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Home My WebLink AboutPermit M01-103 - AT&T ALS NODEAT 8 T ALS NODE 12628 INTERURBAN AV S City of Tukwila (206) 431 -3670 Community Development / Public Works • 6300 Southcenter Boulevard, Suite 100 • Tukwila, Washington 98188 Permit No: M01 -103 Type: El -MECH Category: NRES Address: 12628 INTERURBAN AV S Location: Parcel it: 000480-0003 Contractor License No: MECHANICAL PERMIT Status: ISSUED Issued: 10/10/2001 Expires: 04/08/2002 TENANT AT & T ALS NODE Phone: 12628 INTERURBAN AV S, TUKWILA WA 98188 OWNER SAMMIS PCA PARTNERS C/O SAMMIS CO, 18802 BARDEEN AVE, 'IRVINE CA CONTACT MIKE RICHEY Phone: 206- 391 -3136 1021 SW KLICKITAT AV S, tt104, SEATTLE WA 98135 ***************************************•***** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Permit Description: (7) 19 TON LIEBERT COMPUTER ROOM AC UNITS, (2) 3 TON PACKAGE AC UNITS, (3) GAS FIRED UNIT HEATERS (2) SUPPLY FANS, (3) EXHAUST FANS (1) FAN POWERED VAV BOX W /ELEC HT, DUCTWORK, FIRE /SMOKE DAMPERS. UMC Edition: 1997 ******** * * * * * * *** * * * * * * * * * * * * * * * * * * * * Permit Authorized Signature Date Valuation: 160,000.00 Total Permit Fee: 391.25 /0- ID-01 I hereby ,certify . that I have read and examined this permit and know the same to 'be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or riot. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to s i g n for and obtain this bui ding pe . it Signature: - -- - �aCX Date: 0 _ ( 61 LJ C5 aC &. Title: yr 1''S5IS 2 it This permit shall become..' n u l l . and void if the work i s 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. Address 12628 INTERURBAN AV 5Uite: Tenant AT & 1, ALS NODE ': Type 8 -MECH Parcel ' # 000480 -0003 CITY OF TLJKWIL.A S Permit No: M01 -103 Status: ISSUED Applied: 06/11/2001 Issued: 10/10/2001 * * ** ***** *kkk ********* **** t******** ******* **k*** *****k**** *** *****k** ** *A k* ermit Conditions: 1 Read i1y, access ible access to roof mounted equipment is requi red . Any exposed irisulaLions rnater,ial 9;shal.l have a Flame ,Spread Rating of 25. or..1 ` and material shall -: bear i denti F rcati on rig ..thel Fi re . per f or;meric rating thereof . Plumbing permi shall „ s be `ob.tair ed through the S -King County: Depart merit of F,ub 1 I c. Hea lth. P1,umb I ny .011 be Inspected bye that �ige "ricy; including, . all gas : pipi 296-4722 �, { Electrical. i erm shall's be obtained through the Wa`uhiincctorr, tate Div:I iori`of. Labor and. IndUstr4es- ••:and all elect y ark wirrl,l; be- inisspectEd by that agency: (248 -6630) changes wit 1 be ,p made to the plans unless approved b Cncdinc� arid the ,Tukwi 1aBui ld!irny- „Division. l l: i7 "jin�t.�, ) ri . spect sari records, ariti;:,:'Opproved plans .shay A vai ' �a iyl e tat the` ; job a 1 to "prior, to the start of any con 7: sstructi on These documents ar, e. to ,be; ma nta:i ned and S ava i able,ur�tal final inspec.tionyappova1t i.s granted Al 1 corist;,r uct i on -, done ; { i ri con Formanice with approved' p l ar i& and r eyu ii remeeni.s ,o of the Un i Form ,Flu 'ding Code (1997, 'Ed I L-i dri) : as• amended, -On l Form Meehan i'cal' Code (1997 Ed i Li an and Washington ' Si at.e” Eriergy. (19 F d i:t i on) . f l ;i d:I t j.y o Fa Perini t .. The' issuance s of `a pe r it. or approva l ans V " speec.i l' i cations, and computations .sha l "1 not : be con- strued t, be a : permi t for, . or an approval of , any vi o l ati on af'.an iof the =prov;isions' of the bu,i 1dirig code .or of any they ; ord. riace of = ? the ' juri sd'i ct' i on. •. No ,perm• t, presuming t lye' author i ty , to : Violate or car�cf..1 the prow i•s l oris of this r code shall .be Valid � ariu facturers i. ristal lat ton, i nst r•ucti on s for the bu inspectors review., * *FIRE DEPARTMFN1 CONDITIONS * ** he attached se °o f> plans ' have .beri revi by The rev Bureriu`arid are acceptablewjth the Following concerns. "4 tL I . V . A.C. ur► i ts require auto; shutdown devices • "The e devices•' sha"l T.. e separately zoned ` `i in the alarm panel :. and l m oca l U : F:. central station supervision is required. (City Ordinance it1900) HV.A.C. systems supplying air in excess of 2,000 cubic feet : per minute to enclosed spaces within bu i l d ii rigs shall be'.equi pped with an automatic shutoff . Automatic shutoff hal1 be.accomp1i shed , by interrupting the power source of . the air - moving equipment upon detection of smoke in the supply -air duct served by such equipment. Smoke detectors shal l be 1 abe led by an approved agency for a i' r -duct instal 1 at i on and shal 1 be . instal led in accordance required on: 0 co o N w u . w 0; J ' Q ; CO D d . Z z D U o. '0 I- w w', O _ 0 , • H =' O H z ere er-eby cer }t,i fy. that I have read these conditions acid will comply;. h; them ;a :. utl i �ied i l :pr.•ov i s ioris of .law arid 'ordinances, governing s: work wi .1`,l; ; be • comp 1-•i ed„,, with, whet er s pec i'f i i,.d,, herein or::riot' ", ranting o fk this per does, not presume to .give. a01 hUr t,y t t °o o ate or cance l� `the pray i s i oris' o f, any or• the '''work or ,, l oca 1 ,l aws cj 1 atl,rig constry i„on r the performance of Work. i griatu r.e.: with the manufacturer's installation 1ristructioris. (UMC 608) . Duct smoke detectors shall be capable for being reset from the alarm panel. (City Ordinance #1900). {15:.'; Remote alarm anrnuric i at •ion indication is required if the control panel is not visible f r•om the main entrance. (City Ordinance #1900) tniareas that are not continuously occupied, automatic smoke detection shall be provided at each control unit( s) location to provide notification of fire at that location. (NFPA 1 -5.6) The installation of, wiring and equipment shall be in 4ccordance with N. F.P:.A. 70, Article 760, Fire Protective Signaling. Systems. (NFPA 72-1-5.5.4) ▪ When the control panel is located i ris i de a room, the door ' . to" the . room shall have;�.a i gri, with :::one irich` ::1 etters which reads "Fire Alarm" or, "r;i re 'Alarm Control' ;.(City Ordinance #1900) • Dedicated. °fire.•alarm s.ystem;ci;rcuit shall 'quipped with a ;mecharii caul. lockout ' device (NFPA 72- 11 new f i re � t l arm systems , or mod i f i cati ono to ex i sst ri stems sha11 .have the :wri tten approva l of the Tukwila event 6n;'Burea u. No work -: shall commence until a f irc epartimA permit has been, obta i nod (City Or d rriance': , 1900) i ('Uf rC 41001 3) , r >`r ontact,?the:`4Tukw .1a Fire. Pr:everit:on Bureau to witness required inspections aid° tests (UFC :10.503) (Cit. OrdI riiinibe W900 ,arid, Duct .-detectors .sha1l.I sen)dipa: s'uper'visory signal only upon f.�.W t' i V r ati on t� y, ,. �.. Y,. r �', -o � �" i Any. Aver l ogked - hazardous cond i t i on' arid? /or•. violation of, the adopt?il Fir ; : or, Building Cares does; riot imply approval o f,: such condl;t ..or violation' he plans ware Y ev t e;�, ed- : by° ._:C53 '1 f you; shave any ` G uest 6kri please cai 1 the 1'ukw i la F re Prevent ion Bureau t _ ( 2 06' ?575 -4'40T v t n o • c)0 co p co w co IL, w 0 . g J, LL ? : • O z �� • H O, z � D O N `. = w � H t O : • Z Ill co 0 �` Pro ect Na e/Tenant: 1'i" T nL5 Al°06 Value of Mechanical Equi r " ent: Roc=., , oo Site Address : City State/Zip: 12 (02 IJTi�1 V?- / A "E S. Y 1IAA Tax Parcel umber: 00 CI Lt�,p -- 0U c 3 MEAcr Property Owner: a ATe L -( 0 LYM e(A , ov c. . Phone: ( ) 'Print name: M , K E �` C4 E `, . ` Street Address: City State/Zip: 16000 Ca?.tSTE./SEA) 0. Io1 TJ(rt,JI (-4 9 Betat Fax #: ( ) 4 S I g 3 .e'.. Contractor: U) ( FP 1) f t s1 5 - rt 'II s ,Ai Phone: ( ) Zob (95Lt - 8,3 R7 Street Address: log I I City State /Zip: 4..J K L I c. - f TAT Mr S r S E q. aA - Fax #: ( ) 2t 6 2't' S g Contact Person: Moc 9i)131- `(Z - k T Phone: ( ) ? 39I - 3 1 Fax #: ( ) al,, 4,24, e` g Street Address: City State/Zip: /024 fJ (L 1 I:t TA'V WA r. S. C EA �- WA . et tt3 BUILDING OWNS OR AIiTH RIZED AGENT: Signature: ( Date: cl. / '7/ a I 'Print name: M , K E �` C4 E `, . ` Phone: ( ) 4 S I g 3 .e'.. Fax #: ( ) Address: /ot1 S . KL ctrCt'r r A 5 . ity /State /Zi : t....r ,, '`� r b1'3`� CITY OF T WI LA Permit Center 6300 Southcenter Boulevard, Suite 100 Tukwila, WA 98188 (206) 431 -3670 SIAIF USU. ONIY Project Number. Permit Number: Mechanical Permit Application Application and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or facsimile. MECHANICAL PERMIT REVIEW AND APPROVAL REQUESTED: (TO BE FILLED OUT BY APPLICANT) Description of work to be done (please be specific): (7 l9 ToN1 Lt ''�' co-9 Et. tour.. ,kc wilet5 - 3 z"c.n PA(rACE Ac ii/VT5 tIA5 c.trtlr RENT-0" C21 s'oQeL^f FAAK (3) B.xNAJsT A. $ ` (1) F� J foAtEREO V 6\1 gar .J/ eu c. ITT. I Ducgrt„)olL c ( F 'A Pis Current copy of Washington State Department of Labor and Industries Valid Contractor's License. If not available at the time of application, a copy of this license will be required before the permit is issued OR submit Form H -4, "Affidavit in Lieu of Contractor Registration ". Building Owner /Authorized Agent: If the applicant is other than the owner, registered architect/engineer, or contractor licensed by the State of Washington, a notarized letter from the property owner authorizing the agent to submit this permit application and obtain the permit will be required as part of this submittal. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PER JURY BY THE LAWS OF THE STATE OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. 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 114.4 of the.Uniform Mechanical Code (current edition). No application shall be extended more than once. Date application accepted: (, — / / — D/ Date application expires: Application t en by: (initials) 11/2/99 much permttduc e17y - TuKw JUN 1 1 . 2001 PERMrrcEN,IER ✓ Submittal Requirements Floor plan and system layout Roof plan required to identify individual equipment and the location of each installation (Uniform Mechanical Code 504 (e)) Details and elevations (for roof mounted equipment) and proposed screening ■ Heat Loss. Calculations or Washington State Energy Code Form #H -7 H.V.A.C. over 2,000 CFM (approximately 5 ton and larger) must be provided with smoke detection shut- off and will be routed to the Fire Prevention division for additional comments (Uniform Mechanical ode 1009). Specifications must be provided to show that replacement equipment complies with the efficiency ratings and other applicable requirements of the Washington State Nonresidential Energy Code. Structural engineer's analysis is required for new and the replacement of existing roof equipment weighing 400 pounds and greater (Uniform Building Code 1632.1). Structural documentation shall be stamped by a Washington State licensed Structural Engineer. Mechanical Permits COMMERCIAL: Two complete sets of drawings and attachments required with application submittal ESIDENTIAL :: Two complete sets of attachments required with application submittal Submittal Requirements New Sin le Family Residence Heat loss calculations or Form H -6. Equipment specifications. Change - out or replacement of existing mechanical equipment I Narrative of work to be done, including modification to duct work. Installation of Gas Fireplace Narrative with specification of equipment and chimney type. If using existing chimney, provide a letter by a certified chimney sweep stating that the chimney is in safe condition. NOTE: Water heaters and vents are included in the Uniform Mechanical Code — please include any water heaters or vents being installed or replaced. ' 11/2/99 !nlscpinl.doc NOTE: Water heaters and vents are included in the Uniform Mechanical Code — please include any water heaters or vents being installed or replaced. * *. ** r **** * * * * * * * * * * * * * * * * * * *: * * * * *:* * * * * * * * * * * * ***' CI1 Y :'OF:. TUKWILA,' ;WA TRANSMIT 4/0q61c** * * *** * * * * * * * * * * * * * �!c ** * * ** k * *yk* * ** *fit ** * **** * * * * * * ** ** TRANSMIT ;Number:.R0101317'Amountc 391.25 10/10/01 14:17 Payment,;Method: CHECK,. Notation: UNITED SYSTESM Init: KAS Permit No: M01 -103, Type: B -MECH MECHANICAL PERMIT Parcel' No: 000480 -0003 S ite Address: 062a, : INTERURBAN AV S Total Fees: 391.25.: This Payment 391.25: Total'. ALL Pmts: 391.25 Balance:. .00 ****************** * ************* * * * * * * * * * * * * * * * * * * * * * * * * * * * :. ccount. :Code Description Amount:' 00/345.830 PLAN CHECK'.- NONRES 78.25 00/ .MECHANICAL.- NONRES x,31.3.00 Receipt No.: R020001383 Initials: SKS Payment Date: User ID: 1165 Balance: Payee: UNITED SYSTEMS ACCOUNT ITEM LIST: Current Pmts Type Description Payment Amount: 35.25 09/20/2002 11:11 AM $0.00 TRANSACTION LIST: doc: Receipt City of 'Tukwila 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 Amount RECEIPT Parcel No.: 0004800003 Permit Number: M01 -103 Address: 12628 INTERURBAN AV S TUKW Status: ISSUED Suite No: Applied Date: 06/11/2001 Applicant: Issue Date: 10/10/2001 Method Description Payment Check 048280 35.25 Account Code 000/322.100 28.20 000/345.830 7.05 Total: 35.25 TOTAL. AL. Printed: 09 -20 -2002 . PECTION RECORD Retain a copy with permit INSPE ION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188. (206)431- 3670 Project: A . dress: pecial I structi Type of Inspec�' Date Called. Date Wanted: Requester: Phone No: Approved per applicable codes.. a Corrections required prior to approval:' COMMENTS: / /tA 6 -- 57-f--/ $47. REINSPECTION / EE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. No.: !Date: cc cS to W 9 W O J ' D. W Z 2 Vii U � O N' O W W Ui U N 0 z Pr o ct: T A/ s �' Type of Inspection` L. T r_G Date Ca • ,- -C d re s ., la N/FPI/Mix; / f Special Instructions: A t, 5, e Date anted: f Requ ,n,(e INSPECTION NO. ECTION RECORD Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (20631 -3670 Receipt No.: COMMENTS: Approved per applicable codes. $47.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be % _ paid at b300 Southcenter Blvd., Suite 100. Call to schedule reinspection. 'Date: PERMIT Corrections required prior to approval. Date: • r.•ti >o. _.__�ri•I :;.S.,..v ..'1. iii 0 INSPECTION RECORD Retain a copy with permit INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd, #100, Tukwila, WA 98188 Approved per applicable codes. COMMENTS: /3 / / r ' �di - -e )e r . vei �/ G ' 1 ' 1 -' / 'jj o ,, c5 eA�'s / d� D 7 7 L� 11 d-o2,14 L (206)431 -3670 Project: r P 67" 1 LS NOP-P ddress! pecial instructions: Ty of Inspect' ate cacfe ate wanted: Reque er:; ik 2 0 oh e: .......... Corrections required Prior to approval. Inspector: $47.0 REINSPECTION 'REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Date: Receipt No: t ,x . .. '.�:.cci.o.1 INSPECTION RECORD Retain a copy with permit :INSPECTION NO: CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd, #100, Tukwila, WA 9818 Project: �L S ,tVt Address: Special instructions: Type Type,94 Inspection: ae4 �=r� Date- wanted::,. • Request r Phone: Approved per applicable codes. :(206)43 E Corrections required prio to approval ,r. 0 $4 .0 EINSPECTION E REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Receipt No: Date: • a' ATI-P "ng1 • Authorized- ture FINALAPP.FRM. eeds shift. inspection 0 city of Tukwila Fire Department Thomas P. Keefe, Fire Chief TUKWILA FIRE DEPARTMENT FINAL APPROVAL FORM Approved without correction notice . Approved with correction notice issued Sprinklers : i../ Fire < Ala' i rm: L/ Hood: &' Duct: Al 'Ha1on ::- /. Monitors �(lr }.. /� t. 1i n ( Pre =Fire: pi Permits Steven M. Mullet, Mayor Permit No. f 6 6 2 /"'/03 Rev. 2/19/98 T.F.D. Form F.P. 85 Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Phone: 206.575.4404 • Fax: 206 - 575.4439 Project Info Project Address ALB NODE BUILDOUT PROJECT Model No. CFM Date 5/25/2001 HP /BHP 12628 Interurban Ave S (Building C) Location of Service -- ` _ , For Building Dept. Use Tukwila, Na. Applicant Name: The Austin Co ` Applicant Address: 1e000 International Blvd. Su. 300 Applicant Phone: 206- 674 -8376 Fan Equipment Schedule Equip. ID Brand Name' Model No. CFM Sp HP /BHP Flow Control Location of Service Location Cooling Equipment Schedule Equip. ID Brand Name Model No. Capacity Btu /h Total CFM OSA CFM or Econo? SEER or EER IPLV Location Heating Equipment Schedule Equip. ID Brand Name Model No. Capacity Btu /h Total CFM OSA cfm or Econo? Input Btuh Output Btuh Efficiency Mechanical Summary MECH -SUM 1997 Washington State Nonresidential Energy Code Comptianc_ ma First Edition - June, 1998 Project Description Briefly describe mechanical system type and features. Compliance Option Q Simple System O Complex System O Systems Analysis (See Decision Flowchart (over) for qualifications. Use separate MECH -SUM for simple & complex systems.) Equipment Schedules The following Information Is required to be incorporated with the mechanical equipment schedules on the plans. For projects without plans, fill in the required information below. 1 If available. applicable. 2 As tested according to Table 14 -1, 14 -2 or 14 -3. 3 If required. 4 COP, HSPF, Combustion Efficiency, orAFUE, as RECEIVED CITY OF TUKWILA JUN 11.2001 PERMIT CENTER mop -/o 3 System Description See Section 1421 for full description of Simple System qualifications. If Heating /Cooling or Cooling Only: ❑ Constant vol? ❑ Split system? ❑ Air cooled? ❑ Packaged sys? ❑ <54,000 Btuh ❑ Economizer included? or 1900 cfm? If Heating Only: ❑ <5000 cfm? ❑ <70% outside air? Mechanical Summa • • ack) MECH -SUM Decision Flowchart Use this flowchart to determine if project qualifies for Simple System Option. If not, either the Complex System or Systems Analysis Options must be used. Heating Only <70% OA >- . es ati ng/Cool I ng or Cooling Only Reference Sec 1421 Econo 'r Cooled? Reference Sec 1420 f Split em? yes Reference ' l e<54,000 BtuhN. Sec 1423 i 'co 1900 cfm? no Y Use Complex System r fereni 430 ce I Complex . Systems Refer to MECH -COMP Mechanical Complex Systems for assistance in determining which Complex Systems requirements are applicable to this project. Project Info Project Address ALS NODE BUILDOUT PROJECT Date 5/25/2001 12628 Interurban Ave S (Building c) For Building Dept. Use Tukwila, We. Applicant Name: The Austin Co Applicant Address: 18000 Internati Blvd. Su. 300 Applicant Phone: 206 - 674 -8376 Fan Equipment Schedule Equip. ID Brand Name' Model No. CFM sp HP /BHP Flow Control Location of Service Location 5 • ay.-4. Cooling Equipment Schedule Equip. ID Brand Name' Model No. Capacity Btuh Total CFM OSA CFM or Econo? SEER or EER IPLV Location 5 • ay.-4. Heating Equipment Schedule Equip. ID Brand Name' Model No. Capacity Btu /h Total CFM OSA cfm or Econo? Input Btuh Output Btuh Efficiency' See RV -4 • i Mechanical Summary, MECH -SUM 1997 Washington State Nonresidential Energy Code Compliant.- . arms First Edition - June, 1998 Project Description Tenant Improvement Add process cooling for Communications Rm - (7) Briefly describe mechanical system Split- system Air Conditioning Units type and features. Compliance Option Q Simple System C) Complex System O Systems Analysis (See Decision Flowchart (over) for qualifications. Use separate MECH -SUM for simple & complex systems.) Equipment Schedules The following information is required to be incorporated with the mechanical equipment schedules on the plans. For projects without plans, fill in the required information below. 1 If available. 2 As tested according to Table 14 -1, 14 -2 or 14 -3. 3 If required. 4 COP, HSPF, Combustion Efficiency, or AFUE, as applicable. 5 Flow control types: variable air volume(VAV), constant volume (CV), or variable speed (VS). System Description See Section 1421 for full description of Simple System qualifications. If Heating /Cooling or Cooling Only: ❑ Constant vol? ❑ Split system? ❑ Air cooled? ❑ Packaged sys? ❑ <54,000 Btuh ❑ Economizer included? or 1900 cfm? If Heating Only: ❑ <5000 cfm? ❑ <70% outside air? Econo I. lude.? no yes Simple Sydem Allowed Mechanical Summa X ack) MECH -SUM Decision Flowchart Use this flowchart to determine if project qualifies for Simple System Option. If not, either the Complex System or Systems Analysis Options must be used. Complex Systems Refer to MECH -COMP Mechanical Complex Systems for assistance in determining which Complex Systems requirements are applicable to this project. Mechanical - Comple 'ystems Checklist MECH -COMP 1 997 Washington State Nonresidential Energy Code Compliam.. , orms First Edition - June, 1998 Project Address 1.LS NODE aUTLDOUT PROJECT Date 5/25/2001 The following additional information is necessary to check a mechanical permit application for a complex mechanical system for compliance with the mechanical requirements in the Washington State Nonresidential Energy Code. Use the checklist as a reference for notes added to the mechanical drawings (see the MECH - CHK checklist for additional system requirements). This information must be on the plans since this is the official record of the permit. Having this information in separate specifications alone is NOT an acceptable alternative. For Building Department Use Applicability (yes, no, n.a.) Code Section Component Information Required Location on Plans Building Department Notes ADDITIONAL CHECKLIST ITEMS FOR COMPLEX SYSTEMS ONLY a ' 1431.1 Field assem. sys. iProvide calculations I i 1432 Controls ytss 1432.1 Setback & shut -off Indicate separate systems or show isolation devices on plans 1432.2 Temp. reset control yes 1432.2.1 Air systems Indicate automatic reset n.a. 1432.2.2 Hydronic systems Indicate automatic reset n.a. 1433 Economizers Indicate economizer on equipment schedule or provide calculations to justify exemption yes 1434 Separate air sys. Indicate separate systems on plans — yes 1435 Simul. htg. & clg. Indicate that simultaneous heating and cooling is prohibited, unless use of exception is justified Other 1436 Heat recovery Indicate heat recovery on plans; complete and attach heat recovery calculations n.a. 1437 Elec. motor effic. MECH -MOT or Equip. Schedule with hp, rpm, efficiency 1438 Variable flow sys. Indicate variable flow on fan and pump schedules Field - Assembled Equipment Section 1433.3 Hot Water Suppy Temperance Rae Controls Required Capacity or H Heating System Greater Than 600,000 Bluh1 Section 1433.3.: Supply Air Reset Controls Required no is circled for any question, provide explana Decision flowchart Use this flowchart to determine how the requirements of the Complex Systems Option apply to the project. Refer to the indicated Code sections for more complete information on the requirements. Yes 0 Section 1411.1 Equipment Petf. Shall Meat Tables 14.1 through 14 -: Section 1431.1 Yes Calculations of Total On -site Enet Input & Output Required Yes (continued on back) Mechanical - Cori*le stems (back) MECH -COMP 1997 Washington State Nonresidential Energy Code Compliance j arms (continued from front) Cooling Capacity > 20,000 Btuh? Supply Air> 5000 CFM& Outside Air > 70%.? Electric Motor Efficiency included in Equipment Performance Rating? Heating Type Multi - speed Motor in a Mult i-s peed System? > 225,000 Btuh Capacity? Fns or Pumps > 10 HP? otal Bldg Capacity > 240,000 Btuh r 10 %of total VAV System? Section 1411.4 Must be Heat Pump 1412.5 Provide Microprocessor Heat Pump Controls Non-Electric Section 1433 Air-Side Economizer Required Section 1435 Fn Powered Terminal Units Required Section 1436 Variable Flow Devices Required Section 1437 Motors Must Meet Efficiencies in Teel a 14 -4 ectr Section 1412.6 Modulating or Staged Combustion Controls Required Section 1435 Simultaneous Heating & Cooling Prohibited First Edition - June, 1995 0 Electric Motors MECH -MOT 1997 Washington State Nonresidential Energy Code Compliam* Forms First Edition - June, 1998 Project Address .LS NODE BUILD= PROJECT Dat 5/25/2001 Complete the following for alt design A & B squirrel -cage, T -frame induction permanently wired polyphase motors from 1 hp to 200 hp having synchronous speeds of 3600, 1800 or 1200 rpm (unless one of the exceptions below applies). For Building Department Use Motor No. or Location • HP Type (open /closed) Description of Application or Use Synch. Speed Min.Nom. Full load Efficiency NA per exception #2 Minimum Nominal Full -Load Efficiency Open Motors Closed Motors Exceptions: 1. Motors in systems designed to use more than one speed of a multi -speed motor. 2. Motors already included in the efficiency requirements for HVAC equipment (Tables 14 -1 or 14-2) 3. Motors that are an integral part (i.e. not easily removed and replaced of specialized process equipment (i.e. equipment which requires a special motor, such as an explosion - proof motor). 4. Motors integral to a listed piece of equipment for which no qualifying motor has been approved (i.e. if the only U.L. listing for the equipment is with a less - efficient motor and there is no energy - efficient motor option). For motors claiming an exception, list motor and note which exception applies. Synchronous Speed (RPM) 3,600 I 1,800 I 1,200 3,600 1,800 1,200 HP Efficiency (%) Efficiency (%) 1.0 - 82.5 80.0 75.5 82.5 80.0 1.5 82.5 84.0 84.0 82.5 84.0 85.5 2.0 84.0 84.0 85.5 84.0 84.0 86.5 3.0 84.0 86.5 86.5 85.5 87.5 87.5 5.0 85.5 87.5 87.5 87.5 87.5 87.5 7.5 87.5 88.5 88.5 88.5 89.5 89.5 10 88.5 89.5 90.2 89.5 89.5 89.5 15 89.5 91.0 90.2 90.2 91.0 90.2 20 90.2 91.0 91.0 90.2 91.0 90.2 25 91.0 91.7 91.7 91.0 92.4 91.7 30 91.0 92.4 92.4 91.0 92.4 91.7 40 91.7 93.0 93.0 91.7 93.0 93.0 50 92.4 93.0 93.0 92.4 93.0 93.0 60 93.0 93.6 93.6 93.0 93.6 93.6 75 93.0 94.1 93.6 93.0 94.1 93.6 100 93.0 94.1 94.1 93.6 94.5 94.1 125 93.6 94.5 94.1 94.5 94.5 94.1 150 93.6 95.0 94.5 94.5 95.0 95.0 200 94.5 95.0 94.5 _ 95,0 95.0 95.0 Mechanical Permit PI. . Checklist MECH -CHK 1997 Washington State Nonresidential Energy Code Compliance Forms First Edition - June, 1995 Project Address ALS NODE HUXLDOUT PROJECT 'Date 5 5/25/2001 The following Information is necessary to check a mechanical permit application for compliance with the mechanical requirements in the Washington State Nonresidential Energy Code. Applicability C Code I I L information Required o Location B Building Department HVAC REQUIREMENTS (Sections 1401 -1424) 1411 E Equipment performance n.a. 1 1411.4 P Pkg. elec. htg.& clg. L List heat pumps on schedule yes 1 1411.1 M Minimum efficiency E Equipment schedule with type, capacity, efficiency H HV -4 1412 H HVAC controls yes 1 1412.1 T Temperature zones I Indicate locations on plans N NV -i yes 1 1412.2 D Deadband control I Indicate 5 degree deadband minimum H HV -4 yes 1 1412.3 H Humidity control i indicate humidistat R RV -4 n.a. 1 1412.4 A Automatic setback I Indicate thermostat with night setback and 7 duff. day types n.a. 1 Dampers I Indicate damper location and automatic controls n.a. 1 1412.5 H Heat pump control I Indicate microprocessor on thermostat schedule n.a. 1 1412.6 C Combustion htg. I Indicate modulating or staged control yes 1 1412.7 B Balancing i indicate balancing features on plans N NV-1 n.a. 1 1422 T Thermostat interlock I Indicate thermostat interlock on plans n.a. 1 1423 E Economizers E Equipment schedule 1413 A Air economizers n.a. 1 1413.1 O Operation I Indicate 100% capability on schedule n. a . 1 1413.2 C Control I Indicate controls able to evaluate outside air n.a. 1 1413.3 I Integrated operation I Indicate capability for partial cooling 1414 D Ducting systems yes 1 1414.1 D Duct sealing i indicate sealing necessary N NV -5 yes 1 1414.2 D Duct insulation I Indicate R -value of insulation on duct H HV -5 yes 1 1415.1 P Piping insulation I Indicate R -value of insulation on piping H HV -7 yes 1 1424 S Separate air sys. I Indicate separate systems on plans M My - i yes M Mech. Sum. Form C Completed and attached. Equipment schedule with types, input/output, efficiency, cfm, hp, economizer SERVICE WATER HEATING AND HEATED POOLS (Sections 1440 -1454) 1440 S Service water htg. n.a. 1 1441 E Elec. water heater I Indicate R-10 insulation under tank n.a. 1 1442 S Shut -off controls i indicate automatic shut -off 1450 H Heated pools • 1452 ( (reserved) • • n.a. 1 1453 P Pool heater controls I Indicate switch and 65 degree control n.a. 1 1454 P Pool covers I Indicate vapor retardant cover n.a. 1 1454 P Pools 90+ degrees I Indicate R -12 pool cover no is circled for any question, provide explanation: It , � W W O u- < W ; . Z , Z H. uj 0 N CI— W W .. I— — iii Z H 0 Mechanical Permit PI. Checklist 1997 Washington State Nonresidential Energy Code Complienoo vomit MECH -CHK First Edition - June, 1998 Mechanical - General Requirements 1411.1 General: Equipment shall have a minimum performance at the specified rating conditions not less than the values shown in Table 14 -1 through 14 -3. 1411.2 Rating Conditions: Cooling equipment shall be rated at ARI test conditions and procedures when available. Where no applicable procedures exist, data shall be furnished by the equipment manufacturer. 1411.3 Combination Space and Service Water Heating: For combination space and service water heaters with a principal function of providing space heat, the Combined Annual Efficiency (CAE) may be calculated by using ASHRAE Standard 124 -1991. Storage water heaters used In combination space heat and water heat applications shall have either an Energy FActor (EF) or a CAE of not less than the following: 1411.4 Packaged Electric Heating and Cooling Equipment: Packaged electric equipment providing both heating and cooling with a total cooling capacity greater than 20,000 Btu/h shall be a heat pump. Exception: Unstatfed equipment shaeiters or cabinets used solely for personal wireless service facilities. 1412 Controls 1412.1 Temperature Controls: Each system shall be provided with at least one temperature control device. Each zone shall be controlled by Individual thermostatic controls responding to temperature within the zone. At a minimum, each floor of a building shah be considered as a separate zone. 1412.2 Deadband Controls: When used to control both comfort heating and cooling, zone thermostatic controls shall be capable of a deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. Exceptions: 1, Special occupancy, special usage, or code requirements where deadband controls are not appropriate. 2. Buildings complying with Section 1141.4, if in the proposed building energy analysts, heating and cooling thermostat setpoints are set to the same temperature between 70 degrees F and 75 degrees F inclusive and assumed to be constant throughout the year. 3. Thermostats that require manual changeover between heating and cooling modes. 1412.3 Hum idity Controls: If a system is equipped with a means for adding moisture, a humidistat shall be provided. 1412.4 Setback and Shut -Off: HVAC systems shall be equipped with automatic controls capable of accomplishing a reduction of energy use through control setback or equipment shutdown during periods of non -use or alternate use of the spaces served by the system. The automatic controls shall have a minimum seven -day clock and be capable of being set for seven different day types per week. Exceptions: 1. Systems serving areas which require continuous operation at the same temperature setpoint. 2. Equipment with full load demands of 2 kW (6,826 Btu/h) or less may be controlled by readily accessible manual off -hour controls. 1412.4.1 Dampers: Outside air intakes, exhaust outlets and relief outlets serving conditioned spaces shall be equipped with dampers which close automatically when the system is off or upon power failure. Exceptions: 1. Systems serving areas which require continuous operation. 2. Combustion air intakes. 1412.6 Heat Pump Controls: Unitary air cooled heat pumps shall include micropracessorcontrols that minimize supplemental heat usage during start-up, set-up, and defrost conditions. These controls shall anticipate need for heat and use compression heating as the first stage d heat. Controls shall indicate when supplemental heating is being used through visual means (e.g., LED indicators). 1412.6 Combustion Heating Equipment Controls: Combustion heating equipment with a capacity over 225,000 Btu/h shall have modulating or staged combustion control. Exceptions: 1. Boilers. 2. Radiant Heaters. 1412.7 Balancing: Each air supply outlet or air or water terminal device shall have a means for balancing, Including but net limited to, dampers, temperature and pressure test connections and balancing valves. 1413 Air Economizers •1413.1 Operation: Air economizers shall be of automatically modulating outside and return air dampers to provide 100 percent of the design supply air as outside air to reduce or eliminate the need for mechanical coding. 1413.2 Control: Air economizers shall be controlled by a control system capable of determining if outside air can meet part or all of the building's cooling loads. 1413.3 Integrated Operation: Building Heating Energy: Air economizers shall be capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. Controls shall not preclude the economizer operation when mechanical cooling is required simultaneously. Exception: Economizers on Individual, direct expansion, cooling systems with capacities not greater than 75,000 Btu /h may include controls that limit simultaneous operation of the economizer and mechanical cooling for the purpose of preventing ice formation on cooling coils. 1414 Ducting Systems 1414.1 Sealing: Duct work which Is designed to operate at pressures above 1/2 inch water column static pressure shall be sealed in accordance with Standard RS-18. Extent d sealing required is a; follows: 1. Static pressure 1/2 inch to 2 inches; seal transverse joints. 2. Static pressure: 2 inches to 3 inches; seal all transverse joints and longitudinal seams. 3. Static pressure: above 3 inches; seal all transverse joints, longitudinal seams and duct wall penetrations. Duct tape and other pressure sensitive tape shall not be used as the primary sealant where ducts are designed to operate at static pressures of 1 inch W.C. or greater. 1414.2 Insulation: Ducts and plenums that are constructed and function as part of the building envelope, by separating interior space from exterior space, shall meet all applicable requirements of Chapter 13. These requirements include insulation installation, moisture control, air leakage, and building envelope insulation levels. Unheated equipment rooms with combustion air louvers must be isolated from the conditioned space by insulating surfaces to a minimum o f R -11 and any exterior envelope surfaces per Chapter 13. Outside air duct runs are considered building envelope until they, a. connect to the heating or cooling equipment, or b. are isolated from the exterior with an automatic shut -off damper Once outside air duds meet the above listed requirements, any runs within conditioned space must comply with Table 14-5 requirements. Other duds and plenums shall be thermally insulated per Table 14 -5. Exceptions: 1. Within the HVAC equipment. 2. Exhaust air ducts not subject to condensation. 3. Exposed ductwork within a space that serves that space only. 1415 Piping Systems 1416.1 Insulation: Piping shall be thermally insulated in accordance with Table 14-6, Exception: Piping installed within unitary HVAC equipment. Water pipes outside the conditioned space shall be insulated in accordance with Washington State Plumbing Code (WAC 51 -26) 1420 SIMPLE SYSTEMS (PACKAGED UNITARY EQUIPMENT) 1421 System Type: To qualify as a simple system, systems shall be one of the following: 1. Air cooled, constant volume packaged equipment, which provide heating, cooling or both, and require only external connection to duct work and energy services. 2. Air cooled, constant volume split systems, which provide heating, cooling or both, with cooling capacity of 84,000 Btu /h or less. 3. Heating only systems which have a capacity of less than 5,000 cfm or which have a minimum outside air supply of less than 70 percent of the total air circulation. All other systems shall comply with Sections 1430 through 1438. 1422 Controls: In addition to the control requirements in Section 1412, where separate heating and cooling equipment serve the same temperature zone, thermostats shall be interlocked to prevent simultaneous heating and cooling. Systems which provide heating and cooling simultaneously to a zone are prohibited. 1423 Economizers: Economizers meeting the requirements of Section 1413 shall be installed on single package unitary fan - cooing units having a supply capacity of greater than 1,900 cfm or a total cooling capacity greater than 54,000 Btu/h. The total capacity of all units without economizers shall not exceed 240,000 Btu/h per building, or 10% of its aggregate cooling (economizer) capacity, whichever is greater. 1424 Separate Air Distribution Systems: Zones with special process temperature requirements and/or humidity requirements shall be served by separate air distribution systems from those serving zones requiring only comfort conditions. EF CAE < 50 gal storage 0, 58 0.71 50 to 70 gal storage 0,57 0.71 > 70 gal storage 0,55 , 0.70 Mechanical Permit PI. Checklist 1997 Washington State Nonresidential Energy Code Complienoo vomit MECH -CHK First Edition - June, 1998 Mechanical - General Requirements 1411.1 General: Equipment shall have a minimum performance at the specified rating conditions not less than the values shown in Table 14 -1 through 14 -3. 1411.2 Rating Conditions: Cooling equipment shall be rated at ARI test conditions and procedures when available. Where no applicable procedures exist, data shall be furnished by the equipment manufacturer. 1411.3 Combination Space and Service Water Heating: For combination space and service water heaters with a principal function of providing space heat, the Combined Annual Efficiency (CAE) may be calculated by using ASHRAE Standard 124 -1991. Storage water heaters used In combination space heat and water heat applications shall have either an Energy FActor (EF) or a CAE of not less than the following: 1411.4 Packaged Electric Heating and Cooling Equipment: Packaged electric equipment providing both heating and cooling with a total cooling capacity greater than 20,000 Btu/h shall be a heat pump. Exception: Unstatfed equipment shaeiters or cabinets used solely for personal wireless service facilities. 1412 Controls 1412.1 Temperature Controls: Each system shall be provided with at least one temperature control device. Each zone shall be controlled by Individual thermostatic controls responding to temperature within the zone. At a minimum, each floor of a building shah be considered as a separate zone. 1412.2 Deadband Controls: When used to control both comfort heating and cooling, zone thermostatic controls shall be capable of a deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. Exceptions: 1, Special occupancy, special usage, or code requirements where deadband controls are not appropriate. 2. Buildings complying with Section 1141.4, if in the proposed building energy analysts, heating and cooling thermostat setpoints are set to the same temperature between 70 degrees F and 75 degrees F inclusive and assumed to be constant throughout the year. 3. Thermostats that require manual changeover between heating and cooling modes. 1412.3 Hum idity Controls: If a system is equipped with a means for adding moisture, a humidistat shall be provided. 1412.4 Setback and Shut -Off: HVAC systems shall be equipped with automatic controls capable of accomplishing a reduction of energy use through control setback or equipment shutdown during periods of non -use or alternate use of the spaces served by the system. The automatic controls shall have a minimum seven -day clock and be capable of being set for seven different day types per week. Exceptions: 1. Systems serving areas which require continuous operation at the same temperature setpoint. 2. Equipment with full load demands of 2 kW (6,826 Btu/h) or less may be controlled by readily accessible manual off -hour controls. 1412.4.1 Dampers: Outside air intakes, exhaust outlets and relief outlets serving conditioned spaces shall be equipped with dampers which close automatically when the system is off or upon power failure. Exceptions: 1. Systems serving areas which require continuous operation. 2. Combustion air intakes. 1412.6 Heat Pump Controls: Unitary air cooled heat pumps shall include micropracessorcontrols that minimize supplemental heat usage during start-up, set-up, and defrost conditions. These controls shall anticipate need for heat and use compression heating as the first stage d heat. Controls shall indicate when supplemental heating is being used through visual means (e.g., LED indicators). 1412.6 Combustion Heating Equipment Controls: Combustion heating equipment with a capacity over 225,000 Btu/h shall have modulating or staged combustion control. Exceptions: 1. Boilers. 2. Radiant Heaters. 1412.7 Balancing: Each air supply outlet or air or water terminal device shall have a means for balancing, Including but net limited to, dampers, temperature and pressure test connections and balancing valves. 1413 Air Economizers •1413.1 Operation: Air economizers shall be of automatically modulating outside and return air dampers to provide 100 percent of the design supply air as outside air to reduce or eliminate the need for mechanical coding. 1413.2 Control: Air economizers shall be controlled by a control system capable of determining if outside air can meet part or all of the building's cooling loads. 1413.3 Integrated Operation: Building Heating Energy: Air economizers shall be capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. Controls shall not preclude the economizer operation when mechanical cooling is required simultaneously. Exception: Economizers on Individual, direct expansion, cooling systems with capacities not greater than 75,000 Btu /h may include controls that limit simultaneous operation of the economizer and mechanical cooling for the purpose of preventing ice formation on cooling coils. 1414 Ducting Systems 1414.1 Sealing: Duct work which Is designed to operate at pressures above 1/2 inch water column static pressure shall be sealed in accordance with Standard RS-18. Extent d sealing required is a; follows: 1. Static pressure 1/2 inch to 2 inches; seal transverse joints. 2. Static pressure: 2 inches to 3 inches; seal all transverse joints and longitudinal seams. 3. Static pressure: above 3 inches; seal all transverse joints, longitudinal seams and duct wall penetrations. Duct tape and other pressure sensitive tape shall not be used as the primary sealant where ducts are designed to operate at static pressures of 1 inch W.C. or greater. 1414.2 Insulation: Ducts and plenums that are constructed and function as part of the building envelope, by separating interior space from exterior space, shall meet all applicable requirements of Chapter 13. These requirements include insulation installation, moisture control, air leakage, and building envelope insulation levels. Unheated equipment rooms with combustion air louvers must be isolated from the conditioned space by insulating surfaces to a minimum o f R -11 and any exterior envelope surfaces per Chapter 13. Outside air duct runs are considered building envelope until they, a. connect to the heating or cooling equipment, or b. are isolated from the exterior with an automatic shut -off damper Once outside air duds meet the above listed requirements, any runs within conditioned space must comply with Table 14-5 requirements. Other duds and plenums shall be thermally insulated per Table 14 -5. Exceptions: 1. Within the HVAC equipment. 2. Exhaust air ducts not subject to condensation. 3. Exposed ductwork within a space that serves that space only. 1415 Piping Systems 1416.1 Insulation: Piping shall be thermally insulated in accordance with Table 14-6, Exception: Piping installed within unitary HVAC equipment. Water pipes outside the conditioned space shall be insulated in accordance with Washington State Plumbing Code (WAC 51 -26) 1420 SIMPLE SYSTEMS (PACKAGED UNITARY EQUIPMENT) 1421 System Type: To qualify as a simple system, systems shall be one of the following: 1. Air cooled, constant volume packaged equipment, which provide heating, cooling or both, and require only external connection to duct work and energy services. 2. Air cooled, constant volume split systems, which provide heating, cooling or both, with cooling capacity of 84,000 Btu /h or less. 3. Heating only systems which have a capacity of less than 5,000 cfm or which have a minimum outside air supply of less than 70 percent of the total air circulation. All other systems shall comply with Sections 1430 through 1438. 1422 Controls: In addition to the control requirements in Section 1412, where separate heating and cooling equipment serve the same temperature zone, thermostats shall be interlocked to prevent simultaneous heating and cooling. Systems which provide heating and cooling simultaneously to a zone are prohibited. 1423 Economizers: Economizers meeting the requirements of Section 1413 shall be installed on single package unitary fan - cooing units having a supply capacity of greater than 1,900 cfm or a total cooling capacity greater than 54,000 Btu/h. The total capacity of all units without economizers shall not exceed 240,000 Btu/h per building, or 10% of its aggregate cooling (economizer) capacity, whichever is greater. 1424 Separate Air Distribution Systems: Zones with special process temperature requirements and/or humidity requirements shall be served by separate air distribution systems from those serving zones requiring only comfort conditions. Project Info Project Address Ans NODE BUiLDOVT PROJECT Date 5/25/2001 12628 Interurban Aye S (Building C) For Building Department Use Tukwila, W*. Applicant Name: The Austin Co • Applicant Address: Hogg International Blvd, Su. 300 Applicant Phone: 206 -674 -8376 Envelope Summary Climate Zone ENV -SUM 19971Nnhkgton State Nonresidential Energy Coda Compliance rams First Edition -June, 1998 11 THE AUSTIN COMPANY LISTED BY GCr CHECKED BY �-y CONTRACT NO. l Ini" i OWNER LOCATION Ci-tCuL/ - lojJS rOK eu OF N Gtr/ goo 1--o1° C� loll i S • ger1 t ✓t� cage ( f C L( ()'L 62nd t et) 04 S'e C21 .Ctect. Git - 2# ( :P" i3d(914 £) r i t ,c ct I (tl,� - /jr►K. 'v)t i G� Tf ct koti/ 2 AC44 Vitt " t`5 I - I u nderstand that the Plan chpc t.c anra r ^ • ,rc1t� are COMPUTATION SHEET EST. NO. SHEET 0 F DATE �� RECEIVED CITY OF TUKWILA OCT 0 1. 2001. PERMIT CENTER P7011 io3 THE AUSTIN COMPANY LISTED BY SG( CHECKED BY CONTRACT NO. , Ro0F / oacis OWNER !-lr� T I . , LOCATION v f. 17 a • rORM NO. 48 Ruv 7190 f xis l j Roof i7ead_ (..oads ReoF�,;9 c,n branc.rl3 Pay MeMbn�c 2 ps f R►O l 0 psF (neck, elect cull alefal Ioads G psF SusjevtJed cec.(r'l j a •s flaa iv►sola(co,, I.S psF % fITNoad .2 , 4 fsf ,2 x 4' : CP 2'-o 0.c. - l 4 ,se5 COMPUTATION SHEET EST. NO. SHEET / OF DATE 579/ 9/ r7et / Dads L. S p5 F (4" 34,1!,k. Pro14 0,5 psF (Q21- pd G ps o psf o rsF a.4 esf 0. psF ll•0fsf r'SLj It 8 !n. less Jead load Re- root...) plus deleko✓t of baff aela sus ended cec:/ //1 Cesu Its cn Tan exrs(v1j clead (bad, 6705(1.4 r-) e c 1, ay, lei / u n ds t,.Jl be ( -64,...,4 fr roo f . Prokiidc tie ,,lt°•rt bees as regiveici fo S uoi30 re (o a ds from new inec A an Ica / on 011 RECEIVED CITY OF TUKWILA OCT 00 1 2001 PERMIT CENTER Lis rED 6 /1 0 ,. CHECKED BY CONTRACT NO CLee CeAd6nsee Woes{ Case 4 ' s Toy e n „ . I i. - 96 Y - - d Kew u uue.�LOs i++ CGI� . Qvt t loaJ3 FORM NO. 48 ROY. 7/80 OWNert LOCATION (o C a THE AUSTIN COMPUTATION COMPANY SHEET 4. 7 F. $T. NC). SHEET Zc OF DATE (1 43 P IF 14 P1, Ios It. Joie' • (1‘')(4)PIf) : 344 Alk 1°V , I to /i tb ° oo * 3 of .2B' Pt. (cads -o f °cF ■oIsfs (3a p(F)( . )= .256 1.5 Off F 6 <r+ ecl� 7. ( 317 r #)(1.2) e a'.61n 1 OCT 0 . � 2001 Ivi,.a, (3 231'1'14 Try 115.S4 I& Cold f ar, jo - =x= IS.o3 rh �'� = ( ) (4 o) = 2 4 kS t PERMIT CENTER • RECEIVED CITY OF TUKWII.A •1 . . � tst ,v,4, f • A icTHE AUSTIN COMPANY LISTED HY CHECKED Fri CONTRACT NO. I lit 11. iss • 4. I 4 (a3 sc404 e ?4colk oN FORM NO 48 Rev. MO OWNER LOCATION elrjLI_PLcs6_E. c t Roo RooF" f e) OnaS (G 36, E.S1:1 ler 4 LAio/611 case ) t T ' • 1 *- ass' 0 4ff4 1101 4.S Corte to 11 to a ' 3 T221 21 1 d 40 Cur6 FA, mai loaf cd.- La-% loc (1.)( • 6eap,‘ (Io4)(4.$)( s7 eitthin kea" 4(i4. Surpor :(2.29 4)( ) 1 ) 64 4k pece,L .0141 A.40 A $ i. COMPUTATION SHEET EST. NO SHEET 3 . OF DATE lot, elf 15 -5,)1(f. cola Pw,..0,1,i0 • sit &O 1 15 03 1;1 Ft. :(6)(40): ics; 14.1 Nal 4 ok* RECEIVED CITY OF TUKWILA OCT o 1 2001 • PERMIT CENTER THE AUSTIN COMPANY • LISTED BY S79.--- OWNER NO. OWNER EST. N CHECKED BY __ — I ()CATION DATE CONTRACT NO. ReI'n ' orc v.i#itC For rnaF +or IUti (S CLeck C,l.u. - Li... M�+•�t. = 13 k Fb mec QS 1 a F$F 100.5 SfroSS 0 ovev's1i'es5 I.51 X /00X= .3 Y .&40 L ivi ove (-(e3S '(o 4 a &I 4 % move Vi E C1cse leo Colu"n s.o e4 a f ce4itar loa ► .1 s �i rec6l 3 WG/ eel U�rn, S T O wl C PI red,. t 4 -4 K F6 ., 1,4)(19.) - 41rSi r ose. '. dve sieeS=. z (ooX - � Ye 4% , plc, Lea�•�. RECEIVED CITY OF TUKWILA OCT 0 1 2001 PERMIT CENTER COMPUTATION SHEET THE AUSTIN COMPUTATION LISTED BY CHECKED BY CONTRACT NO. FORM NO. 48 COMPANY s�O OWNER EST. NO. LOCATION SHEET 6 OF DATE 1 � .1 „ ty , 4 . v so' s 41 Sl'1 Ooh VI sr 2.5 ........... ' Lk' Nat. tvad �p RECEIVED CITY OF -TUKW' A t 1101 ^ 11 PERMIT:CENTER at t4.1ap -1 0 AHU's, 32)(4) (4) + C32x0(i) _. .. .(3z)(a)(1)4Q2)(s . P }3 . .0A)(5.5)(S ) *(42XS.)j: 24 P } + ... :. 0 4) +(3=')(')s : 1 SHEET 10P7.s Ina • % ' 0Veisf ress 4 I PS v. /0,07.f_ 5 . 3 % .400 e Co 0 el • Rev. 7/90 vc • o skin" ... % l ea: 3. y 0 1 2 4 0 a1G/i er July 25, 2002 Mr. Mike Richey 1021 SW Klickitat Avenue South Suite #104 Seattle, WA 98135 . Request for Extension — Permit No. MO1 -103 A T & T ALS Node —12628 Interurban Avenue South Dear Mr. Richey: This letter is in response to your written request for an extension to Permit No. MO1 -103. The City of Tukwila Building Division will be extending your permit to January 17, 2003. Please be advised that this will be the only extension granted for this project. If you should have any questions, please contact our office at (206) 433 -3670. Sincerely, Robert Benedicto Building Official 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665 city of Tukwila Steven M Mullet, Mayor Department of Community Development Steve Lancaster, Director NOTICE IF THE DOCUMENT IN THIS FRAME IS LESS CLEAR THAN THIS NOTICE IT IS DUE TO THE QUALITY OF THE DOCUMENT 1 • 1 . • • • • . : • , ' '.• ". ■".' • , • June 18, 2002 Mr. Mike Richey 1021 SW Klickitat, #104 Seattle, WA 98135 Dear Permit Holder: In reviewing our current records the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the Uniform Building Code and/or Uniform Mechanical Code, every permit issued by the Building Official under the provisions of this code shall expire by limitation and become null and void if the building or work authorized by such permit is not commenced within 180 days from the date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work is commenced for a period of 180 days. • • ,-) City of Tukwila Department of Community Development Steve Lancaster, Director RE: Permit Application No. M01-103 Location: AT & T ALS NODE 12628 Interurban Av S Based on the above, you are hereby advised to: Thank you for your cooperation in this matter. Sincerely, I<CCUIA4p) a itttatiO Kathryn A. Stetson Permit Technician Xc: Permit File NO:M9.1403;:i Bob Benedicto, Building Official • Call the City Of Tukwila Permit Center at (206) 431-3670 to schedule a progress or a final inspection A progress inspection is intended to determine if substantial work has been accomplished since issuance of the permit or last inspection; or if the project should be considered abandoned. If such determination is made, the Building Code does allow the Building Official to approve a one-time extension up to 180 days. Extension requests must be in writing and provide satisfactory reasons why circumstances beyond the applicant's control have prevented action from being taken; In the event you do not call for the above inspection or request and receive an extension prior to July 17, 2002, your permit will become null and void and any further work on the project will require a new permit and associated fees. Steven M. Mullet, Mayor 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206-431-3670 • Fax: 206 j. rzr.. • ••:iz • • June 13, 2001 Mike Richey 1021 SW Klickitat Way S Seattle, WA 98134 encl LIMA 1 4 t — Brenda Holt Permit Coordinator RE: Letter of Incomplete Application #1 Development Permit Application Number M01-103 AT & T ALS Node 12628 Interurban Avenue S Dear Mr. Richey: This letter is to inform you that your application received at the City of Tukwila Permit Center on June 11, 2001, is determined to be incomplete. Before your permit application can begin the plan review process the following items need to be addressed. Building Division: Ken Nelsen, Plans Examiner, at (206)431-3670, if you have any questions regarding the following: 1. Provide structural plans and calculations. The City requires that two (2) complete sets of revised plans be resubmitted with the appropriate revision block. If your revision does not require revised plans but requires additional reports or other documentation, please submit two (2) copies of each document. In order to better expedite your resubmittal a 'Revision Sheet' must accompany every resubmittal. I have enclosed one for your convenience. Revisions must be made in person and will not be accepted through the mail or by a messenger service. If you have any questions, please contact me at the Permit Center at (206)431-3672. Sincerely, File: Permit File No. M01-103 City of Tukwila Steven M. Mullet, Mayor Department of Community Development Steve Lancaster, Director 6300 Southcenter Boulevard, Suite 11100 • Tukwila, Washington 98188 • Phone: 206-431-3670 • Fax: 206-431-3665 • • . Revision I Date No. I Received Staff I Initials I Date Issued Starr � Initials 1 I .- V-0 z ext.S 1 F- zo oz I SAS Summary of Revision: A I - 2oa ,Cr__ � f•, 5. fruys-eote--4. Received By: pr 1)4 iA (Amq.p-'-2. Revision No. I Date ! Staff Received I Initials Date Issued Staff I Initials I I Summary of Revision: I I Received By: Revision No. Date Received I Staff Initials Staff Initials Date Issued I Staff I Initials I I I I Summary or Revision: • Received By: Revision No. I Date Received I Staff Initials I Date Issued I Staff Initials I I .._'... I I I Summary or Revision: Received By: . Received By: Revision No. I Date Received Staff Initials Date I Staff Issued Initials I I f Summary of Revision: Received By: . PROJECT NAME: ,4T 4' ;'y4LS ,voor Site Address: / Z8 Z,vr6-2u A , v ,,s - - -. REVISION LOG PERMI ; :JO:. / / - /s 3 Original Issue Date: (please print) (please print) (please prim) please print please prin N IL, W O; J u- ‹. Z 0. ICJ ui: D p . U !o —. ; W W' U al Z c o I` _; O F " Z DEPARTMENTS: Bu ild : • ivision iee( 6 -`V-°/n Public Works Complete n Comments: Approved TIM OUT (.DDC PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER M01 - 103 DATE: 06 - - PROJECT NAME: AT & T ALS NODE SITE ADDRESS: 12628 INTERURBAN AV S SUITE NO: Original Plan Submittal Response to Incomplete Letter # Response to Correction Letter # Revision # AFTER Permit Is Issued DETERMINATION OF COMPLETENESS: (Tues., Thurs.) 7i' Fire Prevention Planning Division AUX &- -0 I Structural Incomplete APPROVALS OR CORRECTIONS: (ten days) CORRECTION DETERMINATION: Approved n Approved with Conditions REVIEWER'S INITIALS: Approved with Conditions n 2if MAO Pti - o t ou)) Permit Coordinator DUE DATE: 06-12-01 Not Applicable TUES /THURS ROUTING: Please Route n Structural Review Required n No further Review Required REVIEWER'S INITIALS: DATE: DUE DATE 07 -10 -01 Not Approved (attach comments) n REVIEWER'S INITIALS: DATE: DUE DATE Not Approved (attach comments) PEptvir C00 R© COPY n DATE: ' NUMBER: M01 -103 PROJECT NAME: AT & T ALS NODE S ITE ADDRESS: 12628 INTERURBAN AVENUE SOUTH s , Original Plan Submittal ' XX Response to Incomplete Letter #1 Response' to, Correction Letter # Revision # DATE: 10 -01 -01 After. Permit Is Issued DEPARTMENTS: Buil id ng Division A 10-0- Public Works PER PLAN REVIEW/ROUTING SLIP Fire Prevention Structural DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete [V Incomplete TUES /THURS ROUTING: Please Route Structural Review Required APPROVALS OR CORRECTIONS: (ten days) Approved n Approved with Conditions CORRECTION DETERMINATION: Approved REVIEWER'S INITIALS: \PRROUTE.DOC 5/99 Approved with Conditions Planning Division Permit Coordinator DUE DATE: 10-02-01 Not Applicable n Comments: No further Review Required REVIEWER'S INITIALS: DATE: DUE DATE 10 -30 -01 Not Approved (attach comments)1 REVIEWER'S INITIALS: DATE: DUE DATE Not Approved (attach comments) n DATE: PLAN REVIEW /ROUTING SLIP DEPARTMENTS: M G1-� — 12 Building KW. ivision Q ACTIVITY NUMBER: M01 -103 PROJECT NAME: AT &T ALS Node SITE ADDRESS: 12628 Interurban Av S DATE: 9 -4 -02 Original Plan Submittal Response to Incomplete Letter # Response to. Correction Letter. # _ Revision # ' After Permit Is Issued 6r1, AUX a�� Fire Prevention • Planning Division ❑ Public Works ❑ Structural ❑ Permit Coordinator X DETERMINATION OF COMPLETENESS: (Tues., Thurs.) DUE DATE: 09-05-02 Complete N Incomplete n Not Applicable C Comments: Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: TUES /THURS ROUTI G: Please Route Structural Review Required ❑ No further Review Required ❑ REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved d Approved with Conditions ❑ Notation: REVIEWER'S INITIALS: DUE DATE: 10 -3 -02 Not Approved (attach comments) ❑ DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Documents/routing slip.doc 2 -28.02 rt 2; CO $` ' coW N w WO . tLd; 0 O zg:. • . � �; • 0 :0 - W W • I1 .z tJ H ACTIVITY NUMBER: MO1 -103 PROJECT NAME: AT &T ALS Node SITE ADDRESS: 12628 Interurban Av S DATE: 9 -4 -02 Original Plan Submittal Response to Incomplete Letter # Response to Correction Letter # It Revision # L After Permit Is Issued DEPARTMENTS: Building Division Public Works PLAN REVIEW /ROUTING SLIP Fire Prevention Structural DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete Comments: TUES /THURS ROUTING: Please Route REVIEWER'S INITIALS: APPROVALS OR CORRECTIONS: Documents/routing slip.doc 2.28 -02 Incomplete ❑ Structural Review Required WI- Planning Division Permit Coordinator DUE DATE: 09-05 -02 Not Applicable ❑ Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: ❑ No further Review equired ❑ DATE: DUE DATE: 10 -3 -02 DATE: l e� Approved 'Et' Approved with Conditions ❑ Not Approved (attach comments) ❑ Notation: f> Pt (IVO.0 "(nee r ag.i'{1b"aJ — '$ REVIEWER'S INITIALS: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: PERMIT NO.: N D t 103 MECHANICAL PERMIT APPLICATIONS INSPECTIONS 2 Pre- construction 50 WSEC Residential 60 WA Ventilation/Indoor AQC 610 Chimney Installation/All Types 700 Framing ❑ 40$0.... — Woodstove ❑ 1090 Smoke Detector Shut Off 1100 Rough -in Mechanical 1101 Mechanical Equi . , I t/Controls 1102 Mechanical Pip/Du • Insul 1105 Underground M Rough -in 1115 Motor Inspection 1400 Fin - Final 1E00 Mechanical - Final • 4015 Special -Smoke Control System 8 ❑ 10001 `'No changes to plans unless approved by Bldg Div ❑ 10002 Plumbing pe shall be obtained through King Co 10003 Electrical permits ob • ed through L & I 10005 All permits, insp rds & approved plans available ❑ 10014 Readily accessible access to roof mounted equipment ❑ 10016 Exposed insulation backing material ❑ 10019' All construction to be done in conformance w /approved plans 10027 Validity of Permit 3�0 6 _Manufachuers installation instructions required ❑ 10041 Ventilation is required for all new rooms & :Paces ❑ 10042 Fuel burning appl ces ❑ 10043 Appliances, which generate. ❑ 10044 W��reatershall be anchored.... B Additional Conditions: TENANT NAME: �- 7 A Lj O�p� & feu tO& k - . FEES Basic Fee (Y/N) Supplemental Fee (Y/N) Plan Check Fee (Y/N) Fumace/Bumer to 100,000 BTU (qty) Over 100,000 BTU (qty) Floor Furnace (qty) Suspended/Wall/Floor- mounted Heater (qty) Appliance Vent (qty) Heating/Refrig/Cooling Unit/System (qty) Boiler /Compressor to 3 HP /100,000 BTU (qty) to 15 HP /500,000 BTU (qty) to 30 HP /1,000,000 BTU (qty) to 50 HP/1,750,000 BTU (qty) over 50 HP /1,750,000 BTU (qty) Air Handling Unit to 10,000 cfin (qty) over 10,000 cfm (qty) Evaporative Cooler (qty) Ventilation Fan (qty) Ventilation System (qty) Hood (qty) Incinerator — Domestic (qty) Incinerator — Comm/Ind (qty) Other Mechanical Equipment (qty) Other Mechanical Fee (enter SS) Add'l Fees — Work w/o Permit (Y/N) Insp Outside Normal Hours (hrs) Reinspections (hrs) Miscellaneous Inspections (hrs) Add'l Plan Review (hrs) Plan Reviewer: Date: Permit Tech: Date: 1 J ' u- . w o J Z O H 111 uj 2 p , 0 O - 0 I- w w ` LL- O V H O ~: z DEPARTMENTS: Building Division Public Works Complete ❑ TUES /THURS ROUTING: APPROVALS OR CORRECTIONS: Notation: Documenls/rouling slip.doc 2-28-02 PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: MO1 -103 PROJECT NAME SITE ADDRESS: 12628 Interurban Av S AT &T ALS Node DATE: 9 -4 -02 Response to. Incomplete Letter # Response to Correction Letter # X Revision # After Permit Is Issued _t_ Original: Plan Submittal Fire Prevention Structural DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Incomplete ❑ Planning Division ❑ Permit Coordinator ❑ DUE DATE: 09-5-02 Not Applicable ❑ Comments: Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Please Route ❑ Structural Review Required ❑ No further Review Required DUE DATE: 10 -3 -02 C REVIEWER'S INITIALS: DATE: Approved ❑ Approved with Condition Not Approved (attach comments) ❑ Flo 5 - 721 ) 6 /// J d REVIEWER'S INITIALS: C/s'h DATE: gliia fo Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Response to Correction Letter # ACTIVITY NUMBER: M01 -103 DATE: 10 -01 -01 PROJECT NAME: AT & T ALS NODE SITE ADDRESS: 12628 INTERURBAN AVENUE SOUTH Original Plan. Submittal XX Response to Incomplete Letter #1 Revision # _ _ After Permit Is Issued DEPARTMENTS: Building Division Public Works n DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete TUES /THURS ROUTING: Please Route REVIEWER'S INITIALS: \PRROUTE.DOC 5/99 PLAN REVIEW /ROUTING SLIP Fire Prevention Structural Incomplete Structural Review Required APPROVALS OR CORRECTIONS: (ten days) Approved n Approved w'th onditions REVIEWER'S INITIALS: /. CORRECTION DETERMINATION: Approved n Approved with Conditions n n Planning Division Permit Coordinator DUE DATE: 10-02-01 Not Applicable DUE DATE 10 -30 -01 Not Approved (attach corrrments) DATE: REVIEWER'S INITIALS: DATE: Comments: No further Review eq 'red DATE: U DUE DATE Not Approved (attach comments) PERMIT NO.: •O I ✓ I O MECHANICAL PERMIT APPLICATIONS INSPECTIONS O 00002 Pre- construction O 00050 WSEC Residential O 00060 WA Ventilation /Indoor AQC ❑ 00610 Chimney Installation /All Types O 00700 Framing O 01080 Woodstove 01090 Smoke Detector Shut Off 01 100 Rough -in Mechanical 01101 Mechanical Equipment /Controls ❑ 01 102 Mechanical Pip /Duct Instil ❑ 01105 Underground Mech Rough -in ❑ 01115 Motor Inspection 1400 Fire Final 01800 Final Mechanical ❑ 04015 Special -Smoke Control System CONDITIONS 0001 No changes to plans unless approved by Bldg Div 0014 Readily accessible access to roof mounted equipment 0016 Exposed insulation backing material 0019 All construction to be done in conformance w /approved plans 0002 Plumbing permits shall be obtained through King Co 0027 Validity of Permit 0003 Electrical permits obtained through L & I 0036 Manufacturers installation instructions required on site "BTU maximum allowed per 1997 WA State Energy Code" 0041 Ventilation is required for all new rooms & spaces 0005 All permits, insp records & approved plans available ❑ "Fuel burning appliances ❑ "Appliances, which generate...." ❑ "Water heater shall be anchored...." ❑ Additional Conditions: TENANT NAME: FEES Basic Fee (Y/N) Supplemental Fee (Y/N) Plan Check Fee (Y/N) Furnace /Burner to 100,000 BTU (qty) Over 100,000 BTU (qty) Floor Furnace (qty) Suspended /Wall /Floor- mounted Heater (qty) Appliance Vent (qty) Heating /Refrig /Cooling Unit /System (qty) Boiler /Compressor to 3 I-i:P /100,000 BTU (qty) to 15 HP /500,000 BTU (qty) to 30 11P /1,000,000 BTU (qty) to 50 HP /1,750,000 BTU (qty) over 50 HP /1,750,000 BTU (qty) Air Handling Unit to 10,000 cfm (qty) over 10,000 cfm (qty) Evaporative Cooler (qty) Ventilation Fan (qty) Ventilation System (qty) Hood (qty) Incinerator — Domestic (qty) Incinerator — Comm /Ind (qty) Other Mechanical Equipment (qty) Other Mechanical Fee (enter $$) Add'I Fees — Work w/o Permit (Y/N) lnsp Outside Normal I lours (hrs) Reinspections (hrs) Miscellaneous Inspections (hrs) Add'l Plan Review (hrs) Plan Reviewer: C / Date: Permit Tech: Yom` Date: 1040"0 DEPARTMENTS: Building Division Public Works DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete El Incomplete Comments: TUES/THURS ROUTING: Please Route REVIEWER'S INITIALS: APPROVALS OR CORRECTIONS: (ten days) Approved El Approved with Conditions Ti CORRECTION DETERMINATION: Approved 17 Approved with Conditions REVIEWER'S.INITIALS: IIROUTI.DOC LI Fire Prevention Ti Structural Structu al Review Required Ti PLAN REVIEW/ROUTING SLIP PROJECT NAME: AT & T ALS NODE SITE ADDRESS: 12628 INTERURBAN AV S SUITE NO: • Original Plan Submittal Response to Incomplete Letter # Response to Correction Letter # Revision # AFTER Permit Is Issued " DATE: 06-11-01 Planning Division Permit Coordinator DUE DATE: 06-12-01 I Not Applicable No further Review equired DATE: 6 1 m6 Not Approved (attach comments) Ti DUE DATE 07-10-01 Not Approved (attach comments) Ti REVIEWER'S INITIALS: DATE: DUE DATE DATE: DATE: 06 -11 -01 ROJECT NAME: AT & T ALS NODE SITE ADDRESS: 12628 INTERURBAN AV S SUITE NO: Response to Incomplete Letter # esponse to Correction Letter # Revision # AFTER Permit Is Issued DEPARTMENTS: Building Division Public Works DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete n Incomplete n Comments: TUES /THURS ROUTING: Please Route APPROVALS OR CORRECTIONS: (ten Approved ❑ Approved with Conditions REVIEWER'S INITIALS: 1 (53 Y'RROUIE.DOC Srr9 PLAN REVIEW /ROUTING SLIP ❑ Structural Review Required Fire Prevention fp Planning Division Structural CORRECTION DETERMINATION: Approved ❑ Approved with Conditions REVIEWER'S INITIALS: Permit Coordinator DUE DATE: 06-12-01 Not Applicable n No further Review Required REVIEWER'S INITIALS: DATE: DUE DATE 07 -10 -01 Not Approved (attach comments) ❑ DATE: Va74:51 DUE DATE Not Approved (attach comments) n n I DATE: El Response to Incomplete Letter # 1 ❑ Response to Correction Letter # p Revision # after Permit is Issued Project Name: AT & T ALS Node Project Address: 12628 Interurban Avenue S Contact Person: Mike Richey City of Tukwila Department of Community Development - Permit Center 6300 Southcenter Blvd, Suite 100 Tukwila, WA 98188 (206)431 -3670 Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: /s0--0/— Plan Check/Permit Number: MO 1 -103 Phone Number: aC'l° X 9 S --94 Summary of Revision: OP jum 0 r j 0 1 2001 • Sheet Number(s): "Cloud" or highlight all areas of revision including date of revision Received at the City of Tukwila Permit Center by: I '� Entered in Sierra on �'�� -� 06/13/01 City of Tukwila Department of Community Development - Permit Center 6300 Southcenter Blvd, Suite 100 Tukwila, WA 98188 (206)431 -3670 Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: l v AP Plan Check/Permit Number:AO ( 103 0 Response to Incomplete Letter # 0 Response to Correction Letter # Revision # I after Permit is Issued Project Name: 7 tl-� A L ' J V b doL- _L7 nn r^ / q Project Address:p Z� t-f�' ` WT/ Q� S S (L(r JA 13k/kg- ,! Contact Person: L � � h �� Ii Phone Number: r �Z 4 57 Summa of Revision: A. `,• ..> A r Z �1 '`�fr RECEIVED CITY OF TUKWILA S E P 0 it 2002 PERMIT CENTER sztc)41-twic Sheet Number(s): ft V " 1 ► Z. , ) 0 Li- "Cloud" or highlight all areas of revision including date of revision Received at the City of Tukwila Permit Center by: , ['4 Entered in Sierra on 08/30/00 My commission expires: 1 -29 -04 • r,,cc�‘CIA L. 0 % I e : U N : ttt i i ; ,q, �.+ r XI to i 1 1 :.�•• 7 veUC 0 , j State of Washington I '1�l1 I v--H County of King I hereby certify, that this is a copy of a valid. Contractors Registration document issued by the Department of Labor and Industries to United Systems, Inc. G Witness my hand and official seal in King County, State of Washington on ?day of s29/4/2-ON , 2001 Notary Public residing in tli" Sate of Washington, County of King MCI- 103 RC r IA.3. CITY: TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907- 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 I RC r IA.3. NO. DATE DESCRIPTION A 1/16/01 AT&T ISIDI MD paws IM 5/14/01 ISSUED FOR CCMGTRUCDON C 5/24101 £SLED PER RENEW COMM IIIIIII ill MN ing 'li MI MI - 3665 MI VP Atil, I STATE OF HINGTGN $JAI - •t• - •l6APLAN- A.d.PLT . 6/24111 6t14:11 PM I AR COOLED LOW ME 1 ANC „ _ ME1l ROOF, CURB i RASH= �.�.•, DETAILS AS PREPARED BY D7 CONSULTING, DP L — EXISTM PLYWOOD ROOF DECK NEW 1155116 COLD FORMED JOIST ISMBER -5 p -5 CONDENSER UNIT SUPPORT DETAIL SCALE: NOT TO SCALE +CONDENSER EQUIPMENT RAILS, SEE DETAIL 1 /A -5,I TYP 0 0 EXISTING ROOF HATCH 1/2 • DIA. LAG SCREWS 0 24' 0.0 INSTALL 2 -2X4 WOOD JOISTS FOR SUPPORT EQUIPMENT 27' -1 1/4' 35' -8 1/2' WORD AR COOLED =OMER DID M. REF MECHNI IL E N 0 MECHANIC ROOF CURB, SEE DET 2 /A-b, 1W DOSING 711H ER BENI COLD FMM W 115SJ JOIST 75' -2 1/2' TSRBER BEM( NEW 1155116 COLD FORMED JOIST INSTALL 2X4 WOOD JOISTS FOR BLOCKING DUCTWORK. RE27 to . EXISTING GLUM BEAM 30'X6 1/2' PPE PENETRATION C IRBS, SEE DETAIL 3/A -5, TIP i TOP U r LIMO SIB VER 2 -2X4 NEW WOOD JOISTS BELOW MECHANICAL UNIT CURBS. FRAME INTO REINFORCED ROOF BEAM do FASTEN EACH 2X4 WITH 2 -12d NAILS, SEE DETAILS 1 & 2/A -5, TYP DUSTING GLULAM BEAM 30'X8 1/2' DOSSING OLU� BEAM 30'X6 1/2' 1 END MEW Guam, REF MECHANICAL ROOF TOP UNIT SUPPORT DETAIL SCALE NOT TO SCALE I PROM NEW STEEL BEAUS ADJACENT TO DOSTING WOOD ROOF BEAMS AT LOCATIONS INDICATED AS SUCH FOR THE SUPPORT OF NEW ROOF TOP UNITS. NEW BEAMS•TO BE 11 1/2 'x 16 GAGE COLD FORMED JOISTS (USG 1155116, Fb =40 KSI MN., WITH A MIN. Sx = 2.60 N3). SEE DETAILS 1, 2 & 5/A-5, 1TP EXISTING GLULAI+I BEAN 30X6 2 -2X4 NEW WOOD JOISTS BELOW MECHANICAL UNIT CURBS. FRAME INTO REINFORCED ROOF BEAM & FASTEN EACH 2X4' WITH 2 -12d NAILS, SEE DETALLS 1 & 2/A -5, TYP • WEIGHT OF ROOFTOP MECHANICAL UNIT, • TIP - • ✓Th NOTE AU. EXISTING ROOFING MATERIAL & INSULATION IS TO BE REMOVED DOWN TO THE EXISTING PLYWOOD ROOF DECK ON THE ENTIRE BUILDING. NEW ROOF INSULATION, CURBS, FLASHING & MEMBRANE IS TO BE PROVIDED & INSTALLED PER LANDLORD SPECIFICATIONS & DETAILS AS PREPARED BY D7 CONSULTING. • PROVIDE NEW STEEL BEAMS ADJACENT TO � • EXISTING WOOD ROOF BEAMS AT FOR THE LOCATIONS INDICATED I • SUPPORT OF ROOF TOP UNITS. NEW BEAMS TO BE 11 1/2 'x 16 GAGE COLD FORMED JOISTS (USG 1155116, Fb =40 KS MIN., WITH A MIN. Sx - 760 IN3). SEE DETAILS 1, 2 & 5 /A-5, TYP • I CTE LEI ROOF, CURB ! TIP FLX11110 PER tAlaARO RUM BY 077TALS TN6, DOSING USER BEAM INSTALL 2-2X4 WOOD JOSTS FOR EQUIPMENT SUPPORT ALONG SIDE WINO U4 WOOD BLOOMS CONDENSER EQUIPMENT RAILS, SEE DETAIL 1 /A-6, TIP, I CURBS DE 3 /A -b, TYP • 1. 'X' DIMENSION 10 At&OW FOR CLEARAMCE3 of PIPES, COMM, DUCTWORK MD/OR EQUINDIT 2. PAN SWILL BE 3' URGER EACH SDE THAN CUT OPENING. 3. ORM PAN PER IN-b, 2.5AL SUPPORT PHI PER HV-5, 2.5.0, THE T AS DUCTWORK ( ROOF PENETRATION DETAIL - SCALE: NOT TO SCALE isiotatarr PPE mamma CONDUIT 16 GA GALVINIZED DRN PM, COAT INTERIOR TH BITUMASTIC COMM OdA El 1 0 ' - 21' -7" 2 -2X4 NEW WOOD JOISTS BELOW MECHANICAL UNIT CURBS. FRAME INTO REINFORCED ROOF BEAM do FASTEN EACH 2X4 WITH 2 -12d NAILS, SEE DETAILS 1 & 2 /A -b, TIP TYP CONNECTION AT GWLAM BEAN NEI ROOF, CUM a RA IS PER LAINIOD �PREFWiED BY D7 CONSULTING, TYP DUSTING POW000 ROOF DECK COPPER PPE • NSULAIION CRICKET, TYP 9001 1 0 CL 0 WEIGHT OF ROOFTOP rip MECHANICAL UNIT, 900i 0 0. 0 NEW ROOFTOP EQUIPMENT, REF MECHANICAL DRAWINGS dt DETAIL 4 /A -b, TYP 0 0 0 -' O 0 0 O 0 MR MINCE '41%% BIiD SCImI M ONO PER WOAD o> I PREPARED Br 07 CONSULTS:, TYP DOMING ROOF PLYWOOD INSTALL 2 -2X4 WOOD JOISTS FOR EQUIPMENT SUPPORT ALONG SEE DOM 2X4 WOOD BWCIONO MECHANICAL REF ROOF HOOD DETAIL SOLE: NOT TO SCALE PROVIDE NEW STEEL BEAMS EXISTWG WOOD ROOF BEAMS LOCATIONS INDICATED AS SU SUPPORT OF NEW ROOF TOP BEAMS TO BE 11 1/2 'k 16 FORMED JOISTS (USG 115511 KSI MIN,, WITH A MN. S - SEE DETALS 1 &2/A-5, 1TP 0 T ENT TO NI NEW E COLD Fb =40 E O 143). MIME PER LN(O1D OE MS AS RIMED By 07 COMM TIP Permit No. 4 0 °1k �C� \ 2 � E ,06 _, `, . TIT`- • F; LE COPY understand that the Plan Check approvals are subject to errors and omissions and approval of plans does not authorize the violation of any adopted code or orc, _ nce. Receipt of con - trjcto+'s copy of approved plans acknowledged. „, Date , _ I _ 01-103 RCYIStOwS N� G4 r a',- S SHALL BE MA 7.77: .,� OF WITHOUT FR;C OF TUKWILA BUILDING DIV > FASTDI COLD FORMED JOISTS INTO C0SOID A»-LIW BEAM MOH 232c14 6A CIP AN LE t 4-1/2" DPINEIER LAG SCRIMS EXISTING PLYWOOD ROOF CIECK TO RE IM MI EXSTNG TIMBER BEAM TO RDAAN DOSING 2X4 WOOD JOISTS AT 24' OC TO REMAIN DOSING GIRDER GW-IMI BEAM CONNECTION SCALE: NOT TO SCALE N' ° c C E t E ' t F � )!c$E7 f v - 7 > M0_1413 SEPARATE PERMIT REQUIRED FOR: E " 7CHANICAL E .ECTRICAL JPAF3ING ,S PIPING CITY OF TUKWILA BUILDING DIVISION 0 " SCALE; DATE: DRAWN BY: COB SHEET: l 1 • RBI PROJECT # 2623.38 0 ATILT LOCAL SERVICE'S One Teleport Drive, Staten Island, NY :0311 DRAWING TITLE: ROOF • PLAN CONSTRUCTION MANAGER a70 c2Aosm L ELI ' ENGINEERS TELEPHONE # 847.698.4900 ARCHITECT/ ENGINEER: THE AUSTIN COMPANY COMSUITINTI • iiIIINOS • ENOIMEEI: • COMSTIUCTOE$ 1/8 " =1' -0' 12/06/00 AUSTIN PROJECT # 00 - 620 5 OF 39 FILE: RA620\62OAplan.dwg c' +►,,r,IUN 2061 p,T c �� r1 REVVS IONS NO. DATE DESCRiPT1ON A 1/16/01 ATt1 READ ANC 90WITS i 8 5/ 14/O1 SUM FOR CONSTRUCTION ` C 5/24/01 ISSUED PEA RMO, Cuv HTS 0 5/ 16 /C2 k ASIONS PER Ant. FIELD COYND(1 S I r ....---=iiiiTh in LOCAL SER ✓ICE S One Tleport Drive, Staten Island, NY 1031 CITY: TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907 - 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC FLOOR PLAN CONSTRUCTION MANAGER L3 R? I L'7E GIN ER ®ILDERS TELEPHONE # 847.698.4900 ARCHITECT/ a MOLT= ENGINEER: . THE AUSTIN COMPANY • $ • 1111011181 • ammussums DRAWN BY. WBB SCALE: AS SHOWN DATE: 12/0412Q00 SHEET: I 7 OF 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00-620 FILE: M:16201HVAC1620MHV01.DWG MOUND 1' -0" AFF AND DUCT TO HIGH TAG -1 OPENING 1 -0" BELOW ROOF DECK -tee Onea H:GH TAG -1 OPENING IN EXISTING WALL (TYP.) 65 CFM 20x20 UP TO RH -1 - SF -1 ON ROOF TOO= 12' -6" HV -7 POC FOR 1" CW SEE DWG. P -1 - 44/LOCATE AROUND NG BEAMS FIELD LOCATE NEW DUCT AROUND EXISTING DUCT W / BEL ® 14x14 NSW SFD T440=12 34x12 1 BO SIDES FD, MOUNT 1' -0" W STRUCTURE --- TOD =12' -6" taliTOD =12' -6" FIELD LOCATE - I -2 EW DUCT AROUND 14x8 FIELD LOCATE NEW DUCT AROUND DUSTING DUCTS NEW DUCT AROUND \ 46x20 EXISTING BEAMS I®i DEMO. EXIST. DUCT AS REO'D. 46x18 14x8 N_ 38x14 UP I M TerfTU -1 1 rat 32x14 DN FROM RTU -1 ADD y akt MOUNT 1 -0" AFF DUCT TO HIGH OPENING 1' -0" BELOW ROOF DECK SR -1 18x12 610 C FM .1Y 88 32x14 DN FROM RTU -2 7 32x',4 SR -1 , 18x12 300 CFM 38x14 UP TO RTU -2 TYPICAL 46x20 I 46x20 1 1 46x20 46x20 14x8 D TAG -1 38x24 RAG W/ SFD 46x20 MAINTAIN MAXIMUM IN‘8- BOP ELEVATION • . FROM FINISHED FLOOR AS POSSIBLE CT TO HIGH IN EXISTING WALL (TYP . ) 38x24 46x20 46x20 DAI,IPER W /ACTUATOR - HVAG FLOOR PLAIN SCALE 1/8" = 1 -0" 46x20 — — — '� — — t ap.c Riellftll 46x20 DAMPER / 46x20 DAMPER W /ACTUATOR • W /ACTUATOR \-- TAG -1 BOTH SIDES W/ SFD, MOUNT 1 BELOW STRUCTURE •(1) TAG -1 MOUNT 1 " -0" AFF AND DUCT OPENING 1 -0 BELOW ROOF DECK 65 CFM 30x14 NOTE: ALL EQUIPMENT SHALL BE BRACED AND AND ANCHORED TO THE STRUCTURE TO CCMPLY WITH SEISMIC RESTRAINT REQUIREMENTS 46x20 DAMPER W /ACTUATOR ALL PC & CW IN EQUIPMENT ROOM SHALL BE PLACED WITHIN A PIPE TRAY CONTAINMENT SYSTEM 6 "4 FLUE UP THRU ROOF - MAINTAIN MAXIMUM BOP ELEVATION FROM FINISHED FLOOR AS POSSIBLE 120 "x48" CD 60x32 DN.TO 24" AFF SEE ENLARGED PARTIAL FLOOR PLAN DWG. G -1 48x48 TAG -1 BOTH SIDES W/ SFD, MOUNT 1' -0" BELOW STRUCTURE 12x12 DUCT DOWN TO FLOOR FD -� 4" COOLANT TO /FROM RADIATOR ON ROOF 8" EXHAUST UP THRU ROOF EPARATE PERMIT REQUIRED FOR: ECHAN!C+L .ECTR'CAL .UMBING AS PIPING CITY OF TUKWILA E UILDING GIV!SION 1 -1/4" GAS REFRIGERANT PIPING SCHEDULE PIPING SIZE NO UNITS SERVED OF REMARKS LIQUID GAS CIRCUITS AC -1 & ACU -1 3/4" 1 -1 /8" 2 10 TONS PER CIRCUIT AC -2 & ACU -2 3/4" 1 -1/8" 2 10 TONS PER CIRCUIT AC -3 & ACU -3 3/4" 1 /8" 2 13 TONS PER CIRCUIT AC -4 & ACU -4 3/4" 1 -1 /8" 2 10 TONS PER CIRCUIT AC -5 & ACU -•5 3/4" 1 -1 /8" 2 10 TONS PER CIRCUIT AC -6 & ACU -6 3/4" 1 -1 /8" 2 1 J TONS PER CI ^:.UIT AC -7 & ACU -7 3/4" 1 -1 /8" 2 13 TONS PER CIRCUIT CONNECT TO EXISTING VALVED GAS CONNECTION • CITY OF OF -TUKWILA SEP - 4 2002 PERMIT (:ENTER (1) TAG -1 1rOuNT 1 -C • AFF AMC DUCT C P E ? h C 1 ' -0' " 2 8Ei c MM ROOF DECK TAG -1 BOTH DES WJ SFD, MOt, 1 '--0' BELOW STkUCT 46c2D DA11PiR Ir /ACT.ATOR (1) TAG -1 ka .UHT 1 -C" Aft AND DUCT OPENING •'-0' DE .0'A ROOF LEO( RED SE IL STING 3 , 1 14x8 DUCT LOCATED; AND NEW 510 1 OPENING 1"-C' 14x8 - BELOW ROOF DECK _i5 CFM SR - 18x12 120 C AI TAG -i BOTH SIDES W/ SFD. MOUNT 1' - BELOW STRUCTURE CLOSE OFF EXISTING DUCT OPENING (1) TAG -1 MOUNT 1' -0` AFF AND DUCT OPENING 1 -0" BELOW ROOF DECK REMOVE M lGH TAG -1 TYPICAL AT NEW DUCT CONNECTIONS 46x20 DAMPER W /ACTUATOR ,4 ..t • A imommomi■I RH-1 4- RTU-1 n SCALE 1/8" HVAC FLOOR PLAN - 1 0 — t— MU L R O BrE 4 VENTS EXTERNALLY BRACED 8" EXHAUSTS UP FROM GENERATOR 4" SUPPLY & R RN UP FROIA GENERATOR RH-2 NOTE: SEE DRAWING A - 5 FOR FLASHING PETALS. ALL FLASHING MUST COMPLY WITH SPECIFICATIONS AND DETAILS OF 07 CONSULTING. n TYP. FOR 16 LI TURBINE VENTS EF-3 RECEIVED CITY OF TUKWILA SEP -- 4 2002 PERMIT CENTER FLUE ' • - 4 7 NO, DATE DESCRPT1ON A Iii$101 Mb! Inaii Pellia3 0 sP ...■111111111■ 4.1■111.6„ ■ImmiummUNIIIIL AlEmirmunaida MANN■ganiall Anamommommillalin 1TY: TUICWILA, WA. ITY CONTACT: JIM WIcKEs HONE #: 907-264-7343 11.00R: FIRST NODE 'TYPE: 1 ELEPHONE # 847.698.4900 IPASOIS Pet NIA FEU MED PCP 0261111LIONI 1:; DRAWN BY W88 DATE SHEET: One Tdeport Drive, Staten Island, NY 0311 ATION: fen INTERURBAN AVENUE SOUTH VICWILA, WASHINGTON DRAWING TITLE: • HVAC ROOF PLAN TRUCTION MANAGER NA HIEM Emaimesats • IMAM* -Orr r ARCHITECT/ ENGINEER THE AUSTIN PiNu COMPANY • mom rum • 11Nomm RBI PROJECT $ 2623.38 AUSTIN PROJECT s 00-620 FILE: 1141:1,820U-NAC1620MHVO2. REVISIONS NO _ DATE DES ;RIPTION A '/'6/0' A:& r PEWS WO Pews B 5/14/01 SSuC FOR JOKSTRUC i __., AT'a LOCAL SE. One Teleport Drive, T Staten Island, NY 10311 CITY: TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907 - 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: r HVAC SPECIFICATIONS PART 1- GENERAL CONSTRUCTION MANAGER lR sr / ' ° ,4A Cii q/ t W 4T, ENGINEERS � Al EIQS - TELEPHONE # 847 698 4900 ARCHITECT/ ENGINEER: a THE AUSTIN COMPANY c$ u$tTCMTE • S • UISIIEEIIS • CIMSTRICTM5 4 C j DRAWN Bv WBB SCALE: AS SHOWN DATE: 12/18/2000 j SHEET: 3 9 of 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 FILE: M:\620\FIVAC\620HVONG 1.0 GENERA. PROV1SNCNS A 'ne abject ve of this specification is to provide high qua:ity, safe. ono satisfactory construction in at wo' 6. Terms ore define(' as fodiows 1. Al E" means The A_st n Company and or Rognor Benson. 2. "0w-er" me'rs AT &T. 3. "Meer" means tr.e individual or firms propesng to furnish and install this work it accordance with A/E arawings and spec;' ;cctions. 4. "Subcontractor" means the s+.ccessfu. bidder to whom the work is awarded. C. It is imperative that this Bidder visit the jobsite to acquaint himself w ;tr, job conditions. D. The * Genera. Requ for Subcontractors" included herewith, form a port of this specification. The Subcontractor she consult these in deto, for instruction pertaining to his wont E. Cooperation witr Uti't es, Owre , A/E. and other Subcontractors is mandatory. F. Design and fabrication features or prover methods not specifically covered by this specification shall be subject to specic design investigation or test at A /E's option. The provisions listed herein may be cnalierged by evidence of continuec testing or performance which can satisfy the specifies intentions of each requirement. but such exceptions to these specifications shall be specifically stated and documented in the propose;. G The Subcontractor's responsibility for the work herein specifiec shall in no way be modified or eliminotea to any extern a‘y any action of any representative of: the Owner, A /E, or any other individual or firm, except by written Change Order. H. Al! labor, materials, equipment, and services necessary to perform the work shown on the drawings or normally cra generally required for the comp:etion of the work, but are not necessarily specifically mentioned of specified herein, shall be a port of the work. I. t shall be :ne responsibility of the Subcontractor to check with the A/E and other Subcontractors on site of the work in orae. to eliminate interference with the work being installed by others. The cost of the work cnusec by sucn interferences shall be at the Subcontractor's expense. J. The systems ant all components snol. be guaranteed for o period of one (1) year after acceptance date of the A/E completed project and turnover `or operation to the Owner; and the Subcontractor, during the gnorc -tee period, shall provide service (e.g. trouble- shooting, etc.), ports and labor to repair or replace defective ports. K. Where tnis Subcontractor is me purchaser of equipment, he snail provide a manufacturer's competent, factory trained service engineer to check the installation, supervise start -up operation, and instruct Owner's personnel in the proper anc most efficient operation and maintenance of equipment, so as to prolong the life of the equipment to the rncxi 'tum degree. �. Proposals shat' ce subrn;i.ted with a list of equipment ono components, drawings, and data sheets showing capacities, weignts, types of services required, and auantities, ;.e. gas, water, ai-, steam, etc., and all information necessary to make a complete and proper evaluation of the proposal. M. Unless exceptions, assumptions, clarifications, etc. to the drawings and specifications are listed or itemizec in the proposal, it is understood that the Subcontractor will furnish and install this work in accordance witn these drawings and specifications. N. Guards, barricades, lights, signs, flares services, etc., necessary for the protection of persons and property shall be furnished and maintained. 0. Existing work such as pavements, sidewalks, curbs, and other structures and utilities which are damaged or disturbed to make connections or any phase of operations shall be restored to the satisfaction of the y/E and the governing authorities. P. Materials, Products & Equipment shall be first quality and be furnished and installed in strict accordance with all of the governing codes, ordinances, and applicable standards. 1. Furnish proof of approval on equipment requiring approval by UL and authorities having jurisdiction. Certified Performance Guarartee shall be delivered to A /E. 2. Materials, products, and equipment shall be delivered to jobsite with factory packaging bearing manufacturer's name or label, and union label whenever practical. 3. All items shall oe of known reputable manufacturer, unless limited to specific sources by the detailed specifications. S. Manufacturers listed are for reference; other manufacturers may be submitted for approval by the A /E. Items of material and equipment which are not specifically defined within the detailed specifications, but are required by the governing authorities, shall conform to the quality standard established by such authorities. U. Applicable standards of the following are made part hereof, and shall be considered the same as if attached hereto. The latest published issue or edition available during the bidding period shall prevail, unless otherwise modifiec elsewhere in the specifications. 1. American Gas Association (AGA) 2. American Institute of Steel Construction (AISC) 3. American Society of Heating, Refrigeration and Air - Conditioning Engineers (ASHRAE) 4. American Society of Mechanical Engineers (ASME) 5. American Society for Testing and Materials (ASTM) 6. American Water Works Association (AWWA) 7. American Welding Society (AWS) 8. Associated Air Balance Council (ASSBC) 9. Factory Mutual Fire Insurance Companies (FM) 10. Federal Specifications and supplements hereto 11. Institute of Electrical and Electronics Engineers (IEEE) 12. Local and State codes, laws, regulations, and ordinances governing the work 13. Manufacturers' Standardization Society of Valves and Fittings Industry 14. National Fire Protection Association (NFPA) 15. National Electrical Code (NEC) 16. Notional Electrical Manufacturers Association (NEMA) 17. National Safety Council (NSC) 18. Sheet Metal and Air Conditioning Contractors National Association, Inc. (SMACNA) 19. Underwriters' Laboratories, Inc. (UL) 20. American National Standards Institute (ANSI) 21. United States Depa tment of Agriculture, Consumer Protection Division, Technical Service Division (MID) 22. Federal Occupational Safety and Health Act (OSHA) 1 .2 SHOP DRAVANCS AND DATA SHEETS A_ For assemblies one equipment. approve. of snap orow:rgs and data sheets ore required before starting fabrications. They snot provide ol: pertinent data and information necessary to evo.ua :e each item. Irrelevant information on drawings ono data sheets snail be completely marked out, eaving only rota that Pertains to the :terns submitted for approval. Drow-ngs and data sheets shall show: 1. Principe dimensions. including tie - :n dimensions to site and Duild ng(s). and details of construction. 2. Weights. sizes. bo :t:ng, etc. of principoi equipment, components. etc. and certified draw :ngs of total weights. loads, etc. with information required for the Design of supports and foundations. 3 Sizes and locations of ductwork and connections. 4. Performance data. including fan curves, air distribution flow, etc. 5. Data on electric motors, including brake HP of driven equipment, nameplate ratings and classes, and starting and running full load currents. 6. Approval stomp of Underwriters and an other authorities having jurisdiction of drawings, calculations, data sheets, etc. requiring such approval. 7. Certified performance guarantees. B. Shop drawings and Operations and Maintenance manuals and complete Spare Parts Lists shall be furnishes. 1.3 ACCESSIBILITY A. Items such as valves, controls, access doors, specialties, and accessories shall be installed so as to be readily accessible for operating, servicing, maintaining and repairing. B. Those items which ore installed in unsuitable locations shall be removed and replaced as directed by the A/E at the Subcontractor's expense. C. Doors and other means of access (for equipment installation) for which information /notification is provided to A/E prior to installation of building walls, doors, etc., will be installed ay A /E. 1.4 DIRECTIONAL PERFORMANCE A. The Subcontractor shall furnish labor necessary for unloading and assembling all pieces of equipment which, due to shipping limitations, have components which arrive on the jobsite disassembled. B. The Subcontractor shall perform in such manner that the work of others shall not be affected by dirt or debris occasioned by his work. C. The Subcontractor shall instruct the Owner on the operation and function of all systems and equipment furnished and installed by the Subcontractor. D. Prior to execution, by this Subcontractor, of any required corrective work initiated by a malfunction, failure, misinstallation, or non- acceptance of his work, he shall coordinate with all others that have been and /or will be affected in order to ascertain, for each, the scope of the work. Further, this Subcontractor shall accept and pay any and all charges submitted by those so affected and agrees that all such costs shall be this Subcontractor's expense_ 1.4 SCOPE OF WORK A. This section of Mechanical Specifications covers the furnishing of materials, tools, equipment, transportation services, scaffolding, supervision, labor and other items wnich may not be mentioned, but are necessary for fabrication, installation or operation of heating, ventilating and air conditioning work as shown on drawings and herein specified. B. For equipment pre - purchased by the A /E, out installed by this subcontractor, see "Material Specifications ", of this specification. This installing subcontractor shall provide all checkout (check belts, lubrication, filters and alignment, etc.), startup and associated service of the prepurchased equipment to put the system into operation. 1.5 WORK INCLUDES, BUT IS NOT LIMITED TO, THE FOLLOWING A. Furnish and Install: Equipment Room heating and air conditioning system. The system shall consist of seven Packaged Air Conditioning Units (and all accessories provided with this equipment), seven air cooled condensers to be installed on the roof, air distribution ductwork, dampers, registers, manual volume dampers, electric dampers and actuators, flex connections, refrigerant piping, refrigerant piping insulation, refrigerant charge, all as shown on the drawings and as described in these specifications and as required for a complete and operational system. The Packaged Air Conditioning Units (AC's) are purchased by RBI. B. Furnish and install: RTU -1 & 2. The system shall consist of two roof mounted bottom discharge packaged rooftop units, equiped with a refrigerant coil. Air cooled condenser to be part of the packaged unit, air distribution ductwork, dampers, registers, manual volume dampers, electric dampers and actuators, louvers, flex connections, refrigerant piping, refrigerant piping insulation, refrigerant charge, all as shown on the drawings and as described in these specifications and as required for a complete and operational system. C. Furnish and install: EF -1 & 2. Toilet room exhaust system, the system shall conist of ceiling mounted exhaust fans, ductwork and roof penetrations. All as shown on these drawings and described in these specifications and as required for a complete and operational system. D. Furnish and Install: All roof curbs, equipment rails, flashings, and sealants required for all roof mounted mechanical equipment and duct penetrations thru roof. E. Furnish and Install: Hangers and supports as required to install equipment described in these specifications and shown on drawings. F. Furnish and Install: All duct openings In walls, and roofs. G. Furnish and Install: All materials, equipment and services as specified in these specifications and as shown on the drawings. H. Furnish and Install: Provide insulation as described below and as shown on drawings. 1. AC -1 thru AC -7: No insulation is required for these units. H. Prime paint all exposed support steel including, but not limited to angles, rods and clips. J. Furnish: All labor and materials required to ensure that all equipment installed by this contractor is running properly, without excessive noise or vibration, ensure fans are rotating in the proper direction after power has been applied, and test all ductwork systems for excessive leakage before insulation is installed. K. Furnish and Install: All plumbing as shown on P -1, thru P -3. L. Furnish and Install: All fire protection as shown on FP -1 thr M. Furnish and Install: A drip pan system for all insulated water lines, including all water and pumped condensate lines. Pan shall be as detailed on the drarwings. N. Furnish: Test and Balance Services. Contract services of a certified testing, adjusting and balancing agent registered by either Associated Air Balance Council (AABC) or National Environmental Balancing Bureau (NEBB) to perform the testing, adjusting and balancing services on the above installed system. The agent shall provide Testing, Adjusting and Balancing Reports using standard forms and respective diagrams. Provide information on instrumentation type used to balance system. System shall be tested and balanced before owners equipment installation begins. 0. Structural Framing - as required, for additional steel and hangers required to support mechanical equipment. This subcontractor shall locate and cut all openings in roof deck and provide structural framing. P. Roof Fleshings: This Subcontractor furnishes and installs all flashings, sleeves, closures and provides services of a qualified roofer to properly seal all roof penetrations. 0. Furnish and Install: A drip pan system for Ell refrigerant piping, including suction and liquid tines. Pan shall be as detailed on the drarwings. R. Furnish and install: SF -1 ft RH -2. Electrical room ventilation system, the system shall conist of one roof mounted supply fan, roof hood, ductwork and wall penetrations. All as shown on these drawings and described in these specifications and as required for a complete and operational system. S. Furnish and Install: Gas fired unit heaters UH -1 & 2 in the unoccupied area of the building. this shall include all piping, valves, gas flues and roof openings as required to provide a natural gas heating system in the unoccupied portion of the building. 1/4 Furnish one install: Engine mounted generator. Generator roar^ ventilation system, the system shat. .;onist of one via • mounted supply fon. 2 roof hoods, ductwork and wa;: penetrations. NI as shown on these arow.ngs and described in these specifications and as required for a complete and operation, system. S. Furnish and Install: exhaust gas flues and roof openings as required to provide a complete and operational fuel oil fired generator. S. Furnish onto Install: Engine generator exhaust piping. This shall include all exhaust piping, supports, exhaust gas flues and roof openings as required to provide a complete and operational fuel oil fired generator. 1.6 WORK NOT INCLUDED IN THIS SECTION: A. The Electrical Subcontractor will furnish and install: 1. Wiring through motor starters. 2. All disconnect switches, motor starters and power wiring, unless specified as furnished witn HVAC equipment. 3. All control wiring. 8. Fire Protection for Building: by Fire Protection Subcontractor. C. Lighting in Building: by Electrical Subcontractor. 1.7 DESIGN CONDITIONS A. Equipment Rooms: 75 degrees F, 40X to 60% R.H. 1.8 MATERIAL SPECIFICATIONS A. The Material Specifications attached hereto, and supplemented by formal purchase orders, specify it detail, those items of equipment which have been pre - purchased to expedite delivery. B. The following is a list of the material specifications attached hereto: 1. Material List #1 , Environmental Control Systems. �C Engine generator fuel piping. This sholl include all fuel oil supply piping, valves, SUPPLY DUCT UP SUPPLY DUCT DOWN RETURN DUCT UP EXHAUST AIR REGISTER (EAR) RETURN DUCT DOWN SUPPLY DIFFUSER (SD) RETURN AIR GRILLE (RAG) VOLUME DAMPER (MVD) DUCT MOUNTED HUMIDIFIER SQUARE TO ROUND TRANSITION TEE W/ TURNING VANES RECTANGULAR BRANCH LINED RETURN DUCT SQUARE ELBOW W/ TURNING VANES LEGEND AND SYMBOLS CW CITY WATER V VENT PC PUMPED CONDENSATE CHWS CHILLED WATER SUPPLY CHWR CHILLED WATER ER RETURN CWS CWR GLS GLYCOL SUPPLY GLR GLYCOL RETURN FOS FUEL OIL SUPPLY FOR FUEL OIL RETURN TO H... RISE DROP G HOT GAS DISCHARGE G1,G2 INDICATE CIRCUITS L LIQUID UNE C CONDENSER WATER SUPPLY CONCENSER WATER RETURN THERMOMETER PRESSURE GAGE W/ GAGE AV COCK THERMOSTAT HUMIDISTAT STATIC PRESSURE SENSOR DUCT RISE DUCT DROP "Y" -TYPE STRAINER BUTTERFLY VALVE CIRCUIT SETTER CIRCUIT SENSOR GATE VALVE GLOBE VALVE CHECK VALVE BALL VALVE REDUCER UNION FLEX CONNECTOR AHU P C.P. EF SF LSD SD RAG EAR SAR VD A.P. FD EF DR PT FOB FO' NTS BOD BOP TOD AFF CL DN UP VTR UH L S DR CVB VAV CUH AC TAG ACU POC GC CD AIR HANDLING UNIT PUMP CONTROL PANEL EXHAUST FAN SUPPLY FAN LINEAR SLOT DIFFUSER SUPPLY DIFFUSER RETURN AIR GRILLE EXHAUS AIR REGISTER SUPPLY AIR REGISTER VOLUME DAMPER ACCESS PANEL FIRE DAMPER EXHAUST FAN DRAIN PRESS. & TEMP TEST PORT AR VENT FLAT ON BOTTOM FLAT ON TOP NOT TO SCALE BOTTOM OF DUCT BOTTOM OF PIPE TOP OF DUCT ABOVE FINISHED FLOOR CENTER LINE DOWN UTILITY PANEL VENT THRU ROOF UNIT HEATER LIQUID LINE SUCTION LINE DRAIN CONSTANT VOLUME BOX VARIABLE AIR VOLUME BOX CABINET UNIT HEATER PACKAGED AIR CONDITIONER TRANSFER AIR GRILLE AIR - COOLED CONDENSING UNIT POINT OF CONNECTION GRAVITY CONDENSATE CONTROL DAMPER JUN 1 1 2001 PERMIT C MTER AIR COOLED CONDENSING UNIT SCHEDULE 19 UNIT SERVED COMPRESSOR CONDENSER I WEIGHT CONNECTION SIZE NO OF CIRCUITS REMARKS - TYPE NOM. TONS CFM ELEC. CHAR. NO. FANS ELECTRICAL OA DESIGN KW V 0 HZ ' HP V 0 HZ SUMMER WIN . LIQUID GAS I ACU -1 AC -1 COMPRESSOR IN AC 4 3/4 460 3 60 105 -20 815 7/8" 1 -1/8" 2 UNIT PRE - PURCHASED BY RBI ACU -2 AC -2 COMPRESSOR IN AC 4 3/4 460 3 60 105 -20 815 7/8" 1-1/8" 2 UNIT PRE- PURCHASED BY RBI ACU -3 AC -3 COMPRESSOR IN AC ' 4 3/4 460 3 60 105 -20 815 7/8" 1-1/8" 2 UNIT PRE - PURCHASED BY RBI ACU -4 AC-4 COMPRESSOR IN AC 4 3/4 460 3 60 105 -20 815 7/8" 1 -1 /8" 2 UNIT PRE-- PURCHASED BY RBI ACU -5 AC -5 COMPRESSOR IN AC 4 3/4 460 3 60 105 -20 815 7/8" 1-1/8" 2 UNIT PRE - PURCHASED BY RBI ACU -6 AC -8 COMPRESSOR IN AC 4 3/4 460 3 60 105 -20 815 7/8" 1 -1/8" 2 UNIT PRE- PURCHASED BY RBI ACU -7 AC -7 COMPRESSOR IN AC 4 3/4 460 3 60 105 --20 815 7/8'' 1 -1/8" 2 UNIT PRE PURCHASED BY RBI 1.0 10 - 227.4 201.2 450 22.2 75.0 62.5 56.8 20 1 460 3 60 GAS FIRED UNIT HEATER SCHEDULE 19 AREA SERVED "CAP. (0? H r 1 N0. OF STAGES GAS PRESS. . FAN POWER VENT 1 REMARKS CFM ENT. AIR 'F LVG. AIR 'F HP ELEC. CHAR. V PH HZ UH -1 ROOM 110 UNUSED 280.0 80 - 2 10 5000 / 80 112 201/3 120 1 60 NO 11' -0" 10'0 UH -2 ROOM 110 UNUSED 280.0 DO 2 10 5000 60 112 201/3 120 1 60 NO 11' -0' NONE UH -3 ROOM 112 GEN. ROOM 280.0 80 2 10 5000 60 112 201/3 120 1 60 NO 11' -0" DUCT AIR TERMINAL DEVICE SCHEDULE MARK NO. TYPE SERVICE DUCT (D) WALL (W) CEIL FACE SIZE NECK SIZE DAMPERS REMARKS SR -1 SUPPLY REGISTER 0 18x12 NONE YES 2:1 _ SR - -2 SUPPLY REGISTER C SEE DWOS NONE YES HARD CEILING SR -3 SUPPLY REGISTER W SEE DWGS NONE YES 'F SD -1 SQUARE SUPPLY DIFFUSER C 24x24 10'0 NONE LAYIN CEILING TAG -1 TRANSFER AIR OR1LLE W 30x30 NONE NONE L A T. TAG -2 TRANSFER AIR GRILLE W 14x 14 NONE NONE DUE 1 RETURN NR GRLLE C 24x NONE NONE LAYIN CEILING EAR -1 EXHAUST AIR REGISTER C 12x12 NONE YES DUCT ROOF HOOD SCHEDULE MARK NO. MAX. INLET VELOCITY FPM THROAT SIZE HOOD PERIMETER TO THROAT RATIO REMARKS RH -1 500 20x20 2:1 GREENHECK FHI RH -2 • 500 60x 112 2:1 GREENHECK FHI ELECT. CHAR. MINIMUM T COOUhG CAP. MBH AIR Idoi N N N N N NO. TONS OF TOTAL STAGES ELECT VOLT CHAR. ! • 1.0 TYPE CAP. t.8 / Kyy 1 HEA TING , EAT � �� (OUTPUT) M BH 'F LAT 'F I NO. OF STAGES ENVIRONMENTAL CONTROL SYSTEMS Y 1 if 1 1 HUI SUPPLY FAN COOUNG COIL COMPRESSOR I HUMIDIFER i HEAT /REHEAT SECTION FILTERS KS REMARKS TOTAL p 0 0 0 0 0 0 0 0 M. STAT. PRESS. HP RPM d N N N N N N N ELECT. CHAR. MINIMUM T COOUhG CAP. MBH AIR Idoi N N N N N NO. TONS OF TOTAL STAGES ELECT VOLT CHAR. ! • 1.0 TYPE CAP. t.8 / Kyy 1 HEA TING , EAT � �� (OUTPUT) M BH 'F LAT 'F I NO. OF STAGES ELECT. CHAR TYPE CLEAN S.P. LOSS aRTY S -P LOSS % EFF. I w MEM u • 1 FACE FPM FACE A Sq Ft EAT. j L A T. T Hz VOLT • 112 "'©© © � Hz - DOT WB'F DUE 460 TOTAL SENS. 10200 1.0 10 - 227.4 201.2 450 22.2 75.0 62.5 56.8 20 1 460 3 60 IR 22.1 6.4 115.0 56.8 56.8 66.8 66.81 1 J 1 460 460 60 4' TA 0.10 0.2 45% OPTIONS: SMOKE DETECTOR, FIRESTAT, PUMPED CONDENSATE UNfT PRE - PURCHASED] BY RBI 10200 1.0 1.0 10 10 - - 227.4 201.2 450 22.2 75.0 82.5 56.8 20 1 460 3 60 IR 22.1 8.4 115.0 60 60 4" TA 0.10 0.2 45% OPTIONS: SMOKE DETECTOR. FIRESTAT, PUMPED CONDENSATE. UNIT PRE - PURCHASED BY R9 10200 227.4 201.2 450 22.2 75.0 62.5 56.8 20 1 460 3 60 IR 22.1 6.4 115.0 56.8 66.8 1 460 I 4' TA 0.10 0.2 45>< OPTIONS SMOKE DETECTOR. FIRESTAT, PUMPED CONDENSATE. UNIT PRE - PURCHASED BY RBI 10200 1.0 10 - 227.4 201.2 450 22.2 75.0 62.5 56.8 20 1 460 3 60 IR ✓ 22.1 6.4 115.0 56.8 66.8 1 460 60 4" TA 0.10 0.2 45% OPTIONS: SMOKE DETECTOR. FIRESTAT, PUMPED CONDENSATE. UNIT PRE - PURCHASED BY RBI 10200 1.0 10 - 227.4 201.2 4.50 22.2 75.0 62.5 56.8 20 1 460 3 60 IR 22.1 6.4 115.0 56.8 66.8 1 460 80 4" TA 0.10 0.2 459g OPTIONS: SMOKE DETECTOR. F1RESTAT, PUMPED CONDENSATE UNIT PRE - PURCHASED BY RBI 10200 1.0 1.0 10 10 - - 227.4 201.2 450 22.2 75.0 62.5 56.8 20 1 *60 3 60 IR 22.1 6.4 115.0 56.8 66.8 1 460 60 4' TA 0.10 0.2 45% OPTIONS: SMOKE DETECTOR, FIRESTAT, PUMPED CONDENSATE. UNIT PRE - PURCHASED BY RBI 10200 227.4 201.2 450 - 22.2 75.0 82.5 56.8 20 1 460 3 60 IR 22.1 6.4 115.0 56.8 66.8 1 460 60 4 TA 0.10 0.2 45% OPTIONS: SMOKE DETECTOR. FARESTAT, PUMPED CONDENSATE. UNIT PRE - PURCHASED BY RBI i IR nil QED TA - WASHABLE L E AY ^■ce FAN SCHEDULE MARK NO. AREA SERVED CFM STAT. PRESS. I.W. TYPE i DRIVE R °M WHEEL DUB MOTOR AMP ELEC. CHAR. REMARKS V PH HZ EF -1 TOILET ROOM 106 120 0.50 CENTRE. DIRECT 1600 5.25 1.0 120 1 60 BROAN 361 L.oSone EF -2 TOILET ROOM 107 120 0.50 CENTRI. DIRECT 1600 5.25 1.0 120 1 80 BROAN 361 LoSons EF -3 GENERATOR ROOM 112 20,000 1.00 CENTRE. BELT 600 42 7.5 HP 460 1 60 GREENHECK GB 420 -75 EF -4 BATTERY ROOM 106 1800 0.50 CENTRI. BELT 1300 13.5 0.5 460 3 60 COOK 1350 -48 EF -5 BATTERY ROOM 106 1600 0.50 CENTRI. BELT 1300 13.5 0.5 460 3 60 COOK 135C -49 SF -1 ELECTRICAL ROOM 109 600 0.25 CENTRI. BELT 565 16 1/4 HP 120 1 60 GREENHECK RSF -90-3 SF -2 GENERATOR ROOM 112 1400 0.325 CENTRI. BELT 965 14 1/4 HP 120 1 60 GREENHECK CWB -140 -4 • r' t �� • ' h1 ^ nil M lER IIIM . TYPES MAY MOT BE OUZEL FOR INS PROJECT. 2.1 MR IER INA1. A. Supply Registers (SR) 1. Suppy register shot be one Cal the fallowing or an AA approved substitute: a Krueger b. Memorial e. lltus 2. Sizes slid be as Hided on dre w ngs. Double deflection regidem shat have horltont ! front with vertical rear deflection vanes. Manes Mal be spaced on 3/4' centers and be adjustable, front and rear. A sponge rubber gasket stall be provided to prevent streaking. Unit shall be of dui construction and be for ioy-P os*i dud. mounted or sal /surface mount as required. NI rpieters shot halve at oft -white balled enamel Nolen. 3. Unit shat be prodded rah opposed hods damper for vdume Cxxlhol. Damper a be adjustable through foes of register. 8. Rahn I7r1Ies/EIdauut Registers/ Trawler Wise (RAR) /(EAR) /(TAO) 1. Return grilse shall be one of the foaming or an A,/E approved erlbellsute: 0. Msmoettot b. Thus Ilfq. c. Krueger 2. Sloes shall be as Isted on the dm/Av. Single deflection plies did haw hod:oont ( vain set on 3/A' centers and 35' angle. UnN shad bed steel construction anal be for rat, ailing a duct as spedflod on drawings. All grilles shall hove an off -white Midi. Urta OhaP hew =Moos and free for fold substantial construction. 3. Register drol be praaded Mb apposed blade damper for raiurrme =MM. as required on drawings and schedules. C. Square Ceiling Supply Diffusers (S 1. Square Caning Supply Munn shad be one of the fdloring or an AA opp►oved subetltut: a. Anernostat EPA. b. Tliue Mfg. TMS c. Know 1400 2 Shea shad be as listed on drawings. AI dMfwers shall have an off -whits baked sworn. finish. shat be of heavy gauge steel construction, for lay- ceiling grid. afro( have sbeightening grids and del have sector blank -off baffles when shown on drawings as necessary for der pattern. 2.2 EXHAUST FAN (Ef) A. Housing: Steel housing with duct connection outlet. Discharge backdraft damper shall be in fon discharge. 8. Housing Insulation: Faced, i/2" heavy - density, sound insulation over entire casing. U. Housing Finish: Baked -on finish E. Centrifugal fan, with forward- curved, double -width wheels at steel, in pointed steel fon scrolls, directly connected to manufacturer's standard motor. 1. Direct drive blower statically and dynamically balanced. 2. Multi -speed leadesa motor with plug -in connections, 3 motor speeds. Speeds changes with simple wiring change. 3. Blower slides out of housing for servicing. F. Accessories 1. Metal grille inlet 2.3 ROOF HOOD (RH) A. Roof Hoods shall be of the size and type shown on the drawings and specified herein, and shall be manufactured by one of the following: 1. Acme Engineering 2. Aerovent 3. Penn Ventilator 4. Green heck 5. Cook 8. The hoods shall be constructed of aluminum for outdoor installation, of sufficient ridgidity and strength. C. Throat velocity shall not exceed 650 FPM. Hood to throat area shall be 21 a. Hoods shall be securely anchored to the building on on approved manner and shall be installed to be completely free from vidration under all conditions of operation. "D ,RECENEED CITY Or TUKWILA SEP - 4 2002 PERMIT CENTER Nammossor LOCAL SER k10ES One Teleport Drive, Staten Island, NY ?G311 CITY: TUKWILA, WA CITY CONTACT: JIM WICKES TELEPHONE #: 907 -264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC SECTIONS • SCHEDULES AND SPECIFICATIONS • CONSTRUCTION MANAGER CeR §Z8 MER ®G re�e ENGINEERS a SIJ/L EERS DRAWN BY: SCALE: . AS NOTED DATE 12110 SHEET: RA ARCHITECT/ ENGINEER: THE AUSTIN COMPANY 1�11ru' ' BMW • IMINVINIIII HV4 100F39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00420 FILE: M A820\HVAC•820HVO4.DWG REV'StONS NO DATE 1 DESCRIPTtON A - 116/01i A &' WAD, NO =f.Jt1 I'S 8 5/14/01 tS,St 00 FOR OONSTRUC'!Ok , 43 thru 48 I 49 thru 54 1 -1/2" standing seam or 1 -1/2" pocket lock with 1 -- 1/2x1 - 1/2x1/8 angle stiffeners between joints at 411 centers maximum 55 thru 60 61 thru 84 1-1/2" standing seam or 1 -1/2" pocket lock with 1- 1/2x1 - 1/2x1/8 angle stiffeners between joints at 2f centers maximum 85 thru 96 18 1 -1/2" standing seam or 1 -1/2" pocket lock with 1- 1/2x1- 1/2x3/16 angle stiffeners between joints at 2Lt centers maximum 97 thru 120 1 -1/2" standing seam or 1 -1/2" pocket lock with 1- 1/2x1 - 1/2x1/4 angle stiffeners between joints at 2f. centers maximum 24 27 thru 36 22 20 24 22 37 thru 50 20 18 22 20 51 thru 60 18 16' 20 18 61 thru 84 - 16* - 16 { J ATek LOCAL SERVICES One Teleport Drive, 1 St at en Island, NY 1031 CITY: TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907- 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: { HVAC SPECIFICATION PART 2- GENERA=L RODUCT REQUIREMENTS CONSTRUCTION MANAGER M ew Lz7Q Q -i.T N D ENGINEERS ';� � ERs TELEPHONE # 847.698 4900 ARCHITECT; ENGINEER: a THE AUSTIN COMPANY 1 CNIsutTuTS • ORIM U • BISIIIEEMY • CONSTRICTORS DRAWN BY. WBB SCALE: AS SHOWN DATE: 12/18/2000 SHEET: II V5 11 OF 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 [FILE: M: \620 \HVAC \620HVo5.EWC RECTANGULAR DUCTWORK - LOW PRESSURE (UP TO 2" W.G.) LARGEST (H OR W) DUCT DIMENSIONS INCHES GALVANIZED STEEL GAUGE TRAVERSE JOINTS AND BRACING up thru 18 24 1" standing seam or 1" pocket lock 19 thru 30 1" standing seam or 1" pocket lock with 1xlx1/8 angle stiffeners between joints at 5ft centers maximum 31 thru 42 20 43 thru 48 1 -1/2" standing seam or 1 -1/2" pocket lock with 1 -1 /2x1- 1/2x1/8 angle stiffeners between joints at 2 centers maximum 49 thru 54 1 -1/2" standing seam or 1 -1/2" pocket lock with 1 -- 1/2x1 - 1/2x1/8 angle stiffeners between joints at 411 centers maximum 55 thru 60 61 thru 84 1-1/2" standing seam or 1 -1/2" pocket lock with 1- 1/2x1 - 1/2x1/8 angle stiffeners between joints at 2f centers maximum 85 thru 96 18 1 -1/2" standing seam or 1 -1/2" pocket lock with 1- 1/2x1- 1/2x3/16 angle stiffeners between joints at 2Lt centers maximum 97 thru 120 1 -1/2" standing seam or 1 -1/2" pocket lock with 1- 1/2x1 - 1/2x1/4 angle stiffeners between joints at 2f. centers maximum ROUND DUCTWORK - LOW PRESSURE NO. OF VANES NEGATNE PRESSURE (UP TO - 2'W.G.) POSiTNE PRESSURE (UP TO +2 W.G.) DUCT DIAMETER INCHES SPIRAL SEAM GAGE LONGITUDINAL SEAM GAGE SPIRAL SEAM GAGE LONGITUDINAL SEAM GAGE 3 thru 8 26 24 26 26 9 thru 14 26 24 26 26 15 thur 26 24 22 26 24 27 thru 36 22 20 24 22 37 thru 50 20 18 22 20 51 thru 60 18 16' 20 18 61 thru 84 - 16* - 16 PERCENT REDUCTION NO. OF VANES RADIUS OF 1ST VANE RADIUS OF 2ND VANE RADIUS OF 3RD VANE 33% TO 99.9% 1 R1 = R + 0.35(W) 15% TO 32.9 %. 2 R1 = R + 0.15(W) R2 = R + 0.45(W) 10% TO 14.9% 3 R1 = R + 0.10(W) R2 = R + 0.25(W) R3 = R + 0.52(W) 2) tE1E.RA. PRODUCT REQtARDE.VS A. 2 cJ eriert and instruction of motorises, products air equipment mall be coorcrnotea r:tr the wee se the other trades as snow cr the mschanieol electric a architect sat and Owner's equipne'n avow B- Menu of sty one dassifrcatior or C1 are :sled it-. quantity. such as valves, speciolties. ocoessaies . fittings, etc_, shoe in each ccse ee the product d one -nonafocturer, aria shall be used only for the services recommender by ne ma 2.2 le "ORS - GENERAL A. Eiectric klotors 1. Snot_ oe furnished as required for equipment furnished by this s.sDccontroctor. 2. Motors shell be guaranteed by r'xnufocturer to meet oppeicoble requirements of IEEE and NEIM et each class and service; to operate sctisfcctority under norms bad conditions and continuously under fat food. Al: motors strt have high efficiency nameplates. 3. Sae shall be as stotea on drawings, or as required. 4. Nameplate Ratings snail not be less than broke HP of equipment to be driven, in tut range of operating 8. Motors up to 1/6 HP may have bronze sleeve bearings, and those over 1/6 HP shall be drip - proof, open p n :ice or roller bearings. unless otherwise required in description of equipment. . Moto . - Shot not be over 1800 PRII, unless otherwise states herein. Power characteristics shat+ be and as follows. C. Up tree 1/3 HP - 115 ' phase, 60 hertz b. 1/2 HF and lager - 46C von,. ' oncse 60 hertz. 2. Pernnenentfy wbricate double sear ac°. De :wings_ 3. Single phase motors shall be shaded port type. 4 Single chase motors shall have built -in thermal cvertocc protection. 5. Open drip proof NEMA Class A -1 or as required for ser.;ce °notion. 2.3 INSULATION - GENERAL A. Furnish end install at therrc. insulation as specified herein on clean dry surfaces only after testing, inspection and approval of the ar tight ductwork systems. Tne testing shall be in strict accordance with these specifications and manufacturer's printed instructions. Insulation shall be of the type specified and as monufacturec by one of the following, or an A/E approve° substitute: 1. Owt.is- Coming 2. Pittseergh- Corning 3 Certoir. -Teed 4. Schuller industries (John - Manville) 5. PPG industries 6. Knout B. Insulation, Covering, Tape and Adhesive - shall meet the NFPA non - combustible requirements of flame spread not to exceed 25, and smoke developed not to exceed 100 as rated by Underwriters Laboratories for Pipe ono Equipment Coverings R5583 U8.15. 2.4 DUCTWORK INSULATION conditions. type, squ wire cage as stated on drawings, A. Duct insulation 1. All round or rectangular air conditioned supply ductwork, return ductwork and all outside air intake ductwork with or without lining shall be insulated on the outside unless stated otherwise in the specifications. 2. Concealed insulated ductworr a. Ductwork located in the space above ceilings or in chases and not exposed to view without removal of ceiling tile or access doors, snail be insulated with 2" thick 0.75 lb. density duct wrap with factory foil Kraft laminate backing. The wrap shall conform to NFPA •90A and ,908 Standards. The duct wrap shall be supplied over clean dry airtight ductwork. Minimum thickness at corners shall be 1". insulation shall be butted tightly at joints and vapor barrier facing shall be overlapped a minimum of 2 ". Insulation should be removed from lap prior to stapling. All seams shall be stapled approximately 6" on center with outward clinching staples, then sealed with a foil vapor barrier tape or vapor barrier mastic. 3. Expose° to view ductwork c. insulated ductwork exposed to view such as all ductwork in mechanical areas, ductwork in machine rooms, warehouse, process areas and ductwork in walk -in chases, and called for on drawings shall be insulated with 2" thick 3 lb. density duct -board with factory Foil Reinforced Kraft backing similar to Owens Coming Fiberglass type 703 FRK. Pre - scoring may be required to allow the board to conform to the surface. Insulation shall be applied using mechanical fasteners such as weld pins attached with adhesive #77 General Purpose by Aerko Fastening Systems, Inc. Fasteners shall be located not less than 3" from each edge or corner with maximum spac'ng of 12" on center. Apply FRK pressure - sensitive patches and seal edge with FRK joint sealing tape. 2.5 DUCTWORK - GENERAL A. All ductwork snail be fabricated according to the recommendations of the Sheet Metal and Air Conditioning Contractor's National Association (SMACNA), 4th Edition 1969 with the exceptions of the gauges and details us listed in these specifications. All duct sizes on drawings indicate net free area. B. Ductwork shall be galvanized steel, lock forming quality, unless aluminum or other material is specifically called for on the drawings. Other joint construction of equivalent mechanical strength and airtightness may be used in lieu of that specified below, provided approval is obtained prior to fabrication. Submit for approval, sheet metal details of any proposed alternate joint construction and reinforcement. All supply ductwork shall be cross - broken outward and return and exhaust ductwork cross - broken inward. Beading mcy be used instead of cross - braking if material two gauges heavier is uses (i.e. 20 gauge instead of 22 gauge). C. Holes for dampe- rods, thermostats, etc., shall be drilled or machine punched, not punch driven. D. Streamlined sleeves and increased duct sizes shall be furnished wherever piping or other interferences pass through ducts. E. Elbows shall be with inside radii the same as duct widths, insofar as possible. Where radii must be reduced, vanes shall be added as follows: TABLE 2.505.E.1 WHERE R = DUCT RADIUS (DUCT WIDTH), W = NEW RADIUS (R x % REDUCTION) F. Transition elbow .ors may oe taxer as seater wiat^.s_ G. Turning vanes for we elbows shall be loctory mode_ Vanes shot be instated at paper angles. W .r=out vanes. 1 to 5 rnaxrwsn slope We ae perrndtea. H Trart;on pieces snot be ,,L,, 1 to 7 slopes eeerever possible. renew( slope must be increases. spitter vanes snore be added. L Branch connections carrying on than 10% of the trunk may be mode by cutting full size branch duct irtc the trunk. Other corrections shoe be mode with throats proportioned to maintain aqua velocity in each branch takeoff, or wits contra: sgtc -ins. J. At ductwork seems snot be seared with hardening mastic sealant_ K. Were show^ or necessary for balancing. manual volume dampers shag be multiple buyer type, unless otherwse specified, with and 16 gouge blades having interlocking edges. not over 8" wide and 48" long. Bearing and hardware shall consist of steel rods and brass bushing or bronze self -oiling oeorings, cadmium plated brocxets, quadrants, indicators. and eccentric wing nut clamps. M. Drain pons for installation where showy slot be prov :died if not furnished by manufacturer. They shot be constructed of 16 gouge galvanized steel with seams soldered or coulkea curter tight. Depth shall be 2' and have 1 -1/2" drain and 3" wcter seal on traps, and shat be coated on inside with bitumastic paint. C. Hangers and supports shat be such as wi': support curt and accessories with °fete factor of 6. Hangers and supports shall include one piece molleebne iron or wrought steel inserts with long necks and keyhc.le slots for attachment in forms; expansion shells. self - drilling type with inside threads and expanding plugs; angles, channels, ads, etc., and wall brackets and riser support clamps. For ducts up to 35" wide, use galvanizes bond iron strops fastened to bottom of ducts with sheet metal screws. Over 36 in. wiae aucts, use steel angle carriers under ducts and support on steel hanger rods. Angle carriers shall be of sufficient length to prevent hanger rods from touching sides of duct. P. Installation of hangers and supports shat be to existing overhead building /roof support structure. Installation shall be in a substantial, safe and rigid manner and shall not interfere with the work of the other wades. Hangers shall not be spaced over 6'-0" on centers. Q. Low Pressure Duct Construction Standards: TABLE 2.5.Q.1 • UP TO - 1"W.G. MAXIMUM NEGITNE PRESSURE TABLE 2.5.Q.2 R. Where special rigidity or stiffness is required, ducts should be constructed of metal two gouge numbers heavier. e.g., use 22 gauge instead of 24 gauge. Ducts wider than 96" require special field study for hanging and supporting methods. 26 BITUKAST1C OWING Eutunottic coatings snag be twc may brush costs at B+ittsnostic Tank Solution as mode by Koppers Company. inc. B. Apply in d drain pons and were cried out an drawings. 2.7 FLOOBLE DUCTWORK r SUTATED A. Flexible ductwork shall be as manufactured by one of the following or an A/E approved substitute. 1. Wiremold 2. Thermo1lex 3. General Environment Corporation B. Flexile ductwork shot be composed of on inner finer of corrosion resistant galvanized wire heir supporting on airtight polyester core, with ' " 3/4 lb. density fiberglass blanket of insulation and a flame retardant polyolerin vapor barrier. Duct shd comp!, wee the latest NFPA Bulletin 190A and be listed as a Class I contwctor, UL Standard 181. Maximum flex duct length shall be 6'-0". C. Duct shop be Type WC as manufactured by Wiremold, or on WE approved substitute. 2.8 SEi UNG MATERIALS it Joint and Seam Sealants: 1. The term sealant used here is not 'ended to materials of adhesive or mastic nature. B. Joint and Seam Sealant: 1. One- port, non -sag, solvent- release - curing, polymerized butyl sealant complying with FS TT -S- 001657, Type ,; formulated with a minimum of 75 percent solids. C. Fanged Joint Mastics: 1. One- part, acid-curing, silicone elastoeteric joint seolonts, complying with ASTM C920, Type S. Grade NS Class 25, Use 0. 2.9 FEE- STOPPING A Fire- Resistant Sealant Provide one-part imtumescent elostomeric sealant formulated for use in a '.nrough- penetration fire -stop system for filling openings around duct penetrations through walls and floors, having fire- resistance rctings indicated as estabiisned by testing identical assemblies per AST E 814 by Underwriters Laboratory, Inc. or other testing and inspecting agency acceptaoie to authorities having jurisdiction. See Architectural plans for fire wall designation. B. Products: Subject to compliance with requirements, provide one of the following: 1. "31,1 Fire Barrier Caulk CP -25 "; Electrical Products Div /3M. 2.10 DUCT HARDWARE A. General: Provide duct hardware, manufactured by one manufacturer for all items on project, for the following: 1. Test Holes: Provide in ductwork at fan inlet and outlet, and elsewhere as indicatea, duct test holes, consisting of slot and cover, for instrument tests. 2. Quadrant Locks: Provide for each damper, quadrant lock device on one end of shaft; and end bearing plate on other end for damper lengths over 305 mm (121. Provide extended quadrant locks and end extended bearing plates for externally insulatec ductwork. B. Manufacturer: Subject to compliance with requirements, provide duct hardware of one of the following: 1. Ventfabrics, Inc. 2. Young Regulator Co. 2.11 DUCT ACCESS DOORS A. Provide duct access doors of size as indicated on drawings and at fire dampers and cooling coils. Access panels are required where shown or necessary for servicing. Under 4 sq. ft., construct to 20 gauge galvanized steel with standing seams and sash lock fasteners. Over 4 sq. ft., construct of 16 gauge galvanized steel with 1 -1/2 x 1 -1/2 x 1/ angle frames and cam locking latches with operators on both sides. Panels for insulated ducts or housings shall have equivalent insulation built -in. Access panels shall be installed adjacent to all fire dampers. B. Construction: Construct of same or greater gauge as ductwork served, provide insulated doors for insulated ductwork. Provide flush frames for uninsulated ductwork, extended frames for exterealty insulated duct. Provide one side hinged, other side with one handle-type latch for doors 12" high and smaller, 2 handle -type latches for larger doors. C. Manufacturer: Subject to compliance with requirements, provide duct access doors of one of the following: 1. Air Balance Inc. 2. Duro Dyne Corp. 3. Ruskin Mfg. Co. 4. Ventfabrics, Inc. 5. Zum Industries, Inc.; Air Systems Div. 2.12 FLEXIBLE CONNECTIONS A. General: Provide flexible duct connections wherever ductwork connects to vibration isolated equipment. Construct flexible connections of neoprene - coated flameproof fabric crimped into duct flanges for attachment to duct and equipment. Make airtight joint. Provide adequate joint flexibility to allow for thermal, axial, transverse, and torsional movement, and also capable of absorbing vibrations of connected equipment. B. Flexible ducts shall be installed in accordance with TiMA /SMACNA Flexible Duct Performance Standards and Flexible Duct Installation Standards. C. Manufacturer: Subject to compliance with requirements, provide flexible connections of one of the following: 1. Duro Dyne Corp. 2. Flexoust (The) Co. .3. Ventfabrics, Inc. 2.13 DAMPER ACTUATORS A. Open /Close type for AC units 1. Provide damper actuators for open /close type dampers as shown on drawings. Units shall be 24 Volt, 60 Hz. 2. All actuators shall be spring return to normal position as required by sequence upon power interruption. 3. All actuators shall have an auxiliary switch, SPDT, which makes or breaks circuit at powered end of stroke. 4. Provide damper linkages and accessories as required for a complete installation. 5. Actuators shall be sized to provide the required torque to operate the dampers. 6. Provide an end switch to be mounted on damper shaft, to be installed by this contractor and wired to AC unit by Electrical subcontractor. End switch to verify that damper is open. B. Open /Close type for SMOKE DAMPERS 1. Provide damper actuators for open /close type dampers as shown on drawings. Units shall be 120 Volt, 60 Hz. 2. All actuators shall be spring return to normal position as required by sequence upon power interruption. 3. All actuators shall hove an auxiliary switch, SPDT, which makes or breaks circuit at powered end of stroke. 4. Provide damper linkages and accessories as required for a complete installation. 5. Actuators shall be sized to provide the required torque to operate the dampers. M&/ • /49 JUN 1 i Lou , PERMIT CENTEll w � REVISIONS NO DATE 1 DESCRIPTION A 1 /16/01 � R A'& REVIEle AND PERWS 8 5/'•4/01 SS.1DD =0R CONSTRUCIO1i •- i I 1 I f a I _ ______..... Ara LOCAL SERVICES 'One Te e p ort Drive, Staten Island, NY 110311 CITY: TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907 - 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC DETAILS & SPECIFICATIONS � 1 CONSTRUCTION MANAGER mar Li-WQ '�7�All °]� ° � � ,/ � &, iijq . ° ENGINEERS o BUILDERS I TELEPHONE # 847 698 4900 ARCHITECT/ a CNIIWtTYTE ENGINEER: 1 THE AUSTIN COMPANY a • 18Ii11Eit • BisuitEERS • CBNSTRRCTOSS DRAWN BY WBB SCALE: NONE DATE: 12/18/00 SHEET: L i _ 12 of 39 FRBI PROJECT # 2623.38 AUSTIN PROJECT # 00 - 620 D EICE: M: \620 \HVAC \620HV06.DWG 2-0 RfF►alDEW► "rpk SYSTE 21 I RA REFRICLR OCIN MSC A ASlti.. Corns. once= G.,cay erasing and we sing processes ono opsrators according to AS 3oiler and Pressse Vessel Code Section I. Itemng one Brazing Doyle 8 Regwetory Requirements_ Comm war provisions of the following codes 1. AS* B31.5. 'Re'•.geration Piping.' 2. ASrI M 15, 'Safety Code for Mechanical Refrigeration.. C. UL Stondord: Provide products comptyw'g with ,1L 207. - Refrgeront- Containing Components and Accessories. Nonelectrical or UL 429. `Fsectricaay Operctee Valves D. Listing one Lobbing Provide products specified in tris Section that ore UL fisted ono beet 2.2 MANUFACTURERS A Manafoctures: Subject to compliance snot requirements, proviae products by one of the following - 8. Refrigerants. 1. A:fiea Signal inc.: Genetron Refrigerants. 2. DuPont Company; ftuorochemico s Div. 3. EIf Atocnem North America, Inc_ 4. C Americas Inc ; luorocnemico!s Bus. C. Refrigerant Valves and Specialties: 1. Donfoss : ec`. -nnics. Inc. 2. actor.. ;,orpor c :ror. - custrio! Contra Div. 3. Emerson Electric Company: Alco Controls Div. 4. Henry Votve Company. 5. Porker - Hannifin Corp. ;Refrigerauor. & Air Conditioning Division. 6. Sportan Valve Company 2.3 PIPES AND TUBES A 'fiord Copper 'ube: ASTM 9 280, Type ACR, drown temper. B. Hens Coppe Tube ASTM b 88, Type a drawn temper 2.4 PIPE MD TUBE FTINGS A. Copper Fittings. ASMEB 16.22, wra,:ght- cooper streamlined pattern. 2.5 JOINING MATERIAL. A. Brazing Filler Metals: 4WS A5.8, Classification BAg -1 (Silver, B. Solder sha! be nand silver #122 streamline or an approved substitute. C. Sealant for screw.: ;oints shall be wrapped or coated with an approve° material. 2.6 VALVES A. Genera,: Compete vorve assemcly shall be UL- listed and designed to conform to A4! 760 B. Globe valve. 450 psis, iaximum apercting pressure, 275 deg F maximum operating temperature; cast bronze body, with cast bronze or forged brass wing cop and bones bonnet; replaceable resilient sear disc; plated steep stem. Valve shall be capable of being repacked under pressure. Valve snail be straight through or angle pattern. with solder -end connections. C. Refrigerant Charging valve: 2.7 REFRIGERANT PIPING SPECIALTIES A. Straight- or Angle -Type Strainers: 430 -psig working pressure; forged -brass or steel body with stainless -steel wire or brass- reinforced Monel screen, and screwed cleanout plug, with solder -end connections. B. Moisture /Liquid Indicators: 500 -psig operating pressure, 200 deg operating temperature; forged -brass body, with replaceable, polished, optical viewing window with color -coded moisture indicator, and solder -end connections. 2.8 REFRIGERANTS A. Provide refrigerant cnorge for all systems installed by this contractor, R -22: Monochlorodifluoromethane. 3.0 REFRIGERANT PIPNG EXECUTION 3.1 EXAMINATION A. Examine roughing -in for complian - :e w th requirements for installation tolerances and other conditions affecting performance of refrigerant piping. Do not proceed with installation until unsatisfactory conditions have been corrected. 3.2 APPLICATIONS A. Aboveground, within Building: Type ACR drawn - copper tubing. B. Aboveground, within Building: Type L drawn - copper tubing. 3.3 INSTALLATION A. Install refrigerant piping according to ASHRAE 15. B. Install piping in short and direct arrangement, with minimum number of joints, elbows, and fittings. C. Arrange piping to allow normal inspection and service of compressor and other equipment. Install valves and specialties in accessible locations to allow for service and inspection. D. Install piping with adequate clearance between pipe and adjacent walls and hangers, or between pipes for insulation installation. Use sleeves through floors, walls, or ceilings, sized to permit installation of full - thickness insulation. E. Insulate suction lines and liquid lines, but insulate them together if adjacent. F. Do not install insulation until system testing has been completed and all leaks have been eliminated. G. Install branch lines to parallel compressors of equal length, and pipe identically and symmetrically. H. Instoli copper tubing in rigid or flexible conduit in locations where copper tubing will be exposed to mechanical injury. I. Slope refrigerant piping as follows: 1. Install horizontal hot -gas discharge piping with a uniform slope of 0.4 percent downward away from compressor. 2. Install horizontal suction lines with a uniform slope of 0.4 percent downward to compressor. 3 Install traps and double risers and where required to entrain oil in vertical runs. 4 Liquid lines may be installed level. J. Use fittings for changes in direction and branch connections. K. Install exposed piping at right angles or parallel to building walls. Diagonal runs ore not permitted. L. Reduce pipe sizes using eccentric reducer fittings installed with level side down. M. Provide bypass around moisture - liquid indicators in lines larger than 2 -inch NPS. N. Instal, unions to allow removal of solenoid valves, pressure- regulating valves, expansion valves, and at connections to compressors and evaporators. 0. Install flexible connectors at the inlet and discharge connection, at right angles to axial movement of compressor, parallel to crankshaft. P. Install replaceable -core filter -dryers, with isolation valves and valved bypass. Q. Install refrigerant valves according to manufacturer's written instructions. R. When brazing, remove solenoid -valve coils; remove sight glosses; and remove stems, seats, ana packing of valves, and accessible internal parts of refrigerant specialties. Do not apply heat near bulb of expansion valve. S. Install pressure relief valves as required by ASHRAE 15. Pipe pressure relief valves on receivers to outdoors. T. Charge and purge systems, after testing, and dispose of refrigerant following ASHRAE 15 proceaures. U. Charge system as follows: 1. Install filter -dryer core after leak test, but before evacuation. 2. Evacuate refrigerant system with vacuum pump, until temperature of 35 deg F is indicated on vacuum dehydration indicator. 3. Maintain vacuum for a minimum of 5 hours. 4. Break vacuum with refrigerant gas and charge to 2 psig. 001 I 110 PROVIDE FLEX AT UNIT CON 1/2" CW 3/4' PC G1 - � I G2 L2 MOUNT ALL AC UNITS ON NON- ADJUSTABLE PADS. PADS SHALL HAVE A HIGH -GRADE CORK PLATE, PERMANENTLY BONDED BETWEEN TWO LAYERS OF WAFFLE - DESIGN, OIL RESISTANT SYNTHETIC RUBBER. THE WAFFLE DESIGN SHALL INCREASE DEFLECTION AND FORM A NON -SKID SURFACE WHICH RESISTS 'CREEPING' OF EQUIPMENT. PADS SHALL BE OR EQUIVALENT TO ELASTO -RIB, AS MANUFACTURED BY KORFUND DYNAMICS CORP. MINIMUM LOAC RANGE OF 60 LBS /SQIN, WITH A THICKNESS OF ONE INCH. r� TRAP HOT GAS MUFFLERS DAMPER W /ACTUATOR 48x18 20x18 SEE PUN FOR SIZE- -----CW � - PC SEE PLUMBING DRAWING P -3 ;OR WATER AND PUMPED DONDENSATE REQUIREMENTS 3.4 HANGERS AND SUPPORTS ALL ACCESORIES NOT SHOMts FOR Ct)IRITY 3.7 SPECIALTIES APPLICATION AND INSTALLATION INVERTED TRAPS NOT TO SCALE G1 G2 L1 L2 ISOMETRIC DETAIL A. Adjustable steel clevis hangers for individual horizontal runs less than 20 feet in length. B. Roller hangers and spring hangers for individual horizontal runs 20 feet or longer. C. Pipe rollers for multiple horizontal runs, 20 feet or longer supported by a trapeze. D. Spring hangers to support vertical runs. E. Install hangers for copper tubing with the following maximum spacing and minimum rod sizes. standard tube sizes as expressed in ASTM B 88. 1. 1/2 Inch: Maximum span, 60 inches; minimum rod size, 1/4 inch. 2. 5/8 Inch: Maximum span, 60 inches; minimum rod size, 1/4 inch. 3. 1 Inch: Maximum span, 60 inches; minimum rod size, 1/4 inch. 4. 1 -1/4 Inches: Maximum span, 72 inches; minimum rod size, 1/4 inch. 5. 1 -1/2 Inches: Maximum span, 96 inches; minimum rod size, 3/8 inch. 6. 2 Inches: Maximum span, 96 inches; minimum rod size, 3/8 inch. 7. 2 -1/2 Inches: Maximum span, 108 inches; minimum rod size, 3/8 inch. Tube sizes 3.5 PIPE JOINT CONSTRUCTION A. Fill pipe and fittings with an inert gas (nitrogen or carbon dioxide) during brazing to prevent formation of scale. 3.6 VALVE INSTALLATIONS are nominal or A. Install refrigerant valves according to manufacturer's written instructions. B. Install valves on suction and discharge of compressor, for gage taps at compressor inlet and outlet, for gage taps at hot -gas bypass regulators, on inlet and outlet, and on each side o` strainers. C. Install check valves on compressor discharge and on condenser liquid lines on multiple condenser systems. D. Install refrigerant- charging (packed - angle) valve in liquid line between receiver shutoff valve and expansion valve E. Install globe valves on each side of strainers and dryers, in liquid and suction lines at evaporators, and elsewhere as indicated. F. Install a full- sized, 3 -valve bypass around each dryer. G. Install solenoid valves ahead of each expansion valve and hot -gas bypass valve. Install solenoid valves in horizontal lines with coil at top. H. Mount thermostatic expansion valves in any position, close to evaporator. J. Where refrigerant distributors are used, mount directly on expansion -valve outlet. K. Install valve so diaphragm case is warmer than bulb. L. Secure bulb to clean, straight, horizontal section of suction line using 2 bulb strops. Do not mount bulb in a trap or at the bottom of the line. Id. Where external equalizer lines are required, make connection where it will reflect suction -line pressure of bulb location. N. Install pressure- regulating and relief valves as required by ASHRAE 15. A. Install liquid indicators in liquid line leaving condenser, in liquid line leaving receiver, and on leaving side of liquid solenoid valves. B. Install strainers immediately upstream of each automatic valve, including expansion valves, solenoid valves, hot -gas bypass valves, end compressor suction valves. C. Install strainers on main liquid line where multiple expansion valves with integral strainers are used. D. Install moisture - liquid indicators in liquid lines between filter -dryers and thermostatic expansion valves and in liquid line to receiver. E. Install pressure relief valves on ASME receivers, and pipe to outdoors. ACU - THRU ACU - 7 CONDENSER COIL 1 EVAPORATOR FANS AC -1 THRU AC -7 EVAPORATOR 2 3.8 FIELD QUALITY CONTROL CONDENSER COIL 2' COMPRESSOR MUFFLER SENSING BULB VALVE r EXPANSION 1 - SOLENOID VALVE \ SIGHT GLASS y � DRYER N J ry 0 m i INVERTED TRAP MINIMUM TRAP riFIGKT 8' ABOVE IBASE ON CONDENSER COIL REFRIGERATION FLOW DIAGRAM NOT TO SCALE GLJBE VALVE MUFFLER B PROVIDED WITH CAC, SUBCONTRACTOR TO INSTALL MUFFLER B N -TRAP ON COMPRESSOR DISCHARGE F. Install replaceable -core filter- dryers in vertical liquid line adjacent to receivers and before each solenoid valve. G. Install permanent filter- dryers in low-temperature systems, in systems using hermetic compressors, and before each solenoid valve. H. Install solenoid valves in liquid line of systems operating with single pump -out or pump -down compressor control, in liquid line of single or multiple evaporator systems, and in oil bleeder lines from flooded evaporators to stop flow of oil and refrigerant into suction line when system shuts down. J. Install receivers on systems 5 tons and larger, and on systems with long piping runs, sized to accommodate pump -down charge. K. Install flexible connectors at or near compressors where piping configuration does not absorb vibration. A. Vacuum 1. Pressure Test. Piping system shall be charged with nitrogen or anhydreus carbon dioxide to 150 psig on low side for refrigerant 22: 300 psig on high side for refrigerant 22. Tap each solder joint with c rubber mallet and check all joints with a soap solution for leaks. All leaking joints shall be dissembled and new joint made. Do sot seal with brazing material. After oil leaks are repaired, system shall hold pressure for 24 hours. Corrections will be moos. for ambient temperature. 2. Vacuum fest. After pressure test, the system shall be thoroughly dehydrated by means of vacuum pump capable of developing 29.9 in of mercury vacuum, as indicated by mercury manometer and wet b,ilb indicator and system is capable of holding such vacuum. After system is leak tested, connect vacuum pump and pull vacuum for 24 hours or longer. Use wet bulb indicator; vacuum must reduce wet bulb to 35 F or lower. After vacuum is drawn, stop pump. After 10 hours, start pump for two minutes; wet bulb reading should remain same. To draw vacuum, it may be necessary to sevice pump and change oil If vacuum cannot be held, check system for leaks and repent vacuum test. A stated declaration of test shall be provided, mounted, and installed in equipment room as required by ANSI B9.1 'Field Tests'. Paper certificates shall be protected with glass o+ plastic. Signs shall be provided and installed as required by ANSI 81.9 Instructions. 3. Final Inspection. All systems, when completed and prior to final acceptance, shall be operated 72 hours or longer to test performance by Subcontractor as directed by and to the satisfaction of A/E and the Owner. Defects demonstrated by inpsections and tests shall be remedied immediately, to A /E's satisfaction at no cost to Owner or A /E. 3.9 ADJUSTING A. Adjust thermostatic expansion valve to obtain proper evaporator superheat requirements. 3.10 COMMISSIONING A. Charge system using the following procedures: 1. Install core in filter dryer after leak test, but before evacuation. 2. Evacuate refrigerant system with vacuum pump until temperature of 35 deg F is indicated on vacuum dehydration indicator. 3. During evacuation, apply heat to pockets, elbows, and low spots in piping. 4. Maintain vacuum on system for minimum of 5 hours after closing valve between vacuum pump and system. 5. Break vacuum with refrigerant gas, allowing pressure to build up to 2 psig. 6. Complete charging of system, using new filter -dryer core in charging line. Provide full - operating charge. t46bi93 CiTy tjn i s JUN 1 1 L,Ll PERMIT '_ ;_ffi r REVISIONS NO DATE 4 DES.:RIPTIOiN A '/!6/0 A "&' KVIE'W Ati0 P`JbE 8 5/14/01 aStIE. FOR OON5'RUC'1011 r 1 ...111■. ' I A ra _ ■• LOCAL SERVICES One Teleport Drive, 'Staten Island, NY 10?11 CITY: TUKWILA WA. CITY CONTACT: JIM WICKES 'TELEPHONE #: 907 -264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC DETAILS &'. SPECIFICATIONS CONSTRUCTION MANAGER MO LVA a/,,i ri/ - 7 EEER C� Ef: t- # 847 698 4900 ARCHITECT/ a C6MgITANT$ ENGINEER: THE AUSTIN COMPANY • MIMS • MIS*EEK • CONSTRUCTORS DRAWN BY WBB SCALE: NONE DATE: 12/18/00 SHEET: T 7 - 13 OF 39 _L rl _ RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 I FILE: M: \620 \HVAC \620HVO7. DWG 2.1 MW ! A Rectangular item,* roa,ume Dampers 1. Dot per sr>ai be Jr ooposee Diode type "rafne she ere 16 gouge galvanize:, steel channel w t• caner oro-es ikoaes since hoe intenocreng edges ono cents crimps. irate maximure of 8' and oonstructeo of 16 gauge golvonzea stee, es! operating roos an 2 ' certers. 2. *Ater dampers • : 18 ga.,ge bodes where snow un drow•.r gs. 3. Bearings one norawe't shoe be compete with. a- Steil rocs one x plated orockets, quadrants, indicators and eccentric w:: g nut ,romps, and brass Postings or bronze self -eirg oeorings_ 4. Morufoct.rer snc . be as farrows -r A/E approved substitute: c. Ruskin lID?= B. Round Menace Vaume Damper 1. Damper shat! be >t the butterfly type. Frame shots be 1 8 gouge steel up to 20' diameter, and vet ode rig reinforcement above 20' coorrnete. 3loae sfha;■ be two layers of 1 h gouge gdvonizeo steel with: a neoprene gasket betwee- the two bides to form a sea, encompassing the entire bode perimeter 2 Bearing and hordware snob be compete with: a. Stee rods and cedmium orodcets, quadrants, indicators and eccentric wing nut comps, and brass bussing or bronze s&- outing oearings 3. Monufoc :weer seta& be as follows or WE approved substitute: a. Ruske CORt - 25 C. Centro Dampers •. Provide dampers with parallel bodes for 2- position contra, or opposed blodes for modulating control. Consu.ct bodes of 16 -ga steel, provide heavy -duty molded self -aubr cdti"ng nylon bearings, 1/2' diameter steel axles spaced on 9' centers. Construct frame of 2' x 1/2' x 16 gouge steel channel for `ace areas 25 sq. ft. and under, 5' x 1' x 16 -go channel for face areas over 25 sq. ft. Provide galvanized steel finish with aluminum toucr.-up. 2. Ooripers shot be low ieckage type and shah not leak more then 1/2% of the design cfm of the unit witr 2' e.g. differential pressure .cross the damper. The damper shot achieve proper sealing using no more than 2 inch /pounds of torque per square foot of ;L'^oer. 3. Manufocturer Subject to compliance with requirements, provide dampers of one of the following: a. Air Balance, inc. b. Ruskin Mfg. Co. CD60 D. Counterbolan..ed Relief Dampers: Pravioe dompers with parallel bodes, counterbalanced ulna factory-set to relieve at indicated static pressure. Construct blows of 16 gouge ai.enir!um, provide 1/2' diameter bat bearings, 1/2' diameter steel axles spaced on 9' centers. Construct frame of 2' x 1/2' x 16 gouge steel channel for face areas 25 sq. ft. and under; 5 x 1' x 16 gauge channe for face areas over 25 sq. ft. Provide galvanized steel finish on frame with aluminum touch -up. E_ Smoke/re Dome s: 1. Smoke /fire campers snail be constructed and located in conformity witr requirements of Underwriters and other authorities having jurisdiction. ''re -hampers shall be with fusible links and access panels Smoke /fire dampers shall bear U.L. label. 2. Provide smoke/f re dumpers of sizes as indicated on drawings. Dampers shell be one hour, two hour or three hour rated. Reference architectural hoot plans for wall ratings. Dampers shall have galvanized steel channel, blades, and enclosure with construction to match fire rating. The damper shall be for vertical installation and be of the horiziontai opposed blade type. Provide fusible link ratec at 163 to 165E unless otherwise indicated. 3. The camper cctuator shall oe mount on the exterior of the ductwork. 4. The camper shah come complete with all linkage and shafts. 5. Manufacturers shaii be as follows or an A/E approved substitute: a. Ruskin FSD35 b. Air Balance 2.2 TURNING VANES A. Fabricated Turning Vanes: Provide fabricated turning vanes and vane runners, constructed in accordance with SMACNA 'HVAC Duct Construction Standards'. B. Manufactures Turning Vanes: Provide turning vanes constructed of 1 -1/2' wide curvec blades set at 3/4' o.c., supported with bars perpendicular to blades set at 2' 0. C., and set into side strips suitable for mounting in ductwork. C. Acoustic Turning Vanes: Provide acoustic turning vanes constructed of airfoil shaped aluminum extrusions with perforated faces and fiberglass fill. D. Manufacturer Subject to compliance with requirements, provide turning vanes of one of the following: 1. Anemostot Products Div.; Dynamics Corp. of Americo. 2. Duro Dyne Corp. 2.3 PREFABRICATED CURBS /EQUIPMENT SUPPORTS A. General Product Requirements 1. Provide manufacturer's standard units, modified as necessary to comply with requirements. Shop fabricate each unit to greatest extent possible. 2. Standards: SMACNA 'Architectural Sheet Metal Manual' details for fabrication of units, including flanges and cap - flashing to coordinate with type of roofing indicated; 'NRCA Roofing and Waterproofing Manual' details for installation of sheet metal work and roof accessory units. B. Material Requirements 1. Zinc - Coated Steel: Commercial quality with 0.20% copper, ASTM A525, G90 hot -dip galvanized, mill phosphatized. 2. Insulation: Manufacturer's rigid or semi -rigid board, glass fiber, thicknesses indicated. 3. Wood Nailers b. General: Softwood lumber, Construction Grade; min 1-1/2' thick c. Preservative treatment. Pressure treat all wood milers with CCA Type C oxide formulation; comply with AWPA Standard C2 and with AWFB LP -2; after treatment, kiln dry to 19% max moisture content. 4. Fasteners: Some metal as metals being fastened, or nonmagnetic stainless steel or other noncorrosive metal as recommended by manufacturer. Match finisn of exposed fasteners with finish of material being fastened. C. General 1. Comply with loading and strength requirements as indicated where units support other work. Coordinate dimensions with rough -in sheets or shop drawings of equipment to be supported. Fabricate of structural quality sheet stee (ASTM A570, Grade as required) which has been prepared for pointing and factory-primed and painted with 1 mil thickness of baked -an synthetic enamel, after fabrication. 2. Fabricate with welded or sealed mechanical corner joints, and with cant strips and base profile coordinated with roof insulation thickness. Provide wood hailers at tops of curbs, coordinate with thickness of insulation and roof flashing as indicated, and tapered where necessary to compensate for roof deck slopes of 1/4' per ft and less. 3. Unless otherwise indicated or required for strength, fabricate units of min 14 go metal, and to min height of 12'. D. Sloping Roofs: Fabricate curbs with height tapered to match slope, to result in level installation of tops of units. E. Manufacturers 1. Custom Curb, Inc 2. The Plate Company 3. Thycurb Div/ThyBar Corp. WOOD ROOF 6' -0 MIN. l2 8 "0 WOOD ROOF FLAP CAP ACCESS DOOR OPPOSITE SIDE SCH 40 STEEL EXHAUST FROM ENGINE GENERATOR 4 EXTERIOR MOUNTED DAMPER OPERATOR 12" MIN. FASTEN TO ROOF PER D7 CONSULTINGS SPEC'S AND DETAILS 'WALL SLEEVE HV -1 DUCT 1 ACCESS DOOR 1 ( 6 GENERATOR EXHAUST DISCHARGE DETAIL -IV-1 NOT TO SCALE T -J SMOKE & FIRE DAMPER DETAIL NOT TO SCALE RAIN CAP 6 "0 ALL /CEJUN WALL /CEILING TYPE "8" FLUE FOR UNIT HEATERS FASTEN TO ROOF PER D7 CONSULTINGS SPEC'S AND DETAILS ROOF VENT DISCHARGE DETAIL NOT TO SCALE RETAINING ANGLE DUCT SMOKE /FIRE DAMPER 2.4 REENSGERWT PIPE M5i11A1f0N A Expardba Closed -CM Type insulation: shad be a fhez a $ostomeric, esponaea dosed -lair type. Thickness of insulation shall be falo.s 1. Refrigeration Hot ges line (bets ' J' -0' AFT) l'thick 8 I nsaretion stall be of the type specified and as manufactured by one of t e forborne r on A/E approved substitute: 1. Am-strong eP Arr oflex 2.5 PI MC SPECIALTIES A wiping Specialties and accessories shall be provioei as fisted betas. a Pipe Sleeves: shell be provided for pipes passing through ta floors one roofs as isted below 1 Sleeves shall be galvanized steel pipe, standard weight. 2. Sleeve diameter shall allow for expansion of pipe lines, however, size shall oe [vitae to reosonao a clearance. 3. Length of sleeves shall dos sleeve to project 2 inches above floors anc oe flush rite. finisned surface of was and ceilings 4. In fire wads and fire floors and where noted on drawings, space betwee- sleeve and pipe sih be packed w t fiberglass inst,lotion. C. Escutcheon Plates: Escutcheon plates that be provided on pipes passing through wars, floors and ceiliings in finished rooms an areas. Escutcheon plates shall be chrome plated brass or pressed steel rite concealed hinges and springs to Hold position an D. Fleshings: shat be provided on ail pipes penetrating the roof. Fleshings snail be watertight and extended one foot beyonc perimeter and one foot oboes roof. 1. Wheee vents are less than one foot above roof, fleshing shill run to top of vent and fold over. Roof fleshings stak be fabricated of 4 lb. lead. 2. Fleshings for floor drains, roof drains and other items are specified in various Plumbing sections when fleshings are required. 26 PIPE HANGERS A Cevis Hangers: Pipe hangers shall be of the adjustable approved substitute: 1. Grinnell Fig. CT -65 o. The following systems shall use the clevis type hanger 1. Domestic Water 2. Pumped Condensate 3. Refrigeration on runs less than 20 feet. B. Roller Hangers: Pipe hangers shot be of the adjustable WE approved substitute: 1. Grinnell Fig. 181 or Fig. 175 a. The following systems shall use the clevis type hanger as described: 1. Refrigeration on runs greater than 2C feet. D. Shields: Shields shall be provided for al insulated piping. 1. Provide a ribbed shield for clevis type h cnyers to keep hanoer centerec on shield. Protection against insulation damage shall be provided with this type of shield as shown on drawings. Shields shall be g to insulation to prevent slippage. Shield shall be as manufactured by the following or a•; A/E approved substitute: a. Grinnell Fig. 168 HV -1 S!_OPE PAN DOWN TOWARDS AC UNIT D = PIPE SWILL. BE A MINUMUM OF 2' BELOW TOP OF PAN 'W = WIDTH AS REQUIRED TO CONTAIN PIPES 1 REFIGERANT PIPE PAN DETAIL HV -1 NOT TO SCALE 22 GAUGE COVER FASTEN TO BOTTOM PAN WITH SHEET METAL SCREWS PROVIDE RUBBER GASKET BETWEEN COVER AND PAN 45.0' WATER PIPE DAMPER L:levis hanger type as manufactured by the following or on A/E as described: steel yoke pipe 'ol' nanger type as mcnufoctured by the fallowing or an - - STRAP HANGERS FABRICATE PER DUCTWORK SPECIFICATIONS CAP END AND CAULK 20 GAUGE GALVANIZED SHEET METAL SUPPLY REGISTER DETAIL NOT TO SCALE PAN (TROUGH) TO BE INS -ALLED BELOW ALL REFRIGERANT PIPE INSTALLATION SWILL PREVENT OIL FROM SPRAYING OR DRIPPING ON EQUIPMENT NOTE LOCATIONS ON FLOOR PLANS SLOPE PAN DOWN TOWARDS MECH ROOM OR AC UNIT STRAP HANGERS FABRICATE PER DUCTWORK SPECIFICATIONS WATER PIPE 20 GAUGE GALVANIZED SHEET METAL PAN (TROUGH) TO ENCLOSE PRESSURIZED WATER PIPING W = WIDTH AS REQUIRED TO CONTAIN PIPES WATER PIPE PAN DETAIL NOT TO SCALE , ,--FRONT BLADE REAR BLADE TYPE A TYPE @ 43.0' TYPE H = HEIGHT OF DIFFUSER ALL REAR BLADES TO HAVE tYPE A ARRANGEMENT ,- ! TOP `45.0' BOTTOM fi/e9froo 2.1 PPE 111SLAAIOls - atit.Rok. A Furnish and rata all therrara insubtion ors speared Meek on aeon dry surfaces after testing inspects and o:9 e strict aocaroasce . n these specie ono manufacturer's printed irnstrus'�orrs es.o3bon sna tae of the type specf,ee and as -ronutorswee oy one of the tariownin or an A_<: approved substisee 1. e-s- r n 2. Fittst .v r - Coining 3 Certc - -leer 4- Scher inoustnes nronn- Monvsile) 5 PPG rms.-stria 6. Knorr. B. insulation, Cover ng, Tope and Achesive shall meet the NEPA ran - combustible requirements of home spreca not tc exceec 25, and srnoke developed not to exceed 50 as rated by Underwriters Laboratories for Pipe one Equipment Coverings 125583 U8.'5. C. Piping insulation: 1. Faergiass Piping tsuotion: A i C 547, Clem 1 unless otherwise indicc :ea- Shot oe :,envy density pipe insulation, ocketed viny coated and embossed vapor borne' laminotec w:tr pressure sealing lap odhesive ASnl covering. Thickness of insulation shon be as fofio.s: Piping Sae r & Smaller 2 -1/2' & Larger Domestic Weer (make -up) 1/2' - 1 -1/2' 2' - 4' - 6' 18 ga. 16 go. 16 ga 1' 1' 2 :aping Shields Shot be galvanized metal (stainless stets r. Kitchen 1183, Wash Room /182 ono Equ.pmer: Storcwc i'8<1 covering the lower half of `he insulation and the contractor snail adhere to the follownis schedule (also see pipe hangers): Pipe cr Tubing Size Thickness Length 12' 12' 18' 3. Fittings, flanges oc d .dive= she be insulated with preformed insulation wits PVC 'remolded one piece fitting cover, Circuit setters shall be supplied /installed with factory insulation enclosures 4. All piping insulation shall extend continuously througn soils with joints 12' or greater from face of won E- Staples Bends, Wires, and Cement: As recommended by insulation manufacturer for applications indicatec. F. Adhesives, Sealers, and Protectr:e Finishes: As recommended by insulation manufacturer for applications indicated. 2.2 Natural Gas (Unger 1 PSI) A. Pipe shall be Schedule 40 ASTM A106 or A5.3 Grade B B. Fittings shag be 1. 125 lbs. cast iron conforming to ANSI B16.4. :2. Butt welding fittings, matching pipe wall thickness conforming to ANSI 816.9 and ASTM A234 WPB. 3. Elbows shall be long radius type, 1 -1/2 times pipe diameter. 4. Branch connections may be mode with 'weld -o -lets conforming to ANSI B16.9 or 'thread -o -lets' conforming to ANSI B16.11 as manufactured by the following or Austin approved substitute: a. Bonney Forge Co. b. Wheeling c. Phoenix Forging d. Allied C. Assembly shall be as follows: 1. Thru 2' pipe size, screwed with unions or flanges at valves and equipment. 2. 2 -1/2' pipe size and larger, welcer' with flanges at valves and equipment. D. Flanges shall have drilled bolt holes, spot faced for bolts. 1. Thru 2' pipe size, 125/ cast iron flat face screwed ANSI 816.1. 2. 2 -1/2' pipe size and larger, connecting to 125# cast iron flanges, shall be 1501 forged steel, weld neck, ANSI 816.5, ASTM A181 -2 with raised face removed. 3. 2 -1/2' pipe size and larger, 154 forged steel, weld neck ANSI 816.5, ASTM A181 -2. 4. Gaskets shall be 1/16' thick Buna N or Viton. a. John Crone E. Unions up to 2' shall be 150/ malleable iron unions, female pattern, bronze to iron seats and ground joints. Unions for connecting steel pipe to copper pipe shall be dielectric type. 1. Bonney Forge 2. Stockham 3. Dart Unior 4. Laddish F. Companion flanges shall be used in pipe 2 -1/2' and larger. 1. Bolts shall be carbon steer with unfinished American Standard square heads, ASTM 307, Grade A. 2. Nuts shall be carbon steel, semi - finished, heavy series hexagonal heads, ASTM A194, Class 0. G. Valves shall be us follows: 1. Check valves 2' pipe size and smaller shall be swing type, 125/ bronze body, bronze disc, screwed cap and screwed ends. a. Crane No. 37 b. Jenkins Fig. 92 -A c. Walwortn W406 2. Check valves 2 -1/2' pipe size and larger shall be swing type, 125/ iron body, bronze disc, bolted cap and flanged ends. a. Crane 373 b. Jenkins 624 c. Walworth 929F .3. Gauge cocks: 1/4' pipe size, 500/ bronze body, teflon seat, Buna -N seal, nickel plated brass boll, screwed ends and lever handle. a. Apollo 7G -100 b. Specialty Mfg. /O25 -FF -BT C. Crane 940 -3 4. Boll valves, r diameter and smaller, shall be 400 WOG bronze body, teflon seats and seals, 316 stainless steel blowout -proof extended stem, and 316 stainless steel ball. Ball valves larger than 2' shall not be used a. Nibco T560 b. Crane 940 -S c. Worchester Wovco Series 48 d. Apollo Series H. Strainers 1. Strainers shall he non- collapsible stainless steel, brass or monel mesh. a. Thru 2' pipe size, strainer shall have screwed, 150/ bronze body, Y pattern with screen openings. Bross 1) Mueller Steam Specialty 351 2) Spirax /Sorco BT 3) Hoffman 420 4) 0.C. Keckly F -150 2 -7 NW S A. Citing Spe c ities acre accessories shag be prcerded as kited below 8. Pipe Sleeves- silos oe provided far pipes passing tiro wets, floors and ' 1s as feted bake 1. mere *,arostabc pr .sure is ears led. .cse cast iron .v pipe- Space Delete' pipe ones steewe et ale mixed water tight .:t- lend and miner or *ea .oce 2- Skeins shot be go van izec stem pipe. standard weignl 3. Sleeve damete still aloe for exparesiOn of pipe Woes, however. size snot be united to reosorto clearance 4. Length of sfeeves shalt allow sleeve to project 2 inches above floors ona be husr wit" finished surfoce of nets a a ce1ngs. 5. Ir fire was and fire floors and wnere noted on drawings, space between sleeve and pipe wi:: be pocked wit' fiberglass insulation and sealed on bon- sides of we with fireproof caulking at the thickness requrec to meet the we:. •ate as shown on :re architectural floor pions 6. In other than fire waits and fire floors, space between sleeve and pipe snail be caulked for ocoustics. 7. Insulation shall extend through wa ,.s. C. Escutcheon Plates: Escutcneon plates shall be provided on pipes passing through Wass, floors and ceilings in finished rooms ono areas. Escutcheon ',kites shall be chrome plated brass or pressed steel w to concealed hinges and springs to hold positron on pipes. D. Gaskets and Pockings: shall be the products of the following: 1. Manufacturers c. Aare Manufacturing and Gasket Company b. Anchor Pocking Company C. John Crone Company C. Johns- Manville 2. Type snail oe as recommended by manufacturer for service. 3. Full face gasket will be uses witr fiat face flanges. 4. Ring type gasxets will be used with raised face flanges. 5. Gaskets snail contain no asbestos. F. Dielectric Unions: Provide dielectric unions with appropriate end connections for pipe materials in wnich installer (screwec, soldered, or flanged), which effectively isolate dissimilar metals, prevent galvanic action, and stop corrosion 1. Manufacturers of Dielectric Unions: C. Eclipse, Inc. b. Perfection Corp. c. Watts Regulator Co. 2.8 MECHANICAL IDENTIFICATION MATERIALS A. Except as other wise indicated, provide manufacturer's standard products of the categories and types required for each application. B. Above Ground Pipe Markers: 1. Provide manufacturer's standard pre - printed, flexible, permanent, color - coded, vinyl cloth or film markers, complying with ANSI A13.1. 2. All pipe markers shall be self - sticking vinyl cloth pipe markers similar :o W.H. Brady Company Model B -500 for inside service or pressure sensitive weatherproof film markers similar to WA. Brady Company 9 -946 for outside service or approved substitute. a. For external pipe diameters less than 3' (including insulation, if any), provide full -band or strip type pipe markers, extending 360 degrees around pipe at etch location, lettering shall be at least 3/4 high, fastened by the following method. 1) Taped to pipe (or insulation) with matching color -coded vinyl cloth or film adhesive tape, not less than 3/4' wide; full circle at both ends of pipe marker, tape lapped 1 - 1/2'. b. For external pipe diameters of 3' and larger (including insulation, if any), provide either full -band or strip -type pipe markers, but not narrower than 2' letter height (and of required length), fastened by the following method: 1) Taped to pipe (or insulation) with color -coded vinyl cloth or film tape, not less than 1 -1/2' wide; 'ull circle of both ends of pipe marker, tape lapped 3'. c. Lettering snail be manufacturer's standard pre - printed working which best describes piping system as follows, but not limited to: Label System Color 1) Natural Gas GAS GW 2) '62 Chilled Water Return' 62'F CHWR GW C. Plastic Tape: Manufacturer's standard color -coded self - adhesive cloth vinyl on film tape, not less than 3 mils thick. 1. Provide 3/4' wide tope markers on pipes with outside diameters (including insulation, if any) of less than 3' and 1 -1/2' wide tape or larger pipes. 2. Colors shall comply with ANSI A13.1, except where another color selection is indicated. D. Arrows: Provide manufacturer's standard cloth vinyl or film arrows of same height as marker lettering at each pipe marker. Install arrows same as markers. Provide single or double head arrows as required for each flow condition. E. General instoilation Requirements: Where identification is to be applied to surfaces which require insulation, painting or other covering or finish, install identification after completion of covering and painting. Install identification prior to installation of acoustical ceilings and similar removable concealment. F. Piping System Identification 1. Install pipe markers of the following type on each system indicated to receive identification, and include arrows to show normal direction of flow: a. Vinyl cloth or film pipe markers and arrows, with application system as indicated under 'Materials' in this section. 2. Locate pipe markers and color bands as follows wherever piping is exposed to view in occupied spaces, machine rooms, accessible maintenance spaces (shafts, tunnels, plenums) and exterior non - concealed locations: a. Near each valve and control device b. Near each brand,, including short take -offs for fixtures and terminal units; mark each pipe at branch, and wnere there could be a question of flow pattern. c. Near locations where pipes pass through walls floors, ceilings, or enter non - accessible enclosures. d. At access doors, manholes and similar access points which permit a view of concealed piping. e. Near major equipment items and other points of origination and termination. f. On piping above removable acoustical ceilings. 9. Spaced intermediately at maximum spacing of 50' along each piping run, except reduce spacing in congested areas of piping and equipment. 2.10 PIPE HANGERS A. Clevis Hangers: Pipe hangers shall be of the adjustable clevis hanger type as manufactured by the following or an Austin approved substitute: 1. Grinnell Fig. 260 o. The following systems shall use the clevis type hanger as described:f 1) Natural Gas 2) City Water B. Shields: Shields shall be provided for all insulated piping. .033 1. Provide a ribbed shield for clevis '.ype hangers to keep hanger centered on shield. Protection against insulation damage shall be provided with this type of shield as shown on drawings. Snield shall be as manufactured by the following or on Austin approved substitute: in Grinnell Fig. 168 2.1 Fuel 011 Piping and Accessories A PQe 1. Pipe snag be schedule 40. AST A53 Grade B. B. Fittings 1 150j TABeaoie iron fittings. in oacadonce wits 4 81161 2- Butt wecxng fittings. mocline pipe sat: Urckness. NISI 16.9. ASTM A234 VFW M elbows watt be tong radius_ 3. Bann connections may be mode witr 'Vied 0 -Lets' or 'Thread -Lets' os manufactured by Bonney rorge Carnpanny or substitute C. Flanges 'hob have cried bolt holes. spot faced for bolts, and faces to match companion flanges on valves and equipment. 1. Thru 2' pipe size, 125/ cast iron. screwed ANSI 816.5. 2. 2 -1/2' pipe size and larger, 150j forged steel, veto neck ANSI 816.5, AST1i1 A181 R -1. D. Gaskets shall be 1/16' thick compressed asbestos free fiber. 1. John Crone 444 2. Goriock 3000 If. Assem 1. Thr u 2' pipe size, screwed with unions or flanges at valves and equipment. 2. 2 -1 /r and ranger, butt welded with flanges at valves and equipment. F. Piping Accessories 1. Unions shall be 150/ malleable iron unions, iron to iron sects, ground joints. 2. Companion flanges in lieu of unions shall be used in steel pipe, 2 -1/2' pipe size and larger. 3. Strainers shall hove non - collapsible screens. a. Thru 2' pipe size strainer shalt hove screwed 150/ bronze or 125/ cast iron body, basket type. b. 2 -1/2' and larger pipe size strainer shall have flanged 124 cast iron body, basket type with dual baskets and 3 -way coca. 4. Bolts shall be carbon steel with unfinished American Standard square heads, ASTM 307, Grode A. 5. Nuts, carbon steel, semi- finished, heavy series, hexagonal heads, ASTM A194, Class 0. G. Valves 1. Gate valves, 2' pipe size and smaller, 154 bronze body and trim, rising stem, inside screw, screwed or union bonnet, solid wedge, and screwed ends. a. Crane 431 b. Jenkins 651A c. Walworth 11 2. Gate valves, 2 -1/2' pipe size and larger, 125/ cast iron body, bronze trim, outside screw and yoke, and flanged ends. a. Crone 465 -1/2 b. Jenkins 651A c. Walworth 726F 3. Check valves swing type, 2' pipe size and smaller, 2001 bronze body, bronze disc, screwed cap and screwed ends. a. Crane 36 b. Jenkins 762 -A c. Lu nkenheimer 554 d. Power 560Y 4. Ball valves 2' pipe size and smaller shall be 125/ bronze body, reinforced Teflon seats and stainless steel ball and blow out proof extended stem. e. NIBCO T -560 b. Crane 930 c. Worchester d. Apollo 91 seals and 316 H. Flexible Connections 1. flexible connections 2' and smaller shall have a 150# flexible stainless steel interior and stainless steel exterior braid with threaded ends. 2. Flexible connections 2 -1/2' shall have a 150/ flexible stainless steel interior and stainless steel exterior braid with flanges both ends. One flange shall be fixed and one shall be lap type. a. Metraflex SL b. American BOA B4 -1 up to 4' c. Anaconda BWA 21 -1 -C d. F iexonics 40114 e. Hyspan 4500 I. Vent Cap 1. 2' vent caps shall be combination pressure /vacuum vent with gasketed gage hatch. Pressure settings shall be 1/2 oz. vacuum, 2 oz. positive. Vent cap shall be constructed of cast iron with aluminum cage hatch cap, teflon seats, anodized aluminum discs, and stoi.tless steel stem. Size shall be 2'. a. OPW 95UT -70 b. Engineer Approve: Equal J. Emergency Vent Cops 1. Emergency vent cars on outdoor fuel oil storage tank shall be spring loaded to open at 2.5 psi maximum. Sealing surface shall be triton coated to prevent sticking. Vent cap shall be constructed of aluminum with a stainless steel spring. Vent shall be fitted with screen. Size shall be 6' a. OPW 202S -0665 b. Engineer Approved Equal K. Cam and Groove Coupling 1. Coupling adaptor at tank fill line shall be standard male end, constructed of carbon steel, with female threaded end. Size shall be 2' An adaptor cap shall be supplied. a. OPW 633 -A, 634 -8 b. Emco - Wheaton Part A, Port DC L Fuel Level Gauge 1. Level gauge on outdoor fuel oil storage tank shall be magnetic direct reading type. Gauge shall be calibrated in proportion to tank depth. Gauge shall be tube type with a 1 1/2' NPT mounting connection and vertical dial orientation. Tank depth of 60' must be specified at order. Graduations shall be from E (empty) to F (full) in quarter - tank increments. a. Hersey Measurement Co. MDR -114 M. Insulation 1. Furnish and install insulation as specified on clean, dry surfaces after testing, inspection and approval in strict accordance with manufacturers printed instructions. Insulation shall be of the type specified and as manufactured by one of the following, or an engineer approved substitue: C. Owens- Corning b. Pittsburgh-Corning c. Certain -Teed d. Schuller Industries (John - Manville) e. PPG Industries f. Knauf 2. Fuel oil piping exterior to the building shall be insulated with 1' thick foam glass insulation. 3. Exhaust piping and silencer shall be insulated with 2' of 11W. N. Aluminum Insulation Jacketing and Fittings 1. All insulation shall be jacketed with aluminum, soft annealed temper with smooth 28 mil finish, 0.020 thick with 1 mil polyethylene film laminated to 40 lb virgin kraft paper. Jacket shall be secured `capped' to carrier pipe to prevent exposure of insulation ends (when insulation is terminated). (Do not Paint). 2. Manufacturer: a. Childers Products Company b. Pabco C. RPR NO REVISIC N S: CITY OF 1 UKWI A JUN 1 1 2001 PERMIT t;fr„NTEFR • DATE . DESCR ?T'ON • / 16/C1 A' t' 4 dPMt A't3 PEW'S S /'4 /01 "F:SUED FOR XIISTRUCTIOM 1 _1 a , i _ss111111.■ Affht I ■Nie■ LOCAL SERVICES One Teleport Drive, Staten Island NY 10311 CITY: ` I TUKWIA, WA. 4 CITY CONTACT: I JIM WICKES TELEPHONE #: 907 -264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC DETAILS & SPECIFICATIONS CONSTRUCTION MANAGER nl �... , o , izL.n ,,E . , , ENGINEERS = BUILDERS TELEPHONE # 847.698 4900 J ARCHITECT/ ENGINEER: a THE AUSTIN COMPANY INOSIILTINTS • 11811111181 • MENEM • COIIsT1YCTNf I I DRAWN BY • WBB SCALE: AS SHOWN I DATE: 12/28/2000 J 1 SHEET: ' 14 OF 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 - 620 FILE: M: \ \HVAC \620HVO8.DWG 2.1 PPE 111SLAAIOls - atit.Rok. A Furnish and rata all therrara insubtion ors speared Meek on aeon dry surfaces after testing inspects and o:9 e strict aocaroasce . n these specie ono manufacturer's printed irnstrus'�orrs es.o3bon sna tae of the type specf,ee and as -ronutorswee oy one of the tariownin or an A_<: approved substisee 1. e-s- r n 2. Fittst .v r - Coining 3 Certc - -leer 4- Scher inoustnes nronn- Monvsile) 5 PPG rms.-stria 6. Knorr. B. insulation, Cover ng, Tope and Achesive shall meet the NEPA ran - combustible requirements of home spreca not tc exceec 25, and srnoke developed not to exceed 50 as rated by Underwriters Laboratories for Pipe one Equipment Coverings 125583 U8.'5. C. Piping insulation: 1. Faergiass Piping tsuotion: A i C 547, Clem 1 unless otherwise indicc :ea- Shot oe :,envy density pipe insulation, ocketed viny coated and embossed vapor borne' laminotec w:tr pressure sealing lap odhesive ASnl covering. Thickness of insulation shon be as fofio.s: Piping Sae r & Smaller 2 -1/2' & Larger Domestic Weer (make -up) 1/2' - 1 -1/2' 2' - 4' - 6' 18 ga. 16 go. 16 ga 1' 1' 2 :aping Shields Shot be galvanized metal (stainless stets r. Kitchen 1183, Wash Room /182 ono Equ.pmer: Storcwc i'8<1 covering the lower half of `he insulation and the contractor snail adhere to the follownis schedule (also see pipe hangers): Pipe cr Tubing Size Thickness Length 12' 12' 18' 3. Fittings, flanges oc d .dive= she be insulated with preformed insulation wits PVC 'remolded one piece fitting cover, Circuit setters shall be supplied /installed with factory insulation enclosures 4. All piping insulation shall extend continuously througn soils with joints 12' or greater from face of won E- Staples Bends, Wires, and Cement: As recommended by insulation manufacturer for applications indicatec. F. Adhesives, Sealers, and Protectr:e Finishes: As recommended by insulation manufacturer for applications indicated. 2.2 Natural Gas (Unger 1 PSI) A. Pipe shall be Schedule 40 ASTM A106 or A5.3 Grade B B. Fittings shag be 1. 125 lbs. cast iron conforming to ANSI B16.4. :2. Butt welding fittings, matching pipe wall thickness conforming to ANSI 816.9 and ASTM A234 WPB. 3. Elbows shall be long radius type, 1 -1/2 times pipe diameter. 4. Branch connections may be mode with 'weld -o -lets conforming to ANSI B16.9 or 'thread -o -lets' conforming to ANSI B16.11 as manufactured by the following or Austin approved substitute: a. Bonney Forge Co. b. Wheeling c. Phoenix Forging d. Allied C. Assembly shall be as follows: 1. Thru 2' pipe size, screwed with unions or flanges at valves and equipment. 2. 2 -1/2' pipe size and larger, welcer' with flanges at valves and equipment. D. Flanges shall have drilled bolt holes, spot faced for bolts. 1. Thru 2' pipe size, 125/ cast iron flat face screwed ANSI 816.1. 2. 2 -1/2' pipe size and larger, connecting to 125# cast iron flanges, shall be 1501 forged steel, weld neck, ANSI 816.5, ASTM A181 -2 with raised face removed. 3. 2 -1/2' pipe size and larger, 154 forged steel, weld neck ANSI 816.5, ASTM A181 -2. 4. Gaskets shall be 1/16' thick Buna N or Viton. a. John Crone E. Unions up to 2' shall be 150/ malleable iron unions, female pattern, bronze to iron seats and ground joints. Unions for connecting steel pipe to copper pipe shall be dielectric type. 1. Bonney Forge 2. Stockham 3. Dart Unior 4. Laddish F. Companion flanges shall be used in pipe 2 -1/2' and larger. 1. Bolts shall be carbon steer with unfinished American Standard square heads, ASTM 307, Grade A. 2. Nuts shall be carbon steel, semi - finished, heavy series hexagonal heads, ASTM A194, Class 0. G. Valves shall be us follows: 1. Check valves 2' pipe size and smaller shall be swing type, 125/ bronze body, bronze disc, screwed cap and screwed ends. a. Crane No. 37 b. Jenkins Fig. 92 -A c. Walwortn W406 2. Check valves 2 -1/2' pipe size and larger shall be swing type, 125/ iron body, bronze disc, bolted cap and flanged ends. a. Crane 373 b. Jenkins 624 c. Walworth 929F .3. Gauge cocks: 1/4' pipe size, 500/ bronze body, teflon seat, Buna -N seal, nickel plated brass boll, screwed ends and lever handle. a. Apollo 7G -100 b. Specialty Mfg. /O25 -FF -BT C. Crane 940 -3 4. Boll valves, r diameter and smaller, shall be 400 WOG bronze body, teflon seats and seals, 316 stainless steel blowout -proof extended stem, and 316 stainless steel ball. Ball valves larger than 2' shall not be used a. Nibco T560 b. Crane 940 -S c. Worchester Wovco Series 48 d. Apollo Series H. Strainers 1. Strainers shall he non- collapsible stainless steel, brass or monel mesh. a. Thru 2' pipe size, strainer shall have screwed, 150/ bronze body, Y pattern with screen openings. Bross 1) Mueller Steam Specialty 351 2) Spirax /Sorco BT 3) Hoffman 420 4) 0.C. Keckly F -150 2 -7 NW S A. Citing Spe c ities acre accessories shag be prcerded as kited below 8. Pipe Sleeves- silos oe provided far pipes passing tiro wets, floors and ' 1s as feted bake 1. mere *,arostabc pr .sure is ears led. .cse cast iron .v pipe- Space Delete' pipe ones steewe et ale mixed water tight .:t- lend and miner or *ea .oce 2- Skeins shot be go van izec stem pipe. standard weignl 3. Sleeve damete still aloe for exparesiOn of pipe Woes, however. size snot be united to reosorto clearance 4. Length of sfeeves shalt allow sleeve to project 2 inches above floors ona be husr wit" finished surfoce of nets a a ce1ngs. 5. Ir fire was and fire floors and wnere noted on drawings, space between sleeve and pipe wi:: be pocked wit' fiberglass insulation and sealed on bon- sides of we with fireproof caulking at the thickness requrec to meet the we:. •ate as shown on :re architectural floor pions 6. In other than fire waits and fire floors, space between sleeve and pipe snail be caulked for ocoustics. 7. Insulation shall extend through wa ,.s. C. Escutcheon Plates: Escutcneon plates shall be provided on pipes passing through Wass, floors and ceilings in finished rooms ono areas. Escutcheon ',kites shall be chrome plated brass or pressed steel w to concealed hinges and springs to hold positron on pipes. D. Gaskets and Pockings: shall be the products of the following: 1. Manufacturers c. Aare Manufacturing and Gasket Company b. Anchor Pocking Company C. John Crone Company C. Johns- Manville 2. Type snail oe as recommended by manufacturer for service. 3. Full face gasket will be uses witr fiat face flanges. 4. Ring type gasxets will be used with raised face flanges. 5. Gaskets snail contain no asbestos. F. Dielectric Unions: Provide dielectric unions with appropriate end connections for pipe materials in wnich installer (screwec, soldered, or flanged), which effectively isolate dissimilar metals, prevent galvanic action, and stop corrosion 1. Manufacturers of Dielectric Unions: C. Eclipse, Inc. b. Perfection Corp. c. Watts Regulator Co. 2.8 MECHANICAL IDENTIFICATION MATERIALS A. Except as other wise indicated, provide manufacturer's standard products of the categories and types required for each application. B. Above Ground Pipe Markers: 1. Provide manufacturer's standard pre - printed, flexible, permanent, color - coded, vinyl cloth or film markers, complying with ANSI A13.1. 2. All pipe markers shall be self - sticking vinyl cloth pipe markers similar :o W.H. Brady Company Model B -500 for inside service or pressure sensitive weatherproof film markers similar to WA. Brady Company 9 -946 for outside service or approved substitute. a. For external pipe diameters less than 3' (including insulation, if any), provide full -band or strip type pipe markers, extending 360 degrees around pipe at etch location, lettering shall be at least 3/4 high, fastened by the following method. 1) Taped to pipe (or insulation) with matching color -coded vinyl cloth or film adhesive tape, not less than 3/4' wide; full circle at both ends of pipe marker, tape lapped 1 - 1/2'. b. For external pipe diameters of 3' and larger (including insulation, if any), provide either full -band or strip -type pipe markers, but not narrower than 2' letter height (and of required length), fastened by the following method: 1) Taped to pipe (or insulation) with color -coded vinyl cloth or film tape, not less than 1 -1/2' wide; 'ull circle of both ends of pipe marker, tape lapped 3'. c. Lettering snail be manufacturer's standard pre - printed working which best describes piping system as follows, but not limited to: Label System Color 1) Natural Gas GAS GW 2) '62 Chilled Water Return' 62'F CHWR GW C. Plastic Tape: Manufacturer's standard color -coded self - adhesive cloth vinyl on film tape, not less than 3 mils thick. 1. Provide 3/4' wide tope markers on pipes with outside diameters (including insulation, if any) of less than 3' and 1 -1/2' wide tape or larger pipes. 2. Colors shall comply with ANSI A13.1, except where another color selection is indicated. D. Arrows: Provide manufacturer's standard cloth vinyl or film arrows of same height as marker lettering at each pipe marker. Install arrows same as markers. Provide single or double head arrows as required for each flow condition. E. General instoilation Requirements: Where identification is to be applied to surfaces which require insulation, painting or other covering or finish, install identification after completion of covering and painting. Install identification prior to installation of acoustical ceilings and similar removable concealment. F. Piping System Identification 1. Install pipe markers of the following type on each system indicated to receive identification, and include arrows to show normal direction of flow: a. Vinyl cloth or film pipe markers and arrows, with application system as indicated under 'Materials' in this section. 2. Locate pipe markers and color bands as follows wherever piping is exposed to view in occupied spaces, machine rooms, accessible maintenance spaces (shafts, tunnels, plenums) and exterior non - concealed locations: a. Near each valve and control device b. Near each brand,, including short take -offs for fixtures and terminal units; mark each pipe at branch, and wnere there could be a question of flow pattern. c. Near locations where pipes pass through walls floors, ceilings, or enter non - accessible enclosures. d. At access doors, manholes and similar access points which permit a view of concealed piping. e. Near major equipment items and other points of origination and termination. f. On piping above removable acoustical ceilings. 9. Spaced intermediately at maximum spacing of 50' along each piping run, except reduce spacing in congested areas of piping and equipment. 2.10 PIPE HANGERS A. Clevis Hangers: Pipe hangers shall be of the adjustable clevis hanger type as manufactured by the following or an Austin approved substitute: 1. Grinnell Fig. 260 o. The following systems shall use the clevis type hanger as described:f 1) Natural Gas 2) City Water B. Shields: Shields shall be provided for all insulated piping. .033 1. Provide a ribbed shield for clevis '.ype hangers to keep hanger centered on shield. Protection against insulation damage shall be provided with this type of shield as shown on drawings. Snield shall be as manufactured by the following or on Austin approved substitute: in Grinnell Fig. 168 2.1 Fuel 011 Piping and Accessories A PQe 1. Pipe snag be schedule 40. AST A53 Grade B. B. Fittings 1 150j TABeaoie iron fittings. in oacadonce wits 4 81161 2- Butt wecxng fittings. mocline pipe sat: Urckness. NISI 16.9. ASTM A234 VFW M elbows watt be tong radius_ 3. Bann connections may be mode witr 'Vied 0 -Lets' or 'Thread -Lets' os manufactured by Bonney rorge Carnpanny or substitute C. Flanges 'hob have cried bolt holes. spot faced for bolts, and faces to match companion flanges on valves and equipment. 1. Thru 2' pipe size, 125/ cast iron. screwed ANSI 816.5. 2. 2 -1/2' pipe size and larger, 150j forged steel, veto neck ANSI 816.5, AST1i1 A181 R -1. D. Gaskets shall be 1/16' thick compressed asbestos free fiber. 1. John Crone 444 2. Goriock 3000 If. Assem 1. Thr u 2' pipe size, screwed with unions or flanges at valves and equipment. 2. 2 -1 /r and ranger, butt welded with flanges at valves and equipment. F. Piping Accessories 1. Unions shall be 150/ malleable iron unions, iron to iron sects, ground joints. 2. Companion flanges in lieu of unions shall be used in steel pipe, 2 -1/2' pipe size and larger. 3. Strainers shall hove non - collapsible screens. a. Thru 2' pipe size strainer shalt hove screwed 150/ bronze or 125/ cast iron body, basket type. b. 2 -1/2' and larger pipe size strainer shall have flanged 124 cast iron body, basket type with dual baskets and 3 -way coca. 4. Bolts shall be carbon steel with unfinished American Standard square heads, ASTM 307, Grode A. 5. Nuts, carbon steel, semi- finished, heavy series, hexagonal heads, ASTM A194, Class 0. G. Valves 1. Gate valves, 2' pipe size and smaller, 154 bronze body and trim, rising stem, inside screw, screwed or union bonnet, solid wedge, and screwed ends. a. Crane 431 b. Jenkins 651A c. Walworth 11 2. Gate valves, 2 -1/2' pipe size and larger, 125/ cast iron body, bronze trim, outside screw and yoke, and flanged ends. a. Crone 465 -1/2 b. Jenkins 651A c. Walworth 726F 3. Check valves swing type, 2' pipe size and smaller, 2001 bronze body, bronze disc, screwed cap and screwed ends. a. Crane 36 b. Jenkins 762 -A c. Lu nkenheimer 554 d. Power 560Y 4. Ball valves 2' pipe size and smaller shall be 125/ bronze body, reinforced Teflon seats and stainless steel ball and blow out proof extended stem. e. NIBCO T -560 b. Crane 930 c. Worchester d. Apollo 91 seals and 316 H. Flexible Connections 1. flexible connections 2' and smaller shall have a 150# flexible stainless steel interior and stainless steel exterior braid with threaded ends. 2. Flexible connections 2 -1/2' shall have a 150/ flexible stainless steel interior and stainless steel exterior braid with flanges both ends. One flange shall be fixed and one shall be lap type. a. Metraflex SL b. American BOA B4 -1 up to 4' c. Anaconda BWA 21 -1 -C d. F iexonics 40114 e. Hyspan 4500 I. Vent Cap 1. 2' vent caps shall be combination pressure /vacuum vent with gasketed gage hatch. Pressure settings shall be 1/2 oz. vacuum, 2 oz. positive. Vent cap shall be constructed of cast iron with aluminum cage hatch cap, teflon seats, anodized aluminum discs, and stoi.tless steel stem. Size shall be 2'. a. OPW 95UT -70 b. Engineer Approve: Equal J. Emergency Vent Cops 1. Emergency vent cars on outdoor fuel oil storage tank shall be spring loaded to open at 2.5 psi maximum. Sealing surface shall be triton coated to prevent sticking. Vent cap shall be constructed of aluminum with a stainless steel spring. Vent shall be fitted with screen. Size shall be 6' a. OPW 202S -0665 b. Engineer Approved Equal K. Cam and Groove Coupling 1. Coupling adaptor at tank fill line shall be standard male end, constructed of carbon steel, with female threaded end. Size shall be 2' An adaptor cap shall be supplied. a. OPW 633 -A, 634 -8 b. Emco - Wheaton Part A, Port DC L Fuel Level Gauge 1. Level gauge on outdoor fuel oil storage tank shall be magnetic direct reading type. Gauge shall be calibrated in proportion to tank depth. Gauge shall be tube type with a 1 1/2' NPT mounting connection and vertical dial orientation. Tank depth of 60' must be specified at order. Graduations shall be from E (empty) to F (full) in quarter - tank increments. a. Hersey Measurement Co. MDR -114 M. Insulation 1. Furnish and install insulation as specified on clean, dry surfaces after testing, inspection and approval in strict accordance with manufacturers printed instructions. Insulation shall be of the type specified and as manufactured by one of the following, or an engineer approved substitue: C. Owens- Corning b. Pittsburgh-Corning c. Certain -Teed d. Schuller Industries (John - Manville) e. PPG Industries f. Knauf 2. Fuel oil piping exterior to the building shall be insulated with 1' thick foam glass insulation. 3. Exhaust piping and silencer shall be insulated with 2' of 11W. N. Aluminum Insulation Jacketing and Fittings 1. All insulation shall be jacketed with aluminum, soft annealed temper with smooth 28 mil finish, 0.020 thick with 1 mil polyethylene film laminated to 40 lb virgin kraft paper. Jacket shall be secured `capped' to carrier pipe to prevent exposure of insulation ends (when insulation is terminated). (Do not Paint). 2. Manufacturer: a. Childers Products Company b. Pabco C. RPR NO REVISIC N S: CITY OF 1 UKWI A JUN 1 1 2001 PERMIT t;fr„NTEFR REVISIONS NO DATE 1 3ESCRI PTION A '/ 1 E /01. A:&' R VELA AND PERM'S B t ,4 /C SSUED FOR =INSTRUCTION TOTAL UNIT WEIGHT REMARKS TC0037C4AB COMPRESSOR CONDENS T_ .Ai TOTAL CFM (OUTSIDE CFM EXT. STAT. PR. HP RPM WHEEL D� (in.) WHEEL TYPE MAX. OUTLET VEL. LEC. CHAR. TYPE CLEAN S.P. LOSS L_ TOTAL MBri COOLING CAP. SENSIBLE At COOLING �. r AR 1 TYPE NOM TONS N O OF COMP. ELEC. CHAR. NO. Of FANS ELECTRICAL OA. SUMMER DESIGN 'F WINTER CFM OUTPUT MBH ELECTRICAL ENT. AIR •F I LNG. AIR 'F V I i PH : HZ i i i 1 FACE VEL. FACE AREA (so ft) E �ll p IN I.W.G. - HP V • HP Ilia... I I I Ank Innv ■■ LOCAL SER V'CL S I ,J R , , Op gel art Drive, p 1 e, Staten Island NY 10311 CITY: TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907 - 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC SECTIONS SCHEDULES AND SPECIFICATIONS CONSTRUCTION MANAGER &, if ./5 -flA // JI° 5 LL �' ` 4 ENGINEERS o BOIL EA' RS TELEPHONE # 847 698.490 --I i ARCHITECT/ ENGINEER: ACI THE AUSTIN COMPANY C U$UtTCIIT$ • BOOBS • ENS • CONSTRrCTSIIt 1.00 DRAWN BY: WBB SCALE: AS NOTED L D ATE: 12/18/00 FC I SHEET: 460 15 OF 39 2" TA RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 - 620 I FILE: M: \620 \HVAC \620HVn('�q(�� 1i l , I '�"fT1' 29400 ROOF TOP UNIT SCHEDULE MARK NO. FAN FILTERS COOLING COIL CONDENSING SECTION HEATING SECTION TOTAL UNIT WEIGHT REMARKS TC0037C4AB COMPRESSOR CONDENS T_ .Ai TOTAL CFM (OUTSIDE CFM EXT. STAT. PR. HP RPM WHEEL D� (in.) WHEEL TYPE MAX. OUTLET VEL. LEC. CHAR. TYPE CLEAN S.P. LOSS L_ TOTAL MBri COOLING CAP. SENSIBLE At COOLING �. REF. TYPE AR 1 TYPE NOM TONS N O OF COMP. ELEC. CHAR. NO. Of FANS ELECTRICAL OA. SUMMER DESIGN 'F WINTER CFM OUTPUT MBH ELECTRICAL ENT. AIR •F I LNG. AIR 'F V I i PH : HZ i i i 1 FACE VEL. FACE AREA (so ft) EAT. LAT. p IN I.W.G. - HP V • HP V 0 i 1 KW V I p DEE WB F OB•F WITF RTU -1 1200 340 1.00 1/3 1400 9 FC - 460 3 60 2" TA .12 45% 33600 29400 R -22 500 6.3 7- i .8 63.6 55.0 54.2 0.1 RECIP. 3 1 3.0 460 3 - 1 0.25 110 95 1200 35.0 17.4 460 1 3 59.1 85.0 575 1 RTU -2 ' 200 340 1 .00 1/.3l 1400 1 9 FC - 460 3 60 2" TA .12 45% 33600 29400 R -22 500 6.3 77.8 63.6 55.0 54.2 0.1 RECIP. 3 1 3.0 460 3 1 0.25 110 1 95 1200 35.0 17.4 460 1 3 59.1 85.0 5'5 TCD037C4A6 2. 1 ROOFTOP UNTS A_ General Description ur.:t shall be single fan unit of sectionalize° construction, with 01 sheet metal parts of carbon steel, rigiaiy brocee and bolted. Casing panels shall be easily removable for occess .` the interior. The fans shall meet the requirements of the nationai Board of Fire Inderwriters, local and state fire and health regulations. AIi equipment shall be primed and painted. Unit shot! be roof mounted. 8. Cosi. ; Casing shat be as follows Ali components shall be enclosed ;.. c heavy gouge galvanized, bonderized, and factory paintea weatherproof cabinet. Heavy gauge, weatherproof, ecsity removable access panels shall be provided for easy access to all components and connections. Evaporator casino occess panels and plenums for return air arc ,onditioned air shall be insulated with 1 inch fiberglass with vinyi facing. All access aoors one hinged pants shall hove positive watertigr.; seals. Provide neavy duty eye hooks or lugs for lifting during installation. Vibration absorption mounts, for each assembly, shall be of captured spring type. Efficiency shah not be less hen 65 %. Air supply discharge and return air inlets shall be on the bottom of the unit. Unit shall be bottom supported on structural base, suitable for mounting on a roof curb. Unit shall be provideo with weatherproof louver and bird screen for outside air intake, sized for up to 100% outside air. Baffles shall be providea to mix outside air and return air to reduce stratification and wind effect on unit. Drain pans under coil section shall be of not less than 12 gauge galvanized steel. Drain pan shall be insulated with a foam insulation with fire retardant mastic coating. All sections shall be insulated with 1-1/r x 1 I glass fiber insulation with a block flame- resistant coating. The insulation shall be affixed to the casino with waterproof adhesive and permanent fasteners. The insulation and adhesive shall meet the flame and smoke generation requirements of NFPA -90A. C. Fan Sections The fan sections shall come supplied with hinged and latched access doors, belts, drive pulleys, belt guards, and vibration isolators for floor mounting. Fan sections shall be constructed of galvanized steel and hove o formed channel base for mounting fan, motor and casing panels. Fan scroll and bearings shall be mounted on on 'A' or "H' frame rigidly secured to the channel base. Fan section shall have o large hinged door on fan casing of unit for repair of fon wheel, motor and drive. Far. shall be designed for continuous operation ct the maximum rated fan speed and motor horse power. Fans and shafts shall be selected to operate at least 25% below the first critical speed. Fan wheels and shafts shall be statically and dynamically balanced as sin assembly. After final assembly, the entire unit shall be given a final vibration test. Fans shall be double width, double inlet with multi blade centrifugal forward curved, backward inclined or air foil type as required by schedule. Fan wheels snail be either bonderized steel and pointed with baked -on enamel or unpainted mill galvanized steel. Fan sizes shall be selected for a minimum sound level and maximum efficiency. 0. Bearings Bearings shall be sealed, externally mounted, grease lubricated, self- aligning heavy duty ball bearings of flange mounted type with extended copper lubrication tubes and alemite fittings located on service side of fans. Tubes terminating outside the unit ore required. Bearings shoil be guaranteed to have a minimum L -10 rating of 200,000 hours of operating life. E. Drives V -belt drives shall be selected for a minimum 1.5 service factor based on motor horsepower and including factors for belt length, effective sheave aiameter and arc of contact correction. The arc of contact shall not be less than 160• at minimum effective si eave diameter. The drive shall be adequately enclosed with a wire mesh or sheet metal belt guard. The motor drives shall be double taper, adjustable diameter, wedge belt drive sheave, close to midpoint of adjustment at design conditions. Multiple belt drives shd be furnished if required to meet the horsepower requirements. F. Motor Furnish squirrel cage induction type, open dripproof, type B insulation motors. Motor nameplate shall not be less than the brake of operating conditions. Motor hall be sliding of the equipment and drive through the full range o the ape attng s b mounted on a s g type base with provisions for the adjustment of belt tension complete with jack screws, locking nuts and washers. Motor shall be factory mounted. Motor sizes as listed in these specifications are approximate valves. Provide motor sizes os required to meet performance requirements. G. Vibration Isolators Vibration absorption mounts for entire assembly shall be of captured spring type. Efficiency shall be not less than 80 %. H. Direct Exuansion Cooling Coils Capacity shall be as stated in schedule, with counterflow of air and refrigerant, cir velocity sufficiently low to prevent water carryover, end maximum air velocity as stated in schedule. Coils shall be a front to buck split and top to bottom split with four refrigerant circuits. Fin spacing shall be 8 fins per inch or less. Design and construction shall be as follows: a. Continuous serpentine tubes, with fins properly bonded to tubes, circuitea as required for reasonable pressure drop, and arranged for counterflow of air and refrigerant; to drain oil at all loads, with coils pitched in casings; refrigerant distributor shall produce uniform distribution when used with thermal expansion valve; fin tubes and headers shall floor in casings to allow free expansion and contraction. 1) Materials shall be as follows: a) Tubes: Drawn seamless copper 4) Fins: Aluminum c) Headers: Copper pipe d) Casings: 16 gouge galvanized steel Coil casing shall be heavy gouge steel with insulation and coil supports to allow tree expansion and contraction of the tubes and headers in the casing. An insulated galvanized condensate drnin pan shall span the coil sections end be piped to the exterior of the unit. Drain pan shall be constructed of not less than 12 gauge galvanized steel and insulated`, w.th a foam insulation with fire retardant masti. coating. L Air Cooled Condensing Section Compressors shall be fully hermetic reciprocating or scroll type and shall have an automatically reversible oil pump and an operating oil charge. Compressors shall be equipped with suction and discharge shutoff valves and be mounted on spring vibration isolators. There shall be two compressors. Each compressor shall hove single suction and discharge fines and the refrigerant flow is split between its condenser coils and its evaporator coils during full and reduced capacity operation. The two compressors' retrigeration circuits shall oe independent of each other, therefore allowing one compressor to run if the other should fail. Motor shall be cooled by suction gas passing around the winaings and shall have over temperature protection. Manual restart of unit shall be required after motor stoppage due to therms; overload or insufficient oil pressure. Compressor shall be equipped with a crankcase heater to minimize oil dilution during shutdown periods. A contactor and a calibrated, manual - reset, ambient - insensitive overload protector shall be factory installed for the compressor motor. Condensing unit shall be provided with hail guards. Unit shall be factory tested and given complete factory operating control sequence test under full load conditions. All factory wiring and components shall be contained within the unit enclosure. Unit shall be capable of operating within + 10% of nominal line voltage. Condenser fans shall be vertical discharge. Unit shall be mounted on rubber vibration isolators. Unit shah bear the UL label. Condensing section shall be furnished with a unit mounted non -fusec disconnect switch. Unit shall be provided with all motor starters. J. Compressors Compressors shall be suction gas cooled, field serviceable hermetic reciprocating or scroll compressors equipped with service valves. Unit shall be equipped with unloader system to allow each compressor 3 steps of capacity control and hot gas bypass for further r ' refrigerant nt s circulation required for al r eturn and motor Im The control and maintain g a ga u as oto cooling. T e compressors shall be equipped with an oil pressure switch, adjustable nigh and low pressure cut -outs, and pump -down or pump -out control. Compressors shall be mounted on vibration isolators and enclosed in condensing section housing to minimize transmission of sound and vibration. Crank case heaters with remote panel light for failure warning shall be provided. Compressor motor shall be serviceable hermetic with compressor speed not over 3600 RPM. K. Condensers Air cooled condenser section: Condenser coils shall be copper tube, aluminum finned coils, sized for full heat rejection of compressors at 105E outdoor temperature; shall be air- cooled, aluminum fin secondary surface mechanically bonded to primary surface of 3/8' 0.D. seamless copper tubing, factory- tested at 450 PSIG., vacuum dehydrated. The condenser shall hove weatherproof, vertical discharge, direct -drive fans, statically and dynamically balanced, with galvanized steel or aluminum blades and zinc plated steel hubs, motor with permanently lubricated ball bearings, built -in current and thermal overload protection suitable for outdoor operation. At either full load or part load, units shall operate to 55T outdoor temperature by cycling condenser fan. L Refrigerant Piping Refrigerant piping valves and specialties in the compressor condenser section shall be provided as necessary for complete and operational system. The refrigerant circuit shall include a moisture indicator, sight glass and liquid line filter- drier. Refrigerant piping system shall be factory piped, dehydrated and charged with full operating charge of refrigerant. Refrigerant suction lines shall be insulated. M. Condensing Unit Controls Shall be factory wired and include a positive acting timer to prevent short cycling of compressor and to delay restart of compressor after shutdown. The unit control box shall include high and low pressure stets, field power and control circuit teeninal blocks, circuit breakers, motor contactors and relays. Unit shall be furnished with a control power transformer. Subseque•., to the shut down of the last stage of refrigeration, the compressor shall pump down the suction line. Unit manufacturer shall rumish a complete wiring diagram for all power and control wiring to the condensing units, including wiring of auxiliary equipme•.r. N. Filter Section Filter shall be throwaway fiberglass type, and have 2 inch thickness. With rigid frame and support across entering and leaving faces of media. Face velocity shall not exceed 335 fpm. One initial and one refill set of filters shall be supplied. Filter supports shall have fencing frames with felt air seals and filter locking devices, support angles, brackets, and other items necessary to support filters. Filter requirements shall be U.L. Class II. Average resistance shall be 82%. Clean resistance shall be 0.12" w.g. at 300 fpm using A.F.I. static test methods. 0. Mixing Section 0 to 100% outside air economizer control shall consist of outside air, return air, exhaust air dampers, adjustable potentiometer, damper motors, and an adjustable ambient temperature mounted in outside air stream. The potentiometer shall be unit mounted and control minimum outside air damper position for fresh air requirements. An enthalpy control shall be provided to sense the dry bulb temperature and relative humidity of the outside air for use in cooling. P. Outside air and return air mixing dampers shall be as follows: Blades of 16 gauge, galvanized steel, multiple louver type with interlocking edges and center crimps not over 8 inches wide or 48 inches between bearings. Edges of blades shall have rubber liners permanently cemented and stapled on Frames shall be welded steel with side and end stops. Bearings shall be bronze self- oiling type or nylon. Hardware for dampers shall be mounted to prevent binding. 0A dampers and relief dampers shall be low leakage type, less than 2 1/2 %. The damper motor shall be modulating spring return type O. Roof Curbs General: Provide roof curbs capable of supporting superimposed live and dead loads, including equipment loads and other construction to be supported on roof curbs. Coordinate dimensions with rough -in information or Shop Drawings of equipment to be supported. R. Electric Heating The electric resistonce heater shall be open, coil heater elements A -Grade resistance wire (80% nickel, 20% chromium). Heaters shah be rated to a maximum of 35 watts per square inch of w ire surface. All wire terminals and nuts shall be of stainless steel. Insulators shall be ceramic mounting frames of heavy gouge galvanized steel. Compliance heaters shall be UL fisted for duct installation and meet the applicable requirements of the National Electrical Code (NEC). Controls shall be factory installed and prewired in the heater terminal box. Heater shall be a multi-step with de- energizing magnetic contactors per step, fusing per NEC and 24 volt transformer. Controlled by a remote step controller and modulating duct thermostat `,including disconnecting magnetic contoctors, interlocking disconnect switch and remote contro' panel. Power and control blocks shall be clearly marked. Each heater shall have a wiring diarren that identifies contractor supplier control and power wire sizes required per NEC. Heater shall be supplied with a built -in automatic reset thermal cutout for primary safety protection, manually replaceable thermal cutouts for secondary safety protection and a differential pressure air flow switch. All safety devices serviceable through the thermal box without necessitating removal of the heater. 2.2 EXTRA MATERIALS A. Furnish extra materials described below that match products installed, are packaged with protective covering for storage, and are identified with labels dearly describing contents. 1. Rooftop Unit Filters: Furnish two spore filter for each filter installed. 3.1 INSTALUT1ON A. Install RTU as indicated, to comply with manufacturer's written instructions and NFPA 90A. 8. Connect RTU and components to wiring systems and to ground as indicated and instructed by manufacturer. Tighten connectors and terminals, including screws and bolts, according to equipment manufacturer's published torque - tightening values for equipment connectors. Where manufacturer's torquing requirements are not indicated, tighten connectors and terminals according to tightening requirements specified in UL 486A. 3.2 FIELD QUALITY CONTROL A. Testing: After installing RTU and after electrical circuitry has been energized, demonstrate product capability and compliance with requirements. 8. Remove and replace malfunctioning units with new units, and retest. 3.3 CLEANING A. Replace filters in RTU. 3.4 COMMISSIONING A. Startup Services: Engage a factory- authorized service representative to provide startup service. B. Operate fan motor to verify proper rotation. C. Operate electric heating elements through each stage to verify proper operation and electrical connections. D. Test and adjust controls and safeties. Replace damaged or malfunctioning controls and equipment. '0% ' a C 1 io 'LW file,fr PERMIT CENTER REVISIO NO. DATE DESCRIPTION A JISJD1 AMT AND PEWS 0 • 5/14101 ISSUED IOU COISINUC701 C Peel NMI 02 ITS 0 . _5/12/DI 5/14/02 REre9oNS PER ANi<I. MD CCI Df i3 ter► ow An LOCAL SERVICES One Teleport Drive, Staten Island, NY 1 10311 CITY: TUKWILA, Wk CITY CONTACT: JIM WICKES 'TELEPHONE #: - - 907- 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUICWILA, WASHINGTON FLOOR: FIRST NODE TYPE: i DRAWING TITLE: HVAC SECTIONS AND DETAILS CONSTRUCTION MANAGER J L zl®NA z iiii:37 ENGINEER. a NUIL TELEPHONE 1 847.696.4900 ARCHITECT/ ENGINEER: THE AUSTIN • IL _ COMPANY EM• _ • DRAWN SY: wee SCALE: AS NOTED . DATE: 1V18/00 SHEET: i V 0 OF 39 RBI PROJECT 0 2623.38 AUSTIN PROJECT I 00-820 FILE: M :18201HVAC162oHV10.bwO a , • • :`.p A 51 I t M` x • • t. • UL DESIGN SYSTEM No. C-A -1162 (F RATING • 2 HR MAX.) 1 BOOR ASSEMBLY - WIN 4 1/2 IN. THBCK STEEL REH ORCfD LUGIR1MIDGHT OR NORM. VIDGo4T (100 -150 PCF) STRUCTURAL CONCRETE. 2 THROUGH PDETRAIfS - PPE, CONDUIT OR TUNIC 10 E RIGIDLY SIWPORTEDON BOTH WES OF FLOOR OR MALL ASSET .Y. A WX OF ONE PIPE, 001EUOT OR TUBING TO BE INSTALLED IMITlN THE COOING. THE AMOUR SPACE SHALL BE A WI 1 W. TO MAX 2 -7/8 It PPE • CONDUT OR IUBWG TOE RICaLY SUPPORTED ON BOTH SEES Cr FLDOR OR IL4i ASSEMBLY. 3 F>RESTOP SYSTEM - THE FiRESiw MEW SHALL CONSIST OF THE FOLLOMIMU ,A PACK14G mATERNL - ioN 3 1/2' N. T1€1OESS OF IAN 3.0 PCF MINERAL WOOL BATT INSULATION FIRMLY PACKED INTO OPENING AS A PERMANENT FORM. PACKING WTERIAL TO BE RECD FROM ?OP SURFACE OF FUROR OR FROM BOTH SURFACES OF WALL A REQUIRED TO PCDOVIOOATE THE REQUIRED THICKNESS OF FLL MATERIAL. B. FU. VW OR CAVITY NATURAL' - CAULK- MN 1 IN. DIMNESS OF FILL 1iAIERIAL APPLIED WYINN TIC AW4U1US, FLUSH 11‘711 TOP SURFACE OF FLOOR OR BOTH SURFACES OF IUIl BEARING THE UL CLASSIFICATION HARKING. HV 10 NO SCALE FiAs OPENING IN ROOF DECK UNIT MOUNTED � �T THERMOSTAT r l FLEX +-I o H I H I I-, STRAINER UN ON (?YP•) O DRIP LEG TYPICAL- GAS UNIT HEATER DETAIL I-N -1 NOT TO SCALE WOOD FRAMING TO WITCH OF OPEENING UNDERSIDE SIDES OF DECK JOIST OR BEAU r ROOF OPENING SECTION HV -1 0V -10 NO SCALE UNIT HEATER REZNOR MODEL - B 300 UNIT HEATER FRAMING TO MATCH EXISTING JOIST, FRAME ALL SIDES OF OPENING AT UNDERSIDE OF DECK UNISTR Whyyi 2_90_F-INer EAR - 800 CFM SET AT BOJ -- VD PIPE HANGER WHERE LINES ARE PARALLEL TO JOISTS OR BEAMS DETAIL VD EAR - 1 800 Cal SET 6" AFF JOIST OR B NI NO SCALE EF -4 / 5 DT 14 x 14 6 x 14 PROVIDE STEEL SHIELD FOR INSULATED PIPE U-BOLT PIPE HANGER WHERE LINES CROSS JOISTS OR BEAMS DETAIL PROVIDE 380' STEEL SHIELD FOR INSULATED PIPE ADJUSTABLE PIPE STAND DRILLED CONC. ANCHORS TYPICAL PIPE SUPPORT DETAILS NO SCALE NO SCALE HANGER ROD ANGLE w " PROVIDE STEEL SHIELD FOR INSULATED PIPE • RECEIVED CITY OF TUKWILA SEP - 4 2002 onrhave3 PERMIT CENTER REVISIONS NC DATE riESCRIPTION A •/1631 A" &" ?f AND oc *c B 5/" 4/01 ISSUED FCR UONS:RJCT ION HARD ROCK 1 400 5/8" 3/8" 3/8" 3/8" C4x5.4 L 3 1/2"x 2 1/2"x 3/8 "x 0' -3" LLH 1/2" 2x2x16GA 2 550 3/4" 3/8" 1/2" 3/8" C4x5.4 L 3 1/2 "x 2 1/2 "x 3/8 "x 0' -3" LLH 5/8" CLEVIS TYPE 3 900 2 -1/2" 2 -3/8" 1/2" 3/8" C5x6.7 2 —L 4 "x 3 "x 5/16 "x 0' -4" LLH 3/4" 25" 4 1300 2 -5/8" 2 -5/8" 1/2" 1/2" C6x8.5 2 —L 5 "x 3 "x 3/8 "x O' -4" LLH 3/4" 1/2 x16GA r• 1800 2 -3/4" 2 -5/8" IIMI■ r � C8x 1 1.5 ........ , Airrs LOCAL SERVICES One r fe1e P art Drive, St a Len Island, NY 10311 CITY: TJKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907 -264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC SEISMIC BRACING DETAILS CONSTRUCTION //�� MAN // A �� G 77 E // R m7/ ZA =.10 143 i ` - i _g /_ ENGINEERS B LL E e r . H- [ TELEPHONE # 847 698 4900 7 ARCHITECT/ a �NM5ITMMTE ENGINEER - THE AUSTIN COMPANY • MOMS • B161111111S • CYMSTIIKTNS 4 -5/8" L DRAWN BY: WBB I SCALE: AS SHOWN I DATE: 01/18/01 I SHEET: 7/8" 6 OF 39 17 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 FILE: IM: \620 \ HVAC \620HVa,1. crTYuy SCHEDULE #2 TYPICAL CONNECTIONS TO STRUCTURAL SUPPORTING MEMBERS [. LOAD CAPACITY TYPE . IN TENSION \ OO:INDS) I ANCHORS CONCRETETO CONC. CAST —IN PLACE INSERT I MACHINE I BOLT AT STEEL BEAM CLAMP t SPREADER SIZE ANGLE TO SUPPORTING STRUCTURAL MEMBER ROD SIZE VERTICAL ANGLE k.:... LT. WT. HARD ROCK 1 400 5/8" 3/8" 3/8" 3/8" C4x5.4 L 3 1/2"x 2 1/2"x 3/8 "x 0' -3" LLH 1/2" 2x2x16GA 2 550 3/4" 3/8" 1/2" 3/8" C4x5.4 L 3 1/2 "x 2 1/2 "x 3/8 "x 0' -3" LLH 5/8" CLEVIS TYPE 3 900 2 -1/2" 2 -3/8" 1/2" 3/8" C5x6.7 2 —L 4 "x 3 "x 5/16 "x 0' -4" LLH 3/4" 25" 4 1300 2 -5/8" 2 -5/8" 1/2" 1/2" C6x8.5 2 —L 5 "x 3 "x 3/8 "x O' -4" LLH 3/4" 1/2 x16GA r• 1800 2 -3/4" 2 -5/8" 5/8" 1/2" C8x 1 1.5 2 —L 5 72"x 3 1/2"x 1/2"x 0' -4" LLH 7/8" TYPE 5 6 2600 4 -5/8" 4-1/2" 2-1/2' 5/8" C9x13.4 2 —L 5 "x 3 "x 3/8 "x O' -10" LLH 7/8" 3/4" 7 3700 4 -3/4" 4 -5/8" 2-5/8" 5/8" C10x15.3 2 —L 5 1/2 "x 3 1/2 "x 1/2 "x 0' -11 1/2" LLH 7/8" 6 CLEVIS TYPE 1/2" 2 1/2 x2 1/2 x16GA 2 72 x2 1 /2 x16GA 2 1/2 x2 1/2 x16GA SCHEDULE #3 SEISMIC BRACING FOR PIPES ON TRAPEZE PIPE SIZE SCHEDULE # " SE1SMC BRACiNG FOR PIPES PIPE SIZE HANGER TYPE TOP CONNECTION OF DIAGONAL & LONGITUDINAL ANGLES 0 BOLTS TO ANGLE c VERTICAL ANGLE k.:... 2 DIAGOINA. ANG:. LOGITUDINAL. DIAGONAL ANGLE ® TOP CONNECT ION OF DIAGONAL & LONGi uDINAL ANGLE'S 0 ROD SIZE MAX. LENGTH FOR RODS 2 1/2 CLLEVIS TYPE 3 3/8' 2x2x16GA 3/8" 2x2x'6GA 2 1/2 x2 1/2 x16GA TYPE 2 1/2" 25" 3 540 CLEVIS TYPE 2x2x16GA 3/8" 2x2x16GA 1/2" 2x2xi6GA 2 1/2 x2 1/2 x16GA TYPE 2 1/2" 25" 3 1/2 CLEVS TYPE 31" 3/8" 2x2x 940 2x2x16GA 2 1/2 x2 1/2 x16GA TYPE 3 1/2" 25" 4 CLEVIS TYPE 3/8" 3/8' 2x2x16GA TYPE 5 2x2x16CA 2 1/2 x2 1/2 x16GA TYPE 4 5/8" 31" 5 3' -6" CLEVIS TYPE 3/4" 1/2" 2x2x16GA 2x2x16GA 2 1/2 x2 1/2 x16GA TYPE 4 5/8" 31" 6 CLEVIS TYPE 1/2" 2 1/2 x2 1/2 x16GA 2 72 x2 1 /2 x16GA 2 1/2 x2 1/2 x16GA TYPE 5 3/4" 37' 8 I CLEVS TYPE 5/8" 2 1/2 x2 1/2 x12GA 2 1/2 x2 :/2 x12GA 2 1/2 x2 1/2 x12GA TYPE 6 7/8" 43" 10 CLEVIS ''''rE 3/4" 1 2 1/2 x2 1/2 x12GA 3x3x12GA 3x3x12GA TYPE 7 7/8" 43" SCHEDULE #3 SEISMIC BRACING FOR PIPES ON TRAPEZE PIPE SIZE MAX. LOAD CAPACITY I TENSION POUNDS) BOLTS TO ANGLE Q VERTICAL DIAGONAL LONGITUDINAL ANGLE'S MAXIMUM TRAPEZE S PAN TOP CONNECTION OF DIAGONAL & LONGITUDINAL ANGLES 0 ROD SIZE MAX. LENGTH FOR RODS 2 1/2 320 3/8" 2x2x16GA 3' -4" TYPE 3 1/2" 25" 3 440 3/8" 2x2x16GA 3' -4" TYPE 4 1/2" 25" 3 1/2 540 3/8" 2x2x16GA 3' -4" TYPE 4 1/2" 31" 4 660 3/8" 2x2x16GA 4' -0" TYPE 5 5/8" 31" 5 940 3/8" 2x2x16GA 4' -0" TYPE 6 3/4" 37" 6 945 3/8" 2x2x16GA 3' -10" TYPE 5 3/4" 37" E 1 010 1/2" 2x2x16GA 3' -6" TYPE 5 3/4" 37" O SEE SCHEDULE #2. FOR TYPICAL. CONNECTION TO STRUCTURAL SUPPORTING MEMBERS 7 PLACE STANDARD CUT WASHERS BETWEEN SHEET METAL ANGLE'S AND NUT \'ER — lCAL ANGLE IN SCHEDULE IS REQUIRED IN ADDITION TO HANGER ROD ONLY WHEN MAXIMUM LENGTH IS EXCEEDED ® 3EE GENERAL NOTE 5 FOR LONGITUDINAL DIAGONAL BRACE REQUIREMENT. O SEE SCHEDULE #2, FOR TYPICAL CONNECTION TO STRUCTURAL. SUPPORTING MEMBERS 0 PLACE STANDARD CUT WASHERS BETWEEN SHEET METAL ANGLE'S AND NUT 0 VERTICAL ANGLE IN SCHEDULE IS REQUIRED IN ADDITION TO HANGER ROD ONLY WHEN MAXIMUM LENGTH IS EXCEEDED ® SEE GENERAL NOTE 5 FOR LONGITUDINAL DIAGONAL BRACE REQUIREMENT. GENERAL NOTES FOR SEISMIC BRACING OF PIPING 1. Bra,:e all pipes 2 -1/2" diameter and larger. 2. Bracing aetails, support details, schedules and notes apply to all types of pipe and all types of joints. EXCEPTIONS a. Brace all piping 1 —1/4" and large' ocated in boiler rooms. mechanic°. equipment rooms and re'rigeretion machinery rooms. Bracing requirements for pipes less thar 2 -1/2" in diameter shall be the some os for 2 -1/2" pipes in all other locations. b. Brace all fuel gas and oil piping, medical gas piping am compressed air piping 1" and larger. c. Seismic braces may be omitted: a. 11) When the top of the pipe is suspended 12" or less from the supporting structure member and the pipe is suspended oy an individual hanger. 2) On all pining 3/4" and smaiier. 3. Details shown provide a lateral bracing system. A typic31 vertical support system cor•orrring to the following requirements must also be used. Vertical Piping 1) Attachment — Vertical piping shall be secured sufficiently close intervals to keep the pipe in alignment and carry the weight of the pipe and contents. Stacks shall be supported at their bases and if over 2 stories in height at each floor by approved meta: floor clamps. 2) Screwed pipe — Screwed pipe (I.P.S.) shall be supported at not — less than every other story height. 3) Coppe tubing — copper t,:bing snail be supported at eac' story for piping 1 —' /2" and larger diameter, and at not more than 6 foot ,ntervcls for piping 1 -1/2" and smaller in diameter. 4) Pipes of other approved material shall b. supported in accordance with their approved insto ation standards. b Horizontal — Piping 1) Supports — Horizontal piping shall be supported. 4. Transverse bracings at 40' -0" O.C. maximum ..nless otherwise noted. 5. Longitudinal bracings at 8O' -0° O.C. maximum unless otherwise noted. When thermal expansion or contraction is involved, provide longitudinal bracings at anchor points. The longitudinal braces and the connections must be capable of resisting the force inducea by expansion and contraction. 6. Transverse bracing for one pipe section may also act as longitudinal bracing for the pipe section connected perpendicular to it, if the bracing is installed within 24" of the elbow or tee of similar size. 7. For threaded piping the flexibility may be provided by the installat. of swing joints. In welded or solder joint piping the flexibility shah be provided by expansion loops or manufactured flexible connectors. 8. Do not use branch lines to brace main lines. 9. Trapeze hangers may be used. Provide flexibility in joints where pipes pass through building seismic or expansion joints, or where rigidly supported pipes connect to equipment with vibration Isolators. 10. A rigid piping system shall not be braced to dissimilar parts of a building or two dissimilar building systems that may respond in a different mode during an earthquake. 11. Provide large enough pipe sleeves through walls or floors to allow for anticipated differential movements. 12. At vertical pipe risers, wherever possible, support the weight of the riser at a point or points above tie center of gravity of the riser. Provide lateral guides at the top and bottom of the riser, and at intermediate points not to exceed 30' -0" on center. 13. For gas piping, the bracing details, schedules and notes may be used except that transverse bracing shall be at 20' -0" O.C. maximum and longitudinal bracing at 40' -0" O.0 maximum. Also 1", 1-1/4", 1-1/2", and 2" diameter pipes shall be bracea the same as 2 -1/2" diameter pipe in the schedule. (No bracing is requred. for pipes 3/4" diameter and smaller). 14. All seismic bracing shall be installed in accordance with the latest editon the SMACNA Seismic Restraint Manucl : GUIDLINES for "MECHANICAL SYSTEMS" Installation shall conform to California OSHPOD standards. t? / -/ 3 JUN 1 1 26, PE c 5 RE ti ISIONE. NO DATE CE A • /16/01 A' A' R LWLW NC PRICE 8 5/141 -1 ' ilED FOR altioSTR.c!10N i 3 i - AT& Nomilmw LOCAL SEP VICE One Teleport Drive, l•" ;Staten Island, NY 10311 CITY: TLKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 1 907 -264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: HVAC SEISMIC BRACING DETAILS CONSTRUCTION MANAGER /W L. y. A,C V 7 1 �� ' ENGIN 0 BUILDERS TELEPHONE # 847.698.4900 ARCHITECT/ Na 1 01111111TMITS ENGINEER. THE AUSTIN COMPANY • MIMNE S • ENINIEEU • CNII$T11SCT•1 DRAWN BY: WBB SCALE: AS SHOWN DATE: 01/18/01 ISHEET: j_ 1 2 18 OF 39 [RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 FILE: M: \620 \HVAC \620HV 12. DWG ,, , ... . 0 io /[ HANGER ROD PER SCHEDULE -1- ADC VERTICAL .ANGLE FROM SCHEDULE -1 WHEN LENGTH "L" EXCEEDS MAMMuM LENGTH AL PER SCHEDULE - 1 -3/4" SQ.x 1/8" PL WASHER EACH END BOLT TO ANGLE SEE SCHEDULE -1 EXCEPTION NOTE: IN LIE.; OF DETAILS, SCHEDULES, AND NOTES CONTAINED ON THIS DRAWING, MECHANICAL SUBCONTRACTOR MAY PROVIDE ALTERNATE BRACING METHOD. PROPOSED ALTERNATE MUST BE SUBMITTED TO THE ENGINEER OR APPROVAL PRIOR TO APPLICATION AND MUST BE SUBSTANTIATED BY ,MANUFACTURERS CERTIFICATION OF PREFABRICATED BRACING SYSTEM COMPLIANCE WITH SEISMIC ZONE 2 OR HIGHER BRACING REQUIREMENTS DR BY CALCULATIONS PREPARED BY A PROFESSIONAL ENGINEER CONFIRMING FIELC FABRICATED AND APPLIED BRACING MEETS SEISMIC DISTURBANCE CRITERIA STATED ON DRAWING A -1 AND IN SPECIFICATIONS. CONNECTION TO STRUCTURAL SUPPORTING MEMBER TO BE SAME FOR VERTICAL, DIAGONAL AND LONGITUDINAL ANGLE'S PER SCHEDULE -1. CONNECTIONS PER SCHEDULE -2. THREADED STUD BOLT SEE SCHEDULE -1 12" LONG INSULATION AND COVERING (KALO OR EQUAL) THICKNESS EQU.\L TO ADJACENT NSU.ATION AT BOTTOM HALF AT PIPE SHIELD "ELCEN" PIPE CLAMP HEAVY TYPE OR EQUAL SEE SCH£DJLE -2 FOR END CONNECTORS III NOTES: 1.HANGERS AND COMPONENTS SHALL BE COATED W RUST RESISTANT PRIMER 2.SEE GENERAL NOTE 5 FOR LONGITUDINAL BRACING REQ..) I REM ENTS 3. FOR USE WERE TEMPERATURE EXPANSION IS MINIMAL "ELCEN" WELDED BEAM ATTACHMENT OR EQUAL ELEVATION ADD VERTICAL ANGLE FROM SCHEDULE -1 WHEN LENGTH "L" EXCEEDS MAXIMUM LENGTH ALLOWED PER SCHEDULE -1 HANGER ROD PER SCHEDULE -1 - LONGITUDINAL ANGLE PER SCHEDULE -1 3/16V \;YP. PIPE INSULATION AS SPECIFIED NOTES: 1.HANGERS AND COMPONENTS SHALL BE COATED WITH RUST RESISTANT PRIMER 2. SEE GENERAL NOTE 5 FOR LONGITUDINAL BRACING REQUIREMENTS 3. FOR USE WERE TEMPERATURE EXPANSION IS MINIMAL 12" LONG 18 CA. GALV. STEEL SHIELD OR ALL PIPES LMMAM. v `RAPEZE SPAN PER SCHEDULE 13 SECTION LONGITUDINAL ANGLE PER SCHEDULE 1 WASHER TO COVER WELD 1HREAJED STUD BOLT SEE SCHEDULE -1 "ELCEN" PIPE CLAMP HEAVY TYPE OR EQUAL 12" LONG INSULATION AND COVERING (KALO OR EQUAL) THICKNESS EQUAL TO ADJACENT INSULATION AT BOTTOM HALF AT PIPE SHIELD TYPES 3 & 4 PLATE 3 "x 1/4" (BENT) TYPES 5 & 6 PLATE 4 "x 3/8" (BENT) TYPICAL BRACING OF PIPES ON TRAPEZE NO SCALE CONNECTION TO STRUCTURAL SUPPORTING MEMBER TO BE SAME FOR VERTICAL, DIAGONAL AND LONGITUDINAL ANGLE'S PER SCHEDULE -1. CONNECTIONS PER SCHEDULE -2. TYPICAL LONGITUDINAL PIPE BRACING DETAIL NO SCALE SEE SCHEDULE -2 FOR END CONNECTIONS ADD VERTICAL ANGLE FROM SCHEDULE -1 WHEN LENGTH "L" EXCEEDS MAXIMUM LENGTH ALLOWED PER SCHEDULE -1 HANGER ROD PER SCHEDULE -1 "ELCEN" WELDED BEAM ATTACHMENT OR EQUAL NOTES; 1.HANGERS AND COMPONENTS SHALL BE COATED WITH RUST RESISTANT PRIMER 2.SEE GENERAL NOTE 5 FOR LONGITUDINAL BRACING REQUIREMENTS 3. SEE ELEVATION FOR LONGITUDINAL BRACING INSULATION AS SPECIFIED 1/4" GAP MINIMUM 12" LONG 18 GA. GALV. STEEL SHIELD FOR ALL PIPES HANGER ROD PER SCHEDULE -1 ADD VERTICAL ANGLE FROM SCHEDULE -1 WHEN LENGTH "L" EXCEEDS MAXIMUM LENGTH ALLOWED PER SCHEDULE -1 BOLT TO ANGLE SEE SCHEDULE -1 DIAGONAL ANGLE PER SCHEDULE -1 F • w m w 0 a a 2 "X 2 "X 16GA. VERTICAL L --+ 3/8 " MAC BOLT NOTE: FOR SPACING OF BRACING REFER TO TYPICAL NOTES CONNECTION TO STRUCTURAL SUPPORTING MEMBER TO BE SAME FOR VERTICAL, DIAGONAL & LONGITUDINAL ANGLES. 3 1/2" STEEL BEAM r C BOLTS ANGL N D DIAG. L BRACE++ - 2 "X2 "X16GA. DIAGONAL L BRACE 2 1/2 "X12GA. SHEET METAL STRAP TYPICAL ROUND DUCT BRACING DETAIL NO SCALE VERTICAL AND DIAGONAL ANGLE'S. FOR SIZE AND BOLTING SEE SCHEDULE -2 12' -0" (MAX.) DIAGONAL ANGLE PER SCHEDULE -1 "ELCEN" HANGER ROD CUP OR EQUAL (2) 4" X 3 1/2" X 5/16" x 0' -5 1/2" ANGLE TYP. EACH END. (2) 5/8" MACHINE BOLTS EACH LEG. (OR EQUIVALENT WELDED CONNECTION) CO NNECTIO NS TO STEEL NO SCALE 1 1r VERTICAL L I 2 "X2 "X 16GA. LONGITUDINAL DIAG. L BRACE (SHOWN DOTTED) AS REQUIRED. U CL X Z 0 : 0 °- I a- 0 , C17 ( n z < w Q J N W U a N CD IIWO -I0 X BOLT TO ANGLE 'SEE SCHEDULE -1 12" LONG INSULATION AND COVERING (KALO OR EQUAL) THICKNESS EQUAL TO ADJACENT INSULATION AT BOTTOM HALF AT PIPE SHIELD DIAGONAL L BRACE. SE SCHEDUL NOTE: HANGERS AND COMPONENTS Si-,AL. BE COATED WITH RUST RES!STAN i PRIMER TYPICAL PIPE BRACING DETAIL NO SCALE _- SPREADER SEE SCHEE CHANNEL U LE -2 LONGITUDINAL ANGLE AS AS REQUIRED SEE SCHDULE -2 FOR SIZE VERTICAL L SEE SCHEDULE C BOLTS = LC ANGLES EQ. STEEL BEAM FOR BOLT SIZE SEE SCHEDULE TYPICAL TYPICAL RECTANGULAR DUCT BRACING DETAIL NO SCALE MDR- /03 CONNECTPON TO STRUCTURAL SUPPORTING MEMBER TO BE SAME FOR VERTA., DIAGONAL ANC LONG(TUDINA ANGLE'S PF_R SCHEDULE -1. CONNECTIONS PEP SCHEDULE -2. ADD VERTICAL ANGLE FROM SCHEDULE -1 WHEN LENGTH L" EXCEEDS MAXIMUM LENGTH ALLOWED PER SCHEDULE -1 HANGER ROD PER SCHEDULE -1 CLEVIS HANGER ADD PIPE SLEEVE THAT HAS AN INSIDE DIAMETER 1 /4 "± LARGER THAN OUTSIDE DIAMETER OF BOLT PIPE INSULATION AS SPECIFIED 12" LONG 18 GA. GALA . :TEEL SHIELD FOR ALL PIPES CONNECTION TO STRUCTURAL SUPPORTING MEMBER TO BE SAME FOR VERTICAL, DIAGONAL & LONGITUDINAL L'S LONGITUDINAL L. ONE EACH SIDE OF DUCT. FOR SIZE SEE SCHEDULE. HORIZONTAL L I-- INSULATION (WHERE REQUIRED) NOTES: 1. FOR SPACING OF BRACING REFER TO TYPICAL NOTES. 2. WHEN A COMBINATION OF DUCTS ARE USED IN LIEU OF ONE DUCT, AT LEAST (2) SIDES OF EACH DUCT MUST BE CONNECTED TO VERTICAL OR HORIZONTAL L'S. (ADD HORIZONTAL L'S IF REQUIRED) JUN 1 1 2001 PERMIT r NTCR RE V! SIGNS. • NO DATE DESCRIPTION A '/16/0' A REVIEW ACE PEW'S t3 5/'4/e' SSeED FOR 010P6TRXTIpN f' /.., 1 ___, mommmpr ATa LOCAL SER ✓ICES One ri p art Drive, Sta Len Island, NY X10311 CITY: TUKWILA, WA. f CITY CONTACT: JIM WICKES TELEPHONE #: 907 - 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOL, ` H TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 (DRAWING TITLE: HVAC SPECIFICATIONS CONSTRUCTION MANAGER �Rn� ° � t �g r .4 L i ° ENGINEERS : BUILDERS F- 'TELEPHONE # 847 698.4900 ARCHITECT/ ENGINEER: a THE AUSTIN COMPANY IUUNLTUTS • MINIM • MINIM • CON$TN ernes DRAWN BY: WBB SCALE: NONE DATE: 12/18/00 1 SHEET: ____ 1 3 y 19 OF 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 - 620 FILE: M: \620 \HVAC \620HV13.DWG 3.1 OUCIIIKeett i Aa..CAT'c0t. Ani)i 116TAJ1T10k5 A Shoe oe occordance w:^ true <atest edition of kWh': and the tioe.von d Duct Construction as aibliseee by the Sheet Ileac Industry. • .t es c. tions s ewe: t mein specifications. B. a less omen. se state: :ease: wit De ciassirec es follows Lo. e-essure - velocities Is tf err 2)X 'pm and eto•.ac pressures r oust 2• o f .c:er or Less. Ilea it +ensure - vatic pressures in duct ec evo•Jge 6 o• weer. high Preesee • - static press.rres in duct over F of rater we .;; to 10' of wee. C. Exec st ffeners seal oe provided at fon drschorge and other areas as required to prevent 'drummi:' ' y ballooning_ Fen dischc! a ducts (fast 8 feet) shat be 2 gouges heavier and reinforcement spacing shot be had of %A standoras. 3.2 GENERAL PPE tNSJ1AT1ON INSTM.LATION 3.3 PIPE HANGERS, SUPPORTS AND L=AS i ENERS therefore, the Controctor A Tee service cite of the ;nsuiation depends primarily on the in -peace parneance of the vapor barrier- • :. exercise 6ligence to ;range c vapor barrier free of d'scontiruities and penetrations. B. Yetct fasteners or staples ore no: permitted under ony circumstances ono if ,sea w s? ne cat:se for rejection of the raper borne, one require repiocement. Where bnous occur in the vapor barrier jocket during installation. they shat be covered in the some manner as b•Jtt joins_ C. Pressure sensitive adhesive topes under any brand name. for seating butt joints as the fin+shec vapor barrier are not permittec under any circumstances. Mmoflez butt joints to be glued. D. Installation. Shat; be in strict occordonce with monutocturer's recommended printed instructions and as follows: 1. Joi'.'s oc insulation scot be butted tightly, staggered if in multiple 4oyers. one be property sealed. E. Fibe'gkass eswc :ier re sckets sea be factory applied and shot: be of the type that has self- seabnt longitudinal lops ct^ factory applied odhesive we same protected in shipment and 'e- storable by c . peel-off' release paper or as hereinafter specifies. 'nsulation herein specifies as requiring a vapor barrier snot have some factory applied jackets with. self- sealing lops ono adhesive as mention: above. a. All insulation systems, including vapor eerier. shah be continucus, covering all system components, :unless otherwise noted. Prcvisior: shalt be mode for the operation or vievine of all nameplates, escutcheons, code stomp plates controls, instruments, and vane bonnets and sterns. e. All insuatec piping shah have pipe covering protector, sodd!es of rigid insulation cork, wood blocks. high density fiberglass, or • Kcec • (capable of supporting the pipe one contents), protected see galvanized steel insulation protection shields at hangers and supers c. lns1.'ation soda es and shield shall be of a design to distribute the load over an area sufficiently large to prevent deflection of the insect on or domoge to the vapor barrier. a. Under no circumstances snail any form of wheat paste be brought or uses or this site. All adhesives snall be as hereinafter stated. e. M insuletion, insulation jocketing and adhesives shall be as those specified or equal. A General Inst•. Hangers, supports, clamps and attachments to support piping properly from building structure; comply with MSS SP -69 cnd SP -89 Arrange for grouping of parallel runs of ,cr'zontol piping supported together on field- fabricated, heavy -duty trapeze hangers where possible. Install supports with maximum spocnos complying with MSS SP -69. Where piping of various sizes is supported together by trapeze hangers, space hangers for smallest wipe size or install intermediate supports for smaller diameter pipe as specified for individua: pipe hangers. 1. Riser piping shall be supported independently of connected horizontal piping where practicer. 2. Where vibration is anticipated, vibration absorption mounts shall be provided. 3. Ali piping shall be carried on adjustable hangers or properly leveled supports. 4. All system components snail be sized to the outside diameter of pipe or tubing which they support or to the outside diameter of the insulator on insulated lines when insulation protection saddles ore used. 5. Shop drawings shall include catalog cuts or data sheets on manufactured hangers, supports and accessories. or structuro: I. Space attachments within m im piping span B. install building attachments wrthi concrete o to structu a stee Spa s w ox urn p p g spa length I -, concentrated including valves, in MSS SP 69. Install additional attachments at cancent cited bads, cludnng va ves flanges, guises, strainers, expansion joints, and at changes in direction of piping. 1. Ni welding, drilling, cutting or any other operations required for the attachment of the pipe to the support or hanger, or the support of hanger to the supporting structure, shall be performed by the subcontractor. 2. Fasten hangers and supports to supporting structures by means of beam attachments, clomps, inserts, bolts, or other suitable fastening devices. C. Hanger shall support piping filled with water with safety factor of 5 based on ultimate strength. Hangers shall be capable of supporting the pipe in all conditions of operation. They shall allow for free expansion and contraction of the piping, and prevent stress resulting from transferred weight being induced into the pipe or connected equipment. The installation shall be clear of the work of other trades. D. Install hangers and supports to allow controlled movement of piping systems, to permit freedom of movement between pipe anchors, and to facilitate action of expansion joints, expansion loops, expansion bends and similar units. E. The methods of attaching or fastening equipment or equipment supports or hangers to the building structure shall be subject to approval by the A/E at all times. F. Cutting, burning, drilling, welding, and /or the use of explosive driven fasteners on building structures shall not be permitted. G. Installation of hanger supports shall be made to structural steel, masonry and poured concrete. 4ongers and supports shall not be installed to -oaf decks, steel bracing or bridging, conduit, or other piping. H. Insulated Piping: Comply with the following installation requirements. 1. Clamps: Attach camps, including spacers (if any), to piping with clamps projecting through insulation, do not exceed pipe stresses allowed by ASME 831.9. 2. Covering on insulated piping shall be protected from damage at hanger locations. Saddles, bases or suitable metal shields, properly constructed ord secured to the covered pipe, shall be used at points of roller, base and trapeze supports. Pipe clamps for insulated pipe shall have the load bolt located outside of the insulation. 3. Saddles: Install protection saddles MSS Type 39 where insulation without vapor barrier is indicated. Fill interior voids with segments of insulation that match adjoining pipe insulation. 4. Slieros testa protective Width MSS Type 40 on cola *cue piping that has vapor barrier. 9reids std span on ac 5. etsen material shot be at bast as tang as the protective shield. 6. Thermal Hanger Shields: %star lie a'dwted, w tr insulation of some thiCkress as piping. L 1. Hanger generat, tne foiior �g table shad be applied for !mango spacing of on types of piping and shoe not apply rnr. a any flanges. fittings. etc. create concentrated mods beset- supports. Schein Pipe Maximum Ifutimum Rod Sue Spacing Diameter 1/2 in. 3/4 in. 1 in. 1-1/4 in. 1 -1/2 in. 2 in. 2 -1/2 in. 3 in. 5 ft 6f. 7 ft B ft. 9 ft 10 ft. 11 ft. 12 ft. 3/8 in 3/8 In. 3/8 in 3/8 in.. 3/8 3/8 :r 1/2 in. 1/2 in. on pipe Bled 2. Spacings given above are based require additional support. 3 Spacing shah permit normal pitch of lines. 4. For mains sized one inch through one -huff inch and having pitches be spaced 10 ft. or, center. 5. Tubing (copper or aluminum) or thinwali stainless steel pipe shall stainless steel bearing plate between the hanger aria the pipe or tube. 114 of the pipe or tube circumference and shall be 1/8 thick. The erection. 3.4 HANGER ADJUSTMENT 3.5 COMMISSIONING 3.6 DUCTWORK CLEANING 3.7 PIPING CLEANING AND PURGING 3.8 TESTING DUCTWORK we, water and do of 180'. valves. not apply where c. ncentrated loads or changes in direction twice those as stated in these Specifications, hangers may be supported with clevis type hangers with the use of a The plate shall be six inches long with a width equal to bearing plate shall be tack welded to the hanger after A Hanger Adjustment: Adjust hangers to distribute loads equally on attachments and to achieve indicated slope of pipe. A Commissioning - the act of putting all systems into proper operating service. Commissioning shall consist of the following in the order listed: 1. Cleaning and purging as described in these specifications. 2. Leak testing as described in these specifications. 3. Check pumps for proper rotation and inform A/E superintendent of any discrepancies. 4. Check orientation of control valves for proper flow pattern. 5. Lubricate all motors purchased by and assigned to this subcontract. 6. Startup and place systems in operation. 7. Final acceptance. A. All duct openings will be covered with plastic sheet tepee in place with end of each working day. B. Ducts with heavy accumulations of construction dust will be orushed or vacuum cleaned before starting fans. C. After completion of installation of ductwork and equipment, including filters, but before final connections to grilles and diffusers, each exhaust and supply system shall be operatec one full working day or longer until it is established that ductwork is free of loose dirt or dust. A. Cleaning and purging shall be as specified for each service and as follows: 1. Internal surfaces of piping shall be inspected and kept free of trash, dirt and corrosion. Dirty or corroded pipe will be cleaned to clean, new condition before assembly. 2. External surfaces of piping shall be cleaner' of dirt, rust scale, grease and other foreign matter to be acceptable for painting. 3. Subcontractor shall provide temporary connections to water and drain lines for flushing all lines. 4. Clear all strainers after lines are flushed. 5. When lines are to be blown down with air, Subcontractor shall make temporary connections to services, provide air compressors or gas bottles to pressurize system. 6. Where lines are to be dehydrated by pulling o vacuum, Subcontractor shall provide vacuum pumps and other equipment required to dehydrate and test system as specified for service. 13. Water Flush - Domestic Water, Process Water 1. Close all isolation valves at each piece of equipment. 2. Fil: system up to isolation valves with city water (at city pressure). 3. At each piece of equipment or valve assembly connection disconnect union down stream of strainer and discharge water to a drair until a clear stream is flowing, system shall not be flushed thru equipment. 4. Reconnect union and repeat at each piece of equipment until all have been cleaned. 5. Open all isolation valves and fill rest of system. P y b. Continue flushing systems, discharge water at all fixtures. 7. Charge system with water, Water shall be allowed to circulate thru the system for two hours. A drain shall be opened and checked to see if a clear stream is flowing. If not, repeat water flush procedure until a clear stream is achieved. 8. System is ready for pressure and leak testing. C. Air Purge - Compressed Air 1. Air lines shall be blown out with compressed air. 2. Compressea air shall be at 100 to 125 psig. 3. All equipment and instruments shall be disconnected and protected from purge. 4. Contractor to provide compressed a i for cleaning. 5. Blow one branch at a time to ensure adequate pressures and velocities. A. Test shall be conducted in accordance with the specifications in the manual of the Sheet Metal and Air Conditioning Contractors National Association, Inc 39 LttBRICAI N A Before operating any equipment the Contractor slid verify that at bearings, etc.. requiring ai or grease shat ere iubriccted as recommended by the manufacturer. ,sang the recommender type and we Ighte of wbrioants_ Do not overcharge bearings with grease. as seals may be damaged. Bearings shot be inspected and set screws tightened to ovoid shaft from tuning in bearing. 3.10 FINAL INSPECTION A Prior to fact ocoesplance, d systems shd be operated by Subcontractor to test performance as &rectee and to the satisfaction of the Owner and A/E. 1. Air in ducts shat circulate without excessive noise 2. Motors, fans onto other equipment shat operate without excessive noise or vibration. 3. Heating, vent..icting and air - conditioning systems snot maintain uniform temperatures without drafts_ 4. At valves ■y se operated Lander pressure to prove operational. 5. Fluid and gases shot ci'c,.>ote throughout entire piping system without noise, vibration, water hammer, leaks or air binding. 6. Gains shat lbw freely w-tnaut splashing, leaks, stoppages, or excessive noise. 7. Pipe lines will be installed ii a neat, orderly mower witn hangers and supports, anchors and guides, loops and swing joints installed. 8. All valves and other items necessary for operation shall be in accessible locations. B. Defects demonstrated oy inspections and test shot be corrected to the satisfaction of A/E at no cost to A/E and Owner. C. Dr. satisfactory completion of inspections and tests, Subcontractor shot deliver a certificate of approval issued by administrative authority. D. Equipment and machines shall 'nave initial IJbrication, and be aligned and turned -up for efficient performance. E. AI cleaning and purging shall be completed and systems shall be ready for operation by Owner. 3.11 PIPING INSTALLATION - SOIL, WASTE, AND VENT A. Soil, waste and vent system shall be installed as required by governing code, Piping section and as follows* 1. Assembly, joints shall be as specified in Products sect ion for piping materials for this service. 2. Sanitary drains shall be pitched as noted on drawings. Minimum pitch is 1/8 inch /foot. B. Hangers or supports shall to provided within 2 feet of all joints on horizontal runs except screwed joints. Distance between supports on vertical runs we not exceed 15 feet. C. Cleanouts shall be provided at base of stocks, every 100 feet on buried sanitary drains on straight runs and at every change of direction. Cleanouts shall be line size up to 4 inch pipe size and 4 inch for 4 inch pipe size and larger. D. Lead fleshings fabricated of 6/ lead shall be provided for floor drains above ground floor. Fleshings will extene. r,ei Jess than one foot beyond perimeter of drain. E Sanitary drainage structures shot be as detailed on drawings. 3.12 PIPING INSTALLATION - HOT AND COLD WATER A. Soldering and Brazing procedures shall conform to ANSI B9.1 Standard Safety Code for Mechanical Refrigeration. B. Not and cold water piping shall be installed as required by governing code, Piping Section, and as follows. 1. Assembly, joints shall be as specified for pipe and fittings specified for this service. Do not use 50/50 tin -lead solder. 2. Dielectric unions shall be used for transition from steel to copper pipe for prevention of electrolytic corrosion. 3. Pipe lines will be pitched not less than 1 inch in 40 feet to low points. Drains will be provides' at low point. 4. Air chambers will be provided for lines serving faucets. 5. Hot and cold water lines will be insulated as specified in the Insulation section. a. For piping 2 inches and smaller, hangers may be attached to bare pipe and insulation shall encase hanger. b. For piping 2 -1/2 inch pipe size and larger, provide saddle of high density insulation and 16 gage galvanized steel protection cover. C. Cleaning- Purging I . Piping shall be flushed with water on completion of work. 3.13 TESTING PIPING A. Leak tests shall be conducted on all piping systems before making final connections to equipment or applying insulation, backfilling or concealing. Tests shall be conducted in presence of representatives of A /E, Owner and Authorities having jurisdiction. 1. Subcontractor shall provide temporary connections to services, instruments, pumps and cylinders of gas necessary for testing. Test instruments will be calibrated and have range and accuracy for a proper test. 2. Tests may be made in sections so that other work may proceed. 3. Instruments, specialties and equipment that may be subject to damage shall be isolated during testing. 4. With system valved or plugged off, test pressure shall be maintained for the specified test period with no evidence of leaks. 5. Leaks and defects demonstrated by inspections and tests shall be corrected immediately and test repeated until system is proved tight. 6. On completion of test, fluids from leaks will be cleaned up and fluid in pipe lines discharged where it will not interfere with work in progress or cause damage. 7. Pipe lines will be installed in a neat, orderly manner with hangers and supports, anchors and guides, loops and swing joints installed. All valves and other items necessary for operation shall be in accessible locations. B. Hot and Cold Water Leak Test 1. Hydrcstatic Test - Test with water at I -1/2 times the working pressure, but not less than 100 psi for two hours. Joints will be visually inspected for leaks. C. Soil, Waste and Vent Leak Test 1. Media - The piping of the plumbing, drainage, and venting systems shall be tested with water or air. The Administrative Authority may require the removal of any cleanouts, etc., to ascertain if the pressure has reached all parts of the system. After the plumbing fixtures have been set and their traps filled with water, they shall be submitted to a final test. 2. Water Test - The water test shall be applied to the drainage and vent systems either in its entirety or in sections. If applied to the entire system, all openings in the piping shall be tightly closed, except the highest opening, and the system filled with water to point of overflow. If the system is tested in sections, each opening shall be tightly plugged except the highest opening of the section under test, and each section shall be filled with water, but no section shall be tested with less than a ten (10) foot head of water. In testing successive sections, at least the upper ten (10) feet of the next preceding section shall be tested, so that no joint or pipe in the building (except the uppermost ten (10) feet of the system) shall have been submitted to a test of less than a ten (10) foot head of water. The water shall be kept in the system, or in the portion under test, for at least fifteen (15) minutes before inspection starts. The system shall then be tight at all points. 3. Air Test - The air test shall be mode by attaching an air compressor testing apparatus to any suitable opening, and, after closing all other inlets and outlets to the system, forcing air into the system until there is a uniform gage pressure of five (5) pounds per square inch or sufficient to balance a column of mercury ten (10) inches in height. The pressure shall be held without introduction of additional air for a period of at least fifteen (15) minutes. D. Test Gauges - Tests required by this Code, which are performed utilizing dial gauges, shall be limited to gouges having the following pressure graduations or incrementotions. 1. Required pressure tests of ten (10) pounds or less shall be performed with gauges of 1/10 pound incrementation or less. 2. Required pressure tests exceeding ten (10) pounds but less than one hundred (100) pounds shall be performed with gauges of one (1) pound incrementation or less. 3. Required pressure tests exceeding one hundred (100) pounds shall be performed with gauges incremented for two (2) percent or less of the required test pressure. 4. Test gauges shall have a pressure range not greater than twice the test pressure applied. MDko lb3 RECEIVED CITv nc Tf 1 fM1ff A JUN I 1 ; ;; RE' /ISIONS NO DATE IDESCRIPTION A 5/14/0* SSUED FOR C6TRUCTION r I I• I . I Ai& I LOCAL SER /ICES One re eport Drive, Staten Island, NY 10311 `CITY. TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907- 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: GENERATOR INSTALLATION ( CONSTRUCTION MANAGER S IV -I , y EN GINE ER S ,:oo): l a s TE LEPHONE # 847 698 4900 ARCHITECT/ L3 CMSLTINTS ENGINEER: I THE AUSTIN COMPANY • MSIMS • ENGINEERS • CONST1 CTORS DRAWN BY GCR SCALE: AS NOTED DATE: 11/17/00 SHEET: 37 OF 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 FILE: 623/580/580G01 .DWG \ TURBINE VENTS TYP. OF 16 60x32 DN.TO 24" AFF SF -2 4 4" COOLANT TO /FROM RADIATOR ON ROOF HOSPITAL YPE SILENCERS PROVIDED WITH GENERATOR GENERATOR EXHAUST DUCT 8" EXHAUST UP THRU ROOF G� 12x12 FD 120'x48` CD DUCT DOWN TO FLOOR dT == 4" COOLANT TO /FROM RADIATOR ON ROOF 0 - WATER MIST FIRE EXTINGUISHER 10LBS TYPE ABC FIRE EXTINGUISHER ROOF MOUNTED COOLANT PIPING INSULATE AND COVER WITH ALL'MINUM JACKETING FD TANK REFUEL LOCATION (4) 24x24 SILENCERS IAC TYPE S 7' - O" LONG FIREMANS BREAKGLASS FOR EMERGENCY SHUT -DOWN 0 RH -2 12x60 UP TO RH -2 1 5) 24x24 SILENCERS ►C TYPE S 7' -0" LONG 48x48 ROOF MOUNTED RADIATOR SUPPLIED WITH ENGINE GENERATOR ENLARGED FLOOR PLAN SCALE: 1/4"=1'-0" 112x60 UP TO RH -2 42x42 UP TO EF -3 APPLY SEALANT TO ENURE FLOOR AREA IN GENERATOR ROOM FLOOR SEALANT AREA PLAN SCALE: 1/8"-- 1 -0" COtw _ SCOPE Of IOW: A %AMOR. FURNISH NC INSTALL PROVO( LAIBOR TO INS .k1 THE EMERGENCY GENERATOR MO All OLXISSORIES PROVIDED WT^ AS SHOWN AND DESCRIBED ON THESE DRAWINGS_ THE GENERATOR. FUEL. FLEX LINES, EXHAUST FLEXES, SIENCERS, BATTERIES, BATTERY BOX AIM CABLES, NC BATTERY C}iARGER ARE PRGMDED BY AT&' B. FUEL SYSTEM_ cURNSH AND NS TALL Al PIPING. VALVES, FITTINGS. AND ACES AS S4+OWN NC REQUIRED FOR A COMPLETE OPERATING FUEL SUPPLY SYSTEM FOR THE GENERATOR. BELLY STORAGE WIN( SHALL BE PART OF GENERATOR PROVIDED BY AT &T. C. 1ENTILATION S`!STEM. FURNISH AND INSTALL GENERATOR VENRA; ON SYSTEM AS SHOWN, CONSISTING Of ROOM VENTILATION DUCTWORK TO THE ROOF DQ* ST FM. D. EXWw1ST SYSTEM_ P ANS-4 AND STALL THE GENERATOR EXHAU'S' SYSTEM AS SHOWN. CONSISTING OF FAD( CONNECTORS. NNECTORS. EXHAUST PPE, SILENCER, HANGERS, VIBRATION ISOLATORS, MD ROOF AMBLE. SLENCER MD FED CONNECTORS PROVIDED BY AT &T. I✓ FLOOR SEALANT. FURNISH AND INSTALL FLOOR SEALANT AS SHOWN MO DESCRIBED ON THESE DRAWINGS. FLOOR UNDER EQUIPMENT SHALL BE COATED. F. REMOTE ROOF RADIATOR. FURNISH MD INSTALL PROVIDE LABOR MD MATERIALS TO INSTALL THE ROOF MOUNTED RADIATOR (PROVIDED PY AT &T) MD ALL INTER CONNECTING PIPING, VALVES AND FITTINGS AS SHOWN AND REGQUIRED FOR TOR A COMPLETE MD OPERATIONAL COOLING SYSTEM FOR THE GENERATOR. EQUIPMENT SPECIFICATIONS: GENERATOR MANUFACTURER: KATOLUGHT MODEL D800F *X4 CAPACITY: 800 KW, 480 VOLT, 1800 RPM FUEL: DIESEL 2: CONSUMPTION: 57.5 GPH FUEL TANK MANUFACTURE: KATOLIGHT DESCRIPTION: 2000 GALLON, BELLY TANK, UL 142 CONSTRUCTION: 10 GAUGE, DOUBLE WALLED DIMENSIONS: 276 "Lx60"Wx36"T ALARMS: LOW /HIGH FUEL LEVEL, FUEL IN RUPTURE BASIN i Y - -- GENERAL NOTES: 1. CONTRACTOR SU81M'r,c PROP06AL FOR . 'r •ORR SHALL EXAMINE ALL DRAWS MC IMF TINE SITE TO ERMINE ref FULL EXTENT OF '}f WORN( MC INVOLVED cONDITIO.6. ALL PROPOSALS SH* M'NCLU t SITE CONDITIONS TWIT WAY AFFECT THE M :- ^c T CONTRACT ALSO. THE MKTRACTOR SW4 OBTAIN NE LANDLORDS REORttREMEh'.S RELATIVE (BU' NOT Lr1' !)) 11pR4NG HOURS, CORE mum. CUTTING AIM PATCHING, WELDING NOISE MD OUST CONTROL. 1LEA uP DURING CONSTRUCTION, TEit'ORARY UTUTES, PARKING AND ACCT TO THiE SITE. SECUR'n! .SS.JES FMNIIRE TO CONSIDER ALL SITE COMM IMO LANDLORD'S REQUIREMENTS THAT MAY AFFECT RE WORK OF THIS CONTRACT WILL NO' BE CONSIDERED AS JUSTIFICATION FOR EX'riA COST OR ALLOWANCES '0 1 f CONTRACTOR 2. CONTRACTOR SWELL OBTAIN ALL REQUIRED PERICF, LICENSES, AND APPROVALS AND PAY ALL ASSOCIATED FEES MD EXPENSES BEFORE STARTING 'aL INSTALLATION. ALSO, CONTRACTOR IS RESPONSIBLE FOR ALL REQUIRED SIGN -OFFS AND EQUPMENT USE '=RMATS. 3. Ni IMORK SHALL BE DONE N ACCORDANCE W"- AL. GOVERNING COOES, LAWS. AND REGULATIONS. NOTHING IN THESE SPECIFICATIONS IS TO BE CONSTRUED AS INTENDING TO SUPERSEDE SUCH REQUIREMENTS_ 4. ALL WORK PERFORMED SHILL BE ACCEPTABLE INDUSTRIAL STANDARDS. THE WORK SHALL AT ALI TIMES BE SUPERVISED BY COMPETENT PERSONS. 5. WORK THAT IS SUPSHOO. POORLY LAID- OUT, NOT PROPERLY ALIGNED, OR IS NOT CONSISTENT WI TN THE REQUIREMENTS GENERALLY ACCEPTABLE IN NE TRADE AS 'FIRST CLASS WORK' Wlil NOT BE ACCEPTABLE. 6. CODE VIOLATIONS THAT CREATE HAZARD TO HUMAN UFE, BUILDING OR EQUIPMENT SHALL BE CORRECTED BY THE VENDOR UPON NOTIFICATION AT NO COST. 7. ALL WORK SCHEDULES AND EQUIPMENT DELMERIES SHALL BE PRE - APPROVED BY THE BUILDING MANAGEMENT. BEFORE STARTING THE WORK, CONTRACTOR SHALL SUBMIT TO ALS ENGINEER MID LANDLORD THE PROPOSED WORK SEQUENCE MC SCHEDULE FOR APPROVAL. ALSO, WEEK 12- WORK PROGRESS UPDATE` MD SCHEDULES OF REQUIRED TESTS SHELL BE SUBMITTED FOR APPROVAL 8. THE CONTRACTOR SHALL BE RESPONSIBLE FOR SCHEDULING AND COORDMATION OF WORK OF ALL TRADES INVOLVED. 9. PROTECT EXISTING BUILDING STRUCTURES AND GROUNDS FROM D,■MMGE. ,WY DAMAGE TO EXLSWC FACILITIES SHALL BE REPNREC OR REPLACED AND RESTORED TO ORIGINAL XNNDITION TO THE SATIS" ACT1CA, C" THE LANDLORD. 10. THE CONTRACTOR SHALL REMOVE FROM THE JOB SITE :+v A DAILY BASIS ALL DEBRIS Abe LEFTOVER MATERIALS FOR WHICH HE IS RESPONSIBLE. CLEAN THE WnRK AREA MD AFFECTED GPUNDS TO THE SATISFACTION OF ALS ENGINEER AND THE LANDLORD. 11. EACH COMPONENT OF THE ENGINE AND SUPP:ART SYSTEMS INCLUDING CONTROLS AND ALARMS SHALL BE TESTED BY ALS ENGINEER AND FACTORY MECHAN!:; AND WITNESSED 8' BUILDING MANAGEME41 UPON COMPLETION OF INgALLAATION. THE FINAL ACCEPTANCE TEST SHALL BE PERFORMED AT 7Ph LOCAL TIME ON WEEKDAY OR SAT',RDAY. THE CONTRACTOR SHALL INCLUDE THIS i s r IN HIS BID. 12. CONTRACTOR SHALL GUARANTEE ALL WORK, MATERIAL EQUIPMENT, ETC., FURNISHED BY HIM FOR A PERIOD OF ONE (1) YEAR AF LR THE DATE OF ACCEPTANCE. MECHANICAL & PLUMBING NOTES: 1. ThE CONTRACTOR SHAL SUBMIT A DETAI LED RIGGING PROCEDURE TO ALS ENGINEER AND LANDLORD FOR APPROVAL PRIOR TO UNIT DELIVERY. 2. THE ENGINE - GENERATOR (PROVIDED BY AT &T) JNIT SHALL BE PLACED DN NEOPRENE VIBRATION ISOLATION PADS (PROVIDED BY AT &T) AND ANCHORED TO THE FLOOR USING 3/4' CARBON STEEL BOLTS PEP ASTM A325. 3. THE REMOTE RADIATOR SHALL BE ANCHORED TO THE ROOF RAILS PROVIDED USING EXPANSION BOLTS 1/8' SMALLER THEN THE BASE MOUNTING HOLES PER ASTM A325. 4. CONTRACTOR SHALL SUBMIT TO ALS ENGINEER FOR APPROVAL ALA SHOP DRAWINGS, PRODUCT DATA AND TEST REPORTS FOR ALL CONSTRUCTION, MECHANICAL AND FLUMBING EQUIPMENT, FIXTURES AND MATERIALS PROVIDED BY HIM PRIOR TO INSTALLATION. 5. PROVIDE ADEQUATE MOUNTING AND SUPPORT OR AL DUCTWORK, PIPING AND EQUIPMENT PER LOCAL CODE REQUIREMENTS. 6. ALL EXHAUST PIPING SHALL BE SCHEDULE 40, GRADE A, BLACK WELDED STEEL AST) A53. 7. FIELD VERIFY EXACT LOCATION AND SIZE OF ALL EQUIPMENT, DUCTWORK, PIPING, ETC., PRIOR TO FABRICATION AND INSTALLATION. 8. DUCTWORK SHALL BE GALVANIZED STEEL CONSTRUCTED AND INSTALLED IN ACCORDANCE WITH THE SHEETMETAL AND AIR CONDITIONING CONTRACTORS NATIONAL ASSOCIATION I-IVAC DUCT CONSTRUCTION STANDARD, LATEST EDITION. SEAL ALL JOINTS OF DUCTWORK. 9. INSULATION, DUCTWORK, ETC. SHALL HAVE A SMOKE DEVELOPED RATING NO MORE THAN 50 AND A FLAME SPREAD RATING NO MORE THAN 25. 10. THE ENGINE EXHAUST PIPING, EXHAUST FAN, AND SILENCERS LAY -OUT SHOWN IS FOR INFORMATION ONLY. CONTRACTOR SHALL FIELD VERIFY ALL DIMENSIONS AND DESIGN THE BEST LAY -OUT CONSIDERING THE FIELD CONDITIONS. SUBMIT A SHOP DRAWING TO THE ALS ENGINEER FOR APPROVAL PRIOR TO INSTALLATION. 11. ALL PIPES THAT PASS THROUGH EXTERIOR WAL SHALL BE PROVIDED WITH WATERPh1OF SHEATHS WHICH ALLOW FOR RELATIVE EXPANSION AND SETTUNG. ALL PENETRATIONS OF RATED PARTTTIG;'S OR SLABS MUST BE FIRE - STOPPED WITH UL APPROVED CP -25 FIRE BARRIER CAULK, AND FACTORY CERTI D 3M INSTALLATION. ALL ROOF PENETRATIONS SHALL BE SLEEVED AND SEALED BY ROOFING CONTRACTOR PROVIDING ROOF WARRANTY. 12. SEAL ALL CRACKS & JOINTS IN SLAB AND A' BOTTOM OF WALL APPLY DURALKOTE 240 OR APPPO VEC EQUAL FLOOR SEALANT MEMBRANE ON SLAB AND RETURN 3' UP THE WALL 13. INSULATE ENGINE EXHAUST SILENCERS AND ''!PING WITH 2' OF OWENS- CORNING KAYLO OR APPROVED EQUAL INSTALL INSULATION IN TWO LAYERS WITH S "AGGERED JOINTS. 14. ALL FUEL PIPES SHALL BE FLUSHED WITH CLEAN FUEL AFTER ASSEMBLY AND BEFORE ENGINE IS OPERATED. 15. ALL FUEL PIPES SHALL BE TESTED WITH MINIMUM 100 PSIG TO CHECK FOR LEAKS. SUBMIT TEST REPORT TO ALS ENGINEER. 16. MOUNT ON EXTERIOR WALE THE EMERGENC` BREAK GLASS SHUT -OFF 17. AFTER THE INSTALLATION IS FINISHED AND APPROVED BY ALL REQUIRED AUTHORITIES, INSTALLER SHALL FlU_ -UP THE FUEL TANK WITH D2 FUEL ADD FUEL CONDITIONER AND RUST INHIBITOR AS REQUIRED. KEY PLAN C -•mo w JUN 1 1 2001 PERMn- CENTER REVISIONS NO DATE T DESCRIPTION A 51 T7 FOR a:NSTRUC?1ON 4 60x 1 12 DN.TO FF /. -- -- - 42x42 UP 1 .• 48x48 48x48' 11 r� , H (15) 24x24 SILENCERS ENGINE i i FD 12x12 IAC TYPE S 7' -0" LONG GENERATOR am mmi "x48" II - 120 CD iIIIMM■ I I - AT& ......_ LOCAL Sc R I/ICE5 ■Po• ■One Teleport Drive, Staten Island, NY !1011. CITY: TUKWILA, WA_ CITY CONTACT: JIM WICKES TELEPHONE #: 907 - 264 -7343 LOCATION: 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST NODE TYPE: 1 DRAWING TITLE: GENERATOR SECTIONS CONSTRUCTION MANAGER ° / 1'z z 7°z� , - '� ?/ E BU /L DERt: { TELEPHONE # 847 698.4900 ARCHITECT/ ENGINEER in THE AUSTIN COMPANY C$U$ILT MT$ • IRIS= • MINIM • CON$TRICTOIS DRAWN BY: WBB SCALE: AS SHOWN I DATE: 5/14/2001 rSHEET: I 0 38 OF 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 FILE: M: \620 \HVAC \620 \C2 nr ^Ff ' u UI' I HKU ROOF � - " ---- 60x 1 12 DN.TO FF /. -- -- - 42x42 UP 1 .• 48x48 48x48' 11 r� , (15) 24x24 SILENCERS ENGINE i i FD 12x12 IAC TYPE S 7' -0" LONG GENERATOR am mmi "x48" II - 120 CD FD y ` BELLY TANK DUCT DOWN TO FLOOR 32x60 24" A 48x48 32x60 DN.TC 24" AFF 8" EXHAUST B" EXHAUST UP THRU ROOF - (4) 24x24 SILENCERS IAC TYPE S 7' -0" LONG SECTION ■ G —? SCALE: 1/ 1' -0" HOSPITAL GRADE SINCERS PROVIDED WIT. i GENERATOR SECTION SCALE: 1 /4 " =1' —0" RH -2 ENGINE GENERATOR BELLY TANK EF -3 MD/ X03 ERMIT CENTER - FOS - - FOR - LEGEND FUEL OIL SUPPLY FUEL OIL RETURN { "Y -TYPE STRAINER CHECK VALVE BALL VALVE REDUCER - I I {-- UNION -- �1 FLU CONNECTOR SOLENOID VALVE - � - � I-- ANT1- SYPHON VALVE PUMP 3 ELBOW DOWN �) ELBOW UP Coolent Piping and Accessories A. Pipe 1. Pipe shall be schedule 40, ASTM A53 Grade B. B. Fittings 1. 1501 malleable iron fittings, in accordance with ANSI 8116.2 2. Butt welding fittings, machine pipe wall thickness, ANSI 16.9, ASTM A234 WPA. All elbows shall be long radius. 3. Branzh connections may be made with "Weld -O -Lets' ar "Thread -Lets" as manufactured by Bonney Forge Company or substitute. C. Flanges shcli have drilled bolt holes, spot faced for bolts, and faces to match companion flanges on valves and equipment. 1. Thru 2" pipe size, 125# cast iron, screwed ANSI B16.5. 2. 2 -1/2' pipe size and larger. 1501 forged steel, weld neck ANSI 816.5, ASTM A181 GR -1. D. Gaskets shed be 1/16" thick compressed asbestos free fiber. 1. John Crone 444 2. Garlock 3000 E. Assembly 1. Thru 2" pipe size, screwed with unions or flanges at valves and equipment. 2. 2 - 1/2" and larger, butt welded with flanges at valves and equipment. F. Piping Accessories 1. Unions shall be 150# malleable iron unions, iron to iron seats, ground joints. 2. Companion flanges in lieu of unions shall be used in steel pipe, 2 -1/2" pipe size and larger. 3. Bolts shoal be carbon steel with unfinished American Standard square heads, ASTM 307, Grade A. 4. Nuts, carbon steel, semi - finished, heavy series, hexagonal heads, ASTM A194, Class 0. G. Valves 1. Gate valves, 2" pipe size and smaller, 150# bronze body and trim, rising stem, inside screw, screwea or union bonne_, solid wedge, and screwed ends. o. Crane 431 b. Jenkins 651A c. 'Wolworth 11 2. Gate valves, 2 -1/2' pipe size and larger, 125# cast iron body, bronze trim, outside screw and yoke, and flanged ends. a. Crane 465 -1/2 b. Jenkins 651A c. Wolworth 726F 3. Check valves swing type, 2" pipe size and smaller, 200# bronze body, bronze disc, screwed cap and screwed ends a. Crane 36 b. Jenkins 761 -A c. Lunkenheimer 554 d. Power 5601' 4. '3a11 valves 2' pipe size and smaller shall be 125# bronze body, reinforced Teflon seats and seals and 316 stcinlesn steel boll and blow out proof extended stem. a NIBCO T -560 b Crone 930 c. Worchester d. Apollo 91 4' FLEX- CONNECTION TYP. 4' GATE VALVE TYP. ENGINE GENERATOR 4" FLEX - CONNECTION TYP. 3 4' GATE VALVE 1r. 3 2. Exhaust piping and silencer shall be insulated with 2" of Owens Corning Kaylc. COOLANT FLOW DIAGRAM NOT TO SCALE H. Flexible Connections 1. Flexible connections 2' and smaller shall have a 150# flexible stainless steel interior and stainless steel exterior braid with threaded ends. 2. Flexible connections 2 -1/2' shall have o 150# flexible stainless steel interior and stainless steel exterior braid with flanges both ends. One flange shall be fixed and one shall be lap type. a. Metraflex SL b. American BOA 84 -1 up to 4' c. Anaconda BWA 21 - - d. Flexonics 401 M e. Hyspan 4500 K. Insulation 1. Furnish and install insulation as specified on clean, ary surfaces after testing, inspection and approval in strict accordance with manufacturers printed instructions. Insi':dtion shall be of the type specified and as manufactured by one of the following, or an engineer approved substit',e: a. Owens- Corning b. Pittsburgh - Corning c. Certain -Teed d. Schuller Industries (John - Manville) e. PPG Industries f. Knauf L. Aluminum Insulation Jacketing and Fittings 1. All insulation shall be jacketed with aluminum, soft annealed temper with smooth 2B mil finish, 0.020 thick with 1 mil polyethylene film laminated to 40 lb virgin kraft paper. Jacket shall be secured 'capped' to carrier pipe to prevent exposure of insulation ends (when insulation is terminated). (Do not paint). 2. Manufacturer: a. Childers Products Company b. Pabco c. RPR ROOF MOUNTED RADIATOR 2 ',/Y 2 1/2" GATE VALVE TYP /112 /-i&3 2 1/2" Fla-CONNECTION TYP. 2 1/2' -1.DC- CONNECTION TYP. 2 1/2" GATE VALVE TYP 2 1/2" \� , j�)1�W11_t� ht , rS0 ,10 nr�R' NO DA T E 5 REVISICNS_ DESCR'PTION " D OR CONISTwu1CTIOh I 1 , I J±E I , ATai ,......p LOCAL SErc /'CES One ie_e ort Drive, ' Staten Island, NY 10311 - r- CITY: � I TUKWILA, WA. CITY CONTACT: JIM WICKES TELEPHONE #: 907 -264 -7343 LOCATION: ' 12628 INTERURBAN AVENUE SOUTH TUKWILA, WASHINGTON FLOOR: FIRST I NODE TYPE: 1 DRAWING TITLE: GENERATOR COOLANT FLOW DIAGRAM & SPECIFICATIONS I CONSTRUCTION � MANAGER ��) pra I�JO/_�i--�l LrE / o / L.. 'L , /G�l,c. I L .e ENGINEERS 0 BUILDERS TELEPHONE # 847.698.4900 ARCHITECT/ ENGINEER: a THE AUSTIN COMPANY CONSRflIT$ • 'MOM • EINIELBS • CONSTRUCTORS DRAWN BY. WBB `SCALE: NONE DATE: 5/14/01 SHEET: 39 of 39 RBI PROJECT # 2623.38 AUSTIN PROJECT # 00 -620 I [FILE: M_ \623 \620 \620G03.DWG - FOS - - FOR - LEGEND FUEL OIL SUPPLY FUEL OIL RETURN { "Y -TYPE STRAINER CHECK VALVE BALL VALVE REDUCER - I I {-- UNION -- �1 FLU CONNECTOR SOLENOID VALVE - � - � I-- ANT1- SYPHON VALVE PUMP 3 ELBOW DOWN �) ELBOW UP Coolent Piping and Accessories A. Pipe 1. Pipe shall be schedule 40, ASTM A53 Grade B. B. Fittings 1. 1501 malleable iron fittings, in accordance with ANSI 8116.2 2. Butt welding fittings, machine pipe wall thickness, ANSI 16.9, ASTM A234 WPA. All elbows shall be long radius. 3. Branzh connections may be made with "Weld -O -Lets' ar "Thread -Lets" as manufactured by Bonney Forge Company or substitute. C. Flanges shcli have drilled bolt holes, spot faced for bolts, and faces to match companion flanges on valves and equipment. 1. Thru 2" pipe size, 125# cast iron, screwed ANSI B16.5. 2. 2 -1/2' pipe size and larger. 1501 forged steel, weld neck ANSI 816.5, ASTM A181 GR -1. D. Gaskets shed be 1/16" thick compressed asbestos free fiber. 1. John Crone 444 2. Garlock 3000 E. Assembly 1. Thru 2" pipe size, screwed with unions or flanges at valves and equipment. 2. 2 - 1/2" and larger, butt welded with flanges at valves and equipment. F. Piping Accessories 1. Unions shall be 150# malleable iron unions, iron to iron seats, ground joints. 2. Companion flanges in lieu of unions shall be used in steel pipe, 2 -1/2" pipe size and larger. 3. Bolts shoal be carbon steel with unfinished American Standard square heads, ASTM 307, Grade A. 4. Nuts, carbon steel, semi - finished, heavy series, hexagonal heads, ASTM A194, Class 0. G. Valves 1. Gate valves, 2" pipe size and smaller, 150# bronze body and trim, rising stem, inside screw, screwea or union bonne_, solid wedge, and screwed ends. o. Crane 431 b. Jenkins 651A c. 'Wolworth 11 2. Gate valves, 2 -1/2' pipe size and larger, 125# cast iron body, bronze trim, outside screw and yoke, and flanged ends. a. Crane 465 -1/2 b. Jenkins 651A c. Wolworth 726F 3. Check valves swing type, 2" pipe size and smaller, 200# bronze body, bronze disc, screwed cap and screwed ends a. Crane 36 b. Jenkins 761 -A c. Lunkenheimer 554 d. Power 5601' 4. '3a11 valves 2' pipe size and smaller shall be 125# bronze body, reinforced Teflon seats and seals and 316 stcinlesn steel boll and blow out proof extended stem. a NIBCO T -560 b Crone 930 c. Worchester d. Apollo 91 4' FLEX- CONNECTION TYP. 4' GATE VALVE TYP. ENGINE GENERATOR 4" FLEX - CONNECTION TYP. 3 4' GATE VALVE 1r. 3 2. Exhaust piping and silencer shall be insulated with 2" of Owens Corning Kaylc. COOLANT FLOW DIAGRAM NOT TO SCALE H. Flexible Connections 1. Flexible connections 2' and smaller shall have a 150# flexible stainless steel interior and stainless steel exterior braid with threaded ends. 2. Flexible connections 2 -1/2' shall have o 150# flexible stainless steel interior and stainless steel exterior braid with flanges both ends. One flange shall be fixed and one shall be lap type. a. Metraflex SL b. American BOA 84 -1 up to 4' c. Anaconda BWA 21 - - d. Flexonics 401 M e. Hyspan 4500 K. Insulation 1. Furnish and install insulation as specified on clean, ary surfaces after testing, inspection and approval in strict accordance with manufacturers printed instructions. Insi':dtion shall be of the type specified and as manufactured by one of the following, or an engineer approved substit',e: a. Owens- Corning b. Pittsburgh - Corning c. Certain -Teed d. Schuller Industries (John - Manville) e. PPG Industries f. Knauf L. Aluminum Insulation Jacketing and Fittings 1. All insulation shall be jacketed with aluminum, soft annealed temper with smooth 2B mil finish, 0.020 thick with 1 mil polyethylene film laminated to 40 lb virgin kraft paper. Jacket shall be secured 'capped' to carrier pipe to prevent exposure of insulation ends (when insulation is terminated). (Do not paint). 2. Manufacturer: a. Childers Products Company b. Pabco c. RPR ROOF MOUNTED RADIATOR 2 ',/Y 2 1/2" GATE VALVE TYP /112 /-i&3 2 1/2" Fla-CONNECTION TYP. 2 1/2' -1.DC- CONNECTION TYP. 2 1/2" GATE VALVE TYP 2 1/2" \� , j�)1�W11_t� ht , rS0 ,10 nr�R' NO DA T E 5 REVISICNS_ DESCR'PTION " D OR CONISTwu1CTIOh