16. 45 T 12. 16. 45 T 12. 16. 45 T DIAM ALT .00 .60 .00 .60 . • 00 .37 .00 .35 .00 .59 .00 .58 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network STATIC PRESSURE ANALYSIS OF RUNOUTS RUNOUT TRUNK RUNOUT RUNOUT RUNOUT RUNOUT STATIC ORIFICE DIST. SP SP REQUIRED UNIT DWNSTM OVER DIA FROM AVAILABLE SP SP SP PRESSURE FAN 2 .75 .60 .35 .07 .28 .25 .00 40. 3 .78 .60 .35 .07 .28 .25 .00 45. 4 .74 .69 .35 .04 .31 .34 .00 50. 5 .81 .37 .35 .07 .28 .02 .00 55. 6 .83' .38 .35 .07 .28 .03 .00 62. 7 .87 .35 .35 .07 .28 .00 .00 67. 8 .74 .59 .35 .07 .28 .24 .00 38. 9 .81 .59 .35 .07 .28 .24 .00 43. 10 .85 .58 .35 .07 .28 .23 .00 48. * NOTE: ORIFICE INTERVAL CAUSED STARRED OVER PRESSURES TO BE GREATER THAN STATIC PRESSURE BALANCE TOTAL PRESSURES AT SEA LEVEL WITHIN TRUNK DUCTS TRNK # TP TRNK # TP TRNK # TP TRNK # TP TRNK # TP 1 1. 2 1. 3 1. 4 1. 5 1. 6 1. 7 1. 8 1. 9 1. 10 1. :: * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: ROUND DUCT DIAM (IN) 12 14 16 18 20 24 28 TOTALS 85.0 NOTE -THE DUCT WEIGHT IN LBS DOES NOT INCLUDE A WASTE FACTOR. GAUGE THICKNESS BASED ON SMACNA RECOMMENDATIONS CHECK PROGRAM PREFAB DUCT LBS /LINEAR FT AGAINST ACTUAL PREFAB DUCT WEIGHT. FEET OF INSULATED TRUNK DUCTS 85.0 QUANTITY OF INSULATION ON TRUNK DUCTS 503.4 SQ FEET UPSTREAM TRNK DIAM 12 20 24 28 Trane Customer Direct Service Network TRUNK DUCT MATERIAL SUMMARY LENGTH SURF AREA THICKNESS GALVANIZED STD GAUGE DUCT FT SQ FEET GAUGE STEEL LBS LBS /LINEAR FT 5.0 15.7 26 . 14.2 3.04 12.0 44.0 26 39.8 3.50 5.0 20.9 24 24.2 5.10 10.0 47.1 24 54.5 5.73 8.0 41.9 24 48.4 6.37 5.0 28.8 24 33.3 7.00 10.0 62.8 24 72.6 7.77 30.0 219.9 22 309.2 11.07 TRUNK CONNECTION MATERIAL SUMMARY 90 DEGREE 45 DEGREE ELBOWS ELBOWS 2 0 0 1 0 1 1 0 ?OTALS 3 2 481.2 596.3 FIRE DAMPS 0 0 0 0 0 COUPLERS. 0 0 0 0 PREFAB WT DUCT LBS 15.20 42.00 25.50 57.30 50.96 35.00 77.70 332.10 635.76 * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network " TRUNK TRANSITION MATERIAL SUMMARY 4 - ....REDUCER.... ..45 DEGREE.. ..45.90 DEGREE.. ....Y FITTING.... ,:. UPSTRM # DWNSTRM # DWNSTRM # DWNSTRM # DWNSTRM DWNSTRM DIAM DIAM DIAM DIAM DIAM 1 DIAM 2 FAN 1 28 28 0 0 0 0 0 0 1 24 20 24 1 22 0 0 0 0 0 0 0 22 1 18 0 0 0 0 0 0 0 20 1 18 0 0 0 0 0 0 0 18 1 16 0 0 0 0 0 0 0 18 1 14 0 0 0 0 0 0 0 16 1 14 0 0 0 0 0 0 0 14 1 12 0 0 0 0 0 0 0 TOTALS 7 REDUCERS 0 45 DEGREE 0 45 -90 T 1 Y- FITTINGS * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network RUNOUT MATERIAL SUMMARY RUNOUT FLEX DUCT 90 DEGREE C 90 DEGREE 45 DEGREE STRAIGHT OR DIAMETEER FEET TAKE TAK TAKEOFFS REDUCER 12 96 0 0 TOTALS 144. 0 . 0 . 6 9. 0 0. VARITRANE UNIT MATERIAL SUMMARY RATED CFM 300 600 1100 1700 2400 3200 4200 TOTAL UNIT TYPE VCCDE 0 0 '3 0 6 ' 0 • * * * * * * * * ** CUSTOMER DIRECT SERVICE NETWORK * * * * * * * * ** For exclusive use by: Trane Customer Direct Service Network VARITRANE UNIT SCHEDULE DUCT UNIT TRANE UNIT INLET CONTROL DESIGN MAXIMUM PROJECTED CONN TAG MODEL # SIZE DIAM(IN) TYPE CFM* UNIT ROOM NC PRESSURE LEVEL DROP (SEA LEVEL) ELEC 1547. .07 25. ELEC 1549. .07 25. ELEC 1245. .04 22. ELEC 787. .07 ELEC 759. .07 26. ELEC 763. .07 , 26. ELEC 1547. .07 25. ELEC 1550. .07 ELEC 1554. .07 24 2 G7B 3 G7A 4 F7D 5 F7C 6 F7B 7 •F7A 8 G7C 9 G7D 10 G7E VCCD 2400. 12. VCCD 2400. 12. VCCD 2400. 12. VCCD 1100. 8. VCCD 1100. 8. VCCD 1100. 8. VCCD 2 12. VCCD 2400. 12. VCCD 2400. 12. * ADJUSTED FOR DUCT HEAT PICKUP toilet exhaust system design (4) PROJECT EL' 1P — 454a z - 9-4 / Asz FIG. BY 4 . �'` • X.23771 REV. 5/90 CHECKED BY BE &C ENGINEERS P.O. Box 3707 Seattle, Washington 98124.2207 Mail Stop: JOB NO. DATE 3 'i 9z SHEET Z OF? F & 1741 -" � c`S J 0 • 7 0 " 65 Foot /71 i✓ NO cvci 42 '.,• C , - 3 a ?: ( F?A ) c3,s"'" = ZSO ,,,e( .4 r > ..` ,1 / p ,., 5 , tA/M=C , 5 . 40 fro" MODEL DRIVE; , RANGE HP ' • RPM 'TS' • STATIC PRESSURE v. 0.000 0.125 0.250 0.375 0.500 0.625 0.750 0.875 1.000 1.250 Sone1BHP SoneIBHP Sone1BHP Sone1BHP Sone1BHP Sone1BHP Sone1BHP Sone10HP Sone[BHP Sone1BHP •• 'GB :. 300.3 • . R 1 . . 113 250 1998 ' 4049 • 2875 • MID r•• 9.7 10.10 4.7 10.11 I 1 I 1 ( o 1 280 2235 • 4535 • 3567 ` \• OR t e5 9.4 10.15 5.0 10.16 1 1 1 1 1 r 1 1 I 310 24 • 5021 4175 • 2616 BSI I o � I'S r• 9.3 0.20 5.4 0.21 4.7 0.19 r a fA1 , 111 ° k 335 2674. 5426 4661 3579 r 9.2 0.25 5.8 0.27 5.3 0.26 ������ r 365 2914 5912 5222 4339 9.2 10.33 6.2 1 0.35 5.7 10.35 1 1 1 1 • ( • I GB 300.5 R 112 395 3154 6398 5771 5023 3851 • 9.2 0.41 6.9 0.44 6.2 0.44 5.9 0.41 ��������J♦� 420 3353 6803 6221 5536 4640 1.. 9.6 10.50 8,0 10.52 7.0 10.53 6.5 10.52 I 1 1 t• 1 1 1 GB 300 7 R 3 314 450 3593 7289 6756 6135 5383 4192 10.5 0.61 9.3 0.64 8.3 0.65 7.6 0.65 7.1 0.60 r 475 3792 7694 �• 11.4 10.72 10.6 9.6 1 8.8 10.77 8.1 1 0.74 . 1 1 I 1 1 GB 300.10 11-4 1 505 4032 8180 7722 ' 7177 6591 5876 4766 12.5 0.86 12.1 0.90 11.2 0.92 10.6 0.93 9.6 0.91 9.2 0.85 530 4231 8584 8149 7639 7094 6455 5667 4194 • 13.4 11.00 12.9 11.03 12.2 11.06 11.511.07 10.7 (1.07 10.011.03 9.4 10.91 1- 1 I 1 GB 300.15 R 5 1.1/2 565 4511 9151 8743 8277 7764 7240 6579 5711 4004 14.6 1.21 14.1 1.25 13.5 1.28 12.9 1.29 12.3 1.30 11.4 1.28 10.6 1.22 9.5 1.04 600 4790 9718 9334 8906 8 7951 •7387 6731.• 5743 15.9 11.4 5 15.4 1 1.49 14.911.52 14.311.54 13.811.55 13.2 11.55 12.2 1 1:52 11.1 11.43 1 1 m • • r -' R 4 ! • .*. • "" • r/.e'r•1 2 i } "9T k635S:' 1 - 5070: • 10285.. ••• 9922 - •• 9530 • •-• • • 9096 • 8648 • 8163. 758 • - 6915 ' 5870 17.4 1.72 18.8 1.76 16.3 1.80 15.8 1.83 15. 1.81 14.8 1.85 14.2 1.83 13.1 7:78 11.6 1.67 9 10771 10424 10059 9648 9228 8772 8268 7698 7025 18.8 1.97 18.2 2.02 17.7 2.06 17.2 2.10 16.8 2.11 16.3 2.12 15.7 2.11 14.8 2.08 13.7 2.03 GB x .30 • R 7 { I 3 695 55.49 11257 10925 10586 10192 9792 9373 8929 8399 7817 5928 20 12.25 19.5 12.30 19.012.35 18.6 12.38 18.2 12.40 17.812.41 17.2 12.42 16.5 12.40 15.512.36 12.2 12.12 730 5828 11824 11508 11192 10822 10444 10061 9641 9196 8679 7398 21 12.61 21 12.66 20 12.71 19.81 2.75 19.5 12.78 19.112.79 18.612.80 18.0 12.80 17.312.77 15.012.64 760 12310 12007 11703 11357 10996 10629 10241 9835 9369 8293 23 12.94 22 13.00 21 13.05 21 13.09 21 13.13 20 13.14 19.813.15 19.313.17 18.613.15 16.813.06 GB 300.50 R•8 5 795 6347 12877 12587 12297 11977 11633 11284 10932 10544 10156 9206 24 13.37 24 13.42 23 13.48 23 13.53 22 13.57 22 13.59 21 13.60 21 13.62 20 13.63 18.813.56 825 6587 13363 13083 12804 12506 12174 11840 11501 11143 10769 9908 25 3.76 25 3.82 24 3.88 24 3.93 24 3.97 23 4.01 23 4.02 22 4.03 22 4.05 20 4.01 860 6866 13930 13662 13393 13119 12801 12483 12158 11833 11475 10708 27 14.26 26 14.32 26 14.38 26 14.44 25 14.49 25 14.53 24 14.55 24 14.56 23 14.58 22 14.57 890 7106 14416 14157 13897 13638 13335 13027 12716 12402 12072 11379 28 4.73 28 4.79 28 4.85 27 4.91 27 4.96 26 5.01 26 5.03 25 5.05 25 5.06 24 5.09 lIKIIIIIIIMMIIIII 111111111111111111/>1.10'■ METAL THICKNESS 11.111 Dun Root Opanlnn Curb Cap W b Stroud Moles Comport 30 1 BHP _ - .064 .040 .080 .040 208 � ti MID 11111116 ME III ■ ` \• OR e5 %i 0 all % 03 1 BSI I o � I'S PILIIIL r a fA1 , 111 ° DIMENSIONAL DATA METAL THICKNESS Approx. Wright PO Dun Root Opanlnn Curb Cap W b Stroud Moles Comport 30 3215 .064 .040 .080 .040 208 GB -300 4.111 w) :r:.. i f.) �! Nf Viiigi; 4y MAXIMUM BHP AT A GIVEN RPM - (RPM /517)' MAXIMUM RPM - 890 ((RPM above 600 must have a reinforced whe MAXIMUM MOTOR FRAME S 1.75 1.50 1.25 C) ai 1.00 N V 'in 0.75 63 0.50 0.25 0.00 0 1 Performance shown is for Model GB without inlet or outlet ducts. BHP does not include drive losses. The sound ratings shown were obtained in accordance with AMCA Standard 300.Fig. 12. Loudness values in sones at a distance of 5 feet were calculated in accordance with AMCA Standard 301. Tho AMCA Certified Ratings Sound Seal applies to sone ratings only. 25 2 5 61 7 8 9 10 11 12 13 14 15 CFM x 1000 3GREENHECK • ac unit selection for repro room chilled water room equipment load overhead valve system to handle lights Chi led ater Module Perf ance Data Model CEMC - Total MBH Net Cooling 72° DB/50% R.H. ENT. AIR Net Cooling 72° DB /45% R.H. ENT. Air Net Cooling 75° DB /50% R.H. ENT. Air Chilled Water Flow Rate @ 45° Pressure Drop psi /FT.® Airflow - Nominal CFM at 0.5" E.S.P. Blower Motor(s) HP Motor(s) F.LA. @ 460V Coil Face Area - SQ. FT. # of Rows/Fins per Inch Standard Electric Humidifier0- LBS/H.R. Humidifier F.L.A. @ 460V Standard Electric Reheat - MBH® Standard Electric Reheat - K.W. Reheat F.L.A. @ 460V Unit Max. F.L.A. Mode Unit Max. F.LA. @ 460V0 Physicial Dimensions - Inches Length - Single Cabinet Length - Split Cabinet Approx. Crated Weight - LBS. Chilled Water Conn. (2) - F.P.T. Sensible MBH Total MBH Sensible MBH Total MBH Sensible MBH E.W.T. - GPM 36 05 30. 0 r',3'r 10C 11117MrZIF.M7AMOrsalir 30 r •.6 53.3 r dr/llanuall. rAllr • 281.2 4llE! �A 53.3 - 111FAIMIr 0.4 r 126.74 r.6 r 08.3 AlEndilw, .2 1E7- EMI n2211V 102.6 I MEMr 54.0 AIEFAIIIKAIMIr 308 `_ 53.3 84.3 A 10 ," 7.6 .��',� ® * -1 r�i 66.8 Qr- g '. ' 161. /RE741111" 80.0 AIIIIEr,AIIr 14.4 I 58.1 ralirr 109. ".6 r 65.4 ,F-���" - 12 . 18 /� . 36 A�.��r 64 4 7 r : .3 1 19.' 6.5/15.0 6.5/ ..0 r� /13.8 7.9/1: ! 8. .0 r .1/18.5 7.9/ 19.0 1111117411 2900 , <50 P 500 6 AEI 500 10,1 •' ,500 WV IAMII 1 '/ 2 AB, . I © ©, VI 6 4 R ' 5 UMW 2 . 3 ��r 4.0 4.0 v,���, 8.0 i.lr 13.4 NOVA 5.5 r 8.1 9. 411111FAIIr®i Mr NEM 5/8 5/8 4 r 1F ' 6/1 '�,��r ®AIrr UMW 12.5 ErAllinr4 aFZ A V 25.0 AllinAlr 25.0 0 duerA 5.0 r 5.0 ' 5.0 A wr A mor 5.0 10 'AI WAN 24.8 �,���r 56 ' r .0 r 96.9 :IF V 6 i 6 ��� 6 r,�Ar ® / �- dffr.41 7.5 r ®r ®AIW.0 r 15.0 AIETAMZEIr ' W_ ARV umid' ation Stand AtEMFA�,-- r 9.2 9.8 AI 1 0- Allr,a�r 23.0 AB- -• 4 ' _- -4MIr „1r de x 7 Hi ®' --- ' 9 39 F ® ,1111FAIIIr� 92 ANIVAIIIV 106 Air ®' I N/A 11117AIIVIENVIZEVAIEr •9 r,dai +39 All 875 ro20 1110 ,lli'r`'- 80 r.A177A X40 r ,•. maul mim.rAgrAiermialurigswAsrAwAlrAmnier Notes: 0 All F.LA.'s based on 460V/3 ph/60 Hz. service, to ob n approximate F.LA. at other voltages use the following: x 2.2 @ 208V., X 2.0 @ 230V., X 0.8 @ 575V O Pressure drops are for valve + coil combined 0 Models 25 +30 equipped with electronic cyclinder type humidifier O Includes blower heat 0 Split systems: Add 0.6A on model 12, add 1.3A on model 15 0 Upflow plenum unit height, add: 10" for up to Model 20, 22" for Model 25, 24" for Model 30 O Model 25 +30 upflow units are 44" wide 0 See floor plan drawing for connection sizes and location 25. 2387(5/1/8 April 13, 1992 4- 7130 -AK -92 -0828 To: R. Kernahan 6Y -73 Subject: EEIP -9- 101 -Phase 2D Reprographics Room HVAC Design Assumptions Note: The following reprographic equipment and corresponding heat gains are being used as HVAC process space heat gains for load calculations and equipment selection basis. Reprographic Equipment 1. Large copier (EBS 680) • 2. Large copier 3. Mid volume copier 4. Mid volume copier 5. Mid volume copier Equipment Heat Gain (BTU /hr) 20,000 18,000 7,000 7,000 7.000 Load Total 59,000 Al Killip 4 -7130, 6Y -73 477 -1853 22P WITH I " SOUNDL I N I NG AND PERFORATE SHEET METAL L I NER 3 EX !Sri NG OA INTAKE TO IS T FLOOR WI TH F DAMPER AT 2ND FLUOR SLAB REVISION RECORD DRAM' NG I SSUE FOR EE I P '' PHASE 2-D !Il! rq CATWALK a 20 411 11 !iI 12/24 RETURN �'G13 LLE' (TYP) i „r i r • 40.0CF J IA 120(2 TYP 'I 68 / 6 SOUND LI'NEC) . ' . i t4F E l MF ry i AL /up `I (' ROOF OPEN I NL,, Q FM,'1 / �2� :( .t• ) } . :2fi�/ n TA 0(4 TYP) ---10 (4 TYP) RFvISII.DN 375 CFM/ CD TYP ` 12 CO—. —.100(4 TYP, ,,.ate —, ....s. 240 CF' T TYP ! se LZ 9Z SZ hZ ? £Z ZZ IIII IIII I I I ( �IIIIIi1III�IIIIIiIi�I�Il li�lllllk IILlllllll r SUFPUR FROM ' "UN I�,T ,IN ROOD BEAM ,ROOF 1 ; ,AL ± ,d .�C� fi r' _., .. �.. _,1 % ., r ,� ,1 EMPERATURE SENSOR' TO ALARM -'PANE'L, OWO (� Ov I O 1- -2 ?,4 2002 (56-7 =- v.; y , .5 . , / 4/24; F ; -- -� i \ 1 ' z T, 0 CONTROL 1 N DAMPE:R N / ?,.5 I ( T E PERAT SENSOR TO ALARM PAI`JFL ` SEE D,WG 109 -[4'1 - 2241 , F -1 I\ + 2002 L _ _ I \ I . s 1 / ` \� ti ; O AUBURN , WA . 98002 O BELLEVUE WA 98007 O KElTET T WA ; 98201 98031 O PORTLAND , OR . 97220 O RENTON , WA . 98055 SEATTLE , WA. 98124 !Ott: If the microfilmed document is less clear than this notice, it is due to the quality of the .original. document. at Lt 9t St ,L CI et tt dl, 6 111 i�1U11 ll t l!iI1 l 111 Ii 11111I 11111111 :<. � , 1 . I ! !111 ... I ( 1 Illl r _:�. s ,./. t -' „, ,q•t.. .`Std l� k#:, Y .s r �� e r rY r .� s.., ` v ;- , r•/ h°�4 ".,T.�� ACCEPTAE31LITY K.BUN This DESIGN AND /(P SPECIFICAi1ON:IS APPROVFD 9 S t £ T li± ItIUII 111illllll1lii 111Th IIII !ITIIIIIII _SicaRil 1/8* 1' -O" 14-QUIL ©s© STATi C PRESSURE SENSOR T-STA, LOCATED I N RETURN GRILLE Lij DIFFUSER BLANK-OFF SECTION 0 24/24 EGGCRATE RETURN GRILLE -s \...Al,+ FLEXIBLE DUCT WITH VOLUME DAMPER ... MEDIUM PRESSURE EXTERIOR INSULATED SF I RAL DUCTWORK LOW PRESSURE SOUNDL I NED DUCTWORK VAV TERMINAL UNIT I ...T: t CA. L P L G NG Pert No FILE COPY I understand that the Plan Check approvals are •.object to errors and omissions and approval of plans does not authorize the violation of any adopted code or ordinance. Receipt of contractor's copy of approved plans acknow • gaud. By .1 • • 4 MEDIUM PRESSURE EAST 'EST 0 HANGER. : SE E DETAIL 2M12 {f•A5i0 PERMIT CENTER r'2V2.9 LOWER LEVEL: UN I STRUT DUCT HANGER. SEE DETAIL ` ?M12 M510 MEDIUM PRESSURE ` NORTH /SOUTH DIJCT HANGER. SEE. DETAIL LOWER LEVEL STRAP DUCT HANGER, SEE DETA I 8 -') : 9 2MI?1M510 MEDIUM 'RESSURE DUCT ACCESS PANEL. SEE DETAIL 2M i2 M5.. LOW PRESSURE-DUCT ACCESS PANEL. SEE DETAIL 2 2M121M51 a, L.. GENERAL NOTES: . S I Z E OF FLEX RUNOUT I S SAME AS DIFFUSER NECK UNLESS INDICATED OTHERWISE. 2. FOR VAV U N I T DUCTWORK, SEE DETAIL (3 ' 2M: 21MS I 0 3. FOR ANU DETAILS AND SECTION, S F -JAILS , 2MiaM5 4 . INSTALL EARTHQUAKE TABS (2 PER DIFFUSER) ON ALL DIFFUSERS AND ATTACH W I T H i2 GA WIRE TO UN I STRUT GRID, 2lI5 I p >— INSTALL ALL DUCTWORK, VAV , S DIFFUSERS 1" AND RETURN GRILLES AS SWAN, ' - INSTALL NEW FIRE DAMPER AT FLOOR "I N EXISTING DUCT WITH 16 GA SLEEVE AND S -CLIPS ON TOP AND BOTTOM ' REMOVE MAN BARS AND INSTALL. ACCESS DOOR' ABOVE FIRE DAMPER. FIRE SEAL DAMPER TO FLOOR WITH CEMENT GROUT' . RE INSTAL L MAN BARS SO AS NOT TO I NTERFER "WI ThI OPERATION OF FIRE DAMPER FIRE ` DAMPERS W I L L BE PROVIDED BY THE SHEET .METAL CONTRACTOR. pl. !! fING IBV : 4 iAK 0 e! . { F ? 92 • BE &C ENGINEERS LAST REvEsi SY.v43 SItti;I_ .. _ KHB/06 , 30.92/09;' 1 ISSUED FOR PHASE 1µC CONSTRUCTION E IP IC CONVERTER STATION 'ISSUE FOR ' E E I P PHASE 3 E I SSUE FOR E E I P ' D BOO CFM REVISION 2 TYP V2 tZA 120- CD 375 12 2 TYP 21 r t . - 1 L 11. X47 L :Alf = 00 6z se L'e 9z 10164 If 1111i1Ii111111illili4l llIIIf1111'1 24 UP TO • 400 CFM 6 '"�• z qa G7s H Jg ,144ILL r 120 (4 TYP III I 1111 375 CFM 4 TT r EEIP PHASE 2- DIWORK _UNDARY A sWr w A s,�w a .r errw. w w iswr w. r..aw v. +sw. w sw.w uP r •Or• N — ° em's au swam r rs ooirrw Me as Mas w .M aloha r� rtw.w as e weo N as ~re weer PHASE 2- APPROVED DATE DK KR 3.14,91 DK KR ` 4 1 191 GS KR 03.09.92 07:06:92 1t�S1::.4 LLeG• ".o+i � < A 2MI7IM5I3 13 Qz 61. 8i • Li 91 91- Iii II{ I il 11;, I !llll!IILIIIIIliillllliilil luli111 11IH1ffI11U111�llill ...emon...aw.n....ow ennonenaminar D (TYP) 0 AUBURN WA . 98002 0 BELLEVUE , WA . 98007 0 EVERETT WA ., 98201 0 KENT , WA 98031 0 PORTLAND ,dR.97220 P 0 ENTON, WA . 98055 MI SEATTLE , WA 1 '9 12.4 250 CFM 4 TYP 3 8 NOTE: If the microfilmed y document is less clear than tflis notice, i is due to the quality of the priginal document. C l zi LL 411 111111111 1 04 (4 TYP ) I 00 (3 TYP ) ti; W1. rr:t Zm • - era: =xrrc. .... , 111111II`111 1`. II 11 III` i,l I11 11 ._ - 11 il . II .,. , 'Iti #1 11 $111111111111 11111111111111 111111111 11111111 I I 9 1 0 11 MAOEINDEQMAnv 12 250 CFM CD 3 TYP Its 12/I2 ACCEPTAB I L I TY THIS DESIGN AND/OR 'SPECIFICATION IS APPROVED DEPT . DAtE EXISTING OA INTAKE TO 1ST FLOOR WITH FIRE DAMPER AT 2ND FLOOR SLAB Q STATIC PRESSURE SENSOR �.. ---� T-STAT LOCATED I N RETURN GRILLE D i FFUSER BLANK —OFF SECT I ON 2.4/24 EGGCRATE RETURN GRILLE -AN.... AM-f- FLEXIBLE DUCT WITH VOLUME DAMPER VAV TERMINAL UN • MEDIUM PRESSURE EXTERIOR INSULATED SPIRAL DUCTWORK LOW PRESSURE SOUN DLINED DUCTWORK MEDIUM M PRESSURE EAST/WEST DUCT. HANGER. SEE DETAIL 4 2M 12 rM5 I 0 101:. 2 COL E -J/641 RECEIVED CITY OF TFIKWILA 2141611: 2MI7 L OWER LEVEL U141 STRUT DUCT HANGER SEE DETAI 6 MEO I UM PRESSURE %NQRT! /SOUTH DUCT HANGER , SEE ^DETAJ L BEAM CLAMP AND STRAP DUCT HANGER. SEE DETAIL 2MI7 4 INSTALL FLOOR MOUNTED A/C UNIT �A ` INSTALL EXHAUST DUCTWORK AND RETURN GRILLES AS SHOW' . TRANSIT, 200 ' TO EX i ST 1NG ROOF CUftTY OF :TKW APPROVED M5' I 0 MEDIUM PRESSURE DUCT ACCESS PANEL. SEE DETAIL 7 M i1 LOW PRESSURE � DUCT ACCESS L :�,., ESSURE PANEL. SEE DETAIL 2MI 2 2M 1 `!' M5 I I N RA Y� ! . SIZE OF FLEX RUNOUT I S SAME AS DIFFUSER NECK UNLESS INDICATED OTHERWISE 2 . FOR VAV UNIT DUCTWORK , SEE DE TA I L f 3 2MI7 M5I0 3, FOR AHU DETAILS AND SECTION, SEE DE TA ! LS , 2 2MI7M5I0 4 • INSTALL EARTHQUAKE TABS 2 PER DIFFUSER) ON ALL DIFFUSERS AND 'ATTACH tWITH 12 GA WIRE TO UNISTRUT GRID, CONSTRUCT I .. INSTALL ACOUSTIC ELBOW, SEE DETAIL( 2 IA 1714 51I INSTALL ALL DUCTWORK, VAV'S,' DIFFUSERS AND RETURN GRILLES AS SHOWN, INSTALL NEW F I R E DAMPER AT . FLOOR 'IN EXISTING DUCT WITH 16, GA SLEEVE -:AND 5 -CLIPS ON TOP AND BOTTOM, REMOVE MAN 'BARS AND INSTALL ACCESS DOOR, ABOVE FIRE DAMPER. FIRE SEAL DAMPER TO FLOOR WITH 'CEMENT GROUT. REINSTALL MAN BARS SO AS NOT TO INTERFER WITH OPERATION OF FIRE DAMPER. , F I'RE DAMPERS WILL BE PROVIDED BY THE SHEET METAL CONTRACTOR . s,...- .•x�- ..x+.Yn�t�t+r, --sr +.,.r,,we.r,- .= s??.:WX•S'ik1 VetrinTI tG 410 rJ te r_ CD 25 ' 'CFM 1 2 TYP EXISTING OA 1 NTAKE TO 1ST FLOOR W I T H FIRE `DAMPER AT 2ND FLOOR SLAB AIP .r\ t` 375 FM/ CD II. /EXISTING iii { i , i , AH2 Xf N K7_B 11 i 7 11 t_, 1 \ (WAS a CFM 2 TYP XISTIN ..442440 can ra. xac 12 'oUCT 42/42 16 *NS INCH 1 2 11111111111 1 111 1 11 I I . I 1 111 1 111 1 1111 I 1111 111 I :, 1 : tz bz Kl 9 111► [I(�Illl�llll�1111 lfl�llll t' % , / 011/ /i 9 E AUBURN , WA . 98002 8E LEVUE, WA 98007 0 EVERETT t ; WA . 0`8201 El KENT , WA ` 9803,1 0 PORTLAND , OR 97220 El RENTON, WA .= 98055 SEATTLE, WA . 981 24 3 4 5 6 7 (8 ..sr�. .. .. .... �. .:_ - - r.•.. iti..,.:. a, 4tXYx l,: l': i+" :: "rLGY= :____:.nr:s_.tt"::)sa. NOTE: If the microfilmed document is less clear than this notice, it is due`to the quality of the original document. x... . � •L'.,C, .. ':. taf. < ^::� J,. I;1 DES! EXHAUST SYS FROM FORCED A I BLOWER 1 'r'v- ,t..,� v.., :;h : .'.ir^ikw Ja. et.ci.Ge:].= c •'1'a't�w;w"�M4`�, .e.a. JA'+ STATIC' PRESSURE SENSOR T -STAT LOCATED I N RETURN GRILLE DIFFUSER ' BLANK OFF SECTION 24/24 EGGCRATE RETURN GRILLE +AP FLEXIBLE DUCT WI'T'H VOLUME DAMPER MEDIUM PRESSURE EXTERIOR, . INSULATED SPIRAL DUCTWORK' LOW PRESSURE SOUNDLINED DUCTWORK VA\/ TERMINAL UNIT I 2M12 M510 RECEIVED C TY OF TUKWiux Jin., 2 0 1992 PERMIT CENTER BK= tAKSUI8 BKZO .29.9 2 p..... $2 ■ 0 �N .. fir: MEDIUM PRESSURE' NORTH/SOUTH DUCT HANGER SEE DETAIL. LOWER LEVEL STRAP DUC HANGER . • • SEE . DETAIL :r'$ 2M18 M510 BEAM CLAMP. AND STRAP DUCT' HANGER. SEE 'DETAIL/1r' 2M18 M510 MEDIUM PRESSURE DUCT ACCESS I . 2i ts M511 LOW PRESSURE DUCT ACCESS PANEL. SEE DETAIL 2M18 M511 G N E R.A, t I. SIZE OF FLEX RUNOUT IS SAME AS DIFFUSER NECK UNLESS INDICATED OTHERWISE": 2 FOR ` VAV UN I T DUCTWORK , SEE DETA I C 3 `\ J 5 t ' 3. FOR AHU DETAILS AND SECTION, SEE 2M I G DETAILS ; 2M1 &A510 510 INSTALL EARTHQUAKE TABS (2 PER DIFFUSER) ALL DIFFUSERS AND ATTACH WITH 1 GA WIRE TO Utz I STRUT GRID. OL T ! ON RIOT Ir•- INSTAL L ACOUSTIC ELBOW, `SEE DETAIL 2M1. M5i`1 I- INSTALL :ALL D lCTWOR , VAN'S, DIFFUSERS AND RETURN GRILLES AS SNQWN., �r INSiALL INSTALL FLOOR EXISTING DUCT WITH I G GA; SLE'�VE ;AND S--CL ! PS` ON TOP, AID BOTTiI REMOVE IAN BARS : At1D. { I NSTALL A CCESS DOOR ABOVE F I ^ RE DAMPER . FIRE SEAL `' DAMPER TO. FLOOR +WITH, CEMENT GROUT . RE II STALL MAN 'BARS SC AS 'NOT TO IN TERFER WITH. OPERAT I (N .OF F'I RE DAMPER . F.I RE D DAf PERS WII L.` PROVIDED` BY. °TH£ SHEET :METAL CONTRACTOR, RUN DUC TIGHT TO BO TOM 01= BEAMS (A LLOW OR - INSULATION), •TO CLEAR: CATWALK CITY OF TUKW A'P P,RO 'ED APPROVED BY . 10 M510 r AM I QK B2 K 8 �:a ' ?':I «('+'iJJ."7f °r tRt'. o-: rr.)< i'n3i''-YV,Y•: ?.11`2Y.',.pl.,�v Y. AH2 3 GUTS IDE :AIR PENTHOUSE EXTEND P DETAIL 6 RtIMSI`I <1uati:r r J a rrcIZr�r > nTL�u it ! i .__. .... _.1: 1� __�_� L 3 -1 - I 1 �_ T rl..� �. _. � ..I_ _ .L_ _Z _ ; L (I/III1III1 IIIIIIIIII1II 0 '6 THS INCH 1 - ».erw..a via ow mom ova .s , T 1 1 4 1 - -- Tr - 1 1 t T Z LI l 1 1 T i i t � _ r. w_� _ .. :_:__: : :�__� :Z_. __.... _l_ i - - - i 1 .... [ 1 _I 1 1 - 1......._. r __1.__ __T._ L._ i 'r .._ -.._� _ 1 . ____I__ -: _-__- _ - 1. ...____L i I 1 " .. 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C� DOMESTIC COLD WATER HOT WATER (Do IEsT I C) CHI LLED PPUY I LIED TR "` RA WA LEADER V _ VENT 'SANITARY ABOVE GRADE OR FLOOR - ---- -- ANCHOR GATE VALVE 4 WAY BRACE, FOR DETAILS SEE CONSTRUCTION ` NOTES: CONNECT NEW A`I`R HANDLER TO `EX ISTING NW AND CW PIPING LOOPS CONNECT TO EX` 1ST ING CONDENSATE DRAIN LINE 'INSTALL NEW I " COMPRESSED AIR LINE FR EXISTING SOURCE. :PE ROUT E PIPING TO CLEAR NEW CATWALKS- EXTEND UP TIGHT TO 'ROOF BEAM. Ix W071 21:68 2M62 i M507 I T) . i l . t t .. . Ell 2. , fz . ... • 7 : . " '. * • I , :'.. , ..*7 ;1'il, ' " "T:::. '',. '.".",, .. . 1.1.4-00“....,•••‘••••• 4": ' L:Oqi ::',. r. , . ,. ,:''' ":',, • '. '''' 2 ', t " " I NM . '''''' ... - • rt . r -4-4-' , , , ......... ,.. 19 .. ... II 1 . . , , - • , UXiSh043.&N "7/tt 1 ,1 1 -!TRIAI AO ill , set p si Ma= nummmmmin 111 WM= .1i1 / //// ,7 v . 1, / i.l. Ilitittie. F.. 40 A . 4. .1 h . . 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EL 6O-2 MIT:Z411.4r=%e=MJ=7MI:=Wt.7 .117t :A.,- ..4241 Ai: i t0: 4 01 • D ACCE ILITY AND/OR .ROSSE TITLE rtittivtb • crr -11,KwiLA JUL. 2 0 192 I Nr) I RECT DRAI N • STEAM PIPING 'ttAt■it STEAM COND I HEAT ING WATER SUPPLY . • HEAT I NG WATER RETURN 'DOMESTIC COLD WATER HOT WATER (00kIEST IC) CHILL WATER SUPPLY CH ILLED WATER IR'ETURII , PA IN WATER LEADER VENT SANITARY ABOVE GRADE OR FLOOR ANCHOR GA f E VALVE CHECK VALVE BALL VALVE GLOBE VALVE BALANCING VALVE POI fqT OF CONNECTION 2 WAY BRACE, FOR DETAILS SEE 2M67 I M507 PERMIT CENTER I tIEStfi = , 14 am Ells: LAST R$SIoN 1 ALL PIPING IS EXISTING UNLESS NOTED OTHERWi SE CONSTRUCTION NOTES: 1 CONNECT CW, SAN AND' VENT PI p ING FROM PL6 „ TO EX iST I NG PIPING FROM REMOVED DRINK FOUNTAIN E?> FOR P CONNECT TONS TOP-4 SEE SHEET .M54 I .PHASE 2-D RESTROOM AND' CONVERTER ION PACKAGE . (TO COvIPLETED WITH RESTROOM AND CONVERTER STATIOW pAcKAGE 7,-> CONNECT , TO EX I STING VALVES' ABOVE '':-RESTROOMS' „ •• AND EXTEND NEW r k:Ft'ITO'NEw , REPROGRAPHIC CENTER A/C UNIT. INSTALL, SHUT-OFF VALVES O'1 cHws 'cliwR AT U1IT1 RUN I I /2" DRAIN THIbuG1-1 WALL 1 aro PLUMB !NG CHASE , 4> CONNECT NEW AIR' HANDLER fo NG' IA , AND CW PIPING LOOPS,. ' CONNECT TO EXIST I CONDENSATE' DRAIN L I N E . INSTALL 'NEW I' COMPR AIR L FROM E X I S T I N G . SOURCE. 'ROUTE NE, ON ONDERs IDE OF CATWALK RELOCATE 6HWS,.."& R TO CLEAR NEW CATWALK INSTALL ';NEW 'SE I SM I C RACE. DATE N fi 5 :;rK�xbt :114 4 7tE7a1 217 :1: Li717G. 2M68 M5 I .Arl 1 ",' I " DUPLEX OUTLET AND CONTROL AIR CONNECTION SEE DETAIL 2M68 M509 1 /2 "DRA FN _ : ,:av 76:74:1 rya.: I111 0 16THBINCH 'HP11111111II(I 2 3` rs uax>t�,w'�n.Y -u. ACCLPTABILITY titis. DtSICN "MOJOR SPECIFICATION tS "'APPROVED z 6t 91 IL 91 GI hl k`.t Zt tt Iu i. uiI11111�11li �iirlf�l lL�Ci11�JI �II�I I��I'i l l ll�I�� l l Iv"i ,I i Iriillll ` r! rn io?• 1 , 1r ,,, II .., 11111 11I I III11 _( NOTE: if the microfilmed document is less clear than this notice, it is due to the quality of the original document. .•�e�,° ::alp ^s9 >�.n II II ' II I 11 MADE P4O RIMY 12 e t Ww p 1111111111116111 III. I111l iiylii 11inlil I \I I .1111 iih1l1 11 TLE w W.^(��.`.`w1d V_ .: "L.a . J4, � .. r...A� ✓.; .131h «ECVEh CCTV OF ILIXWILA JUL 2 0 igs2 BK =OAKBO 182 ',COMPRESSE A•IR, PLANT a STEAM `CO ,IDENSATE I P. 1;NC HEATING WATER SUPPLY HEAT ING "'WATER RETERN DOMEST I C COLD WATER HOT' WATER;" (OOMESTI CH ILI -ED WATER SUPPLY CH I LLEb WATER RETURN:. -�--- RWL PAN 'WATER LEADER V ---_ VENT SAN SAN IT ARY `ABOVE GRADE OR FLOOR ANCHOR GATE VALVE CHECK VALVE BALL VALVE GLOBE VALVE BALANCING G VALVE CONSTRUCTION NOTES: CONNECT NEW AIR HANDLER TO EX ISTI NG HW AND CW' PIPING LOOPS.. CONNECT :1'O EX IST I NG CONDENSATE DRAIN LINE. NSTALL NEW I " COMPRESSED`: AI R'L I;NE FROM EX I ST ING SOURCE. ROUTE L INE ON UNDE I.DE OF CATWALK. REROUTE P (P I'NG TO CLEAR'. NEW CATWALKS EXTEND UP TIGHT ' `O ROO B AM, 4 RESLOPE EXISTING" OA IN L INE TO ' CLEAR 'CATWALK a _ L I %2: "GAS MI .2 DRAIN vlstON ..,... PHAt Ate^ Ario4$ y L g1A 14 3�•ta 'i` f? ; .t=A 5c rcA' A►O7 -32 51k.;©AAIt MST., VC��M J� c..1-4 ,, !! /!¢ .ea.l.�wsYM R• R'•x Ml� � .. ( P'1 � J ) R.4.5 E. 3' t 4# t.4, k4.1,6. (:. t..4 L.vo ) AC,:p, ,xis LOG.. 4 T () r i ..,- - A .` ... c v4 E.% I ` x; el' Sal T4' 6Z 8G LZ 9Z GZ •Z ' CZ ZZ L'G OZ 6L 81. l IlIiii{ IIIII�I�IIIIiIl IIlJlllll�illl �IIII�II II1111Ii1!IIIi.III1,..i I �l,lJl Illlll�l 1 1�1111�11IIllllfll)IIIIIIIIIIII � ..t - ?P r�.�� ikt ; $L.itt tlotri Amt I 3 4 7 �_. 8 NOTE: If the taicrof1lmed document is less clear than this notice, it is due to the quality of the priginal document. GL 91. SL bl CI EL lL O(, ► Ir11i «Iltrr illlili��ili�hlli�ii`r MI 4528: -M3 �S, '. �.} �' iL.< �' L' 12�^ Vt. �`, �. �$ RJ' �Y4•. '�.`�^'T�^.%f,ti.'iVlt+1K.*�"Ai/ A fPRbwD Adik 2 6;4150• AfsPRCA/�I I I�I�II �Llyr III 2 3 4 5 ( AUBURN WA :0 BELLEVUE ,. illb 0 E 'EIETT.., I KENT, :0 PORTLA ID' 0 RENTO SEATTLE, .r:�.._,,.ir`, r�....:...�•, c'«:. ,fix � .,..,_....fi °�S;u..i..,w"�:at'� �.�Y,�i'�� �ar'..��a'':�.�.ts�0:: i FY ' NOTE: If the microfilmed document is Leos clear than this notice, it is dale to the quality of the original document. oc 6Z 8G Le 9e ge 17e ' cZ ez lZ OZ 61. 8l Ll 9l St hl El Zl • u l 8 1 „:n ..,.. I - IsA 1 ..�e. I I 1- i , .1,.... I 1.._: I• 1 �::I ....I v..l �� 6 Du in I _JIII�1 fI.TI oil i`i°Iiph iii Ii t iiI lints iIu t, �li�u A a:�.nS.:.r...o'.a.S,:w is 1 I I 1 1 1 I I I 1 1 1 1 1 'I 11 RADe N(aka/1Y 12 I G t ww O Il II�1l IIII lift IIIII (I rill IIIIII1 II 1 1I 111II in; I ACCEPTABILITY . tkIS DES GN ANb OR SPECIF`fCA`C1 f IS APF QVto TITLE CEILING LEVEL PENDF,Nr SPRINKLER HEAD ANC UPRIGHT HEAD AT. ROOF LEVEL PENDENT SPRINKLER HEAD 40 * UPRIGHT SPRINKLER HEAD G E ET E S THIS AUTOCAD DRAWING IS DRAWN BASED ON DATA TAKEN FROM THE FOLLOWING HAND DRAFTED EXISTING DRAWINGS: A) DWG NO. I OY--1 O I -- 4320 -M 19 , REV. D, (6-18-90) B) DWG NO 22, CONT . NO.26 -FP -313 LAST REV . DATE: 4; -28.83 C DWG NO. 23. CONT . NO 25-FP-313, LAST REV , DATE : 9- 20--77 D DWG NO. 109- I O I - 432C --K413 , REV. C,, 12 -4 -86 E DWG NO 109- - 10 I- 4,320 --M- -- I I, REV. L, 12-- 13--88 SPRINKLER SYSTEMS ON THIS DRAWING HAVE BEEN HYDRAULICALLY CALCULATED USING A DENSITY OF 0.16 GPM /SOFT AND A DESIGN AREA OF 3000 90FF. A HOSE STREAM ALLOWANCE OF 500 GPM AT THE SOURCE HAS BEEN MADE. ALL SPRINKLER PIPING WILL BE BRACED PER 'NFPA STANDARDS AS PER NFPA i5,I AND NFPA 4- 2:1.5.I ENSURE PLACEMENT OF PENDENT SPRINKLERS NEAREST WALL, IS LESS THAN 7'-6" FROM WALL TO SPRINKLER GRID, AND NO'CLOSER THAN' 4"4P A WALL TO ANY SPRINKLER. CONST;TlN N' S: i. WORK ONLY WITHIN PHASE 2 -D BOUNDARY. 2 INSTALL NEW PENDENT HEADS ( "FYP I GAL THROUGHOUT PHASE 2 - -D AREA OF THIS DRAWING). INSTALL NEW PIPING AND HEADS. INSTALL I" AIR•BLEED TO INSPECTOR'S TEST STATION. ROUTING MAY VARY SPR NKLER , HEADS SELL VIKING UPRIGHT „ 0 IEL MADE L TEMP OR ! F I <,E K QR SIZE PENDENT FACTOR �'iR�' PROTEC7`it}N SECC1Nl7 � L(?C1R PLA1� �EIF PF#AS� 2�5� FI CEIVEO CITY OF. TUKWILA Jul 2019g2 PERMIT CENTER 165' 1/2" 155' UPR'IGI= SPRINkLtl HEM) BELOW A /C, UNIT °- SPRINKLER SVXXX SPRINKLER VALVE NUMBER (FOR EXAMPLE: .5V907 MJC/ I O'I 2M261 AIR BLEED FROM SV9Or s. r .x i "usir:�ix 'in, OK a'KR OS KR AHU PLATFORM tV906' ALARM , VALVE. ON FIRST FLOOR A"MR BLEED' TO SV' # 06 ,INS EC , TE i4�iCS�• C ' bZ ' £Z ZZ �!! II(III# I1l� Ill !1111111 11�III111111 I��IIIII I�Ii�(1+a1ul�7��`ilr r `: r 11 I �. :I L 1 , 1! 1 l` i r , 1 r I i , l , . , `I [ I - , 1 � 1 , I 1 i , < NOTE: If the micirof1imed document is less clear t han this notice, it is due to the quality of the original. dutument. Z t it 6 i H1110.,(III1IIIIri 11111)11 IIiilt 11hill 3 , 9 5 7 £ v t ww 0 IIiIIIl IIIIIiIIII1111��L 1 1 1 1 1 1 1 1 1 1 1 1 1 1 , 1 I II II 10 11 MAbEt,GR1"Y 12 APTABILITY THIS D SIGN_A4D OR SPECIFICATION 15 AP'f ovEO R PIERCE, 41; GEND AND Y��Ez3 CE I L: I NG LEVEL PENDENT SPRI NkL. HEAL? AND UPRIGHT HEAD AT:ROOF LEVEL . PENDENT SPRINKLER HEAD UPRIGHT SPRINKLER HEAD UPRIGHT SPRINKLER HEAD BELOW AHU AND CATWALK . 0 -- SPRINKLER. RISER ALARM VALVE ON ' FIRST. FLOOR SPRINKLER PIPING SVXXX SECTIONAL VALVE NUMBER (FOR EXAMPLE: SV907) -� ----�- 2 WAY BRACE, FOR DETAILS SEE ,77262 };507 4 WAY BRACE, FOR DETAILS S EE I 2Nf262 M507 N Y OR S HEAD IDENTIFICATION FOR HYDRAULICS NAL S I UPPER LEVEL NODE LOWER LEVEL NODE GEBERNKTL :: I, THIS AUTOCAD 'DRAWING I S DRAWN BASED ON DATA TAKEN FROM THE FOLLOWING HAND DRAFTED EXISTING DRAWINGS: A, DWG NO, 21, CONT . NO .26 --F P -313 , `LAST REV . DATE 12-204i3 i3 B . DWG NO. 22, CONT .. NO`,'26- -FP -31'3 , LAST REV DATE: 4.-28-13 C. DWG NO .109 --10 I -- 4404 —M9 , REV. '8, 6-- 10 --85 D . DWG 'NO. 109 -101- 4478 -M I REV,' B, 1-26-87 E. DWG NO. i09— IOI- 4478 -M2, REV, A, 11 20--66 2. SPRINKLER SYSTEMS ON THIS DRAWING HAVE BEEN "HYDRAULICALLY CALCULATED USING A DENSITY O1" 0.20 GPM /SOFT AND A DESIGN AREA OF 1 500 SOFT, A HOSE STREAM ALLOWANCE: OF 500'GPM AT THE SOURCE HAS BEEN MADE: .CONSTRUCT I ON NOES 1, WORK ONLY WITHIN PHASE 2 -D BOUNDARY, INSTALL NEW PENDENT HEADS (TYPICAL THROUGHOUT E PHASE 2 D AREA OF THIS DRAWING) . INSTALL NEW PIPING AND HEADS. 4 CONNECT NEW SPR I NKLER. P I PE TO EXISTING 4" LINE. . ►- LOCATE UNDER WIDENED SECTION OF CATWALK. INSTALL I" AIR '`BLEED TO INSPECTOR'S TEST 'STATION . ROUTING MAY VARY SsU -I SSP -1. FACTOR SPR I NKL ER HEADS GRINNELL VIKING MODEL MODEL TEMP (ORIGINAL) (NEW) R tVED t Tv (W TI iKW UL 20 19 2 Ptr€ MI T CE NT E R ... ': = 3.k:'.'.3A.r.'tia AlYi•SCaS IW .. NO`�'s.. ,..'W EYPLA NO SCALE I -SL : POR PHASE 1C CONSTRUCT 1 ON EE,I P I C ADD Ct VERTER STATION PHASE '3 -E I SUE .FOR : EC I P PHASE 2- AHU PLATFORM (TYP) SEEK SHEEP 2 1" DRAIN VALVE IN DUCT CHASE ACCEP I AI3I L I `I`Y f,HIS- 0iiS1(! mDfUR SPECIMAtioN;`IS APPROVED APnRtivt,D BY DEPT CRATE �SFkfii. BLDG 9 101,2 UPRIGHT SPRINKLER HEAD UPRIGHT SPRINKLER HEAD 8ELY AHU AND CATWALK. SPRINKLER RISER ALARM VALVE ON FIRST FLOOR SPRINKLER PIPING SVXXX SECTIONAL VALVE NUMBER , (FOR EXAMPLE : SV907) 2 WAY BRACE, FOR DETAILS SEE 2M267 4 WAY BRACE, FOR DETAILS SEE 2M267 M507 NODE OR HEAD IDENTIFICATION FOR HYDRAULICS ANALYSIS N ! AND ` YM P SPRINKLER CE I L i NG` L EVEL ' . ,ENDENT AND' UPRIGHT . HEAD AT ROOF : LEVEL' PENDENT SPRINKLER HEAD . THIS AUTOCAD DRAWING I S DRAWN BASED ON DATA TAKEN FROM THE FOLLOWING HAND DRAFTED EXISTING DRAWINGS, A. DWG NO. 109-10 I -- 4320- -M 19 , REV, 0, 6-18-90 B. DWG No 22, CONT. NO.26 -FP -313, LAST REV . DATE: 4- 2$=-83 C. DWG NO 23, CONT . NO 26-FP-313, LAST REV , DATE: 9 -20 -77 D, DWG NO. 109- -- I O 1- 4320 -M 13 , REV. G, 12 -486 E. DWG NO. 109-101-4320-M-11. REV , L, 12-13-88 2. SPRINKLER SYSTEMS ON THIS DRAWING HAVE BEEN HYDRAULICALLY CALCULATED USING A DENSITY OF 0.20 GPM /SOFT.AND ADES'GN'. AREA ;: OF 1500 SOFT. A HOSE STREAM ALLOWANCE 'OF :_500 GPM AT THE SOURCE HAS BEEN MADE. CONSTRUCT 1 N N T WORK ONLY WITHIN PHASE 2-D °BOUNDARY , TO AREA WAS WORKED PREVIOUSLY AND IS EXCLUDED. 'INSTALL 1- NEW PENDENT HEADS (TYPICAL THROUGHOUT PHASE 2 =D 2 OF THIS DRAWING) . 3:> INSTALL NEW PIPING AND HEADS CONNECT NEW SPRINKLER PIPE TO EXISTING CAPPED LINE. �► INSTALL 1 AIR BLEED TO INSPECTOR'S TEST" TAT i ON ROUTING MAY VARY: `165' SPRINKLER HEADS GRINNELL V I IC I NG MODEL I MODEL TEMP (ORIGINAL) ( NEW) RECEIVEb CITY OF T'U`WILA JUL 2` 0 '1992 PE�11T CENTER VitrA 21/'6 214261 51 M507 FACTOR ElE &c • ENGINEgRS LAM 'h VI $100 SHEEP �..c. ►. 1' 05= , 07/90133 AOCEiTABILITY 1115 ;DESIGN AND/OR $ APPROVED CE CEILING L •VEL+. PENDENT .SPR 1 NKLER AND UPRIGHT.: - HEAD A RQOF LEVEL PENDENT SPRINKLER HEAD UPRIGHT SPRINKLER . .HEAD -K-- UPR I GHT SPR INKS: ER + HEAD 'BELOW AH AN CATWALK ! • --- SPRINKLER. RISER I I, ALARM VALVE' ON FIRST FLOOR ---� -. SPRINKLER PIPING SVXXX SECTIONAL VALVE NUMBER (FOR' EXAMPLE; SVP07) 4 WAY BRACE, FOR DETAILS SEE 2M268 M507 xx} NODE OR HEAD IDENTIFICATION FOR HYDRAULICS �\ ANALYSIS GENERAL NOTES: I. THIS AUTOCAD DRAWING IS DRAWN BASED ON DATA TAKEN FROM THE FOLLOWING HAND DRAFTED EXISTING` DRAW! NGS A. DWG NO. 2 1 , CONT NO.26 -F P-- 313 , B. DWG NO. 22 , CONT . NO.26 —FP-3I3, C. DWG NO. 109— I'01 X4484 -M 1 , REV. E, D. DWG NO! 1O9 —I01- 4416 -M9, REV. A, 2 SPRINKLER SYSTEMS ON THIS DRAW! NG HAVE BEEN HYDRAULICALLY CALCULATED USING A DENS IITY OF 0.20 GPM /SOFT AND 'A DESIGN AREA OF 1500 SOFT. A HOSE STREAM ALLOWANCE. OF 500 GPM AT THE SOURCE HAS BEEN MADE CONSTRUCT ! . .N TE : I WORK ONLY W I TH IN PHASE 2-D BOUNDARY . INSTALL NEW PENDENT HEADS TYP I CAL THROUGHOUT ( PHASE 2—D AREA OF THIS DRAWING). L INSTALL NEW PIPING AND HEADS CONNECT NEW SPRINKLER P I P E TO EXISTING CAPPED ' LINE. : REPLACE UPRIGHT HEADS WITH PENDENT TO SUIT ADDED CEILING INSTALL 1 " A l R BLEED TO INSPECTORS TEST STATION, ROUTING MAY VARY, 214281 / FIRE PRO'f�CTION SEC�Pl� FLOOR L MECH ANICAL EEIP PHpBE 2 p � D� / � -p* RECEIVED `SCALE cm , OF TUKWIto . J Lft 2 0 1532 `. . PERMITCENTER 9084 .. ENQINEER LA$T t EVIStON a AH2G3A SOUND POWERS BASED ON FREE DISCHARGE FAN (NO DUCT) WITH INLET VANES, POWERS ARE AT FAN DISCHARGE OUTLET. AHU OPTIONS: STAINLESS STEEL DOUBLE CONDENSATE DRAIN PANS WITH INSULATION EXTENDED LUBE FITTINGS TO DRIVE SIDE OF AHU, INTERNALLY INSULATED F I LT /MIX BOX AND RIGID FILTER SECTION 3-15 PSIG FACTORY INSTALLED PNEUMATIC ACTUATORS AND LINKAGE LOW LEAK;, EXTRUDED ,ALUMINUM DAMPERS AMU S'TO,13E SHIPPED BROKEN DOWN INTO FAN COIL, RIGID FILTER, W AND F I LT /MI;X BOX SECTIONS 3 LB/SO FT INSULATION DENSITY INTERNAL ERNAL INSULATION I N FAN CABINET, WITH PERT SHT MTL LINER ALLEN BRADLEY MOTOR STARTERS AND DISCONNECTS FACING FAN' `'DISCHARGE INTO AIR STREAM. 2EYi "S ION RECORD DRAWI (R ED RAW { I SUE`` POR'.3 E'`AHU PURC ASE' 'IS SUE_' F'OR: EE:I ! PHASE' 3 - P HASE 2-D 2 P' AT TH 01 AW LE ED ROW A CL 116 P : AT THR A . - 2 0 2 LE ED CiVV �IAY CL. SS 15350 2 PLEATEE D 'THROWAWAY CLASS II .T .., 12600 THROWAWAY, 00 PLEATED THR A AY 26 2 PLE TEU C!W V+f CLASS 1 . ` i4390 2 PLEATED THROWAWAY CLASS II 13455 2 I THROWAWAY CLASS , 11 H6 -K8 INTERIOR el3y' ?A::u� SUPPLY FAN',. SECTION AE SOUND POWER MAX TbTAL ST,AT�I C OUTL T . AoPROX INLET . PRESSURE VELOCITY RPM GUIDE: `I NCH DWG 1= PM VANES ASHRAE BAND (AEF 'I OE <P- 12 W) 1 2 3 4 5 6 7 0c 6z e� 1111141 �i� lil�rl'�i,� llllll�' L lip l�lll�IIIIIJi�lll (Il�111`I' 0 16 TH$ INCH 1 2 13455 4 89 1286 17 ' 10 0.75 12" RIGID THROWAWAY, CLASS I Or75 I2 RIGID THROWAWAY, CLASS I 0.75 12 RIGID THROWAWAY , CLASS I 0 75 12 " RIGID THROWAWAY, ` CLASS 0:75 12" RIGID THROWAWAY, CLASS I . 7 - 1 RIGID THROWAWAY, CLASS 0 5 2 IG D TH C�1 Y, CLASS I » 0.75 12 RIGID THROWAWAY,' CLASS I 0.75 12" RIGID THROWAWAY, CLASS I 0.75 12" RIGID THROWAWAY, CLASS I 0.75 12 RIGID THROWAWAY, CLASS 1 0.75 i2 RIGID THR'C3WAWAY, CLASS I` in SE bz (£Z Ze II IIIII1111111IItII11IIIIIIII I,JJ1dI11i EFFICIENCY PERCENT 85 85 85 I 85 330 AH2B5A AH2C2A AH2B8A AH _ J2A SECOND FLOOR G3.5 A I -C6 INTERIOR Al --Alf PERIMETER A6 -CII INTERIOR PERIMETER EI--G6 INTERIOR C6 -Ell I NTER I bR E ! - 06 INTERIOR D I I --G 1 6 INTERIOR D -G19 INTERIOR GI--J6 INTERIOR SECOND' FLOOR SECOND FLOOR E16 SECOND FLOOR , E 17 16 24.00: OPT AF I I 96 95 95 91 85 82 77 1798 DEFL INTL .r. PEFL INTL 2 DEFL INTL 2" DEFL INTL 480/3 480/3 1750 HC2E3A HC2E !6A BELT CC2E 17A HC2E 17A BELT BELT CC2C5A CC2C8A'' CC2E3A CC2J2A AF2B2A AF2B5A HC2G6A AF2E3A AF2EISA AF2E 17A AF2G3A A 2G6A AF2J2A AF2J7A YES YES 24.13 88 r 38 4250 4500 4250 MCQUAY MSL 122D, MCOUAY MSL I 14D, MCOUAY MSLI22D MCQUAY MSL 1280 MCOUAY MSLI22D MCQUAY MSL I28D, MCOUAY MSLI28D DEFL I NTL AF2J2A °LEATED `THROWAWAY, CLASS " 'P�_FATED .1HRcIVYAWAY, CLASS 33.' 41 8 33.4 12 RIGID TH C AWAY, 'CLASS I 40 32.0 yr . .r �..:..,r.:L+.�i`L.'�: c1tw Y." ��i �r��`ara74- .:.1V44 } .5.� �6'R4....:45'�_' . ..7 4 41: *t>Ci•..%4:: tr w=... aK ' K JIJI 1 iJ!I.I -Il . I lr ,..:.; _ I 3 4 5 6 7 e. NOTE. if the micrafijmed document is less clear than this notice, it is due to the'qualitq of the original document. AREA SO FT et £1. 9t I fit et zt •. a d6 6 e 11,1111I41416 I1111111 Illfitli IIli11 1111 �1111�1111111I1�11nIllil� ili1111i�11i111111�111i11111�1i1 h�i' .1:,'. a _ irk .,.� r ..,,: x✓;�._.r. +'43.x.," ..'cr,' .. (:'' r} �r' 4* Z Y�rt� . .:�:.a. 24x24 DR 'I VE Colt SECTION 10 0.38 100 FARR 30/30 30 'PREFILTER, / 1.00 FARR 30/30 PREFILTER / 1.00 FARR ,50 30 PREFILTER, PRESSURE DROP IN WG 0,' I •0 39 00 ..tea ACCL;:PTABI L i TY THis: AND t ?.. SPEC I F I`CAT I O l d I S A FARR FARR FARR 1.00 FARR 30/30 'PREF I LTER FARR 30/30 PREFILTER, FARR 30/30 P EFILTER, FARR 24.!3/88 8 18, 38/68;38 24.13/111,38 24 13/111.38 24.13 88.38 24.13/8838 18,38/68.38 24, 3/88.38 24.13/88 8 FARR RIGA --FLO 100 FINAL FILTER , FINAL FARR RIGA -FLO 100 FINAL FILTER FINAL FARR RIGA -FLO 100 FINAL FILTER, FINAL. , FARR RIGA -FLO 100 FINAL RIGA -F 0 REMARKS FARR"RIGA -FLO 100 FINAL FILTER, FINAL. FILTER, FARR RIGA-F LO 100 FINAL FINAL , FARR RIGA -FLO 100 FINAL FILTER, FARR RIGA -FLO 100 FINAL FILTER, FINAL FARR RIGA -FLO 100 FINAL FILTER, FINAL FARR R I GA -FLO 100 F I N A L F I FARR RIGA --F LO' 100 FINAL ` F I L T E R , FINAL FILTER SCHEDULE - IECEIV13D Cl7Y OETUIZWILA JUL' 20 1992 'PEERMITCENTER F I LTER SECTION 'WITHOUT PREF I L TER RAILS FIL TER SECT! ON WITHOUT PREF RAI F I LTER SECTION 'WI THOOT PREFILTER RA 1'f:S F`1 L.TER' SECTION WITHOUT P LTER RAILS F I LTER SECTION WITHOUT ' PREF I LTER RA' "I'LS F SEC. ON I THt�UT ' F'RE I L ER RANI LS' NAL FILTER SECT WITHOUT` PREFILTER'RAI LS TER, FINAL F I T E R SECTION WITHOUT PR FILTER .RAILS FINAL F 1 L TER , FINAL FALTER S ON ` WIT OU PREF I LTER RAILS; 06.92 - R. S r• L , SAWYER its x. r ••q+!-..4. «.:. t. CC2EI7A CC2G3A CC2G6A CC2J2A CC4J4A CC7J7A UNI SERVED HC2B2A AH282A HC265A AH2B5A HC288A AH2`B8A HC2C2A AH2C2A HC2C5A AH2C5A HC2CBA AH2C8 �rytiTf ���d REVISION RECORD' ^ DRA f I NG (REDRAWN) SSUE FOR 3 -E AI.11' PUR ISSUE FOR EEIP PHASE 3 -E it $ E FOR EE I P PHASE 2 -D WATER CC2B2A AH2CSA AH2G6A 5510 21.13 24.24 62 62.5 62.5 62.7 51 .' 0 51,9 48.I 47.9 51.9 45.0 45.0 42.0 42.0 45.0 56.2 55.0 56.7 82,9 93.0 65.0 41.9 69.4 2 1/2 2 1/2 0.97 1 :04 0.96 0,88 3 ,1` 14.7 8.3 14.7 5.6 5.0 MCQUAY' 5W11205C MCOUAY 5WL0808C MCQUAY 5WM1206C MCQUAY SWS I206C .. MCQUAY `5WLI205C MCQUAY 5WMI106C MCQUAY 5WL1205C MCQUAY 5WM1 2066 MCQUAY 5WM1208B MCQUAY 5WLI205C MCOUAY 5WL I006C `H.C2G6A HC2J7A AH2G3A AH2G6A AH J2 A AH2J4"A AH2 J 7A . 24 24 13:65 24.24 62.7 62,7 62 7 180.0 180,0 180.0 180.0 1'80 0 180:0 160.0 6.6 6.9 10.2 10.3 10.2 127.0 139 .4 130:8 139.7 142.6 0.08 0.08 0.03 0.07 0,11 0.10 0. II 0,07 0 .'06 0. I I 0.10 0.10 0. 10 0.70 0. 30 MCQUAY 5WH0601H MCQUAY 5WH0601H MCQUAY 5W8060IH MCQUAY 51+400601H MCQUAY 5WH0601 H MCQUAY 5W6060'H MCQUAY SOW'0601 MCQUAY 5W8 MCOUAY ' 5WB060' 1 G MCQUAY 5000601H WB(00 . CQY MCQUAY CO AY MCQUAY 5OW070'I 07.06.92 `iTt �( " r. 19: �'C. V Ys�s;s ' , �,+ : t 4ter SN ^.t ^.. - u'a.s ' r� ��i�rK� X +..+3�LA..,�:.�.,r,- so.'s• s:i, OE 6Z Be LZ 9Z SZ 1 7Z €Z 87 : III( I IIIII �i l 1 IIfiiiini1I1111iI1hlf1111 0II("i1111 NOTE: if the microfilmed document is less clear than this notice, it is due to the quality of the 'original document. D AUB RN , WA . 98002 q BELLEVUE , WA 98007 0 EV RE TT WA 98201 CI KENT WA . 98031 0 PORTLAND , OR 97220 0 RENTON WA.. 98055 SEATTLE , WA 98124 MCQUAY 5WH'1205C "REMARKS APPROVED BY 111111111111111 11 11 11 w EIloERwm 12 ACCEPTAbt (TY 'Oft s, DtSI GN AND/OR SPED i r i cA`r told I S APPROVED SC HEDUL ES PHASE " 2 -D crr n g M ON! LA JUL 20 PE MIT CE NTER BEIM ENGINEERS 1 W aI V' /.14Y1"i.RXF RECORD- DRAW' UE FOR 3.A- AHU . PURCHASE FOR OE"I P. PHASE 3— jl SU E EE CIP PHASE �.�:;:�'•"k;. =-ms's, tom:-: REMARKS AH2B8A f(2% OF EAD"I'NG A-20 FPM , :• _' `+.. e 1(2% OF READING' + '20 FPM)`. ±( OF RE 'DING + 20 PM) „ ±(2l READING + 20 FPivi`� E BTRON SE' 1ES 21 tO ETR, 4 -20mA OUTPtUT, FLANGED FRAME, 24 VAC POWER OUR , E EBTRON SERIES 21 6O ETR, 4 -20nA OUTPUT , FLANGED FRAME, 24 VAC POwER SOURCE EBTRON SERIES 2100 ETR, 4-2A OUTPUT , FLANGED FRAME , 24 VAC POWER SOURCE 1 .111W : %NW • mmw mow` `+iMrw' 11 � !�.- -!M!' 11141010 -,ww • arm► MIN EV FPM 120 ±(2% OF READING + 20 FPM) EBTRON SERIES 2100 ETR, 4-2OmA OUTPUT, FLANGED 24 VAC POWER SOURCE 710 105 ±( OF READING + 20 FPM) EBTRON SERIES `2_14 '' � 2100 ETR, 4 -2OmA OUTPUT, FLANGED FRAME , 24 VAC POWER SOURCE 830 130 ±(2% OF READING + 20 FPM) EBTRON SERIES 2100 ETR, 4' - -2O A OUTPUT, FLANGED FRAME. 24 VAC POWER SOURCE 670 110 ±(2% OF READING + 20 FPM). BTRON SERIES 2100 ETR, 4.20mA OUTPUT, FLANGED FRAME, 24 VAC POWER SOURCE 860 140 ±(2% OF READING + 20 FPM) EBTRON SERIES 2160 ETR, 4-2Orr OUTPUT FLANGED FRAME, 24 VAC POWER SOURCE 830 180 f(2% OF READING + 20 FPM) EBTRON SERIES 2100 ETR, 4-26mA OUTPUT FLANGED FRAME, 24 VAC POWER SOURCE 860 140 (2% OF READING -- 20 I`PM) EBTRON SERIES 2100 ETR, "4 -20mA OUTPUT, FLANGED FRAME 24 VAC POWER SOURCE 830 13Q: ±(2% OF READING + 20 FPM) EBTRON SERIES 2 l00 ETR, 4 206 OUTPUT, $30 1 3C) ±(2% OF READING + 20 FPM) $60 140 ±(2% OF READING + 20 FPM) EBTRON SERIES 2 ETR, 4 - 20MA OUTPUT FLANGED FRAME, 24 VAC POWER SOURCE EBTRON SERIES '2100 ETR 4 -2OmA OUTPUT, FLANGED F "RAMS 24 VAC POWER SOURCE EBT?ON SERIES 2100 ETR 4 -20mA OUTPUT:, FLAN GEb FRAME., 24 VAC •POWER SOURCE • 4 � • .� •�y'4. , v .f . e �f f• .. !.•ate• � . ,. _..,... i 'Tlyv:'i:'Yl . , ., ;�� s �`?�!+�n''RrY <.f•�Yr'N _ •, t . � ��,(¢i ..� �:y. , . 't' A SYJ�' .'. `'�1!��i� ttL - !v; '�°' a - •Itiw', 7. .� .,,.. �'"'. . , � k'4�'. �:,.'i,`�3. ,�'5�.&.sc�aA�1., • .. � ., �a�i.a�, sT':1.+..c.�!`...�.. �. '�+ -•- :rte^.= ���.5;.;� 5.+��e�,.t•Y.� <. i I1I {1 III !I III I I ICI I }1 1 i Willi 1 ,�1 ; I . . 1 , ( i �i 1 1� 11 1 1 1 C ii I ! I 1 lit I 2 3 4 5 HOTS: If the mticrof1.J.med document is less clear than this notice, it is due to the quality of the 9riginal document. to p2 6L et LL 9 St bt CI EL IL 01, 6 8 II I I � i1,l 1111 11111I 111. 1. I) I11I11J )Ifni(IIIIIIIIIIIIIII?I i liiiillilllillllilin fi 1 1111111il)II1IflllIl BLDG 9lO1;2 •wr.ra:r, �� , .:;fix'+': HECEIV8D tin' OP TUKWftA J UL 2' 0 1992 PERMIT CENTER faBOS 4O7 /9O 133 ��. ,_ CO ,,,.............. ........................................„.....,....„ , • MARK - ' . NU3E�t - VA2B2A .M�,w f SERVED CC2B2A FLUID CHILLED WATER . CV .47:, , 0 GPM '75.5:; � �� SIZE 2 TYPE MAY PERCENTAGE EQUAL OPERATOR ... � 9 -13 PSI PNEUMATIC �; G ACTUATOR. � R�;MARKS 7 - JOHNSON CONTROLS V 416 4523, FAIL CLOSED, U-CUP PACKING VA2628 HC2B2A HOT 'WATER 4.4 5.4 ` 12 3 WAl EQUAL PERCENTAGE Q L 4--8 PSIG PNEUMATIC ACTUATOR .. V4324-102, . � U- C : JOHNSON CONTROLS FA i L OPEN. U CUP PACKING CUP .; VA2B5A . CC2B5A CHILLED WATER 27.5 47.8 I 1/2" / 2-WAY EQUAL PERCENTAGE R Q 9--13 PS 1G G PNE AT I ACTUATOR . , : • S V3974-1012, ,. :. I - U . .. UM C �(�HNSON CONTROLS != A I ! CLOSED, U CUP PACKING VA2B58 ' HC2B5A > . , HOT WATER • 4 , 4 5.9 1/2" 3-WAY EQUAL PERCENTAGE ` , 4-8 ' PSIG PNEUMATIC C ACTUATOR . JOHNSON CONTROLS V4324� -1002 FAIL OPEN .. C P PACKING VA2B8A CC2B8A CHILLED WATER . 83 96 3 2 -WAY EQUAL PERCENTAGE 9 -13 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V- 5462 --8 FAIL CLOSED, - p PACKING J CI_ SED, U CU ACK NG VA288B HC2UBA HOT WATER 4,4 I/2 3 -WAY EQUAL PERCENTAGE 4 = -8 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V4324-- 1002,. FAIL OPEN, U--CUP PACKING VA2C2A CC2C2A CHILLED WATER ,27 5 42.1 1 2 1 2• WAY EQUAL ' PERCENTAGE 9--13 PSIG G PNEUMAT i C ACTUATOR JOHNSON CONTROLS V3974- 1 0 12 FAIL -^ U J � L U U-CUP PACKING VA2C2B HC2C2A HOT WATER 4:4' 6,9, 1 /2 3-WAY EQUAL PERCENTAGE 4 -8 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V4324 1002, FAIL OPEN, U-CUP PACKING VA2C5A CC2C5A CHILLED WATER 47.0 93,0 2 -WAY EQUAL PERCENTAGE 9-I3 PSIG PNEUMATIC ACTUATOR `JOHNSON CONTROLS V7416- 4523, FAIL CLOSED, U-CUP PACKING VA2C5B HC2C5A HOT WATER 8,`6 10:2 3/4 3-WAY EQUAL PERCENTAGE 4 -8 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V4324 --VO5, FAIL OPEN, U -CUP PACKING VA2C8A CC2C8A CHILLED WATER 83 118,5 3° 2 -WAY EQUAL PERCENTAGE 9-I3 PS1G PNEUMATIC ACTUATOR JOHNSON CONTROLS V- 5462 -8, FAIL CLOSED, U -CUP PACKING VA2C8B HC2C8A HOT WATER 8.6 10.3 3/4 3 -WAY EQUAL PERCENTAGE 4--8 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V4324-I605, i AIL OPEN , U --CUP PACKING VA2E3A CC2E3A CHILLED WATER 54.0 93,0 2 1/2" 2-WAY EQUAL PERCENTAGE 3.15 P S I G PNEUMATIC ACTUATOR JOHNSON CONTROLS VB -- 3970 -1 I , FAIL OPEN, U--CUP PACKING VA2E3B HC2E3A HOT WATER 8.6 10.2 3/4" 3 -WAY EQUAL PERCENTAGE 3-15 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS VS-4324 - 4, FAIL OPEN, U--CUP PACKING VA2El6A CCZE16a CHILLED WATER 54 88. 2 I/2" 2 -WAY EQUAL PERCENTAGE 9 - i3 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V- 5462 -6, FAIL CLOSED, U --COI' PACKING VA2E 16B HC2EI6A HOT WATER 8 , 6 9.2. 3/4" 3 -WAY EQUAL PERCENTAGE 4 -8 PSIG PNEUMATIC UMATIC ACTUATOR JOHNSON CONTROLS V4324 -1005, FAIL OPEN, U -CUP PACKING VA2EI7A CC2E17A CHILLED WATER 54 82.9 2 1 /2" 2 -WAY EQUAL PERCENTAGE 9-13 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V- 5462 -6, FAIL CLOSED, U -CUP PACKING VB2E 17B HC2EI7A HOT WATER 8.6 9 , 6 ` II . 3/4" / 3 EQUAL PERCENTAGE C , , S 4�8 PSIC`PNEUMAT {(, ACTUATOR JOHNSON CONTROLS V4324- -1005, FAIL OPEN, U -CUP PACKING VA2G3A CC2G3A CHILLED WATER 54.0 93.0 2 1/2" 2 -WAY EQUAL PERCENTAGE 3 -I5 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS v8 FAIL OPEN, U -CUP PACKING VA2G3B HC2G3A �' T �, HO WA ER 8.6 10.2 ,, 3/4 _ - .. � PERCENTAGE 3-WAY EQUAL PERC' t _ .. ...�.. . • •.t ,•, 3- 15 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS VB- 43 ?-4 -4, FAIL OPEN, U-CUP PACKING •w,r.. M.•• -'.. -: ... +u/Wi� "� . r "!" VA2 6A �. CC2G6A CHILLED ATER ♦ 54 �'' '�'- 65., � 2 -WAY EQUAL P RCENTAGE t .. .. � . Y � + • ..:+. '... r. , , :.: � .-•Y. v �. . .aM.', ".' . •.rti . ` . _ .. `. • �" ` 9--13 P S I G PNEUMATIC ACTUATOR . JOHNSON CONTROLS V-5462-6, F A I L CLOSED, U -CUP PACKING ♦ ' VA2G6E VA2J2A HC2G6A _ CC2J2A 'HOT WATER CHILLED WATER CHILLE 8. 6 17 ; 0 12,4' ! 3--WAY EQUAL PERCENTAGE _ 2-WAY EQUAL P CF TALE 3 -15 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS VB- 4324 -4, FAIL OPEN, U -CUP PACKING � -.�"', ",n,' "�„�' • A OR JO" SO' CONTRraw' `�► w - ' 'ww� - - o . � , �. -� -...• •..' ^' , `�11r" 3-- 15 F S � G PNEUMATI AC UOLS VB-397 1 FAIL CLOSED, U -CUP PACK I N --, VA2J2B HC2J2A HOT WATER 4,4 I/2 • 3 -WAY EQUAL PERCENTAGE 3-15 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS VB- 4324 -3, FAIL OPEN, U--CUP PACKING .1., VAZJ4A CC2J4A HILLED ATER 54 •9.4 1/2" 2-WAY EQUAL P RCENTAGE 11, ,rraNee511.10440NeTli" _ 9-13 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS V-5462-6, FAIL CLOSED, U -CUP PACKING VA2J48 HC2J4A HOT WATER 8.6 9.5 3/4 3 -WAY EQUAL PERCENTAGE 4 -8 PSIG PNEUMATIC ACTUATOR JOHNSON CONTROLS VB- 4324= 1005, FAIL OPEN, U -CUP PACKING VA2J7A CC2J7A CHILLED WATER 54 68.4 2 1/2" 2 -WAY EQUAL PERCENTAGE - 9 -13 PSIG G PNEUMAT i C ACTUATOR JOHNSON G0IJTROL� V- „5 CONTROLS 462 -6 , FAIL CLOSED, U -CUP PACKING r V A2J78 . •" K : •. HC2J7A mow r .... ,— ...... a HOT WATER - .---. - ' .•+.► .. , •, • . 8.6 . 'i!' ' 1 1 4 'nor 3/4” / • �W• Noir 3 -WAY EQUAL PERCENTAGE :` • - * . .. . .,.... 4'-8 PSIG PNEUMATIC ACTUATOR _ . - Air- '�'. "MP" JOHNSON CONTROLS " U- CUP C OLS VB--4324 --1005 , FAIL OPEN, U CUP PACK1 NG "1"... "'MP' , . ". .. .r 1 W aI V' /.14Y1"i.RXF RECORD- DRAW' UE FOR 3.A- AHU . PURCHASE FOR OE"I P. PHASE 3— jl SU E EE CIP PHASE �.�:;:�'•"k;. =-ms's, tom:-: REMARKS AH2B8A f(2% OF EAD"I'NG A-20 FPM , :• _' `+.. e 1(2% OF READING' + '20 FPM)`. ±( OF RE 'DING + 20 PM) „ ±(2l READING + 20 FPivi`� E BTRON SE' 1ES 21 tO ETR, 4 -20mA OUTPtUT, FLANGED FRAME, 24 VAC POWER OUR , E EBTRON SERIES 21 6O ETR, 4 -20nA OUTPUT , FLANGED FRAME, 24 VAC POwER SOURCE EBTRON SERIES 2100 ETR, 4-2A OUTPUT , FLANGED FRAME , 24 VAC POWER SOURCE 1 .111W : %NW • mmw mow` `+iMrw' 11 � !�.- -!M!' 11141010 -,ww • arm► MIN EV FPM 120 ±(2% OF READING + 20 FPM) EBTRON SERIES 2100 ETR, 4-2OmA OUTPUT, FLANGED 24 VAC POWER SOURCE 710 105 ±( OF READING + 20 FPM) EBTRON SERIES `2_14 '' � 2100 ETR, 4 -2OmA OUTPUT, FLANGED FRAME , 24 VAC POWER SOURCE 830 130 ±(2% OF READING + 20 FPM) EBTRON SERIES 2100 ETR, 4' - -2O A OUTPUT, FLANGED FRAME. 24 VAC POWER SOURCE 670 110 ±(2% OF READING + 20 FPM). BTRON SERIES 2100 ETR, 4.20mA OUTPUT, FLANGED FRAME, 24 VAC POWER SOURCE 860 140 ±(2% OF READING + 20 FPM) EBTRON SERIES 2160 ETR, 4-2Orr OUTPUT FLANGED FRAME, 24 VAC POWER SOURCE 830 180 f(2% OF READING + 20 FPM) EBTRON SERIES 2100 ETR, 4-26mA OUTPUT FLANGED FRAME, 24 VAC POWER SOURCE 860 140 (2% OF READING -- 20 I`PM) EBTRON SERIES 2100 ETR, "4 -20mA OUTPUT, FLANGED FRAME 24 VAC POWER SOURCE 830 13Q: ±(2% OF READING + 20 FPM) EBTRON SERIES 2 l00 ETR, 4 206 OUTPUT, $30 1 3C) ±(2% OF READING + 20 FPM) $60 140 ±(2% OF READING + 20 FPM) EBTRON SERIES 2 ETR, 4 - 20MA OUTPUT FLANGED FRAME, 24 VAC POWER SOURCE EBTRON SERIES '2100 ETR 4 -2OmA OUTPUT, FLANGED F "RAMS 24 VAC POWER SOURCE EBT?ON SERIES 2100 ETR 4 -20mA OUTPUT:, FLAN GEb FRAME., 24 VAC •POWER SOURCE • 4 � • .� •�y'4. , v .f . e �f f• .. !.•ate• � . ,. _..,... i 'Tlyv:'i:'Yl . , ., ;�� s �`?�!+�n''RrY <.f•�Yr'N _ •, t . � ��,(¢i ..� �:y. , . 't' A SYJ�' .'. `'�1!��i� ttL - !v; '�°' a - •Itiw', 7. .� .,,.. �'"'. . , � k'4�'. �:,.'i,`�3. ,�'5�.&.sc�aA�1., • .. � ., �a�i.a�, sT':1.+..c.�!`...�.. �. '�+ -•- :rte^.= ���.5;.;� 5.+��e�,.t•Y.� <. i I1I {1 III !I III I I ICI I }1 1 i Willi 1 ,�1 ; I . . 1 , ( i �i 1 1� 11 1 1 1 C ii I ! I 1 lit I 2 3 4 5 HOTS: If the mticrof1.J.med document is less clear than this notice, it is due to the quality of the 9riginal document. to p2 6L et LL 9 St bt CI EL IL 01, 6 8 II I I � i1,l 1111 11111I 111. 1. I) I11I11J )Ifni(IIIIIIIIIIIIIII?I i liiiillilllillllilin fi 1 1111111il)II1IflllIl BLDG 9lO1;2 •wr.ra:r, �� , .:;fix'+': HECEIV8D tin' OP TUKWftA J UL 2' 0 1992 PERMIT CENTER faBOS 4O7 /9O 133 ��. VV2AIA VAV -8 VAV -6 VAV-8 VV2C4A VV2C5A VV2DiB VV2D2A VV2D3A VV2_D3B VV2D3C VV2D3D VV2D4 A VV2D46 VV2C6A VV2C6C A1C8A VAV -6 VV2D4C VAV- -8 VV2D5A VV2d8A VV2C9A VV2CIOA VV2DOA VV2D6B VV2D7A VV2D7B W2D8A W2G9A VV2DIOA VV2E9A VV2D 13E3 VV2D14A VV2_D I'4B VV2D14C VV2D14D VV2DI4E VV D 15A VV2DI5B VV2D1 AH2EJ VAV- -14 ' AV-10 VV2J3A . AH2J2A VAV -10 VAV - I 0 800 1050 1310 780 700 870 910 1500 500 750 1000 1500 VlV-- f 0 VAV- 12 VV2J7A VV2J7B VV2 J7C VV2J7D VV2J8A VV2J8B VV?_J8C VV2J8D VAV -t0 1000 690. 430 VV2A2A VAV -10 VV2F3A VV2D16A LAY I T- -BAR VVA-6 240 �'at'�te4S*�r!i'.3f�t a ENV I RD- - T C MDL SSD I, 1/2 DIAM ENVIRO -TEC MDL SSD-t I , I /2 DIAM ENVIRG --TEC MDL SSD -I1 1/2" DIAM 1660 USED FOR RETURN AIR GRILLE, NAILOR --HART 51 800 USED FOR RETURN AIR GRILLE, NAILOR -HART 51 ECC ,0 .10 700 REPRO ROOM E t HAUST GRILLE T I TUS 5bF SHAFT MIN . 3 LONG, 90 DE TUR SHAFT MIN 3" LONG, 90 DEG TURN, SHAFT MIN 3" LONG, 90 DEG TURN, I Ial.IIIIILI,III HIM] Pp] I111I Ii � 1 .,l li ,r -; r L , I • + 1 ". h ' 1 ". ;`' I . I 2 . 3 4 ' NOTE: If the mlcrofiimed• document 'is .Less clear. than this notice, it •is clue to the quality• of the , original document 5Z 9Z 1 , CZ ZZ t oz 6t 8t L 9t G pit et Zt u OI, Iilili ll0101i 1111111tH illiill ll gp liIii 1111 ° Illpl�01�` 111111111111111ii 1111lJfi11(111ili 1111111111IC�1I in 011111�11I� 111 J 111111 11,11)(11 AH2E17A hti'ohi �t ? :1711 VAV -I0 1080 VAV -8 630 VAV -12 1125 VV2G2A VAV -10 VAV --12 1500 VV2G2B VAV -.14 VAV-12 1500 VV2G3A .VAV -12 VAV VAV - B 480 VV2G4A VAV --12 - 2 1500 VV2G5A VAV -- VAV -- 1 2 1500 ( VV2H 18 VAV- 12;. AH2G3A VV2H2A VAV -=10. VV2H2B `VAV -10' 750 VV21 -12C VAV - 10 720 VV2H3A VAV -i2 1500 1 W2H4A VAV- - 12 .. •iv • x 0 CON ROLS OR SENSOR NO CONTROLS . OR SENSORS `NO"CONT"ROLS OR•SENSORS ApPRo': eY IIII1 1I III II I I 11 "k 12 ACCEPTAB 1 ; L 11'Y MIS DE5101 ANO OR SPECIFICATION IS ' ;AP 'I OV €D BLDG 9.101,2 RECEIV ID CFCY OFTUKWILA JUL 20 1992 PERMIT CENTER . r .` :V:' .. , 4N-1,i X.:iht `�'� ..i�'"..�iwCi v`s8 W Oli?jf .5 747r 07• 0 .rK +�fTYF}..�•h7 . . . • 12,,0 41.0 • PREHLTER I ',PANEL- - 711UPUTEFF --- 2ND FLOOR CLG PLENUM EFRF 11 ; 375 H75 0.25 0 . 25 0.25 325 325 325 V-BEL ------- - V-BELT 480/3 480/3 GREENHECK GREENHECK CENTRIFUGAL ROOF EXHAUSTER CENTRWUGAL ROOF EXHAUSTER CENTRIFUGAL ' ROOF EXHAUSTER 'CENTR I FUGAL 'ROOF EXHAOSf ER EF'RDI I A ROOF , E12.2 2ND FLOOR CLG PLENUM EFRD15A , ROOF , E 1 8.2 2ND FLOOR CLG PLENUM EFRE6A ROOF , E6 TOILET ROOM EXHAUST EERE7A ROOF, E7 CONVERTER STATION #3 E(RE,I1A ROOF , E 1 2.2 2ND FLOOR CLG PLENUM . CONVERTER STATION t y 3 6R i 2A ROOF , E . 5 , I 2 5 XH A T ROOF , E 9,12.8 TO 1 LET ROOM EXHAUST EFRF5C ROOF , F5.5 2ND FLOOR CLG PLENUM EFRF5D ROOF, F5.5 2ND FLOOR CLG PLENUM ErkF6A ROOF: , Fe, 2ND FLOOR REPRO ROOM DRIVE TYPE 48 16 (00 0.25 48 16100 0 . 25 33 6690 0.70 '0.25 0.125 0.85 ----------- EXHAUST FAN 310 430 330 310 280 ,A5`••••:■ DRIVE s I DE V-BELT V-BELT V-BELT V-BELT v T V-BELT V-8EtT 06 6Z Of: GZ 9? GZ VOLTS/PH 2 480/3 2 480/3 1/3 120/1 GREENHECK 2 480/3 GREENHECK 1/3 120/1 GREENHECK 1 1/2 480/3 GREENHECK 2 I 480/3 GREENHECK GB-480-20 GB-480-20 GB-=.330-20 GB-260-3 , GB-480-20 GB-300-3? ' GB-300-15 GB-480-20 , CENTRIFUGAL ROOF EXHAUSTER . CENTRIFUGAL ROOF EXHAUSTER WITH REINFORCED WHEEL CENTRIFUGAL ROOF EXHAUSTER CENTRIFUGAL ROOF EXHAUSTER , CENTRIFUGAL ROOF EXHAUSTER ,'CENTRIFUGAL ROOF'EXHAUSTER ItgAriaLtifish"..,:i2ZfP f q fil ITTL 4 5 7 Q, NOTE ^ d — ocula - feMs - C rear' than Chia notice, it is due to the quality of the original documeut. REMARKS LZ 0 -e 61 91 ,/,1 91 gt 'i et et R 01. 6 8 L ' I l i ill] 1 ((it I flit' I Oil d i to I iti I 441 I I l u l l , ' 0 1 1 1 l I iiii I in nlin 1 1 II 11 Iv II I 1 :7;.7/ • ' ' t; ' . 1 9 1 10 144nE °IMAM 12 'tNIS'OIOR AND/OR SPtCl*FICATHD14'.'15 APPROVtb. 480/3 I 22 I CONTEMPO MODEL CEMC SPL IT CAE) (NET , ° UP v ARRANGEMENT I NOF:14' HUM', D tF 1 ER CONTEMPO MODEL CEMC-05 SPLIT T CAB I NET , "UP 4 ARRANGEMENT. CYLINDER HUMIDIF{ CONTEMPO MODES CEM SPLIT CABINET, "UP ' " * 'Nom, • AFTI5QV q) BY BLDO 9.101.2 REMAR KS R5CEIVED crry OFTUKWILA j01. a 0 1092 PERMIT CENTER DIAMETER OF PIPE ,y� H LENGTH OF BRACE "L u LATERAL BRACE MATERIALS LONGITUDINAL BRACE MATERIALS BOLT DIA 4 L 8 UNISTRUT P1000 PI000 3/8 " 8' -10' UNISTRUT P5500, 1.. 3x3xI/4 P5500 Io'-15' 3 "0 PIPE 3 "0 PIPE L 1 0' -15' UNISTRUT P5500, L 3x3xI /4 3 "0 PIPE - __ _ _._ -. UNISTRUT P5500 .._ P5500 2 MEMBERS ROD 3 "0 PIPE P5500 MEMBERS 500 Z MEMBER ROD 8 -120 L 5' 5/8 "0 FOR 8 "0 PIPE : / FOR LARGER 5' -•10' 2 '0 PIPE, L 3 I/2x3 (/2x1/4 2"0 PIPE 2 MEMBERS ROD 10' -I5' 3 "0 PIPE 3 "0 PIPE 2 MEMBERS ROD GREATER THAN 120 GREATER THAN 15' CONSULT E NGIN R W EE CONSULT CONSULT W /ENGINEER 4 It A M507 TE NOT ALL LONGITUDINAL BRACING REQUIRES TWD MEMBERS REFERENCE ABOVE SCHEDULE FOR : APPLICATIONS ,. IE I R I NG ONLY ONE ° LONG ITUD`f NAL MEMBER 4- 'NAY /2 -WAY BRACING xi w,..... 714 vs, ,r.m. s w. eiw¢ TO. .. ,.an a +n-00..a M507 TO` CEILING BEAM LATERAL BRACE �- D».0 -BOLT -- INSULATED 1 I /4 " 1-1WS --'< CROSSMEMBER - -- -�-� -- 0 t6TH SINCH 1 2 EXIST CEILING BEAM ... .... •...fl a V.01, ._ y . a. ..,,. .& .. .........:w,. NOTE AT LOCATION D -2.3 1-f S I S ANCHORED. AT LOCATION D.7 -3 HWR IS ANCHORED AT THESE LOCATIONS BRACE UNANCHORED PIPE INDIVIDUALLY WITH ° A LOOSE; CLAMP AND ONE LATERAL UNISTRUT `BRACE. BOLTS ARE OVERSIZED TO ALLOW FOP THERMAL EXPANSION APPROVED DATE 11111 .11 11111 1111 1 1VARI ES DEPT, Oc 6Z Se L'L 9Z SZ 17Z ' EZ ZZ I II Ii �I t 1111I f 1 (lill�7ll it I (i1�11lllll�ll I1� II III II �11�II1111 (1i11�.1 I' Ifi1111U1 F 4 IPj : TED DOUBLE NUTS (TYP) 0 AUBURN, WA . 98002 0 BELL EVUE , WA , 98007 0 EVERETT, WA. 98201 0 KENT WA.98031 0 PORTLAND, OR . 97220 0 RENTON, WA. 98055 SEATTLE, WA. 98 tk ea y :`il i r 4196pt-y`- ,`.:. VIIIiir .. •1t i s4 2 4...>;r. r , c t pi 1111 I , I Ia . ; ( I I 1 ;.111;1. 1 . ii , 4 ' — .... :: .. _ . .. :, _ .. NOTE: If the sticvofilmed document is less cl than this notice, it is due to the quality of the original document. lZ Cv 61 8l L. 91 • St bl El Zt 11 O1, 6 IIII* IIIIII �,. .. Il1111 iliOt. lit � �:ul�Ililllitil(iiilii ill I � ( I ! IIIUJI IIll LI�I • rxa;r}r£s ., 11 KANINQR 12 9 5 7 k: Z l "ww Q (Milli i oil llli iilIIIUIllttiIII"I ►lithihill illll� 1 NSULAT I ON- ACCEPTAB I I I.TY TtH IS DESIGN AND SPECIFICATION iS A PROvED DALE BOLTS�'1/2 "0, 2. R ON 'UNISTRUT TO PREV U- -BOLT' OVERS! ZED TO ALLOW THERMAL EXPANSION 2--WAY BRACING ` FOR STEAM TITLE PLATE 3 1/2x'1/4 TYP MICHIGAN HANGER NO 450. !2"0 OR SU 1TABLE SUBST. SLIPPING, . IX 9.101.2 RECEIVED CITY OF TTUOVIA JUl. PeRMITcENT1 R BE &C ErdpiNEERS LAST RVIiION =+ 'DATE slitET CITY OF TUKWIL:A AP PRO VED IUL` ' 1�•�� r iv SION OA cMSO7N . KHB /06 ; 23.90/09': 3/4 2M60,2M6I,2M62 M507 2M66,2M67,2M 2M73,2M79,2M267 2M268,2M273,2M279 NOT ALL BRACING MATERIALS LISTED ARE THE MINIMUM FOR EACH PIPE SIZE AND BRACE LENGTH, STRONGER MATERIALS MAY BE SUBSTITUTED. ON 60 AND LARGER PIPES ANY PI546 ANGULAR FITTINGS USED WILL REQUIRE TWO BOLTS FOR FASTENING THE FITTING TO THE UNISTRUT TO PREVENT SLIPPAGE, A TWO - -WAY LATERAL BRACE WOULD FOLLOW THE SAME BRACING SCHEDULE, BUT NO LONGITUDINAL MEMBER WOULD BE USED A TWO WAY LONGITUDINAL BRACE WOULD NOT REQUIRE THE LATERAL MEMBER. /77/72 DETAIL LATERAL DUCT NTS BRACING --- ANGULAR F I TT I'NGS UNISTRUT PI186 -, ---- UN I STRUT P5500 MAX LENGTH =IO' 45 QLOG,STRUCTURAL MEMBER OR UNISTRUT GRID 2 _) 2M10,2MI I M507 2M I 2 , 2MT6 2MI7,2M18 .1. ; G. MAL NOTES: NATURAL GAS PIPES I" IN DIA AND ' LARGER SHALL BE LATERALLY BRACED AT 2O' --0" ON CENTER MAX AND LONGITUDINALLY BRACED AT 40 -0" ON CENTER MAX AS PER DRNNINGS. 2 ALL OTHER PIPES AND CONDUIT 2 -1/2" IN DIA AND LARGER (OTHER THAN FIRE SPRINKLER PIPING) SHALL BE LATERALLY BRACED AT 40' -0" ON CENTER MAX AND LONGITUDINALLY BRACED AT 80'-0" 'ON CENTER MAX AS PER DRAWINGS. BRACING IS NOT REQUIRED IF THE TOP OF THE PIPE IS SUSPENDED 12" OR LESS FROM THE SUPPORTING STRUCTURAL MEMBER 3 ALL FIRE SPRINKLER CROSS MAINS AND FEED 4 MAINS MALL BE LATERALLY BRACED AT 40=-0 ON,CENTER MAX AND LONGITUDINALLY ` BRACED . I LATERAL BRACING MAY BE OMITTED 0 --0 ON CENTER MAX; AS PER DRAWING. ED . IF PIPES ARE SUPPORTED BY PODS LESS THAN 6" LONG, SEE NFPA 13 FOR FURTHER DETAILS. ALL RECTANGULAR DUCTS 6ff OF AREA AND LARGER AND ROUND DUCT 28" DIA AND LARGER SHALL BE LATERALLY BRACED AT 30'-0" ON CENTER MAX LONGITUDINALLY BRACING SHALL OCCUR AT 60' --0" ON CENTER MAX; AS PER DRAWINGS. NO BRACING IS REQUIRED IF THE TOP OF THE DUCT I S SUSPENDED 12" ';OR LESS FROM THE SUPPORTING STRUCTURAL MEMBER AND ATTACHED TO THE TOP OF THE DUCT. i i 1 SINK AT B-- NTS REVISION • ' .P ��..!..;�'a'Wt� -,.. .�- �-- .6 •��$:;,. ?k `°5....,.,..�s;;*.c�;:�e.A.�,• Rrx- �.- ,y;r.,s"�1+t SINK NTS 4 5 6 7 8 NOTE: if the ffiicrofilned document is less clear than this notice, it is due to the quality of the<original document. 0 AUBURN , WA 98002 C BELLEVUE , WA.. 98007 0 EVERETT , WA . 9820 I E KENT , WA . 9803 I 0 PORTLAND , OR . 97220 OEN ON , WA , 98055 NI SEATTLE , WA 98 14:` et z� fl(rV1 111thlIIlNl hnlilil lif iliffil71111'f1l1 l ll�llif��lll�lill�ll���llll�llil�ll�l�l ll�(�ll yaIjI ii i111i` i11ii ,if111li+ li1llli!`j1i 111 9 10 11 "DEW GFAMNtm 12 DEPT: ACCEPTABILITY THIS DESIGN AND/6R SPEC I �' I OAT I ON IS APROVED' USOil BLS. 9.101: COL GENERAL NOTES: hEccry D Clri OF TUKWILA JtJi.' 20 1892 PERMIT CENTER .'f FLEXIBLE CONNECTION TEK SCREW 18' GAUGE SHEET METAL. BAND 1P ; DUCT AND BOLT TO SUPPORT ANGLE' USE 3 " SPACE:RS UNDER AIR HANDLING UNIT TO PROVIDE CLEARANCE BETWEEN ACCESS DOORS AND FAN SECTION ALL DUCT 'FITTINGS WILL :BE EQUIVALENT TO THOSE INDICATED BON PAGE 6 OF TRANE VAR ITRANE' DUCT DES l GN APPL I CAT`I ONS ENGINEERING MANUAL TAKEOFF WILL CONFIRM TO ABOVE STANDARD 'FOR 45' - TEE OR UNITED GILL, ENGINEERING DESIGN REFERENCE `MANUAL , PAGE 17 , 18 F I'GURES I I, 13, 15. SUPPORT FLEXIBLE DUCT FROM UNISTRUT TO PROVIDE 1 8" MINIMUM STRAIGHT DUCT TO DIFFUSERS DO NOT LAY FLEX ON CEILING TILE SUPPORT u FLEX DUCT 24 . ON C WITH 2 WIDE GALV SHEET METAL STRAPS ATTACHED TO EMT TUBING SECURED TO UN I STRUT GRi D-- DIFFUSER '�.:3•a:...e. '.( &` v ,:..sxa +,sx t , 7:..' =sk ": UH PLAN DETAIL - TYPICAL COIL SECTION RIGID FILTER SECTION 18" HEATING C O I L REDUCING WYE SHOWN, FITTINGS VARY AT END,OF SUPPLY DUCT, SEE PLANS (T3 VAV UNIT RUNOUT DUCT REDUCE TO SAME SIZE AS VAV UNIT INLET VAV TERMINAL UNIT UNISTRUT GRI ,--SOUND LINED SHEET ./ METAL DUCT UP TO ROOF OPENING *- ----� FLEXIBLE CONNECTION AIR MONITOR FILTER /MIXING BOX * RETURN AIR SMOKE SENSOR LOCATION! SENSING PROBE TO EXTEND ACROSS WIDTH OF UNIT BEHIND RETURN ` AIR DAMPERS IN MIXING PLENUM -�1r- RETURN AIR * LOCATE ON SERVICE PLATFORM SIDE OF UNIT. SEE I /8" SCALE PLAN VIEW. * LOCATE ON SERVICE PLATFORM SIDE OF UNIT! SEE 1/8" SCALE PLAN VIEW. -LOW PRESSURE, SOUNDLINED SHEET. METAL DU • FABRICATED .WITH •DUCTMATE J'0 "1 PITS. TRANSITIO1, 'SL I P AND DRIVE STRAINER (TYP) CONNECT I /4 "OD AIR VENT DRAIN TO NEAREST WASTE INDIRECT 111' 111111 III II 11 iIII �Iii�Ii11lil °I'1 I'II �I'I. e: i II 0 Is CHs INCH 1 3 ' 4 NOTE: ifY the notice, it is 18 GAUGE DUCT BAND DETAIL NOT INSTALL UNIONS ON SCREWED CONNECTIONS TO . 01L5 AND CONTROL ' C � L, PIPING CL OF INSTALL ACCESS DOORS, ONTROL VALVES , FAN AND A ND.FILTER A USE SCHEDULED 40 BLACK STEEL PIPE CONDENSATE DRAIN. TAULIC COUPLINGS FOR CI-IW. U SE SCHEDULED 40 BLACK STEEL PIPE WITH VIC E WI1H SCREWED COUPLINGS FOR ` USE SCHEDULED 40 BLA STEEL PIPE WITH SCREWED OR WELDED COUPLINGS FOR HW. INCREASE PIPE SIZE TO'NEXT LARGER DIAMETER AT THERMOMETERS. PIPE AUTOMATIC AIR VENTS TO FUNNEL DRAIN WITH i /4" COPPER TUB AND COMPRESSION FITTINGS. 2 7/I8 UNISTRUT P5500 UNISTRUT P238I -4 STUDNUT AND 1/2' NUT (TYP) BOLT 22 GAUGE GALV STRAPS. AROUND NEW OR EXISTING UNISTRUT „ CHANNEL AND ROUND OR RECTANGULAR DUCTWORK vI ii 1 ECORO ;(RENUMBERED WAS: `I S OF I: OR ,BE;I P PHASE 3-E ISSUE” 'l l E I P "PHASE 2 -D` LOWER LEVEL UNISTRUT DLCT SUPPORT 2M10,2M11, M510 2M17,2M18,2M23 0 AUBURN , WA , 98002 0 BELLEVUE WA . 98007 0 EVERET , WA . 98201 0 KENT, W A . 98031 0 PORTLAND, 97220 0 RENTON W A . 98055 II SEATTLE , WA . 98124 EXISTING CONCRETE BEAMS 1/2 STUDNUTS AND, NUTS TO FIT EXISTING 'UNISTRUT EMBEDDED IN CONCRETE BEAM (TYP) 1 5 /8" UNISTRUT P5500 CHANNEL--- - MEDIUM PRESSURE li L 8 6 l l l 91 i GL t £l Zl Ii. Le oZ li I `) � , 11111111 !UII111!lit1111111 l i1ii i nil 11111111 I i111li11i ) 1111 itii 11111111 * :- a .iNn� APPROVED BY bttt. tiArE SAWYER O1. M1114 1116 •N t C C t- iI i , L pill i .._ ICI IIIi { t I i! !F � ` I11 :._ :.:u. - rr�a r.. -r..v :r .... G:...__: r._...:.. +'a:..,.L .:.,. 'ay.c ..,.: - ... Microfilmed document is less clear than this due to the quality of the original document. UNISTRUT P1047 "U SHAPE FITTING WITH UNISTRUT P238 I --4 STUDNUT AND I/2" NUT -AHU COIL SECTION CD PROVIDE OPEN TEE WITH 3" LONG MINIMUM STUBOUT -LOCATE PIPING AND TRAP BELOW CATWALK SLOPE 1/8" PER FT TO E X I ST°`ING CONNECT ION DOLT NEW MEMBER TO BOTTOM OR TOP OF EXISTING 6' -0" ON CENTER UNISTRUT MEMBER WITH UNISTRUT P2381 -4 STUDNUTS AND 1 /2 NUT TO BOTTOM OR 1/2 A306 BOLTS, NUTS AND LOCK WASHERS ON TOP 1 1 [11 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11111 1 11111 1 9 10 11 IE"IGEwlw Y 12 4 S +� £.Z It wW I1" 1111II1111111111111111111IIIi111IIII11II111lIII11IIII SUPPLY DUCT 18 GAUGE DUCT TOLE BLDG 9 101.2 DETAIL -LOWER LEVEL STRAP DUCT HANGER TEK SReN 22 GAUGE STRAPS TO ROUND OR RECTANGULAR DUCTWORK r ---- -- EX 1 S I NG CONCRETE BEAM W ITH EMBEDDED UNISTRUT CHANNEL - UN 1 STRUT P3008 NUT WITH P 1 453 FLAT PLATE AND 3/8" BACKUP NOT EXISTING UNISTRUT CRID (OR BUILDING STRUCTURAL MEMBER) BOLT 22 GAUGE GALV STRAPS. AROUND. NEW OR EXISTING UNISTRUT CHANNEL AND ROUND OR RECTANGULAR DUCTWORK CITY OF IUKWI! APPROVED r ;D G sib SION EXISTING CATWALK CHANNEL OR HORIZONTAL STRUCTURAL 'I BEAM UNISTRUT Pl649S BEAM CLAMP WITH 5/16 „ BOLT, WASHER Aft LOCK WASHER (TYPICAL) EXTEND STRAPS UNDER DUCT AND TEK SCREW (TYPICAL) na DETAIL - MEDIUM PRESSURE DUCT ACCESS DUCT HEIGHTS LESS THAN IC ", MAKE PANEL HEIGHT 2" LESS THAN DUCT HEIGHT. n� . EV i SI ON Atit*Vtr,'. RrCORO ,OWG ( R NUMBERED, 11~IAS M503} SR 0K KR INSTALL 1 6 ° x22"'-PANEL CUT FROM DUCT OF IDENTICAL SIZE, SECURE WITH TEK SCREWS 3A` ON. CENTER ',AND SEAL WITH FOAM GASKET I NG ---- INSULATION CONTRACTOR TO MARK OUTLINE OF RECTANGULAR ACCESS PANEL WITH BLACK PERMANENT FELT TIP MARKER AND CROSS HATCH INTERIOR OUTLINE INSTALL I4 ") PANEL OF IDENTICAL GASMETAL AS DUCT, GLUE ALL EDGES OF 'SOUNDLINING WITH HARDCAST DUCT SEALER, ALLOW 'DUCT SEALER TO DRY COMPLETELY BEFORE SECURING PANEL WITH TEK SCREWS 4" ON CENTER AND FOAM GASKET IFG --' /// --CUT 12" HIGH BY WIDE RECTANGULAR HOLE IN DUCT AND LINING N � SUPPORT DUCTWORK FROM UN I STRUT GRID WITH STRAP SHEET METAL Co r x. APPROVED DATE •ADD " > 12" EXTENTION AND SEPARATION SHEET TO SPOT COOLER. HAND FROM UNISTRUT'GRID. US 1 NG EXISTING HANGER BRACKETS ON 'UNIT . C AII AUBURN , WA .98002 0 BELLEVUE,WA 98007 0.EVERETT, WA, 98201 0 KENT VVA . 980.3 0 PORTLAND ,,O . 97220 0 ENTON WA . 98055 II SEATTLE, . WA, 98124 !-, I j iI,: It I (,. I 1,I 11111 NOTE: • If the microfilmed document i9 less clear than this notice, it is due to the quality of the original document. le 0z 6t et LL • 9t 5t tit Et Zt • It .01•... 6 Mull Ili ffri i ` I►111IIIliI�IIlithtlbOlii IIIIIili rffi ,IIJ I�II�I� l�l l 111 lalI ° il llllrllffilI III%i 911111 APPROVED BY ACCEPTABILITY TN'iS OESi6 AND /OR SPtCiflcA IS APPROVED DETAIL i-- --�- CHWR �-- CHWS —CD— NOTE: AFTER REMOVING TWO SECTIONS FROM EXISTING PENTHOUSE (AT GRID E -6) AS SHOWN, SCRAP REMAINING PENTHOUSE SECTIONS AND CAP ROOF OPENING AT LOCATION SHOWN ON ARCHITECTURAL DRAWINGS. TITLE NOTE: LOCATE PIPING IN :RAISED FLOOR. DETAILS ktalVED CITY OF TUKtWILA JUL 20 tal2 P RMrr C N AcEPTAB THIS DESIGN SPECI F !CAT ION IS AF PROVtp BY I L I TY AND/OR APPROVED DEPY • ' DATE " 6Ut' N M A K1 IP A ILLIP)9X.111111111 SMITH K R iM EY El 47,06.92 .;;;•-• ' 2 SAN DOWN THROUGH FLOOR SEE DWG 109- I01-4527-M- I I I /2 "V EXIST 3/4 " CW EXISTING 8"CHWS & R MAINS FROM ROOF @ 48" ABOVE CATWALK 2"V (EX ST )- CC5NNECT TO EX 1 ST I NG 2"V CONNECT 3/4"CW TO EXISTING 2"CW- SECTION I 20 EL 17' 2 CLEAR fop CATWALK DECK 55'-2" 10 1/2" CATWALK TOP UN I STRUT 12' 1111111111111111111111111111111111111 2 • AU8LJRN , WA 9800'2 0 BELL WA 98007 O EVERETT , WA. 98201 0 l<ENT, WA. 98031 O PORTLAND , OR 97220 RENTON, WA. 98055 ▪ SEATTLE, WA. 98124 11 riripTITWT 4 5 6 7 1 NOTE: If the microfilmed document is less clear than this 1 , notice, it is due to the quality of the priginal document. 4 7Z • CZ ZZ OZ 61. 91. it 91. 21 in Z1 LI I I I AnkidA I - IiivilitilliTiffill- 9 1 10 11 MMIE IN GERM 12 TITLE BLDG 9.101 .2 RECEIVED en JUL 20 1902 PERMITCENTER DLL OWN° CONSTRUCTION NOTES: I. • WORK ONLY WITHIN PHASE 2-D BOUNDARY. > CW CONNECTION FOR VENDING MACHINE. USE CHICAGO #10I5 STOP VALVE AT WALL. 0 CW CONNECTION BELOW COUNTER FOR COFFEE MAKERS. USE CHICAGO #10i5 STOP VALVE AT WALL. ,r. 1 FOR INSTALLATION OF CW AND HW TO SINK I ---1 SEE DETAIL * ( 2M6 M55 [ REROUTE PIPING TO CLEAR NEW CATWALKS EXTEND UP TIGHT TO ROOF BEAM. '.-'-'. RELOCATE CHWS & CHNR TO CLEAR NEN CAPNALK. EXISTING LOCATION NOT SHOW RELOCATE TO AS SHOWN. r7::> RELOCATE DOMESTIC WATER TO CLEAR CAlWALK. 4S 4 1 / 2 " 1111 I III 1•i)i "rifeii Il N %jl� DATE giP ,ar . i .. AR ENT 14 0' :. tom^ GZ VZ £Z ZZ • IZ 0? 61 ei £I 91 GI bl El I III f 44IIIfH4111IiIIII I1 � I CY 1�1�11111 I IIlllll�Jlill il� l�Ihl�I�fIIIIIII �r �lI . •__ x: ; 2 CONN2"V& 3 "SAN TO E XIST 4 "VTR & 4 "SAN 2"V ITTI I_ I... �Il CO 0 AUBURN OVA . 98O02 0 BEL L EVUE , WA 98007 F`VE'RE' TT WA . 9820 1 LJ , !CENT , WA . 98031 0 PORTLAND , OR . 97220 0 R NTON , WA . 98055 SEATTLE , WA , 98124 , I 1 I 1 l l l l i l 1 I I I 1 I 1 l 1 i 1 l 1 I 1 1 ' 1 I ` 1 1 1 ; I ( ' I 1 . 1 + I r . r i i 1 I 1 1 : m 1 . ) 1 } 2 ' 3 4 5 6 LT&tE': If the; microfilmed document is less clear than this notice, it is due to the quality of the original document. ..I` T I M r T i t 1„,--2"V BELOW FLOOR P ; 2 Ile' ? "V ABV AND BELOW FLOOR I -- -EXIST 2 . 'VTR k z:i * - P0C POC I EXISTING 3"SAN DN 11. I' its: 1T }G� � � IT[[WI1: IIIHIT UT.r'TT . EXIST 2 "FD �1 I:I'I Il.T .1T _1J. t i rnIil!T11:[JUl11 l 1 NEW 2 "SAN DN THRU FLOOR wco ACCEPTABILITY Tills 11ES1CW A D'ol SPEC IFI` CAT ION !S Al VED APPROVED BY DMA T ,' t7A E loffirtmrrfert- TITLE EXIST 4 "SAN BELOW FLOOR �--- EXIST 4 "SA:N ' DN POC FOR NEW 2 "V ;& , (2) 4 "SAN 4 "SAN 2 I/2 I %2 "V � ."Kl�'� L•r.Xr'�w . r k...'S'.:.?.� t..ltrs:iZ.:a�+,+��K'L I I/2"SAN FOR CONTINUATION SEE SHEET 2M67 -- CONNECT I I/2 „ SAN TO EXISTING 4 "SAN BELOW FLOOR ---- NEW I I /2 " V Cl-ri OF TUKWILA 20i9p2 PERMIT CENTER GENERAL NQTES. CONSTRUCT ON NOTES : �►► FLOOR CONIE.CT TO EXISTING 3" SAN BELOW TOILET ROOM R6 PLUMBING PLAN EEIP PHASE �D MECHANICAL MASTE �► CW CONNECTION BELOW COUNTER FOR COFFEE MAKERS. USE CHICAGO ij10I5 STOP VALVE AT WALL, C3� RELOCATE TO SUIT NEW WC SPACING. THERMOSTATIC TEMPER VALVE, LEONARD MODEL 1108, L= PROVIDE TRAP PRIMER. TIE INTO CW PIPE IN MEZZANINE URINAL CHASE. G ACCESS DOORS FOR VALVES, SEE ARCHITECTURAL DRAWINGS.. .nl r,;::,.lN.brW VENT BAIT I :TARN WASTE BE 1:R SANITARY WASTE' :ABOVE FIR ::DOMEST'I C COLD WATER D1EST I C HOT WATER 1DOMEST.I C HOT WAT C I RC CLEAN OU'1 WALL :CLEAN OUT BALL VALVE (NO) POINT OF CON■ECTfON :101445 DATE witstai EEIP.PHASE 2-0 TENANT IMPROVEMENTS ft-Ai �i:.�r ALL P I P I N G ABOVE CORED SLAB IS IN TOILET ROOM #6. ALL PIPING BELOW CORED SLAB IS IN TOILET ROOM #2 TOILET ROQM VT T RMAJN. 1 AUBURN , WA 98002 0 BE L L EVUE WA . 98007 0 EVERETT , WA . 98201 a KENT, WA 98031 0 OR LAND , OR 97220 0 RENTON , WA . '98055 I SEATTLE, WA 98124 wf� 1 I • nii i i►iII11• i. `1 1I11 111 r1111.1 '+ I 4 5 6 7 . 8 i NOTE: If the microfilmed document s less dear than this notice, it is due to the quality of the original document. ROOF VENT ACCEPTAB I L 17Y THIS COIGN AND // OR� SPEC trI CAT ICAN IS AIPROVED APPROVED ?,Y DEPT, DATE 4.23.92 TITLE l a,y ^,a' .!?r�lk ?'.K �:•: •,.r..., s ,....:., - i xy. _.. RCCEI Eb CIlV OF Tt;KWILA Jji 2 0 1992: PERMIT CENTER EEIV PHASE 2-D MECHANICAL MASTER TOILET RMS 82 & 6, PLUMBING DIAGRAMS 13f& ENGINEERS OAKM543N K148" 06 , 29 , 92/09 . 54 2:';• fdiC7VG� , ��:: CONNECT TO HW FAUCET — •..� INLINE FLOW CONTROL !FURN WITH Vr11 } HW CW WH2 J4A , WH2D 18A (MOUNT ON WALL INSIDE CABINET) 2ND_FLOOR NTS REVISION ISSUE FOR 2- -D RR & CONVERTER STATION SR ISSIE FOR EEIP PHASE 2 - SR P - ---�, b SINK COUNTER TOP ...-,±--- 3/8 "COPPER TUBING -CONNECT TO CW FAUCET � -CW SUPPLY (BEHIND WALL) 2. 3 -WAY ANGLE STOP VALVE AT WALL air SINK ftIPLNCONNECTJON DET&LLJT) 2M62,2M7L'LM555 GS KR GS KR k 07.06.92 SYM DATE p • n W r 1 5 1 =111111111111 T I, • r k u. k ACCEPTABILITY THIS DESIGN AND /OR SPEC I t = I GAT ! ON I s APPROVED APPROVED BY DEPT. DATE A BUN K RAM EY ROS M.CAUNITIS G.SMITH D3.09 BE &C EUG1N ERS IAST REVISION SYMBO SHEET M556 JOB No. 9 10005- 07/90133, DYN NO 9.101 --M555 APPROVED AlE 23.92 REVISION 1 1 NOTE : SET CD CD TANKS BY TO OPERATE APPROVED O HOB 1 RG RED BE ER AT 120`. CONNECT TO EXISTING DRAIN. PRV RELIEF LINE S I Z E TO BE NOT LESS THAN PRV DISCHARGE PORT SIZE. (PRY'S FURNISHED WITH WATER HEATER). .�wrnlw4.KU,11011rw. I T TU RED 1 U �c i 14 co ( 0 -' yo CDT Y rUPp ,7 DOMESTIC HOT WATER DIAGRAM-DETAIL NTS M5FO,M574Al555 FACILITIES. DEPARTMENT .21....... a. 01......_. O AUBURN, WA . 98002 0 BELLEVUE , WA . 98007 O EVERETT, WA. 98201 CJ KENT , WA . 98031 O PORTLAND, DR 97220 O RENTON WA . 98055 • SEATTLE , WA . 98124 i s 9 x wr S l :• IM 1 P V H11I1 1 ,1 1 .. I I I I li:ITV i 111 Lil I 1 III + LLL r L � ILI � I 1 + Q I 1. #I 0 16THSINCH 1 3 4 5 7 I I NOTE: If the micr'o.filaned document is less clear than this notice, it is due to the quality of the original document. . I II�i�. I I 1 I 1 � I I I I I I I I 'I I I I � 'I I I f 9 1 10 11 MADE IN GERMANY 12 00 6z ee Lz 9Z 5z •,? CZ ze tz O? 6t et Lt 9t st +Mt et zt a 01. 6 8 G ; s s ' e z t t v 0 1 1 1 1 1 1 f' l 1 1 I I I I f I II . Iilll�llll IIII�IIII IIII�III! IIIIIII�I Ifilj!I11 il�l�llll L{Il�llll JIII���II 1 ,ILI�I �nlllill L11111I1111U�lIII IIIIIII�iiIlllllilL IIIIInII JI!IIIII(.I)Ii� -11iI IIIIIIIillliillilll nIIIII II IIIIIIiI1� �IIiIIIIIiIlllilillllliilillilliililiii1111i1 Iliilllill I II TITLE BLDG 9.101.2 COL NA PLUMBING DETAILS LEGEND: RECEIVED CITY OF TL►K'RWILA JUt20 iga2 I='tRMIT CENTER .wsrn..wrM-wm 1W..rWt EEIP PHASE 2 -D GENERAL NOTES: E1 CIRCULATION PUMP W.W. GRAINGER #1P761 TEEL, CAST IRON BODY WITH CERAMIC IMPELLER, 1 /20 HP, I15V -I PHASE, 4.8 GPM AT 7' HD. MAGNETIC DRIVE. 2 2 - " ) 5 GALLON EXPA I D T A I K W.W. GRA I NGER #2P668, TEEL 1 3i> AQUASTA1 , W.W. GRA I NGER, #2E349, 100'- 240' �_._. (SET AT I I S') , SPS T . CONSTRUCTION NOTES: MECHANICAL MASTER D.C. OAKI4555N CITY OF TUKWILA APPROVED JIi 5 " DI (x D SION KHB /00.23 9O /O9 53 INSTANTANEOUS INSTANTANEOUS INSTANTANEOUS I NSTANTANEOUS INSTANTANEOUS STORAGE STORAGE STORAGE FLOW CONTROL VAL E I S UC ' FOR 2 -1 t HEST I C HOT WATER HEATER SCHEDULE DELIVERY RATE OPERATING PM MAX. WH2AOIA WH2AIOA WH2D03A WH2DI8A WH2HO4A 'gam 7u3ryfimr4.-A- 1 1/2 1 ;1/2 „ 1/2 3 3/4 / WALL HUNG, FLUSH VALVE WALL' HUNG, FLUSH VALVE WALL HUNG, FLUSH VALVE COUNTER far, --" VITREOUS CHINA WITH SENSOR OPERATED FAUCET STAINLESS STEEL BARRIER-FREE CHRONOMITE WITH 1:0 GPM CHRONOMITE WITH ' 1.0 GPM CHRONOMITE* WITH 1.0 GPM CHRONOMITE WITH 1.0 GPM CHRONOMITE WfTH 1 CONVERTER STATION1NO.2 CONVERTER STATION N0.2 CONVERTER STATION NO.3 R R T I O N NO.3 C f0 INS INCH 1 LZ 9Z SZ '£Z ZZ 1111ll(� I(IIIIIIIIIF (WO I1 111�f�1d 1�1►II�IlllllI REMARKS FLOW CONTROL VALVE FLOW CONTROL V FLOW CONTROL VALVE FLOW CONTROL VALVE FLOW CONTROL VALVE A.O. SMITH A.O. SMITH A.O. SMITH • :J AUBL RN , WA ..98002. • 0 "ENT) "97220" 0 RENTON:, VGA ..98055 98124 r-dir 1111 NOTE: If the microfilmed document is less clear than , • an this notice, it is due to the quality of the original document. LE 0? 61. • Sl • LL 9l 5t pit £l et 11. O L JI] IIII t11i�1111ii1�1I1VII1Ij111 111Ii11ItI11I� lllllliI l;Itlii1II1111111I IIIIIitIi� l f)1I11�!IIIIt1 ►f�IIIIIIfll�ll ►1 t », .- 111111111111111111111111111111111111 VI I I I 1 1 . 9 t 10 11 WG4 12 4, MOT. DATE ACCEPTABILITY IRIS DESIGN AND/OR , SPCGIrICATIQN IS APPROVED AmovalAy BLDG . 9.101 err i .rr: *f Y' s 1 '!wt'y.4• RECCIVED 61V F TEIKWILA Jul 2'01992 PERMITCENTE!R J'A