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Permit M02-197 - HALBERT RESIDENCE
HALBERT RESIDENCE 14726 MACADAM RD S k M02 -197 UQ co co W co W WO Q�Q LL 3 at Z� HO ZF- uj 2 p, 0 co 0— 0H WW HIL wZ co O~ Z Parcel No.: 7661600243 Address: 14726 MACADAM RD S TUKW Suite No: Tenant: Name: Address: Owner: Name: Address: Contact Person: Name: Address: Contractor: Name: Address: Signature: Print Name: doc: Mech City of Tukwila Department of Community Development / 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 HALBERT GERALD W 14726 MACADAM RD S, TUKWILA WA HALBERT GERALD W 14726 MACADAM RD S, TUKWILA WA CLARK, STEVE 3616 S. GENESEE STREET, SEATTLE, WA GENESEE FUEL AND HEATING CO INC P.O. BOX 18206, SEATTLE, WA Contractor License No: GENESFH370OO6 DESCRIPTION OF WORK: INSTALLING 80 MBTU GAS FURNACE - CHANGING LIKE FOR LIKE Permit Center Authorized Signature: Lrc14 MECHANICAL PERMIT MO2 -197 Permit Number: Issue Date: Permit Expires On: Phone: Phone: 206 722 -1545 Phone: 206 722 -1545 Expiration Date: 09/01/2003 Date: MO2 -197 09/26/2002 03/25/2003 Value of Construction: $4,300.00 Fees Collected: $52.00 Type of Fire Protection: N/A Uniform Mechnical Code Edition: 1997 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 not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction of he rformance of work. I am authorized to sign and obtain this mechanical permit. Date: -( _ T This permit shall become null and void if the work is not commenced within 180 days from the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. Printed: 09 -26 -2002 fi Parcel No.: 7661600243 Address: 14726 MACADAM RD S TUKW Suite No: Tenant: HALBERT GERALD W 1: ** *BUILDING DEPARTMENT CONDITIONS * ** 2: No changes will be made to the plans unless approved by the Engineer and the Tukwila Building Division. 3: All permits, inspection records, and approved plans shall be available at the job site prior to the start of any construction. These documents are to be maintained and available until final inspection approval is granted. 4: All construction to be done in conformance with approved plans and requirements of the Uniform Building Code (1997 Edition) as amended, Uniform Mechanical Code (1997 Edition), and Washington State Energy Code (1997 Edition). 5: Validity of Permit. The issuance of a permit or approval of plans, specifications, and computations shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinance of the jurisdiction. No permit presuming to give authority to violate or cancel the provisions of this code shall be valid. 6: Manufacturers installation instructions required on site for the building inspectors review. 7: Fuel burning appliances may not be installed in sleeping rooms, U.M.C. 304.5. 8: Appliances which generate flame, spark or glowing ignition, shall be elevated 18 inches above the floor (U.M.C. 303.1.3.). 9: Water heater shall be anchored to resist earthquake (U.P.C. 510.5). I hereby certify that I have read these conditions and will comply with them as outlined. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provision of any other work or local laws regulating construction or the performance of work. Signature: Print Name: doc: Conditions City of Tukwila Department of Community Development / 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 PERMIT CONDITIONS MO2 -197 Permit Number: MO2 -197 Status: ISSUED Applied Date: 09/25/2002 Issue Date: 09/26/2002 Date: / 'c L - Printed: 09 -26 -2002 ' ii 0 z LU W n o O N. D t- w w tz- �. O w co 0 ~ O F- z • ^ f. "L tt • . Li. C. • r i t . -/,1 .•'li ri'IV,'•1,.7 �1�1'Y �.:�''. 1.:'t'. Y,•'.1i.'r: }'f'�.�• t , .:):.f'. wiCi {S_ V..'• 4 +10 ...• • . . . : j1 •1 *.(J� - '� /• r1; :f �:. •i ? :n. 111 Werigt � : '' bate .• :.: ." a.Zr . • REEMMEEVAIc • • ^i•,.,_ -;,;i:,$, ','f i :4 = t.• •., •, r • .. .. ,,_.0 QIt1 ll - • s6o co ,�:}' .. r ...-. Phone: ( • 1,4:71 :jr ._ •Add �,/ r/..� r � 11'7320' •If 5 . ` . :"_ T ' ''}'r �1'•'.•∎ii ... d:•!i1.7• •Cr y/Stat - -•, rl••1'.I•L _ ir'f, '�r0 �'�7 il.!flftV l•�. .. :•�' ,r -/,1 .•'li ri'IV,'•1,.7 �1�1'Y �.:�''. 1.:'t'. Y,•'.1i.'r: }'f'�.�• t , .:):.f'. wiCi {S_ V..'• 4 +10 ...• • . . . : j1 •1 *.(J� - '� /• r1; :f �:. •i ? :n. •. .. . �-..-.. - = Site A: doss : . : r • ......:. City.Sate/21p ,. • _. j • .ups�..7f:Otrnrr% StnoeR91if8ritss _ . • • A' •� • • 1:''�• • .... '• • •• ' •. �• ._ . ,: � -. • , J .. - .. r aa• • •i, ... r.1;J• •Chy:StA I • .' - ,.Phone" s. * *".3" �t� , •. rt •��J biagligill : PhanG .. . ! • liiiiiii A • ' ■IFV L IYra - I: •'+• iida _ Seret tAddress• . ' • ' . •� wf ;. ��, : . . + 1 .A! •Nbtp;•'; ,.• ' CiiV∎Stat • r. • 'a i :FMSt'li :: 1 •• . . i � 1r ?' +' . uI , ACT , ! .:'., /.a T_.. 08/04/2002 . '•'Dilr,: ?:r «� ?, F.. : y r.,. n•,. v. r..�. t /kppiic } ``,' ' ' ' • Xit 4MxN1 it;PtNMY 'Rf,6' MOWANDEs4PPP )VMt tej4XI S iY ';seFru 'auur. *. ,Pil l . Description of work to be•dane.(pleesie b. ° t' :` ;r ° ' : t "° •'! • !: t i:» applica a ' n r a cppiioj Itegiethe, op°. Aplication snd4slainS>'iniat br cionsjslatirih.oriler'•io:,irl ecreptectior •'.Apiitk'aUtflr :iitsl.Ze''•aict pf Ybr" iig/frtl firi�li;Yl:t Ali i : Jl•.:'.:tifl. VIA -. : !;:.:'f, , , • •f 1 rrnie I. . 12 :00 3609462091 . CITY . '�"` '.'TC f(' iL.A. Permit Ceir.._r 03aa Bbrilev�id� °Solt @:100• • NWPEPMIT ,Project Nt t -ePATj Nut1O#' Sel:':�• PAGE 26 : Lme^: iL�: J:ri!4Y3i�li:- :3C:tYr�R� °•t}••, •'f a•tvt..t! r; al:� "cam'.' i.. , rt ; ,4 r;. r ; . •'• %;:::lrW.1 7: .ti a... ,: �. •.- �Y -� } K8' gsITY 't�J ile.±lfraiiae'lic.{g �'iet:�tNn C',.,;elf:. ;. ' Fif?rl "trir�tij�t-isis"" ldbie'sW' ill#If 1'"vrt'.•ri;Netlrb? bt�Ytaxi*r .' Du) Idiria' Ownte/ Auchot' j> Iddvasrtit: 1rthe;ap¢Ikari- ia•totlten•Iliii *betelIiiiety :iie6iitet.ti'•ortht rIehidiNefi; iirreonrrficMile ein iitt64 :th.t •'Stabaiot Wl 31ditatory' a ibl�.ri?r�d1�fi .,{roin;tht''p4Onetmm aiq its_aulhorizing,tri . gei'it'ta ) v ajspfib`atibn•auid�obtaltri.the "iii irt.it 0111-bra required es.siert l. ., • , •i' 'f .•1,:�:: "'t �.G T: ,t'•''•_ n , •:. ' •t..t • i + � " ..r trv• /'. r'. r,;,:. ':tn •• ' •: '•,:.':'�••� ::T '• ktrif ilri Wifti1 'y;Sililte!EXi1)47094O;rj'l ii i40 1' gt" i` N4i! iiii. A' 1fjefiONaEOY►iE'tOf':ei.:'IXf,E.7J1gY9ER' ' ieiNtACr torms.G!ivra vt:t111r,i77 .ftr.Oquatosicrpri,,;.5 'IVD ill % ii-A ifttotaZEtkr i.Wiritfotwit. 10.1 /.Elosor. ' . ' ' t'xpkat Iiiidof DJan ReWsW': AppiieaciOt for. Neh: no jt :l'iitlt- 1$`I4•su`cd wv)thlih • t: 81) :days•'fotibwiiltrttie•didt'•oF is ' I.h ea d:+ si).i�sf it by . • li gua • ThrbiJ ilding, ofIeiaf nt+ q'.i cta�i* ifaitot tiniolt f,..action. by tfwappitp d : nt for: a per ionotenceiidirtd•)ti0days:upot+ written • • . • • •rinuisr by'the.apolkant'astde tined• •SoetIOn•114 Unitiatiin ;Mvabainliud Cone' tcurnant•ediiiar+)r :`Wowpplii:a ten- attwti••/ae extent/1d •rYtortt'ltaNt.tOhct. .• -. • '.: .f .. • 'Dam • pue : appU I •oe Iyoo fetQiaues: 1 ' r. • 9'02$• -O_... _ 3 —ZS = G Parcel No.: 7661600243 Permit Number: MO2 -197 Address: 14726 MACADAM RD S TUKW Status: PENDING Suite No: Applied Date: 09/25/2002 Applicant: HALBERT GERALD W Issue Date: Receipt No.: R020001418 Payment Amount: 52.00 Initials: SKS Payment Date: 09/26/2002 02:49 PM User ID: 1165 Balance: $0.00 Payee: NORTHWEST PERMITS TRANSACTION LIST: doc: Receipt (Sity of `Tukwila 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 Amount Payment Check 2367 ACCOUNT ITEM LIST: Current Pmts MECHANICAL - RES Type RECEIPT Method Description 52.00 Description Account Code 000/322.100 52.00 Total: 52.00 Printed: 09 -26 -2002 INSPECTION RECORD Retain a copy with permit INSPECT! :CITY OF.TUKWILA BUILDING DIVISION 6300 Southcenter Blvd:, #100, Tukwila, WA 98188 Speci I; Instructions:'_ Type of Inspection: We Called: Date Wanted: //"' Requester: Phone No Zrio- /5o OI�A101 Approved per applicable codes. El Corrections required prior to approval. Inspector: /AA,/ / 1 A $47.00'REINSPE 1 • N FEE REQUIRED. Prior to Inspection, fee must be -"' paid at $300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Receipt No.: /lam >77i Date: PERM (206)431 -3670 7--J Date: COMMENTS: / \ .,..., K i' 1 //1 Ales 4 .4f �1 4 ( 7 Z.-. o 2-� �.r : c0 / / .e. 41 0 s 1,) .___S eyy*702,9 - r ./P-sz 4/64e_ .1 tw.•.` 1 ;AI /)v7/"."- / If lei /'u� S rfiS -eV 1.-07 v h.- 1 y - i .. L / _ - /J S r i /j49i^' /-. x `9`3'1 p 1 .- t ,./ ( u/Yti'!/ a 6 v .(di 6 'a - � ���.//� 1 ,- /il ///1 I -, 5 /- `c c: F//,L'r1 / v1 ./ Pect��� A } t (('' 1 T tti ion `K1 d ( res . r „ mace( 41 0 s Date )Leflj 1 9 pecial Instructions: Date Tr: d: ci J Q , r - r.. . Requests: c-1- era ) el Phone / _ NNo: .a - .9 L -157)0 Approved per applicable codes. [ InsPector: INSPECTION RECORD Retain a copy with permit INSPE TION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 PERMIT N (206)431 -3670 Corrections required prior to approval. Date /O $47.00 REINSPECTION EE REQUIRED. Prior to inspection, fee must be paid at t300 Southcenter Blvd., Suite 100. Call to schedule reinspection. 'Receipt No.: Date: issmonsamsesmonsonsmesimmeNEMENI 09/17/02 TUE 09:10 FAX 208 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE ALL phases of this installation must comply with NATIONAL, STATIC AND LOCAL COORS Modal; "UD040R924H "UD100R960H •UD080R936H •UD100R961H "UD080R9361R 0 1.1D120R964H "UD080R948H *LTD 120R960I1 •UD100R936H "UD140R96OH •UD100R94R1I " — The first letter may be "A" or '"C" Since the manuttctwN has a pray or amtlntww product hprQYNhent, it resenor. tM rgnt to etdny! ,p viec Bonn tn4 d $SOI rr it out nom". Ubrary Product §action Product Model - Literature Typo Saginaw Date Fite No. Supersedes IMPORTANT — This Document is customer property and is to remain with this unit, Please return to service information peck upon completion of work. 1 8-CD1 9D2-4 t2lc2 2 —/97 Upflow Gas -Fired Furnaces, 2 - Stage, "Fan Assisted Combustion System" RECEIVED !" rry TI IKWILA SEP252002 ,- 'cnt.rt ,_ ENTER Pub. No, 18- CDt9D2 -4 ,,V Amerwen Sttneard Cprnpzinirs Inc, 1905 zoo'. W 00 co WO 2 a LL H W Z � W U� O N 0 1— w O al Z co O 1- Z MODEL A B C 0 1jD040R924H U1)060R938H 14 -1!2' 9.5/8" 13•1/4' /3 '000e0R938H •0008of948H •U0100R938H 17.112" 9.5/8" 161/4' 16" "U0100R948H •U0100R96OH 111)12oR954H 21' 13.1/1b' 18 -314' 19.112' 'UD100R961H 11012OR96OH 'U0140R960H 24 -1/2' 134/16" 23.1/4• 23' MMMUNI CLEARANCE TO COMBUSTIBLE MATERIALS UPFLOW CLOSET LEFT SIDE 0 IN. FRONT 3 IN. (Note 1) RIGHT SIDE 0 IN. ( +) SACK 0 IN. FLUE 'SINAI?) (4) TOP 1 N. HORIZONTAL CLOSET (Note 2) TOP 21N. (r) BACK 3 IN. FLUE 61N. (1O SIDES 1 Mv. FRONT 3IN, Note 1 HORIZONTAL ALCOVE (Noto 2) TOP f1N. ( +) EACH 0 IN. FLUE 8 IN. (a) SIDES 0 IN. FRONT 181N. • • may be I• *MA TYPE 6.1 v.nt p Is v..a. • • fef it• iir cabinet. r limn lirpld web vo 1I pop is u•••. Who IM 14.1 fY wldlh tlalp s al.IAMI e4 N a flalltantal paliuen ono is sing'. war W nt pin is ANC s! o1N1af W m414 44 ••••••a ONM'Nil me VAN pipe and cu1laucrala flowing MAW: I) lAisAum csusa a I. Ignt an U0140 models is inches. 0)W? b. v gele0 on 00mbu1,tibl. Om linen Typo al veto la viol., • f ErTE11MAYBE A'OR 09/17/02 TL'E 09:29 FAX 206 442 2.448 GENSCO (SEATTLE 4 " 0ttMETFR g/p" FLUE CC\NECT 3/8" 19.5/e" �• 7/8 ()WHOLE ELECTR'CAL CONNECT ION 1.70 r H 7- 14-7/8•' S13Z 1 N. RETURN A I R L 1. %l6• Pub. No. 18- CD19D9.4 .3/4•' 28-1/2 " —.4 '• Firm Latter MRyBo "A "o T V2 DIA. HOLE / GAS CONNECTION 1 19.3/4 " 28.1/1" I /2" 2.1/16" ISTALLER'S GUIDE 'UD•R OUTLINE DRAWING (ALL DIMENSIONS ARE IN INCHES) EL TR I L \ ELEC TR ICAAL rONNECTION IAL TERNATEI •0" A-1 11/2 K.O. DAS COr1NECTIO4 IAt.TERNATEI -c' 1 S" 32" 1 .8•I /4 "I FE h' I ; •4•//8" ` Ail -J Si. I —c .1)/16.. .123 3ia "� 5.5iie r. ... 1 •!:15 From P. 21C340781 Rev. I • Page 29 C1029 09/17/02 TILE 09:29 FAX 208 442 2448 IN TALLER'S G IDF PA 28 FIELD W[RIeN4 DIAGRAM FOR SINGLE STAGE HEATING WITH SINGLE STAGE COOLING (OUTDOOR SECTION WITHOUT TRANSFORMER) F - -� FURNACE 1 � J J UNCTION � r-- SOX M (17 Nm/l1 1i ro 11ev, I Pit 1 4O'•` 110 HZ POWER SUPPLY PER LOCAL 000CC MOTE ! I " . - 1 1ATTEt MTH I • Kw ro1115 NAM NAM wuwiort MASVIATNS e� 7 LOA WAYAct 124 V *M6r R I. Ii A.W.O.1/r. a. o+IaSawatGUaNhtwiT mow *ITN (OM COWS A. Off TVARPOSTAI NAT maim 05 rEouf0T Wl•IOOIAOrAAi S. 7I111[{LAPYCOVOI 1IS v.mtwoPLowNter Drccusemosc 401wANCIN'C WH1ARRMMN. L05D 1 MPS IMO. II WI MVWi YVirtS.SAlINiSlOWEM5 uMNOsT►OE mg OM NU new 10 MUM AMA PRIV 57AGe 7 THE "V 7115MAL Mem 1M MNWMTATM/STOE W P M 10T1 •Y••1116lJ1ALIW 1141 74011140•E11 NAM ON3poly U LOW v0.TA0C p I I I � T C p O� M 001 TX10 E 18 r11TM0UT TIM11Mill10 mum SEf l sort 5 cp [� �ic1E'S IATES I se on roma AVM VSTM 0:1110 ‘0741. -' —� 7 Lt1Ir voLTAU1 my) verge TO u NO is L W.O.NM 7 OIOItl0t1O OII0I I I,NT WET COMPLY vermicK,M O90t4. L WI 11111100TAT 441 ArniorA1011 POINT 4■SW 5AOM►L A TNEN WAN 77010110 V. POWM roN convecnomw NmCMWW 414131111111 are NVI OPINAMIL 10A0 1.0 AAli IAN I TI40,1003 IOW( PUSI'S11M0STATS At0V05•000NWRC70w 1p TTANVOMM■ CO MIOIVYPROWL 7 at " TivisiAL Nbau 1111 /15IMMWlTA lam K ImD T5 "V• r(0100M, Of 1M(710NNClC0100. /011 martmONt50NMTp10ASW10 coma FIELD WIRING DIAGRAM FOR TWO STAGE HEATING WITH SINGLE STAGE COOLING (OUTDOOR SECTION WITHOUT TRANSFORMER) T0 I15V.1 PN. L11 M l OGMZ POWER WPPLY Pep Lr %CCAL000ES Y Lac_12.s L LOW VOL TAR 1 CO A o r 550 10 I� ITMW T TSA I KOTIOM 51TNOYT MSdO51K5 r �I M r - � i L_ - -� IN � GRATE° TMER C T TERMINAL °V . - • FURNACE JUNCTION r — BOX GENSCO (SEATTLE :Men it - ^� I INTEGRATED FURNACE CONTROL THERMOSTAT TERMlNA. FURN S INGLE STAGE HEATING /COOL IN THERMOSTAT WITH FAN SWITCH TERM !NAI.S ©0 I 1 V FURNACE 2 STAGE HEATING SINGLE STAGE COOL ING THERMOSTAT WITH FAN SW CH TERMINALS INTAS•COAVOM( NT 515150 V. w111IN6 'I. rIIL0 LIME V. MIA TYO SEE NOTE 7 INT01- 005P711157 515150 05 V. . ^+���- •�L151 V., NI [ N I LVi V 11 V. wIRIN00 LINE V. From O4 g. No. 2131=04 Roy. 0 SEE NOTE SEE NOTE 6 From 0w NO. 210=203 Roy. 0 IJju28 �a. vs ::nx�::«�!:'c,:� %SwSir,Ttlic.. • Pub. No.18•CDl D2.4 Z U = � F- LL 0 u cy H W , ZI- W ui U ON D H W 1U H u' 0 W z U= 0 Z 1 09/1T/02 TUE 09:28 FAX I Man roma eons *oat Maw aMapLMIA. 7. I0WIIOLTAQ 04 V. WORM VOW IALis AMA. MM O101ION0OF07AI1trl►MATUMW Alf 4LOCAt000fi. 4 WT MII OITATNEAT AMNWARIVIr/I tosT mire OIAOIAM. a Insiipolrevaca tttv.tomploaccoNlenovoftuico WM101AAstaato *mom Ma tgt0 LOAM'e(1CN. s Oved /OSfTAMAeATIlO WORMVt'AT MIND T WA SMNTOIMI✓wO.NgIM4 7. WI AAO WI WW1 VIAMMO TOZ WUAQt lsO V%*?RM snoopi!MU NAT 4Ml MOM 10MRRUI Olga rift IOW, IS •...w C. 0 14.1 =wi�� NO,C f Pub. No.1LCDIPD3-4 TOt'OV.*M. 00 K2 nakia eurat.r LOCAL OWED Olio lE CAC GCE 5 208 442 2448 GENSCO (SEATTLE _.. _._ INSTAL GUM FIELD WIRING DIAGRAM FOR HEATING ONLY I KIWI raven ¥v 59 anti 5C UO W Yn NMANATIit), I. LOIN WXrAO[ Iii V. MIMR1) ro W 40, if AW.O. Llltt moss. t i1G OFIOIMLKtr1vermum *uNLOtl1 A. teT 1414M155A7)*A AN11UPATOA mu MIRWNN10 OwiRAM F ¶WIII I ACS PROVO( 111 V. POMltAI VON comaOT1011 of LOAD 1.0 (Cmµ 4$ CA.EMe 1 ANO NWIONWAW . S. TMs SINK OW/ POOYMp1NOSTATl 1102VIIfIO COMEtt110N TV 1114141VCOM NOOLSION (MINK r R[ FURNACE ..UNCTION r --j SOX FURNACE SINGLE STAGE HEATING THERMOSTAT WITH FAN SWITCH TERMINALS MO *MO JUwrEN INO7E TI FIELD WIRING DIAGRAM FOR HEATING/COOLING (OUTDOOR SECTION WITHOUT TRANSFORMER) FL HNACE r ,,,_ 1, 2 STAGE HEA' T R M O 5CAT WIT RNAINAwSTCH IN TEGRATED FURNACE CONTROL THERMOSTAT TSPUINAL C4 DZIo7CoZo] U . tS W2G N T J 1 SEE NOTE G INICR•COMYOAENT DIN/NI r�Acc r..r.r ^••�L VW V. 1 . 11 .1 lr .~•. 7+ N. • 1 �IItihPe 1.1W. From Onp. No. 21843020o 81..0 INICN•COMrOnl1•T SItING 7• r' rA� i ^AY ����•� — L plc } W:11III A4 r. tnE l NI Prom Dap. No. 21617020E R1.. I rage 27 Z02T w»n ets..eu+te wwln+ rmewonrtn it I ily tN fiMUE5e r• v 09/17/02 TUE 09:28 FAX 206 442 2448 GENSCO (.SEATTLE INSTALLER'SUiDE Whenever your house is to be vacant, arrange to have eoa•oae inspect your house for proper temperature. This is very important in below fr weather. if for any reason your furnace should fail to operate damage could result, such as frown water pipes. LIMIT SWITCH CHECK OUT The limit switch is a safety device designed to close the gas valve should the furnace become overheated. Since proper operation of this switch is important to the safety of the unit, it must be checked out on initial start up by the installer. To check for proper operation of the limit trwitches, set the thermostat to a temperature higher than the indicated tem- perature to bring on the gas valve. Restrict the airflow by blocking the return air or by disconnecting the blower. When the furnace reaches the maximum outlet temperature as shown on the rating plate, the burners must shutoff. If they do not shut off after a reasonable time and overheating is evident, a faulty limit switch is probable and the limit switch must be replaced. After checking the operation of the limit control, be sure to remove the paper or cardboard from the return air inlet, or reconnect the blower. NOTE TO INSTALLER Review the following warnings with the owner. Review the contents of the OWNER'S INFORMATION MANUAL with the owner. AIRFLOW ADJUSTMENT Check inlet and outlet air temperatures to make sure they are within the ranges specified on the furnace rating nameplate. If the airflow needs to be increased or decreased, sec the wiring diagram for information on changing the speed of the blower motor. WARNING: Disconnect power to the unit before remov- ing the blower door. This unit is equipped with a blower door switch which cuts power to the blower and gas valve causing shutdown when the door is removed. Operation with the door removed or ajar can permit the escape of dangerous fumes. All panels must be securely closed at all times for safe operation of the furnace. NOTE: Direct drive motors have bearings which are perma- nently lubricated and under normal use, lubrication is not recommended. INDOOR BLOWER TIMING The control module controls the indoor blower. The blower starts approximately 45 seconds after ignition. The FAN -OFF period is appierimatoty 90 seconds from the interruption of gas flow. ROOM AIR THERMOSTAT HEAT ANTICIPATOR AD- JUSTMENT Set the thermostat heat anticipator according to the current flow measured, or the settings found in the notes on the furnace wiring diagram, (found inside the furnace casing). INSTRUCTIONS TO TIRE OWNERS Les the event that electrical, fuel, or mechanical failures occur, the owner should immediately ttun'o the gas supply off at the manual gas valve, located in the burner com- partment (See Figure P). Also turn off electrical power to the furnace and contact the service agency designated by your dealer. FIRST AID MEASURES .'i..C °ff�:S!F :sfii::>E" ✓..::y'��lY F.l ri.{i`Hh� +w4.:H�S4s.+.xJyRilY nr.+YSW 'J.. N.�a OPERATING INFORMATION FLAME ROLL-OUT DEVICE All models are equipped with a fusible link on the burner cover In caw of flame roll-out, the link will fail and cause the circuit to open which shuts off all flow of gas. ABNORMAL CONDITIONS 1. EXCESSIVE COMBUSTION VENT PRESSURE OR FLUE BLOCKAGE if pressure against induced draft blower outlet becomes exces- sive, the pressure switch will shut off the gas valve until acceptable combustion pressure is again available 2. LOSS OF FLAME OR CHAS SUPPLY FAILURE If lose of flame occurs during a heating cycle, when flame is not present at the senor, the control module will recycle the ignition sequence after the sensor cools, than if ignition iu not achieved, it continues to recycle the ignition sequence until flame is established, the thermostat is satisfied, or power is interrupted. 3. POWER FAILURE U there is a power failure during a heating cycle, the system will restart the ignition sequence automatically when power is restored, if the thermostat still calls for heat. 4. INDUCED DRAFT BLOWER FAILURE If pressure is not sensed by the pressure switch, it will not allow the gas valve to open, therefore the unit will not start. if failure occurs during a running cycle, the pressure switch will cause the gas valve to close and shut the unit down. The feeonieg wens coupes, with Stare of Celtorlis Law. Proposition e6 A WARNING: This product contains fiberglass wool insulsttionl Fiberglass dust and ceramic frbers are believed by the State of California to cause cancer through inhalation, Giascwool fibers may also cause respiratory, skin, or eye irritation. PRECAUTIONARY MEASURES • Avoid breathing fiberglass dust. • Use a NIOSH approved dusVmist respirator. • Avoid contact with the skin or eyes. Wear long. sleeved, loose - fining clothing, gloves, and eye protection. • Wash clothes separately from other clothing: rinse washer thoroughly. • Operations such as sawing, blowing, tear -out, and spraying may generate fiber concentrations requiring additional respiratory protection. Use the appropriate t41OSH approved respirator in these situations. Eye Contact • Flush eyes with water to remove dust. it symptoms persist, seek medical attention, Skin Contact - Wash affected areas gently wren soap and warm water alter handing Pub. No. 11t CD19O2.4 Z026 Orifice Twist Drill Size If Installed At Best Level ALTITUDE ABOVE SEA LEVEL , 20005000 W 4000 11000 _ 0000 7000 6000 36 37 38 88 39 40 41 41 37 38 39 39 40 41 42 42 38 39 40 41 41 42 42 43 39 40 41 42 42 42 43 43 40 41 42 42 42 43 43 44 41 42 42 42 43 43 44 44 42 42 43 43 43 44 44 45 43 44 44 44 45 45 46 47 44 45 46 45 46 47 47 48 45 . 48 47 47 47 48 48 49 a22Z2ro' ra'2Si 52 53 54 56 56 2 2 2 2 M 56 59 62 63 64 64 09/17,02 TUE 09:27 FAX 206 442 2448 GENSCO (SEATTLE) Installations above 4,000 feet may eclairs pressure switch change. if required, use the BAYHALT••' Kit (High Altitude Accessory Kit) listed in PRODUCT DATA. TABLE 11 Correction Table for Burner Orifice Drill Sizes for Furnaces Installed at Altitudes 2000 Feat and More Above Sea Level SEQUENCE OF OPERATION Thermostat call for heat ( 2.etetge thermostat) Call for let stage only: R and W1 thermostat contacts close signaling the control module to run site self - check routine. After the control nodule has verified that the let stage pressure switch contacts are open and the limit awitch(oe) contacts are closed, the draft blower will be energized. As the induced draft blower comes up to speed, the pressure switch contacts will close and the ignitor warm up period will begin. The ignitor will heat for approx. 17 woods, then the gas valve is energized in let stage to permit gas flow to the burners. The flame sensor confirms that ignition has been achieved within the 8 second Ignition trial period. As the flame sensor confirm* that ignition has been achieved, the delay to fan ON period begins tinting and after approx, 45 seconds the indoor bower motor will be energized at low speed and will continue to run during the heating cycle. Call for 2nd stags after 1st stage: R and WZ thermostat contacts close signaling a call for 2nd stage heat. After • 30 second delay, the induced draft blower will be energized on high speed and the 2nd stage pressure switch contacts will close allowing the gas valve to bo energized in 2nd stage and the indoor blower motor in high speed. 2nd stage satisfied, 1st stage still called: It and W2 thermostat contacts open signaling that 2nd stage heating requirements are minified. The induced draft blower is reduced to low speed allowing the 2nd stage pressure switch Pub. No. I8- CD19D9.4 INSTAL LER'S GUID contacts to open and the gas valve is reduced to 1st stage. After aprox. 30 seconds the indoor blower motor la reduced to low speed. let stale satisfied; R and W1 thermostat contacts open signaling that 1st stage besting requirements are eatified. The gas valve will close and the induced draft blower will be de- energized. The indoor blower motor will continue to run for the fan off period (Field selectable at 90. 120, 150 or 210 seconds), then will be de• energized by the control module. Thermostat cell for best (1.stege Thermostat) R and WI/W2 (jumpered) thermostat contacts close signaling a call for heat. let stage sequence of operation remains the same as above. 2nd stage heat has a 10 minute delay from the time of let stage ignition. Thermostat satisfied: R end W1/W2 (jumpered) contacts open signaling the control module to close the gas valve and de the induced draft blower. The indoor blower motor will continue to operate at high heat speed for approx. 30 seconds after the flames arc oxtin• guished and then is switched to low heat speed for the remain. ing PAN -OFF period. tat Stage (t.o) Manifold Pressure Adjustment 2nd Stage (Hi) Manifold Pressure Adjustment QJ025 FIGURE 10 LIGHTING INSTRUCTIONS WARNING ;DQMIattempt to manually light the burner. Lighting instructions appear on each unit. Each installation must be checked out at the time of initial start up to insure proper operation of all components. Check out should include putting the unit through one complete cycle as outlined below. Turn on the main electrical supply and sot the thermostat above the indicated temperature. The ignitor will automatically heat, then the gas valve is energised to permit the flow of gas to the burners. After ignition and flame is established, the flame control module monitors the flame and supplies power to the gas valve until the thermostat is satisfied. TO SHUT OFF. For complete shutdown: Turn the gas cock knob on the main gas valve to the "OFF" position (See Figure 10). Disconnect the electrical supply to the unit. CAUTION: Uthisis dune during the cold weather months, previsions must be taken to prevent freeze-up of all water pipes and water receptacles. Page 25 Z W 00 w J = H W 0 u-? Z )— 0 Z H uj U 1:3 ON 0 - W W I O W Z U = O ~ Z GAS FLOW N CUB C FEET PER HOUR 2 CUBIC FOOT DIAL Sec. Flow Sec. Flow Sec. Flow Sec. Flow 8 900 29 248 50 144 82 88 9 800 0 240 51 141 84 86 10 7 ' 31 23 52 138 86 84 82" 11 655 32 225 53 136 88 12 600 33 218 54 133 90 80 13 555 34 212 55 131 92 78 14 514 35 206 56 129 94 76 15 480 36 200 57 126 96 75 16 450 37 1.5 58 124 98 73 17 424 189 5 122 100 72 18 40 In 185 80 120 104 69 19 379 40 62 108 67 20 2 iff REEM 23 360 4i 1 64 112 64 mag 42 SRA 66 109 116 ., 43 167 68 106 1 0 60 70 103 124 58 WM 300 M 160 72 100 128 56 25 288 46 157 74 97 132 54 28 277 47 153 76 95 136 53 27 28 267 48 1 ' 78 92 140 5i 257 49 147 80 90 144 50 DRILL SIZE PART NUMBER DRILL SIZE PART NUMBER t - 0 DWV C)UA (a R7W 0RF0384 45 ORF0694 ORF0499 46 ORF0909 ORF0387 47 ORF0910 0RF0386 49 ORF0503 ORF0488 50 ORF0493 ORF0500 51 ORF0494 ORF0385 52 ORF049S ORF0497 53 ORF0504 ORF0517 54 ORF0492 ORF0408 55 ORF0693 ORF0502 56 ORF0907 ORF0501 57 0RF0908 INPUT RATING RTUH NUMBER OF BURNERS MAIN BURNER ORIFICE DRILL SIZE NAT. GAS LP GAS 4110(0 2 45 56 60,000 3 45 56 80,000 4 45 56 100,000 5 45 56 120,000 6 45 56 TABLE OF CUBIC FEET PER HOUR Cr OAS FOii VARIOUS PIPE SIZES AND LENGTHS PIPE SIZE LENGTH Of PIPE 10 20 30 40 50 60 70 12 X 3/4 132 .92 73 83 56 50 46 278 190 152 130 115 105 88 1 520 350 295 245 215 195 160 1 -1/4 1050 730 690 920 440 400 370 Te411Aeil te eAS20ON MES5Uaf OROP es 0.3 INCH W.Q. ANO oe sp.GR. 0A'o 09.17/02 TUE 09:20 FAX 208 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE START UP AND ADJUSTMENT PRELIMINARY INSPECTIONS With gas and electrical power "OPE" 1. Duct connections are properly sealed 2 Filters are in place 3. Venting is properly assembled 4 Blower dour is in place Turn knob on main gas valve within the unit to the "OFF' pueitinn, Turn the external gee valve to "ON'. Purge the air from the gas lines. After purging, Check all gas connections for leaks with a soapy solution -- DO NOT CHECK WITH AN OPEN FLAME. Allow 5 minutes for any gas that might have escaped to dissipate. LP Gas, being heavier than air, may require forced ventilation. Turn the knob on the gas valve in the unit to the "ON" position. COMBUSTION AND INPUT CHECK 1. Make sure all gas appliances are off except the furnace. 2. Clock the gas meter with the furnace operating (determine the dial rating of the meter) for one revolution. 3. Match the'See" column in the gas flow (in cfh) Table 10 with the time clocked. 4. Road the "Flow" column opposite the number of 'seconds clocked. 5. Use the following factors Imo*: For 1 Cu. Ft. Dial Gas Flow CFH = Chart Flow Reading J 2 For '4 Cu Ft. Dial Gals Flow CFH • Chart Flow Reading +4 For 5 Cu. Ft. Dial Gas Flow CFH l0X Chart Reading • 4 6. Multiply the final figure by the heating value of the gee obtained from the utility company and compare to the name- plate rating. This must not exceed the nameplate rating. 7. Changes can be made by adjusting the manifold pressure or changing orifices (orifice change may not always be required). a. Attach a manifold pressure gauge. b. Remove the slot screw on top of the gas valve for manifold pressure adjustment. c. Turn the adjustment nut in to increase the gas flow rate, and out to decrease the gee flow rate using a 3/32" hex wrench. d. The final manifold pressure setting shall be no less than 3.5" W.C. and no more than 4.0" W.C. with an input of no more than nameplate rating and no less than 98 %of the nameplate rating, unless the unit is Berated for high altitude. For LP gases, the final manifold pressure (outlet) shall be no less than 10.5" W.C. and no more than 11.0" W.0 with an input of no more than the nameplate rating and no less than 93% of the nameplate rating, unless the unit is derated for altitude. Table 8 liens the main burner orifices &hipped with the furnace, If a change of orifices is required to correct too input rate, refer to Table 9. Table 7 NATURAL GAS ONLY Page Y4 Table 8 ORIFICE SIZES Table 9 PART NUMBERS FOR REPLACEMENT ORIFICES TABLE 10 HIGH ALTITUDE DEBATE It may be necessary to change burner orifices due to the altitude of the installation. Ratings of these furnaces are based on sea level operation and should not be changed at elevations up to 2,000 ft. If the installstion is 2,000 ft. or above, refer to National Fuel Gas Code 8.1.2, and Appendix F, Table F4, for proper orifice siting at high altitudes. Pub. No. i - CDi0I)2 .o • .wmm■ Cm 024 • H Z re W UO WW 0 W J H N LL W 0 gQ to 3 I— W 1- 0 Z I— Ul W C.) C3 1-- W W Hr- u. 6 LU to O I- Z 09/17 TUE 09:25 FAX 206 442 2448 GENSCO (SEATTLE) ELECTRICAL CONNECTION) NOTE; The integrated Armee* eewtrol is polarity sensi- tive. The hot leg of the 115 VAC pouter MEW be connected to the BLACK Ae/d lead. Make wiring connections to the unit as indicated on enclosed wiring diagram. As with all pa appliances using electrical power, this furnace shall be connected into a permanently live electric circuit. It is recommended that it be provided with a separate "circuit protection device" electric circuit. The furnace must be electrically grounded in accordance with local codes or in the absence of local codes with the National Electrical Code. ANSI/NFPA 70 latest edition ", if an external electrical source is utilised. Field wiring diagrams are provided on Page 27. All field supplied wiring must conform with the temperature limitation for Type T wire (63° F (35° C)1, when installed in accordance with these instructions and wiring diagrams supplied with the furnace. Refer to the SERVICE FACTS literature for unit wiring dia- grams in addition to the diagram inside the blower door. GAS PIPING This unit is shipped standard for loft side installation of gas piping, A piping knockout is also provided in the right side for an alternate piping arrangement. The installation of piping shall be in accordance with piping codes and the regulations of the local gam company. Pipe joint compound must be seuistant to the chemical reaction with liquefied petroleums gases. Refer to piping Table 7, Page 24, for delivery wises. Connect gas supply to the unit, using a ground joint union and a manual shut •off valve as shown in Figure 9. National codes require a condensation drip leg to be installed ahead of the controls as shown in Figure 9. The furnace and its individual shutoff valve must be discon- nected from the gas supply piping system during any pressure testing of that system at teat pressures in excess of 1/2 psig. The furnace must be isolated from the gas supply piping by closing its individual manual shut-01 valve during any pressure testing of the gas supply piping system at test pressures equal to or less than 1/2 pig. NOTE: Maximum pressure to the gas value for natural gas is 10.5' W.C. Minimum pressure is 5.0' W.C. Maximum pressure to the gas value for propane is 15.0' W,C. Minimum pressure is 11.0' W.C. All gas fittings must be checked for leaks using a soapy solution before lighting the furnace. DO NOT CHECK WITH AN OPEN FLAME! LEFT SIDE PIPING (STANDARD) FIGURE 9 RIGHT SIDE PIPING (OPTIONAL) till 023 INSTALLER'S GUID A TOP VIEW OF RIGHT SIDE PIPING opl.mossimisimimminammint0110 0, morm.111) wart S ® AUTOMATE GM VALVE wmt MANUAL ateutore atlkt3 . rt.H..�ti.UY¢.4..:r:tN4X WIAL,dllti•1 it• r...i_....e Y? 1 09/17/02 TOE 09:25 FAX 206 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE Common Vent Diameter - The total input to the com- mon vent is 135,000 Etu/hr, Using Table J -7, (Com- mon Vent Capacity) read down the Total Vent Height "M" column to 30 feet and across this row to find the smallest vent diameter in the 'FAN +NAT" column that has a Btu/hr rating equal to, or greater than 135,000 Btu/hr. The 4 -inch common vent has a capac- ity of 132,000 Btu/hr and the 5-inch common vent has a capacity of 202,000 Btu/hr. Therefore, the 6 -inch common vent should be used in this Example. Summary - In this Example, the installer may use a 3- inch diameter, single -wall metal vent connector for the water beater and a 4 -inch diameter, single -wall metal vent connector for the furnace. The common vent should be a 5 -inch diameter Type B vent. EXAMPLE 511 • Common Venting Into a Masonry Chimney Problem: In this case, a 35,000 Btu/hr input draft hood - equipped water heater with 2 feet of connec- tor rise and 4 feet of horizontal length is to be common vented with a 100,000 Btu/hr fan - assisted furnace with 3 feet of connector rise and 6 feet of horizontal length. The common vent is a clay tile lined masonry chimney with a 30 foot height. The internal dimensions of the clay tile liner are nominally B inches X12 inches. Question: Assuming the same vent connector heights, laterals, and materials found in Example 5A. what are the recommended vent connector diameters and is this an acceptable installa- tion? Solution: Table J -9 is used to vise common venting installations involving single wall connec- tore into masonry chimneys. Water Heater Vent Connector Diameter. Using Table J -9 (Vent Connector Capacity), read down the Total Vent Height "H" column to 30 feet and read across the 2 -foot Connector Rise "R" row to the first Btu/hr rating in the "NAT Max" column that is equal to or greater than the water heater input rating. The table shows that a 3 inch vent connector has a maxi- mum input of only 31,000 Btu/hr, while a 4 -inch vent connector has a maximum input of 57,000 Btu/hr. A fl- inch vent connector must therefore be used. Furnace Vent Connector Diameter. Using Table J -9 (Vent Connector Capacity), read down the Total Vent Height "k' column to 30 feet and across the 3 -foot Connector Rise "R" row. Since the furnace has a fan - assisted combustion system, find the first "FAN Max" column with a Btu br rating greater than the furnace input rating. The 4-inch vent connector has a maxi- Pegs 22 mum input rating of 127,000 Btu/hr and a minimum input rating of 95,000 Btu/hr. The 100,000 fltu/hr furnace in this example falls within this range, so a fl- inch connector is adequate. Masonry Chimney. From Table J -11, the Equivalent Area for a Nominal Liner size of 8 inches X 12 inches is 63.6 square inches. Using Table J -9 (Common Vent Capacity), read down the "Fan +Nat" column under the Minimum. Internal Area of Chimney value of 63, to the row for 30 foot height, to find a capacity value of 739,000 Btu/hr. The combined input rating of the furnace and water heater, 135,000 Btu/hr, is less than the table volue, so this is an acceptable installation. Pub. Na le.CD1*D24 t i 022 09;17/02 TUE 09:24 FAX 208 442 2444 EXAMPLE 3: interpolating Between Table Values Problem: An installer has an 80,000 Btu/hr input appliance with is 4 -inch diameter draft hood outlet that needs to be vented into a 12•foot high Type B vent. The vent connector has ■ 5-foot lateral length end is also Type B. Question: Can this appliance be vented using a 4•inch diameter vent? Solution: Table J -1 is used in the ease of an all Type B vent system. However, since there is no entry in Table J -1 for a height of 12 feet, interpolation must be used. Read down the 4-inch diameter "NAT Max" columo to the row aseocie tad with 10 -foot height and 6 -foot lateral to find the capacity value of 77,000 Btu/hr. Read down further to the 15 -foot height, 5 -foot lateral row to find the capacity value of 87,000 Btu/hr. The difference between the 15 -foot height capacity value and the 10-foot height capacity value is 10,000 Blu/hr. The capacity for a vent system with a 12 -foot height is equal to the capacity for a 10•foot height glue 2/5 of the difference between the 10 - boot and 15 -foot height values, or 77,000 + 2/5 x 10,000. 81,000 Btu/hr. 'therefore, a 4 -inch diameter vent may be used In the installa- tion. EXAMPLES USING COMMON VENTING TABLES EXAMPLE 4: Common Venting Two Draft Hood - equipped Appliances Problem: A 36,000 Btu/hr water heater is to be common vented with a 150,000 Bt&hr furnace, using a common vent with a total height of 30 feet. The connector rise is 2 feet for the water heater with horizontal length of 4 feet. The connector rise for the furnace is 3 foot with a horizontal length of e feet. Assume single -wall metal connectors will be used with Type B vent. Question What size connectors and combined vent should be used in this installation? Solution: Table J•7 should be used to size mingle•wall metal vent connectors attached to Type B vertical vent. In the vent connector capacity portion of Table J- 7, find the row associated with a 30 -foot vent height. For a 2 -foot rise on the vent connector for the water heater, road the shaded columns for draft hood-equipped appliances to find that a 3- inch diameter connector has a empathy of 37.000 Btu/hr. Therefore, a 3 -inch sinab -wall metal vent connector may be used with the water heater. For a draft hood - equipped furnace with a 3 -foot rise, read across the appropriate row to find that a tldnch diameter vent connector has a maximum capacity or 120,000 Btu/hr (which is too small for the furnace), and a 6-inch diameter vent connector has a maximum vent capacity of 172,000 Btuhr. Therefore, a 6 -inch diameter vent connector should be used with the 160,000 Btu/hr furnace. Pub. No. t8•CD10D34 GENSCO (SEATTLE 1 'NS? GU IDE, Since both vent connector horizontal lengths are leas than the maximum lengths listed in Note 1. the table values may be used without adjustments In the common vent capacity portion of Table .J•7. find the row eetsociated w!th a 30 -foot vent height and read over to the NAT.rNAT portion of the c- inch diameter column to Lind a mneximum-com- blued capacity of 251,000 Btu/hr. Since the two appliances total only 185,000 Btu /hr, a 6.inch canimon vent may be used, itt EXAMPLE 5A: Common Ventinga Draft Hood•eeluipped Water Heater with a Fau•asaisted Furnace into a Type B Vent Problem: In this case, a 35,000 Btu/hr input draft hood. equipped hater heater with 2 feet of connectc r rise: and 4 feet of horizontal length is lac be common vented with a 100,000 Btu/hr fan - assisted furnace with 3 feet of connector rise and 6 feet of hori zontal length. The common vent consists of it 30 -foot rise of Type B vent. The installer would like to use a single-wall metal vent connector. Question: What are the recommended vent diam- eters fnr each connector and the common vent? Solution: - (Table J -7) Water Heater Vent Connector Diameter • Since the watorheater vent connector horizontal length of 4 feet is less than the meet- mum value listed in Note 1, the venting table values may be used without adjustments. Using Table J -7 (Vent Connector Capacity). read down the Total Vent Height "H" column to 30 feet and read across the 2 -foot Connector River "R" row to the first Btu/hr rating in the "NAT Max" column that is equal to. or greeter than, the water heater input rating. The table shows that a 3 -inch vent connector has a maximum input rating of 37,000 Btu/hr. Since this it greater than the water heater input rating, a 3 -inch vent connector is adequate. Furthermore, since the water heater is equipped with s draft hood, there are no minimum input rating restrictions. Furnace Vent Connector Diameter - Using Table J -7 (Vent Connector Capacity). read down the Total Vent Height "H" column to 80 feet and read across the 3-foot Connector Rise "R" row. Since the furnace hats a fan- uhistod combustion system, !ind the first "FAN Max" column with a Dtu/hr rating greater than the furnace input rating. The 4 -inch vent connector has a maximum input rating of 119,000 Btu/hr and a minimum input rating of 80,000 Btu/hr. The 100,000 Btu/hi furnace in this example falls within this range, so a 4-inch connec- tor is adequet«. Since the furnace vent connector horizontal length of 6 feet is less than the. maxi- mum value listed in Note 1, the venting table valves may he need without adjustment If the furnace had an input rating of 80,00013ttuhr, then a Type B vent connector (See Table J -61 would be needed in order to meet the minimum capacity limit. Page 21 si samenswasamstmemesnreiwomwecettete . .4RAtfactP. SWAY {1,1!Ftu�!'r+twrnt�w.m'.�f�,:, vratacv,.,a�+r���t�'��'�'{ Z Z W 6 2 0 0 CO CI W= — i N LL WO N _ O Z � l- O Z1-- v cl O N C1 i— W W Z Ili U= O ~ Z MAR SUE I111211Es OINEM>f01s N LIVIA11 COI EOIINAIINT 1210.1111Telli INCISES AIWA 1DU11 O61MW*s 4 x6 2 •t11 X 9.1• 4 122 5 196 e 7 -- 263 3153 6X 5 6.7'4X64/4 7.4 427 • a sort 5X'2 Cott X'0.1,2 9 618 10 75 5 12 X 12 9.914 X 94/4 1004 533 +1 95 12 X 15 91r2X 19.12 --_, 107.5 12 113 14 103.5 15515 13.114X 13114 154,9 118 16 173.7 15 X20 13X17 16.2 206.1 115 254.4 20 x 20 16.3/4 X 16.314 18.2 210.2 1. 70 314.1 20x24 16.1/2x 914 90.1 22 3901 24 X 24 20.114 X 204n4 Mt 310.1 24 452.3 245 20.1/1 X24.18 91.t 4562 25 X 26 24.112 X 24.1/4 v 26.4 043,3 sr 2725 30530 25.112 X 25.12 274 607 30 705.5 30 X x 25.1!2 X 01.1/2 30,1 7491 33 555.3 3 1.E •� 3Q X 36 91.1115 X 91.111 v 323.4 •� . 9< 101570 09/1702 TUE 09:23 FAX 208 442 2448 GENSC'0 (SEATTLE) INSTALLER'S GUIDE TABLE J -11 MASONRY CHIMNEY UNEA$ OIM S 111430 WItNMIC CULArl EQUIVAL[N1S W '1 5n I nor nzc.O er 1bnalyfrom se shown n is e, toque t diameters may be oelerminee from published tables tot square and eoclanpulw ducts of equivalent sallying cepselry Of by other engineering methods, EXAMPLES USING SINGLE APPLIANCE VENTING TABLES EXAMPLE lr Single Draft Blood•oquipped Appliance Problem: An installer has a 120,000 Btu/hr input appliance with a 5 -inch diameter draft• hood outlet that needs to be vented into a 10 - foot high Type B vent system. Queotton: whit size vent should be axed assuming: (a) a 5-foot lateral single -wall metal vent connector is used with two 90-degree elbows, or (b) a 5-foot lateral single -wall metal vent connector is used with three 90•degree elbows in the vent system? Solution: Table J•2 should be used to solve this problem because single -wall metal vent connector■ are being used with a Type B vent. (a) Read down the first column in Table J -2 until the row associated with a 10 -foot height and 5 -foot lateral is found. Read across this row until a vent capacity greater than 120,000 Btu/hr is located in the shaded columns labelled "FIAT Max" for draft hood•equipped appliances. In this case, a 54ach diamotor vent has a capacity of 122,000 Btu/hr and may be used for this application. (b) U three 90- degree elbows are used in the vent system, then the maximum vent capacity listed in the tables must be reduced by 10 percent (See note 2 for Single Appliance Vents in Exhibit J, Sizing of Page 20 Venting Systems Serving Appliances Equipped with Draft Hoods, Category I Appliances, and Appliances Listed for Use with Type 13 Vents - Venting Tables, Category I, Central Furnaces). This impliee that the 5•inch diameter vent has an adjusted capacity of only 110,000 Btu/hr. In this case, the vent system must he increased to 6 inches in diameter. See calculations below: 122,000 x 0.90 = 110,000 for 5 -inch Vent From Table 3.2, Select 6 - inch Vent. 186,000 x 0.90 0 167,000; This is greater than the required 120,000, therefore, use a 8 -inch Vent when three elbows are used. EXAMPLE 2 • SINGLE FAN•ASSISTED APPLIANCE Problem: An installer has an 80,000 Btu/hr input fon- assisted appliance that must be installed using 10 feet of lateral connector to a 20 -Ft high Type B vent. Two 90c elbows are needed for the installation. Question: Cana single -wall metal vent connector be used far this application? Solution: Table J -2 refers to the use of single -wall metal vent connectors with 'Type B vent. In the first column find the row associated with a 30 -foot height and a 10 -foot lateral. Read across this row, looking at the "FAN Min" and "FAN Max" columns, to find that a 3 inch diameter single -wall metal connector vent is not recommended. Moving to the next larger size single -wall connector 14- inch), we find that a 4 -inch diameter single -wall metal connector has a recommended minimum vent capacity of 91,000 Btu/hr and a recommended maximum vent capacity of 144,000 Btu/hr. The 80,000 Btu/hr fan - assisted appliance is outside this range, no we conclude that a single - wall metal vent connector cannot be used to vent this appliance using 10 feet of lateral for the connector. However, we ace that if the 80,000 Btu/hr input appliance could be moved to within 5 feet of the vertical vent, then a 4 -inch single -wall metal connector could be used to vent the appliance. Table .1-2 shows the acceptable range of tent capacities for a 4 -inch vent with 5 feet of lateral to be between 72,000 Btu/hr and 167,000 fitw'hr. If the appliance cannot be moved closer to the vertical vent, then Type B vent could be used us the connector material. In this case, Table 8 shown that fora 30•Ft vent with 10 feet of lateral, the acceptable range of capacities for a 4 inch diameter vent uttached to a fan - assisted appliance is between 37,000 Ate/hr and 150,000 Btu/hr, Pub. No. le- CD19D2-6 l j o2o Z �Z � W U rn W = CO W 0 u- I— W Z F = .. — W w W U O- O 1— W W u. O Z l .. U = O 1-- Z Total Vent Connector Haight Rise Vent Connector Diameter - 0 (Inches) 3" 4+ 5" 6'r 7" 8" (ft.) (ft.) Maximum Appliance Input Rating in Thousands of Btu Per Hour 810 8 1 21 40 68 J 102 146 205 2 28 53 86 124 178 235 3 34 61 98 147 204 275 15 1 23 44 77 117 179 240 2 30 56 92 134 194 265 3 35 64 102 155 216 298 30 1 25 49 84 129 190 270 and up 2 31 58 97 145 211 295 l____ 3 38 68 107 164 232 321 Venl Gamma. I flp 01! 18! _ 3 ' I •' 1 6' t1464 Canrsya o.rHry • D hntxr.•l 67 , r 6' I r ( to FAN NAT MN - _ 511.1 NAT 1144 FAN App11.fN. MAT Mn Input /141 FAN 400 In Tham1611 NAT M6x N btu FAN Pm mew NAT Mao , FAN NAT Nltt FAN ......... NAT •.� M ` Mix &4Ux Max FAN _ Po Max NAT Ma. 6411 Mtn liA MIA - Min obi Nln Mu Um Me Mn Max 4 I 2 3 NR M NR 1411 NR N4 IZZ RR NR MI NR MI NA X 114 R7: NR NN NN RR 134 153 =2: 119 nil 1 IN 527 143 tN ! 225* 211 3* 321 247 NO I�h 292 366 30* ill 306 +41 J NN NI 342 471 373 557 311 431 2% 294 349 ? 499 591 SCI COG 519 763 205 331 375 13 1 2 3 30 1 2 3 T4# 510 NR N1 NR NA [I MI 96 100 Is 112 337 124 161 t36 170 141 144 13 M 101 199 271 207 291 6t5 316 112 142 141 264 376 277 411 2N 434 Ill tee 213 319 SO2 359 546 369 551 772 r YS 641 456 704 444 158 251 534 175 627 we 434 1144 440 041 300 102 437 fP NI NR NR ' M NP 113111E1111111 NR 247 • 120 110111CRIDDI M 104 91 119 95 4p I va 125 157 192 203 134 214 CC 193 347 201 344 269 3111 415 204 442 700 314 217 640 Iifi. _ 330 M3 344 644 353 729 250 742 312 430 464 442 O04 402 444 too 1040 613 1116 424 1190 464 49C 62t 60 1 2 3 NR N1 MR NR NR MR IN 113 24 123 N 131 =ne� 134 204 130 914 136 231 sad 144 342 IN 405 206 492 130 144 417 252 547 262 546 211 401 191 216 041 320 778 339 404 345 101 Lr ni _ 417 1022 450 1058 440 1000 NR 642 1302 606 1345 610 1306 637 547 25€ ' € Mirwxw* Internal Area of C10n1ney, Swat» IMt*s 12 19 21 J 36 60 40 74 113 FAN FAN ; NAT +FAN 'NAT •NAT FAN FAN , NAT 'FAN 41%1AT1'MAT Co1119904 PAN FAN NAT *PAN •NAT +NAT ANNane4 Input Rating FAN FAN . NAT 4FAN .NAT *NAT In T110utanas of Btu FAN FAN • MAT *FAN •NAT *NAT Pr Mfwr FAN FAN . NAT +FAN •NAT *NAT FAN *FAN FAN NAT •NAT *NAT FAN •FAN FAN +NAT NAT nPAT b man NA T3 28 mil NR 115 . 41 14!1 179 71 NR 255 102 NR 340 142 NN 455 I 14T Nn 571 245 NR 048 NA IN 136 • 51 NR 136 54 P 110. 11 560 206 IN NR 276 • 115 131111LIIIIEDI HEIHEIMI NN NI 633 680 277 300 NR NR 028 lt$CO 406 430 10 15 lailalliall NA $10 105 NR 333 150 NR 460 • 2t0 1!i 602 . 240 NR 772 350 NA 1139 543 20 113111E1111111 NR 247 • 120 110111CRIDDI NR 503 240 NR 645 415 NR 1204 643 HIENEMBHEEI NR 3311 , 1 NR NR NR • NR 413 325 1Y13 821 450 NR 1076 030 NR 1872 910 09!17/02 TUE 09:22 FAX 206 442 2448 GENSCO (SEATTLE) TABLE J•08 Common Vent Capacity Vent Connector Capacity sad Coatsaon Vent Capacity are the Exact $s* Valves Pub. No 18- CD10D.4 Table J.10 Capacity of a Single -Wall Metal Pipe or Type B Asbestos Cement Vent Serving Two or More Draft Hood Equipped Appliances NSI'ALLER'S GUIDE Capacity of Masonry Chimay with Single•WaU Connectors Serving two or more Category I Appliances ' M3L.EJ - OA Vent Connector Capacity Pap 13 01 41 11i o vO Q N J H w 0 Z Z W ON D I— W W U. O .Z U = 0 Z Vans 14410161 III C5174 !Ot N n (N) Von* Co29 c o, Oiamgte • 0 111064; 3• r a• I w i r I I• Is' I tir FAN NAT MVO FAN NAT Max FA Q As NAT Mu 4anca 11441 RMlsq l AN in ThNsan0 NAT Mu N 01u FAN Per How NAT 1444 FAN Mn Ma► NAT Mu FAN NAT Max FM NAT Max Mn Mu 1.411 MU , 11011 3464 a 141 T Mu Mn Mu „6, Air Mu C I 2 3 94 MI 29 45 27 49 21 24 34 35 82 41 72 42 92 s:s 52 106 53 132 55 155 112 120 — 69 164 47 934 59 292 + 101 124 143 97 274 M 324 91 769 141 173 203 104 370 107 436 100 441 [ j 194 479 127 502 120 533 [pax 145 509 319 144 664 376 151 796 439 15 1 2 2 24 44 25 65 25 59 33 31 35 33 52 39 105 41 115 1C8 14 154 66 174 47 169 74 N 102 72 777 74 799 76 319 114 134 153 100 398 103 414 _ 105 442 174 t92 213 125 511 121 554 131 597 CIELIACI 103 ISO 156 116 130 790 297 339 362 164 424 127 099 190 960 175 '115 179 117! 162 1270 432432 484 535 30 1 2 3 ~ 24 54 15 60 ` 25 64 rxad 37 111 36 122 40 131 I :as1 52 NM 64 904 55 211 . l oss 44 357 74 378 74 502 127 145 163 If 504 09 531 101 554 157 306 233 119 660 122 715 135 749 ( ER 145 203 149 825 152 5U 337 375 418 10 1 2 3 23 02 24 94 29 64 21 51 17 36 514 37 147 34 103 .122 81 200 53 225 86 237 gsal 1 47 405 70 421 72 42.1' Enj 92 641 95 604 92 424 [! 1 115 712 170 227 121 234 k1 + 740 1049 142 1085 14'7 1 332 400 429 140 1334 172 1373 176 1421 gig ifx+H 4' 3" j 6' Cowan, VentDaunaew 0 7' e• C 9' FAN FAN NAT +FAN 'NAT +NAT FAN •FAN NAT .MAT FAN .FAN FAN FAN NAT +FAN +NAT /NAT 89 76 64 FAN +FAN 136 FAN NAT 414AT +NAT 113 100 Combined AppParce FAN FAN NAT *FM +NAT +NAT 200 158 144 IMMO 217 1119 174 Input %Mina A4 Thoua4nds FAN FAN , NAT +FAN +NAT•4NAT 304 244 ■ 196 931 260 ' 218 01 Stu Per 1 FAN CAN NAT +FAN +NAF ..NAT 398 310 237 436 342 285 497 .160 .309 FAN NAT +NAT •NAT 541 502 538 429 473 332 373 665 515 4C' 8 98 e7 71 155 117 126 197 112 120 733 S69 460 10 106 94 713 512 396 787 617 4141 15 121 1C8 611 180 159 140 272 41 200 CIELIACI 544 434 357 736 500 459 905 710 553 20 t31 118 01 205 177 155 395 247 223 453 383 1 302 006 467 395 574 673 512 1013 805 626 30 145 132 113 236 202 179 250 286 257 523 444 1 349 703 570 4599 956 790 593 1111 952 723 50 150 145 128 268 233 204 400 237 260 622 529 410 033 688 1 535 *139 954 689 1416 1157 635 I ;Irgi-H 12 19 ' t*numum 22 mwnal MN 0* 016nur . Sawn maws 30 I 50 I 97 I 78 ( 113 FAN .FAN A MR FAN *NAT NAT .MAT FAN .FAN FAN 1 NAT 9657 Cenl*ir 4 1 FAN FAN NAT .FAN *NAT•'MT 49141414 1p.4 Ra1ng FAN FAN i NAT OAR *NAT i'NAT in Duman* Of Btu Par Haw FAN FAN NAf FAN FAN NAT 1FAN 4FAN MOT 'NAT •FAN •T .NAT , -FAN FAN NAT M 'NAT +7 FAN •FAN FAN , 74117 NA7 •NAT NP 74 25 NN 119 ` 419 NM 174 71 NR 257 , 103 NR 351 143 NA 466 *85 NR 1413 562 245 NP 5.53 NR 40 20 NA 130 , SI NA 193 Ot 141 279 i 119 NR 3114 163 NA 501 216 635 774 141 937 40$ TO f4R 84 3t NR 130 ` 66 NR 707 93 NR 269 13t NA 163 177 NR 534 i 239 NR 811 263 NR NR 629 302 761 385 NA NR 1010 1756 454 540 II NR 60 1 06 • NI 142 , 57 NR 233 101 NR 334 152 NR 177 212 N NR 9t 41 NA 159 ( 75 NR 219 • 112 NA iN 1 172 NR 212 243 74i4 46 1 325 NR 258 419 NA 1286 646 21 NA NA ' NR NA NR ( NR Ai4 270 1 137 NA 404 198 NR 243 272 NR 747. 391 NR 969 416 NR 1473 746 50 NR NR • NR NR NR _ NA _ PMI NA NA NR NA ! NR NR 271 7211 NA 031 1 461 NR 7089 806 NR 1892 922 09/17/02 TUE 09:22 FAX 206 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE maiii, Common Vent Capacity Capacity of Masonry Chimney with Type B Doubia.Wall Connecters Earring two or more Category 1 Appliances TABU J•8A Vent Crnnacto7 Capacity TABLEJ -6B Common Vent Capacity Pugs 18 TABLE 41.10 Pub. No.18•CD19D2-I f,Q018 ^VM'W NJ./!7My?1wN4; : t!' tR^ i7' MlriV. 6.ii?l:hriew:....aw,T•1'tNa'S1EY Van1 1 IS) Canino V.At O moeler • 0 4` S' 5• 7' 1 r 4- 1 10' FAN FAN . NA•1 *FAN *NAT •NAT FAN FAN 1 NAT +FAN •NAT!+NAT CpnW41dA905en60 FAN FAN • NAT +FAN 'RAT1 0141 twit N*610 Si Thousand* FAN FAN NAT +FAN 4NAT •NAT SI ON Oar NOW FAN FAN • NAT +FAN 'NAT •NAT FAN FAN 'FAN •NAT Na! ' •PAT FAA FAN NAT •FAN +NAT 1NAT C *2 $1 43 140 116 '03 404 191 147 740 244 200 404 314 • 260 547 434 335 672 600 410 1 101 90 • 73 155 124: 114 224 179 j 153 339 275 223 444 348 710 602 490 ore 740 577 40. 10 110 17 74 169 141 i 124 243 144. 174 307 239 eat 477 377 ■ 315 649 022 404 900 627 475 IS 125 112 • 41 196 164. 144 413 220 ' 406 47/ 592 210 516 444 365 753 012 465 924 733 545 20 134 123 • 102 210 1/3 I 160 314 255 , 229 41e 394 310 973 449 405 662 Cie 523 )034 475 440 30 40 1112 139 , 111 167 153 • 134 v 244 210 1 195 775 244 214 361 297 768 431 953 310 547 449 360 841 547 423 730 565 470 954 708 550 979 941 1184 9 505 705 1200 975 740 1451 Ma 850 100 195 III 7113 411 277 • NA 409 411 1 NR 7$1 C53 470 1025 973 825 1409 1255 600 1784 7602 475 09/17/02 TUE 09:21 FAX 206 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE TABLE J•BA Capacity of Type B Double -Wall Vests with Typs B Daubiu -wall Counselor. Serving Two or more Category 1 Appliances Common Vent Cspaci TABLE J -7A Capacity of Type B Bouble-Wall Watt with Single-Wall Connectors Serving Two or more Category 1 Appliances Pub. No. 18- CD1VD2-4 TABLE J•GB jo Purr 17 3" I 49 ' Vaol COmald' 139614 e• • 014114e) VS(6 Connxtol Manor • 0 040194) I 6• I 7• ' 11 I 9 � I C V4rA 3' 4' I 5 [ 6" --- er 0' ter Vent remoter FAN NAT FAN I NAT FAN AO914lIIn 9411n0 19 IFes n6a010111Per NON NAT FAN NAT FAN NAT FAN H4 R114 FAN NAT PAN NAT FAN NAT FAN . NAT FAN NAT FAN NAT FAN NAT FAN NAT {b {5) Mn Mae Max Min MU I 1/44 MA MOM My MD 56 Mee MOO 114 184 Min Mar 144ex 77 225 142 mr, 92 Mar 7141 Mot '6s 841• 100 Mar 375 Imo 237 IWn 124 Max 486 Na 244 a 1 22 37 24 31 44 40 41 100 72 NR 2 23 41 31 47 15 1 55 40 121 66 80 163 124 70 253 1u 9V 371 223 112 424 762 131 439 315 NR 9 24 44 35 II 01 82 49 132 90 62 118 ISa 42 275 189 07 343 .41 114 433 317 134 075 595 0 1 24 40 27 35 72 7 2 1 46 49 134 II 14 174 109 84 243 148 100 220 191 III 408 240 196 307 104 335 2 23 44 32 34 i 57 51 124 90 4e 195 129 00 759 1 103 306 230 121 454 204 541 564 758 550 3 24 47 36 37 87 64 53 139 001 47 210 145 8I 210 • 1911 105 304 759 123 417 730 143 612 *02 10 1 22 43 24 34 70 613 44 123 71 85 750 '13 69 257 134 108 341 200 12s 435 707 1* (47 314 434 2 23 47 33 76 64 59 51 136 53 57 251 134 91 252 167 109 371 230 124 479 240 '49 791 372 360 3 24 50 37 07 92 ' 67 62 146 104 00 210 150 IA 303 205 1)1 402 268 133 5 342 '52 442 477 15 1 4 S0 30 33 II 53 47 142 63 84 220 120 86 299 III 110 549 214 134 493 273 167 501 333 163 2 24 53 35 33 06 . 43 49 152 99 Si 295 148 91 320 193 •17 419 243 137 532 323 165 058 394 121 , 3 24 55 40 34 102 TI 51 143 111 414 243 140 93 339 218 135 445 296 140 545 365 I67 700 4*4 20 1 01 Si 31 63 40 50 46 151 e7 03 446 039 46 934 171 107 436 224 131 552 295 155 411 347 2 22 57 37 34 105 44 40 147 104 44 259 149 110 354 702 710 453 205 134 507 334 ICI 410 41.1 535 3 23 60 42 35 1 I 74 50 17$ 118 61 271 101 91 311 228 113 464 300 137 918 514 16 /64 466 30 1 20 52 39 31 113 59 40 151 93 61 3203 134 53 391 1112 103 512 236 125 949 305 101 402 372 2 21 44 39 33 1111 70 47 100 110 44 700 164 55 408 175 105 538 282 129 670 300 160 840 434 3 22 N 44 34 123 i 79 40 IN 124 64 309 17$ M 423 442 100 144 317 132 708 405 158 1174 434 50 1 10 77 51 30 137 • 54 43 218 101 57 343 145 19 477 197 47 527 257 120 797 330 144 9114 403 2 21 73 43 32 947 • 74 is 223 1 59 354 172 St 490 23a 100 043 006 123 620 392 14$ 1014 478 3 22 75 44 33 141 08 46 229 134 61 314 104 83 602 263 101 651 343 128 442 441 151 1049 938 100 1 le 92 37 29 139 06 40 202 304 53 444 150 • 1111 204 et 510 266 112 1030 341 135 1255 417 2 14 6 41 30 141 79 4e 247 129 56 447 178 r3 510 242 ea 522 3'4 115 1034 405 135 1306 404 3 20 64 50 31 143 • 19 44 212 131 57 452 200 71 427 572 07 484 355 110 1044 455 143 132 555 09/17/02 TUE 09:21 FAX 206 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE TABLE J•BA Capacity of Type B Double -Wall Vests with Typs B Daubiu -wall Counselor. Serving Two or more Category 1 Appliances Common Vent Cspaci TABLE J -7A Capacity of Type B Bouble-Wall Watt with Single-Wall Connectors Serving Two or more Category 1 Appliances Pub. No. 18- CD1VD2-4 TABLE J•GB jo Purr 17 3" I 49 ' 5• VS(6 Connxtol Manor • 0 040194) I 6• I 7• ' 11 I 9 � I C V4rA 0e001514 Appeal/strew 84939 IF Thbueends of Ste Per How Neip11 Roo FAN NAT FAN I NAT FAN NAT • PAN NAT FAN NAT FAN NAT FAN NAT FAN 1441 H A Mle 6141 , Ain Max 1.1)n Mox I63 MAC M 8445 Min 1443 I/In Mu te) MI Mar Mix Mir 4144 Mu 66n Ater M44 Max 1A4 x_ 8 1 v Po POI 21; NM NA I 46 NR PS , 71 NR 94A 142 207 223 • 140 202 293 143 325 375 234 447 463 296 2 NN NR 31 NR NR : 53 NA M 13 108 162 123 213 251 167 271 331 219 334 422 211 454 524 344 3 Nit NR 34 NR 944 t 02 121 131 141 174 110 134 322 273 IN 279 311 247 341 462 310 400 674 335 15 1 PA NR 29 79 07 ! 02 115 136 41 r 177 214 114 - 230 --- ---- 211 .'T.... 158 312 340 200 207 492 245 550 509 324 2 741 NA 34 93 W : 51 121 160 97 ¶64 72.0 ; 12* 248 334 109 377 411 246 407 522 317 540 645 387 3 8 45 8 4 4 3 9 67 100 1 70 127 130 100 193 243 , 117 255 333 215 331 434 211 411 567 380 679 050 43 x 1 47 10 31 77 110 17 113 174 09 169 270 1 126 224 360 175 216 497 239 375 630 034 521 779 358 2 50 60 37 91 115 57 117 III 100 177 290 112 336 397 208 307 821 374 349 162 319 541 118 425 a 54 64 42 as 119 74 122 163 123 144 300. 172 244 417 235 314 542 301 400 090 394 550 864 462 50 3 40 59 33 75 121 , 40 109 1107 14 152 330 . 157 257 460 150 294 604 246 304 716 314 507 751 364 4 40 71 40 79• 132: 72 114 215 111 170 345 164 296 473 223 294 033 293 376 793 775 520 913 461 3 53 72 46 33 136: 42 119 221 125 171 353 144 236 494 252 304 610 337 317 010 474 535 1013 718 09/17/02 TUE 09:21 FAX 206 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE TABLE J•BA Capacity of Type B Double -Wall Vests with Typs B Daubiu -wall Counselor. Serving Two or more Category 1 Appliances Common Vent Cspaci TABLE J -7A Capacity of Type B Bouble-Wall Watt with Single-Wall Connectors Serving Two or more Category 1 Appliances Pub. No. 18- CD1VD2-4 TABLE J•GB jo Purr 17 09/17/02 TUE 09:20 FAX 208 442 2448 INSTALLER'S GUIDE Parr 18 We Individual Vent for TOO Floor Appliance if GonMetor Requirement for Rise at Total Weit)ht Cannot be lest Use Vent Connector Table Top Floor Appliance Use Vent Connector Table Third Floor Appliance Use Vent Connector Table Second Floor Aaalianse - • Pint Flos► Appliance GENSCO (SEATTLE) TYPICAL VENTING APPLICATIONS (Cont.) Figuro J•12 Multistory Vent Systems (Se* Notes: 9, 1g11,12 and 13) Ansileb a Total Iteitlht for Tp Floor Appisna .4/ Prise pIs sf Oesicn N MWtipory Vests usins Vent Connector led Cowan Vent Design Tables Listed COP Use Available Total Reich% for TOP Plena, *patience and Combined levet of As Appliances on CanMltan Vent Third Interconnection Tee • Available Toth Reich% for Third Floor Appliance and Csirrl6ined I *put of Throe Appliances Of To Floor Appliance is MT Connected, Measure TOW NeiSlrt to Vent TN 1 Second Interconnection Tee • Use Available Tstat Wight for Second Floor Appliance nod Confined Meet Input of Two AppMances First Interconnection Tee • Deafen Vent Connector far First Poor Appietam M an Individual Vent of This Total Weight for Input of First Floor ApplhSnce Tae With Cop Optional *lash In tersatrnestian Tee is Some Site as Segment of Carne en Vent Directly Above Cb016 'Y4'u1�:ti :v4F:ii.�k4�a%:•J 4 Pub. Na 18•CD1AD2.4 O9/17/02 TUE 00:20 FAX 206 442 244$ GENSCO (SEATTLE) AMMO TYPICAL VENTING APPLICATIONS (Cont.) Figure J-11 Muitistory Gas Vent Design Procedure for Each Segment of System (See Notes: 9, 10,11,12 and 19) Vase Ceiwresi Tea • Cremes en Vont Size Hard ers ad Impute Inmate Twe bows. end *wettable Tot Nel*t Sash Wm* • Teal tapers Vent Connector airs Depends on: Input Rise Available Total Height "H" • Table J4 Connectors Rho isat0000d VOW C/weeeler ilia it Ne uNry Pub. No,16CD1*D14 I `g PTINI •Now Too Some Shy IN Swan: •baw •A ehlsTod _,t 4" `tpoolo Rise men 0hZense tMtween Tae i z01s tNSTA►LLER'S GLADE Multistory Gas Vent Design Procedure tot Each Segment of System Common Vent Size Depends on: • Combined Inputs • Available Total Height "H" • Table J-6 Common Vent • Vertical Common Vent with no Offsets Pogo In 09/17/02 TUE 09:20 FAX 206 442 2448 GENSCO (SEATTLE) INSTALLER'S GUIDE TYPICAL COMMON VENTING APPLICATIONS (Cont.) Noto: This is an illustration of a typical manifold vent connector. Different appliance, vent connector, or common vent typos are possible. COnsull the notes for Common Venting. FIGURE J-9 L shall be no grsatt( than eighteen tines the common vent connector manifold insido diafieten i.e. a4• htchincide diameter common vent =maw manitold shall not exceed 72 inchee in length. (Soo Note 3.1 EXAMPLE A: Manifold Common Vent Connector L. 5 18D n1 Nis AMMON _... t ft tix*Ynt. /: Offset Common Vent i Ar s cca FIGURE J•IO C=1 AIP"*ICE 2 Note: This is an illustration of a typical Offset Vent. Different appliance, vent connector, or vent types are possible. Consult the notes for Sinai. Appliance and Common Venting. (21014 W 00 N W = F- N LL W a i F W Z I' I— O Z I— LO ut n p U O- D l- W W H u' tll p 09/1 " /02 TUE 09:19 FAX 208 442 2448 using Table J -7 or J•9 as appropriate. W The draft hood outlet or flue collar of the smallest input appliance shall be located closest to, or under, the common Walt. 20. When a table permits more than one diameter of pipe to be used fora connector or vent, all the permitted sizes shall be permitted to be used. Note; In general, it is preferable to use the smallest TYPICAL COMMON VENTING APPLICATIONS Ta b le J-esh al I be used wh en Type a verse eennsctora are attached to a Type 9 common vent. FIGURE J-5 Note: The appliance may be either Category Pratt Hood equipped or Fan- assisted type. GENSCO (SEATTLE) Note: "A" is the equivalent cross sectional area of the Tile Liner Pub. No. 1a•Ui019D 4 INSTALLER'S GU Il)E diameter permitted to minimize heat toss. 21. Interpolation shall be permitted in ealeuloting capacities for vent dimensions which fell between table entries. 22. Extrapolation beyond the table entries shall not be permit- ted. SEE EXAMPLES ON PAGES 20 TO 22. Table J•7 should bo used when sinple•wsll metal vent connectors are attached to a Typo B Common vent. -J a T CONNECTOR RISE `R AFFIANCE 2 i 1 Note: The appliance may be either Category I Draft Hood equipped or Fan - assisted type. Table 44 shall be used when single•well metal vent connectors are attached to a file l ined masonry chimney. Note: "A" is the equivalent cross sectional area of the Tie Liner FIGURE J -6 Note: The appliance may be either Category I Draft Hood equipped or Fan - assisted typo. 1) 013 Page 13 1 09/17/02 TUE 09:18 FAX 206 442 2448 GEN INSTALLER'S GUIDE Notes for Multiple Appliance Vb...eu (See Tables J -6 W J -10) 1. The maximum vent connector horizontal length Inch of vent. connector diameter ae follows: Maximum Connector Connector Diameter Horizontal Length Pyp 12 (Inches) (mm) 3 (76.2) i (112) 5 (127) 6 (152) 7 (178) f) (203) 9 (229) 10 (254) 12 (305) 14 (356) 16 (406) 18 (457) 20 (508) 22 (559) 24 (610) (Feet) (rot 9. For multiple unite of gas utilization equipment all located on one floor, available total height ( "H') shall be measured from the highest draft hood outlet or flue collar up to tho level of the cap or terminal. Connector rine ("R ") shall bo maaeured from the draft hood outlet or flue collar to the level where the vent gas streams come together. (Not applicable tc multi' story 10. For multistory leetallationa, available total height ('H ") shalt be the vertical distance between the highest draft hood outiet or flue collar entering that segment and the center line Of the next higher interconnection tee. (Sce Figure J -11) 11. The site of the lowest connector and of the vertical vont leading to the lowest interconnection of' the multistory system shall be in accordance with Table J -1 or J.2 for available total height ("H") up to the lowest interconnection. (See Figure J•11). 12. Vertical common vents shall have no offsets when used in multistory system,. 13. When two or more appliarscee are eoneected to a vertical vent or chimney. the now area of the largest section of vertical vent shall not exceed seven times the flow area of the smallest flue collar area or draft hood outlet area unless designed in accordance with approved engineering methods. 1,4. For appliances with more than one input rate, the minimum vent capacity determined from the tables ahall be leek than the lowest appliance input rating and the maximum vent capacity determined from the tables should be greater than the highest appliance input rating. 15 Lieted corrugated metallic chimney liner systeme in ma- sonry chimneys should be sized by using Tables J.6 or J - for Type B vents with the maximum capacity reduced by 20 percent (0.80 x maximum table capacity) and the minimum capacity as shown is Tables J -8 or .1-7. Corrugated mete! venting systems installed with bends or offsets require additional reduction of the vent maximum capacity. (See Note 61 16. The tables included in this part shall be used for chimneys and vents not exposed to the outdoors below the roof line, Exterior chimneys or vents exposed to the outdoors below the roof line may experience continuous condensution de. pending on the locality. Consult local serving gas suppliers, to the authority having jurisdiction. A Typc 8 vent or listed chimney lining system passing through an otherwise un• used chimney flue shall he considered to be an interior vent system. 17. Vent connectors shall not be sized upward more than two size greater than the appliance categorized vent diameter, flue collar diameter, or draft hood outlet diameter. 18, All combinations of pipe sinks, single -wall, and double -wail metal pipe shall be allowed within any connector run(s) or within the comment vent provided sill of the appropriate tables permit all of the desired sizes and types, as if they were used for the entire length of the subject connector or vent. If a siegle•wall and Type B double -wall metal pipe urc used for vent connectors, the common vent must be sited Pub. No.1P.CDi/D7 -4 41*, 8 7'y (1.37) (1.83) (2.29) 9 (2.74) 101/2 (3.20) 12 (3.66) 18r (4.11) 15 (4.57) 18 (5.49) 21 (6.40) 24 (7,32) 27 (8.22) 30 (9.14) 33 (10.06) 36 (10.97) 2. The vent connector shalt be routed to the vent utilizing the shortest possible route. Longer connectors than those listed above are permitted under the following condition,: (a) The maximum capacity of the vent connector shall not be reduced mere than 10 percent for each additional mul- tiple of the length listed above. For example, the maxi- mum length listed above for a 4 inch (120 nun) connector is 6 feet (1.83 m). With a connector length greater than 12 Feet (3.66 mm) but not exceeding 18 feet (5.49 tn), the maximum capacity must be reduced by 20 percent (0.80 x maximum vent capacity; (b) The minimum capacity shall be determined by referring to the corresponding single appliance table (Tables J - 1 to J - 2). In this case, for each appliance the entire vent connector and common vent from the appliance to the vent termination shall be treated as a aiogle appliance vent, as if the other appliances lento not prevent. 3 If vent connectors are combined prior to entering the com- mon vent, the maximum common vent capacity listed in the common venting tables shall be reduced by 10 percent (0.90 x maximum vent capacity). (See Figure J -9), The length of the common vent connector manifold (L.)shall not exceed I% feet (18 inches) (457 mm) for each inch (25,4 mm) of common vent connecter manifold diameter (D). 4, If the common vertical vent is offset as shown in Figure J - 10, the maximum common vent capacity Hated in the common venting tables shall be reduced by 20 percent (0.80 x maxi- mum vent capacity), the equivalent of two 90 degree 11.57 red) elbows. The het irontal length of the common vent offset shall not exceed 1 t9 feat (457 mm) for each inch (25.4 mm) of common vent diameter. 5. Excluding elbows counted in 14) above, for each additional elbow in excess of two, the maximum capacity of that portion of the venting system shall be reduced by 10 percent. Note: Two 45 degree (0.79 rad) elbows are equivalent to one 90 degree (1.57 red) elbow. 6. The common vent diameter shall be at least as large as the largest vent connector diameter, SCO (SEATTLE 7, Interconnection fittings must be the se me size as the com- mon vent 8. Sea level input ratings shall be used when determining maximum capacity for high - altitude installation. Actual input (dimmed for altitude) shall be used to determine minimum capacity for high - altitude installation. QJ012 Z 1Z 00 N CO N il. W . u 22 a � Z � ZI uj U ON 0 l- W H IO W Z O F- Z Ia sa itt 823 a NNOalNO 0 15 5 10 15 20 4 10 2 5 10 15 ai 'atitN0 a <ANO I Haight Lat ral 'H" (n.1 (n.) lEnlfx] n3314t ; nii3> Ai:;ANIS& fgili3* ielt131G BiS ZZ Z Z Zv0 3 issts OiOJNs. Qa+eer 76 61 56 49 70 1 56 51 Vent Diameter - b (inchoo) J 126 102 95 86 165 194 141 131 170 141 128 262 210 194 180 q In Thouwnde of btu Pot Hour _ 1 7' gvnsta s yy i N n gigcll ({pp gg ttl'aiaoo Oq 0ISIEO2 6§1 QIli O6 Ntaill § 542 451 430 406 500 415 d15 390 0 §g0000 lArgi§00 NOOt+l fB g_giil+gi EgFr OZ RH EH NOTICE: IF THE NOTICE IT IS DUE TO I THAN THIS NOTi THE QUALITY OF THE DOCUMENT. M z cn c.) 0 Nd9M1 N 15) " II 111 ___. W ent O.m401a 0t.mt 4• I___ • 0 (inchal) 6 " 01 FAN Min Mao 1 Stu Per NAT flan !tou• 5AN I . NAT Man --_L Appliance FAN Mn Mau NAT •aa Input Ra11rq FAN Alit Ma. In Th0VM.d• NAT 5651 Min Mar 0 0 NR 61 4* 45 59 151 N0. 05 213 110 125 373 24• NR 2 4 NH 35 50 96 NR 55 156 104 123 231 • KAat °Azzz 01 4 NR IC3 33 74 92 5 102 132 102 146 225 r 71. 103 {N• I71• I60• Nri 0 NR zrfziz 31 u 46 OaftaZZI 1 147 19 142 220 I6 4 0 107 11 2 114 33' 0 93 03 273 154 123 412 234 174 2 N R 12• 77 . NN It 34' 7S Id 175 119 171 251 179 S 26 243 41. s 59 107 153 114 151 252 171 6 79 "• A 0 54 1731 101 107 175 2.13 193 10 0 37 97 53 57 174 10 NR N11 165 120 44 234 275 2 39 111 41 Se 117 NN 61 120 119 257 164 IN 5 42 00 39 79 III 23 NR 122 146 277 166 144• 10 NR NR 34 47 100 30 51 135 112 160 201 171 15 0 1 30 190 121• 100 114 400 293 NR 2 $ NR 57 135 101• re 145 115 337 224 224 5 Y S 75 194 30 C H 440 144 326 217 219 10 C Nit 95 110 131 142 309 203 209 15 330 3 NR NR 124 220 290 t92 20 c 20 0 U4• NR 212' 114 957 z NR 1 NA 124• D 116• 20 14 113 173 5 160• 1n 5 29 141 353 ■ t 10 7ANTA n Internal 10 • 3 ♦ Ana of 12.1t..0 • n7 344 10 Is 30 4o }•n l.shw 19 .0 3 325 20 AM 4f Memo • 40 00 45 137 55 454 309 • PIw1101t7 or anti a.4..4■ane 76 370 0 110 61. 78 211 13 t05 429 99 271 20 136 417 C 3 122 255 37 1 71 297 K S C 101 250 44 206 377 III 223 53 249 357 NR M F3 NR NA 91 213 73 394 0 105 629 53 101 73 316 It 104 195 70 174 91 306 27 1 31 412 O 55 160 116 202 s 142 411 S t 112 149 145 275 42 on 41 NR M 176 207 60 236 120 ` M M R N J M 69 315 376 1•e1O•1 h I RI 3 • 4 . - 6 . 5 " 1141414 L.urd ' 11 101 L (nt RAN Mm • Nu NAT 44.. PAN - NAT 7101 • Mu Mn PAN N1. • flu .5145 NAT PAN Mtn • Mu NAT M. 4 2 ' // NR 61 4* 19 NR - NR N0. NA Nit tA4 4 N3 . 24• NR NR 4 NH / 01 47 42 At' 44• NR 116 10 0 aa. 20 1 n 10 In __2 NR • KAat °Azzz 01 NR IC3 v9 901 154 )sy 151 LI ICI 5 NR NR NA NR 111 NA 71. 103 {N• I71• I60• Nri 03 NR zrfziz 147 10 NR OaftaZZI 209 111.4k .nn harm! 4..4 01 Ch)...., • 603... )mho. 45. I6 ` 20 _ I6 4111314n IM4rn. Al'. of 0644747 • Pier. .64M• 49 107 11 2 114 33' 0 47 ' 113 174 In N R 12• 77 . NN It 34' NR 108 Y5 NN 109 161 131 tS NA 26 243 41. 5 1 57• r 13A 20 3 1 34' 115 79 "• A 0 200 3 39 35• 57 109 64 247 (0 161 10 NR N11 NW 176 66• NH 275 169 NA 1 13 2 NN 61 NR 110 41 23 IN 129 145 au NP S 23 NR 32 113 77 41 144• 30 0 n S 10 30 51 135 41 104 211 3 174 115 1* 0 121• *OD t 71 10 NR cs AZ NR 197 $ NR 113• a YH 2 101• re IS 139 93 20 224 190 Cr 106• 30 C Y 30 130 47 If 219 NR C Nit 30 2 10 . C z Z7. „zzzz 121 .7 100• 209 135 330 3 16 1 113 76 260' 10 11R 20 0 U4• NR 212' t0 z NR NA 124• D 116• 20 14 149 NA 160• 1n 5 29 u3 NR ■ t NR 7ANTA n Internal 10 • 3 ♦ Ana of 12.1t..0 • 12 8 10 21 30 4o }•n l.shw 19 .0 124 MAs etmluternal AM 4f Memo • 40 00 45 137 55 III 1514474 I6e546 • PIw1101t7 or anti a.4..4■ane 1•e1O•1 h I RI II• 4' 3• 1 ' N.ient Leon )' 12 tit) L fro _Oka 3431 . M 4_1441�k.1 NAT VAN • Mu NAT Mal..C. VAN • M.n NO • . �j HAN 004 • Mn NAT mu 4 2 5 Nit as 50'� NR 61 4* NR 01 - NR l60 117 ' 10 1 3 1 Nit It 26• 2N NR f - -g1 ■ NH 0 2S1 NR IS S P 10 15 NH 35' A6• 26• Na NR 47 42 At' 44• NR 114 157 a7 II' _ NR aa. 20 1 n 10 In __2 NR • KAat °Azzz NR NR 194 114 501 07 13 v9 901 154 )sy 151 LI J 0 15 0D 30 NA ♦a:zza:z NR :.:.zacie �r•zzx NR 137 161• 115 107• P1 NR NI 71. 103 {N• I71• I60• Nri 50 0 6 10 15 90 3o NR zrfziz NR M NR OaftaZZI 209 111.4k .nn harm! 4..4 01 Ch)...., • 603... )mho. 13 4 I6 ` 20 _ 31 4111314n IM4rn. Al'. of 0644747 • Pier. .64M• 49 81 • 137 _ 114 • Pn441b12ty .1 44010416464 446,144648144 1•e1O•1 h I RI 121N31 1. IRI Vent Connecter Darrow • 0 POGO 3 I • ' .• -- Appiance FAN NAT Mu 17961 Rang 34x4 in NAT Mu nomads of rAN Ow Hr NAT Mu N01. FAN NA7 Met Min Mao Min Mar Mn Mu MMn M0a 6 0 46 0 152 b 0 2S1 0 375 206 2 30 15 07 0? 47 157 32 232 157 A P 34 30 94 64 30 163 8 50 221 103 6 32 39 91 91 47 149 59 223 tom 6 0 0 155 106 0 410 2 14 109 120 26 243 5 r 52 103 115 63 240 A 0 39 90 109 64 247 (0 0 0 46 0 176 100 0 275 169 2 le 61 17 110 41 23 IN 129 S 23 57 32 113 77 41 197 124 n S 10 30 51 41 104 70 64 174 115 1* 0 0 151 112 0 327 197 2 IS 139 93 20 224 190 5 C Y 30 130 47 If 219 142 C M 10 4D 121 62 51 209 135 16 44 113 76 51 196 126 20 0 n 202 D 14 149 5 29 u3 10 3 ♦ 31 133 8 19 .0 124 00 55 116 0 213 13 164 20 MIS 0 R 3 37 160 C S C 44 141 53 '32 F3 113 0 216 It 169 27 177 C 36 166 S t 42 166 60 149 --• 69 131 -J.-- - 09/17 )8 442 2448 1l TABLE .1 - 1. Capacity _.Type .. Double -Wall Vents with Type B Double - Well Connectors Serving a Single Category I Appliance Page 1l1 TABLE J•7 Vent C aaileIiwa 5ery ag A Oates Appl o. Connector D1atoc543 t 0 In i4.h1.1 • Ti be ut44 unlit Charmer areas within nn !units et bode. GENSCO ( SEATTLE ) TABLE J -2 Capacity of Type B Double-Wall Vent* with Single -Wall Metal Connectors Serving a Single Category 1 Appliance TABLE J'4 Capacity et Masonry Cblmn.y with 211ngl.•Nall Vont Colosseum Porting A Slagle Category I A/pli.noo Conowt.r Diuul.r (0 in Ins1144) • Tuba used with Chimney UMW •.ithinwu bait. .41naom Pub. No. 1,0•CDIODf•4 [it1010 09/17/02 TUE 09:113 FAX 208 442 2448 TYPICAL Table J -1 shall bo used when Type a Double•WaS Vent PIpeiaused kith the vent ocetnecior and the vent. Note: The appliance may be either Category I Draft Hood equipped or Fan-assisted type. FIGURE J.1 Table Ja shall be used when a Type i3 Oouble•WaI Vent Connector is attached to a Tug Lined Masonry Chimney. Viut Comer Tie -Lbws masonry Mine/ Note: "A" is the equivalent cross sectional area of the Tile Liner Note: The appliance may be either Category Draft Hood equipped or Fan•apittled type. FIGURE J.3 Pub. No. le Cb1913e4 GENSCO (SEATTLE) INSTALLER'S GUIDE, VENTING APPLICATIONS TebM J•2 shall be used when a Single Wail Metal Vont Connector is attached to Type 8 Oouble•wa) Vent. FIGURE J.4 Note: The appliance may be either Category I Draft Hood equipped or Fan - assisted type. FIGURE J•2 Table J4 shall be used when a Single-wall Metal Vent Connector is attached to a Tile Lined Masonry Chimney. T ir Chaim, H Note: "A' is the equivalent cross sectional area of the Tile Liner Note: The appliance may be either Category l Draft Hood equipped or Fan•assisted type. Page 9 2009 09/17/02 TUE 09:15 FAX 206 442 2448 INSTALLER'S GUIDE SIZING OF VENTING SYWTEt tS SERVING APPLI- ANCES EQUIPPED WITH DRAFT HOODS AND AP• PLIANCES LISTED FOR USE WITH TYPE B VENTS Definitions. The following definitions apply to tables in the venting portion of this Installer's Guide: Fazs- Assisted Combustion System - An appliance equipped with an integral mechanical means to either draw or force products of combustion through the combustion chamber and/or heat exchanger. FAN Min. - The minimum appliance input rating of a Category 1 appliance with a fan•assieted combustion system that could be attached to the vent. FAN Max. - The maximum appliance input rating of a Category I appliance with a fan•assieted combustion system that could be attached to the vent. NAT Max. • The maximum input rating of a Category I appliance equipped with a draft hook that could be attached to the vent. There are no minimum appliance input ratings for draft hood equipped appliances. F'AN +FAN • The maximum combined appliance input rating of ono or more fan•asaistad appliances attached to the common vent. FAN #NAT • The maximum combined appliance input rating of one or more fan•assiatad appliances attached to the common vent. NAT +NAT - The maximum combined input rating of two or more draft hood equipped appliances attached to the common vent. NA - Vent configuration is not recommended due to potential for condensate formation and/or pressurization of the venting system. NA • Vent configuration is not applicable due to physi- cal or geometric constraints. Notes for Single Appliance Vents: (See Tables J -1 to J -5) 1. If the vent size determined from the tables is smaller than the appliance draft hood outlet or flue collar, the smaller size filial! be permitted to be used, provided: (a) The total vent height Cr) is at least 10 feet; (b) Vents for appliance draft hood outlets or flue collars 12 inches in diameter or smaller are not reduced more than one table site; (c) Vents for appliance draft hood outlets or flue collars above 12 inches in diameter are not reduced more than two table sizes; td) The maximum capacity listed in the tables for a fan - aseieted appliance is reduced by 10 percent (.09 x maximum table capacity); (a) The draft hood outlet is greater than 4 inches in diameter. Do not connect a 3 inch diameter vent to a 4 inch diameter draft hood outlet. This provision ( "e ") shall not apply to fan - assisted appliances. 2. Single appliance venting configurations with zero (0 ") lateral lengths in Tables J•1, J -2 and J•5 shall have no Page 8 GENSCO (SEATTLE) 5. elbows in the venting system. For vent configurations with lateral lengths, the venting tables include allowance for two 90 degree (1.57 red) elbows. For each additional 90 degree (1.57 rad) elbow, or equivalent beyond two, the maximum capacity listed in the venting table should be reduced by 10 percent (0.90 x maximum table capacity). Note: Two 45 degree (0.79 rad) elbows are equivalent to one 90 degree (1.57 rad) elbow. 3. Zero ( "0 ") lateral ( "L ") shall apply only to a straight vertical•vent attachment to a top outlet draft hood or flue collar. 4. Sea -level input ratings shall be used when determining maximum capacity for high - altitude installation. Actual input (derated for altitude) shall be used to determine minimum capacity for high altitude installation. Numbers followed by asterisk (•) in Tables J -3, J•4 and J- 5 indicate the possibility of continuous condensation, depending on locality. Consult local serving gas supplier or local codes. 6. For appliances with more than one input rate, the mini- mum vent capacity determined from the tables shall be greater than the highest appliance input rating. 7. Listed corrugated chimney -liner systems in masonry chimneys shall be sized by using Tables J -1 or.f •2 for Type B vents with the maximum capacity reduced by 20 pier• cent (0.e0 maximum table capacity) and the minimum capacity as shown in Tables J -1 and J -2. Corrugated metal venting systems installed with bends or offsets shall have their maximum capacity reduces. (See Mote 2). 8. It the vertical vent has a larger diameter than the vent connecter, use the vertical vent - connector diameter to determine the minimum vent capacity and the connector diameter to determine the maximum vent capacity. The flow area of tho vertical vent shall not exceed seven times the flow area ofthe listed appliance categorized vent area, flue collar area, or draft hood outlet area, unless deeig• naiad in accordance with approved engineering methods 9. The tables included in this part shall be used for chim- neys and vents not exposed to the outdoors below the roof line. Exterior chimneys or vents exposed to the outdoors below the redline may experience continuous condensa- tion depending on locality, Consult local serving gas suppliers, or the authority having jurisdiction. A Type B vent or listed chimney lining system passing through an otherwise unused masonry chimney flue shall be consid• crod to be an interior vent system. 10. Ventconnectors shall not be sized upward more than two sizes greater than the appliance categorized vent diam- eter. flue collar diameter, or draft hood outlet diameter. 11. in a single run of vent or vent connector, more than one diameter and type shall be permitted to be used provided that all the sizes and types are permitted by the tables. 12. Interpolation shall be permitted in calculating capacities for vent dimensions which fall between table entries. 13. Extrapolation beyond the table entries shall not be per- mitted. SEE EXAMPLES ON PAGES 20 TO 22. Pub. No. 18- CD19D2.4 Zooa Z ~ W lY� 00 co 0 .—I w x N WO g Q _ Z F O Z W U ON O I— W W I- Liz 111 Z = 0 Z Type Furnace Tile Lined Chimney Chimney Lining Internal External 'B" Vent Flexible Metnl Liner Single, Fan Assist No No Yes *Yee Fan Assist Fan Assist No No Yes *Yes .. Fan Assist Natural _ Yes No Yes 'Yes 09/17/02 TUE 09:14 FAX 206 442 2448 GENSCO (SEATTLE) g. If improper venting is observed during any of the above tests, the venting system mtut be corrected, All vent installations trust be in accordance with the 'latest edition" provisions of the National Fuel Gas Code, ANSI Z223.1 section 7 andlor CANtCGA 5149 Installation Codes or the Vent Tables. The furnace shall be connected to a factory built cbima ey or vent complying with • reeoiRnised standard, or • masonry or concrete chimney lined with a lining mate- rial acceptable to the authority having jurisdiction. NOTE: Furoewe venting into on unlined masarery chim- ney or concrete chimney is pnvAibited. VIENTfl4G INTO A MASONRY CHIMNEY If the chimney is oversized, the liner is inadequate, or fluo•gas condensation is a problem in your area, consider using the chimney as a pathway or chase for type "B" vent or flexible vent liner. If flexible liner material is used, size the vent using the "B" vent tables, then reduce the maximum capacity by 20% (multiply 0.80 times the mazdmunx capacity). MAit1 C VENTING • Flesibis *Mainly liner sine is determined by using the type "B vent sire for the tveiiabte aR'U1i input, then miming the mnt amen empathy by 20% (multiply m•xttunt eap•rity boss 0.801. The mtntmum capacity in Ow Mena ea shown in the "B" vent table.. Internal Masonry Chimneys Venting of fan assisted appliances into a lined, internal ma- sonry chimney is allowed only if it is common vented with at leant one natural draft appliance; OR, if the chimney is lined with type '13", double wall vent or suitable flexible liner mate- rial. (Sec Table 5). NOTE: The chimney liner most be thoroughly inspected to insure no cracks or other potential areas for flue gas leaks are present in the liner. Liner bake will result in early deteriora- tion of the chimney. Eternal Masonry Chimney Venting of fan assisted appliances into external chimneys (one or more walls exposed to outdoor temperatures). requires the chimney be lined with type "8 ", double well vent or suitable flexible chimney liner material. This applies in all combina- tions of common venting as well as for fan assisted appliances vented alone. The following installation practicer are recommended to mini- mize corrosion caused by condensation of flue products in the furnace and flue gas system. 1. Avoid an excessive number of bends. 2. Horizontal runs should pitch upward at least 114" per foot. 3. Horisontal runs should be as abort as possible. 4. All vent pipe or connectors ehbuld be securely supported and must be inserted into, but not beyond the inside wall at the chimney vent. Pub. No. I1- CD1f)S.4 INSTALLER'S GUIDE 5. When vent connections must pass through walls or partitions of combustible material, • thimble must be used and installed according to local codes. 6. Vent pipe through the roof should be extended to a height determined by National Fuel Gas Code or local codes. It should be capped properly to prevent rain water from entering the vent. goof exit should be waterproofed. 7. Usc type "B" double wall vent when vent pipe is routed through cool spaces. (below 60 °F). S. Where long periods of airflow are desired for comfort, use long fan cycles instead of continuous airflow. 9. Apply other good venting practices as stated in the ventidg section of the National Fuel Gas Code ANSI Z223.1 "latest edition ". 10, Vent connectors serving appliance vented by natural draft ornon•positivepressure shall not be connected into any portion of a mechanized draft system operating under positive pressure. 11. Horizontal pipe runs must be supported by hangers, straps or other suitable material in intervals at a minimum of every 3 feet of pipe. 12. A furnace shall not be connected to a chimney or flue serving a separate appliance designed to hum solid fuel. 13. The flow arca of the largest section of vertical vent or chimney shall not exceed 7 times the smallest listed appliance categorized vent area, flue collar area, or draft hood outlet area unless desipled in accordance with approved engineering meth- ods. Maximum Vent or Tile _ xiD"): Lined Chimney Flow Area ..^-7•••• X 7 •Or.heat..5,id, ecru. r. Cut cellaidiuuater,ar Maud eppNnu. Aleno irod.nnrd,emeur TABLE 6 GAS VENT TERMINATION ROOF MOH %AT TO 7112 OVER 7112 TO E212 OVIR art2 TO 9/12 OVER S/12 TO 10/12 OVER 10112 TO 11/12 OVER 11/12 TO 12/12 oven 12/12TO 14/12 OVER 14/12 TO 16/12 OVER 16/12 TO 10/12 OVER 18/1210 20/12 OVER 20/12 TO 22/I2 1116111 Yla HE1oKT 1,0 FEET • 1.5 FEEL 2.0 FEET 2.6 FEET 3,25 FEET 4.0 FEET 5.0 FEET 6.0 Feel 7.0 FEET 7.5 FEET 8.0 ?EMT • THIS RcoueoAENT COVERS ." INSTALLATIONS ti!) 007 Pare 7 09/17/02 TUE 09:14 FAX 208 442 2448 INSTALLER'S GUIDE Typical Bottom Return Filter Typical Horizontal Horizontal Filter FIGURE 7B GENSCO ( SEATTLE FIGURE 7A VENT PIPING These furnaces have boon classified as Fan•Asaietod Combus- tion System, Category I furnaces ander the latest edition" proviaione of ANSI Z21.47 and CA2N/CGA 2.3 standards, which operate with a non - poeitive vent static pressure and with a flue lose of not lees than 17 percent . NOTE; If desired, a sidewall termination can be accomplished through the use of an "add•on" draft inducer. The inducer must be installed according to the inducer ananulihcturers inetruc- tione. Set the barometric prseure relief to achieve .0.02 inch water column. NOTE; When an existing furnace is removed from a venting system serving other appliances, the venting ayate n is likely to be too large to properly vent the remaining attached appliances. The following steps shall be followed with each appliance connected to the venting eystene placed in operation, while any other appliances connected to the venting system are not in operation: a. Seal any unused openings in the venting system; b Inspect the venting syetsro for proper sic, and horizontal pitch as required in the National Fuel Gas Coda, ANSI Z223.1 or the CAN /CGA 6148 Installation Codes and these tnatruc- Pere 6 FILTER RETAINER BRACKETS FOR SIDE AIR RETURN If side air return is desired, it is necessary to move the 2 filter retainer brackets from the bottom of the furnace and reinstall them on the side. The following instructions should be used: a. Remove the front doors. b. Remove the filter. c. Carefully place the unit on its back. d. Using a 5/16` nut driver, remove the 4 screws holding the filter retainer brackets. e. Reinstall the filter retainer brackets on the desired side (See Figure 7A "Typical Side Return Filter"). GENERAL VENTING INSTRUCTIONS tions. Determine there is no blockage or restriction, leakage, corrosion and other deficiencies which could cause an unsafe condition; c. in so far as is practical, close all building doors and windows and all doors between the space in which the appliance(s) connected to the venting system are located and other spaces of the building. Turn on clothes dryers and any appliances not connected to the venting system. Turn on any exhaust fans, such as range hoods and bathroom exhausts, so they will operate at maximum speed. Do not operate a summer exhaust fan. Close fireplace dampers; d. Follow the lighting instructions. Place the appliance being inspected in operation. Adjust thermostat so the appliance shall operate continuously; *. Test for draft hood equipped appliance spillage at the draft hood relief opening after 5 minutes of main burner operation. USA the flame of' a match or candle; f. After it has been determined that each appliance remaining connected to the venting system properly vents when tested au outlined above, return doors, windows. exhaust fans, fireplace damper* and any other gee- burning appliance to their previous condition or use; Pub. No. I11- CPIVD2 -4 0 008 �, . ace•.. Mm.0125.vwo-etsra"rnmu+eRtfawe+men a,0c;aWA rx+,rwee,t-w .a[+dr.& MODEL CABINET WIDTH FILTER SiZE 'UD060R836H 14.1/2" 1 - 16 X 25 X 1 ' 'UD080R936H 'UD080R948H 'UD1005936H 17.t12" 1 • 17 X 25 X 1 'UD100R948 I 'UD100R960H 'UD120R954H 21" 1 - 20 X 25 X 1 'UD100R961 H 'UDI2014960H 'UD140R960M 24 -112" 1 - 24 X 25 X 1 ' • First Tatter may be 'A" or "T" 09/17/02 TUE 09:13 FAX 208 442 2448 DUCT CONNECTIONS Mr duct systems should be installed its accordance with stan- dards for air conditioning systems, National Fire Protection Association PamphlotNo, 90. They should be sized in accordance with ACCA Manual D or whichever is applicable. Check on controls to make certain they are correct for the electrical supply. Central furnaces, when used in connection with cooling units, shall be installed in parallel or on the upstream side of the cooling units to avoid condensation in the heating element, unless the furnace hoe been specifically approved for down- stream installation. With a parallel flow arrangement, the dampers or other means used to control flow of air .hall be adequate to prevent chilled air from entering the furnace, and if manually operated, must be equipped with means to prevent operation of either unit unless the damper is in full heat or cool position. On any job, flexible connections of nonflammable material may be ueed for return air and discharge connection. to prevent tranamiaeion of vibration. Though these units have been epecifr- cally designed for quiet, vibration free operation, air ducts can act as sounding boards and could, if poorly installed, amplify the slightest vibration to the annoyance level. When the furnace ia located in a utility room adjacent to the living area, the system should be carefully designed with rename which minimize noise transmission through the return air grille. Although there winter air conditioners are designed with large blowers operating at moderate epeeds, any blower moving a high volume ofair will produce audible noise which could be objection- able when the unit ie located very close to a living area. It i often advisable to route the return air ducts under the floor or through the attic. Such design permits the installation of air return remote front the living area (i.e. central hall). When the furnace is installed so that the supply ducts carry air circulated by the furnace to areas outside the space containing the furnace, the return air shall also be handled by a duct(e) sealed to the furnace and terminating outside the space contain- ing the furnace. Where there is no complete return duet system, tba return connection must be run full rise from the furnace to a location outside the utility room, basement, attic, or crawl space. Do Not install return air through the back of the furnace cabinet. RETURN AIR DUCT CONNECTION 1. Set the furnace in place, 2. For side return installations, remove the insulation around the opening in the blower compartment.. 3. The side panels of this furnace include locating notches that are used as guides for cutting an opening for return air, Refer to Figure 6 and the outline drawing on page 28 for duct connection dimensions for various furnaces. 4. Ifs 3/4" flange is to he used for attaching the air inlet duct, add to can where indicated by solid linos in FIg. 6. Cut corners diagonally and bend outward to form flange. 5. If flanges are not required, and a filter frame is installed, cut along knockout guidelines. 6. The filter retainer is factory supplied for bottom return. Use the filter retainer on side or bottom if filter it to be used within the furnace cabinet. Pub. No,111•CD1W2•4 GENSCO ( SEATTLE ) TABLE 4 Ll005 IN TALLER GUI E LOCATiNO NOTCHES PROVIDED FOR SiDE RETURN CUTOUT a� • SEE OUTLINE DRAWING r CUT OUT FOR SIDE N LTER FRONT of Furnace FIGURE 6 All return air duct systems should provide for installation of return air filters. 7. Connect duct work to furnace, See Outline Drawing on page 28 for supply and return duct size and location. Flexible duct connectors arc recommended to connect both supply and return air ducts to the furnace. if only the front of the furnace ia accessible, it iv recommended that both supply and return air plenums are removable. 8. When replacing a furnace, old duct work should be cleuned out. Thin cloths should bo placed over the resistors and the furnace fan should be run for 10 minuted:. Don't forget to remove the cloths before you start the furnace. RETURN AIR FILTER Furnaces are factory supplied with a high velocity clean ble type air filter which may be located within the furnace blower com- partment in either a BOTTOM or SIDE (left side or right aide) return air inlet. Some Mors may need to be trimmed for side or bottom filter use. To replace alter, remove the blower access door, Push the filter back and up to clear the front filter retaining bracket. The filter will flex (or bow), Gently pull the filter out. Replace the filter in the game manner, making sure that the filter is secured in both front and back brackets. Replace the blower Recess door. Use high velocity replacement filter only. Pugs 5 re J U 0 O U) J N LL W g Q 5/2.a I— W Z� Z O LU U ON O 1- W W I - LLO .Z W U = O ~ Z ■ Furnace Mosllnum STUN/INPUT REMO 41 AP Prom Outside Horizontal Duet VertINN Dust 40,000 S0.000 80.000 100.000 S al 120.000 140,000 09/17/02 TUE 09:12 FAX 200 442 2448 INSTALLER'S GUIDE' CONFINED LESS /HAN 50 CU. FT. PER 1000 *TOM. INPUT ALL EQUIP INSTALLED FIGURE 3 Confined some arc installations with less then 50 cu. ft, of space per 1000 BTU /hr input from all equipment installed. Air for combustion and ventilation requirements can be supplied from inside the building as in Figure 4 or from the outdoors, es in Figure 5. 1. AiLakilana.kaidamkailitag ae in Figure 4, Pap 4: The confuted space shall be provided with two permanent openings communicating directly with an additional room(,) of sufficient volume so that the combined volume of all spaces meets the criteria for an unconfined space. The total input of all gas utilization equipment installed in the combined space shall be considered in making this determination. Refer to Table 3, Page 4, for minimum open arses required. 2. All ai_r from outdoors as in Figure 5, Page 4: The confined space shall be provided with two permanent openings, one commencing within 12 inches of the top and one commencing within 12 inches of the bottom of the enclosure. The openings shall communicate directly, or by ducts, with the outdoors or Vows (crawl or attic) that freely communicate with the out- doors. Refer to Table 3, Page 4, for minimum open areas required. 3. The following types of installations will require use of OUTDOOR AIR for combustion, due to chemical exposures; • Commercial buildings * Buildings with indoor pools • Furnaces installed in commercial laundry rooms * Furnaces installed in hobby or craft rooms • Furnaces installed near chemical storage areas. Exposure to the following substances in the combustion air supply will also require OUTDOOR AIR fbr combustion: * Permanent wave aolutions " Chlorinated waxes and claaners " Chlorine based swimming pool chemicals I' Water softening chemicals * Deicing salts or chemicals • Carbon Tetrachloride * Halogen type refrigerants • Cleaning solvents (such ae perchloroethylene) • Printing inks, paint removers, varnish, etc. • Hydrochloric acid • Cements and glues * Antistatic fabric softeners for clothes dryers • Masonry acid washing materials TABLE S MINIMUM FREE AREA IN SQUARE INCHES EACH OPENING (FURNACE ONLY) Paws 4 GENSCO (SEATTLE) CONFINED SPACE AIR FROM OUTDOORS CONFINED SPACE AIR FROM VENTILATEDATTICfCRAWL SPACE CONFINED SPACE r/\\ AIR FROM VENTILATED ATTIC —• AMC tOUWCA. To Ou►oOON% CONFINED &PACE A01 FROM INSIDE MN FIGURE 4 'FIGURE 6 111, Nllowing aerobia oompos with Um *1Calomla Ise, commotion ES. AwAFIN'1S14:1: Hazardous Gases! Exposure to fuel substances or by- products of Incomplete fuel combustion are believed by the State of Cahfomia to cause cancer, birth detects, or other reproductive harm. Pub. No. 18.CDIDD2-4 Qjoa4 .N y ,C'RnyC 1i4T4I K•.re�wann» e.a. +.wn,rn.w m� ^" """" 0t',,,+ ermwc^ tn, maxk XneRPU? K +p�F7"h'M °rfrrir)!etY.4Hmt :!!f.: 7a-tr3,'C :1�".+�K t t In Z� I. 0 Z LU W D O O • N O I— W H F L it O Z GLI ~ Z 09/17/02 TUE 09:11 FAX 208 442 2448 GENSCO (SEATTLE UPFLOW CLOSET LEFT SIDE 0 INCHES RIGHT SIDE 0 INCHES ( +) FLUE 8 INCHES (M) HORIZONTAL C LOSET ($ae N ote 2) TOP 2 INCHES ( +) FLUE 6 INCHES (il) FRONT 3 INCHES (Note 1) t R ZON_ TAL ALCOVE (Sett Nate 1 TOP 1 INCH 1+) FLUE 6 INCHES ( +) FRONT 18 INCI-ES r • or cabinets. 3Incites when b utsd. Ogle wah vent pipe Is used. When the te•1t2' widnt models are lnstetted In* horimntel poainon and a elope wall vent pan is woe, e • nett clearance ritual be sorption bowmen Me vent pipe and combustible flooring. HORIZONTAL INSTALLATION This furnace may be installed in an attic or crawl apace in the horizontal position by placing the furnace on the left or right aide (as viewed from the front in the upright position). The horizontal furnace installation in an attic should be on a service platform large enough to allow for proper clearances on all sides and service access to the front of the furnace, (See Clearance Table and FtgUT. 1). If the furnace is suspended, it must be supported at both ends and in the middle with clearance allowed for removal of both access doors. Line contact is only permissible between lines formed by the intersection or the top and two sides of the furnace casing and the building joist., etude, or framing. FIGURE 1 AIR FOR COMBUSTION AND VENTILATION Adoyuate flow of combustion and ventilating air must not be obstructed from reaching the furnace. Air openings provided in the furnace casing must be kept fres of obstructions which reetrict the flow of air. Airflow restrictions affect the efficiency and safe operation of the furnace. Keep this in mind should you choose to remodel or change the area which contains your furnace. Furnaces must have . a free flow of air for proper performance. Pub. No. 1B-CDt9D2-4 "CM m ec�we r messai1 y% V ice. H ilt' MT1 1oe OW rtw lice catetew. euao..+.na, nuoa.at TYPICAL HORIZONTAL ATTIC INSTALLATION FRONT BACK TOP BACK SIDES BACK SIDES • • First letter mei be 'A" or 'T' MINIMUM CLEARANCE TO COMBUSTIBLE MATERIALS 'INSTAkLER'S GUIDE 3 INCHES (See Note I O INCHES 1 INCH 3 INCH 1 INCH 0 INCHES 0 INCHES NOTga (I► Minimum clearance to the front on out 'UDtAQ model Is 6 inches (2) May be Installation combuetbw flooring when TYPE 8.1 went pipes wed. TABLE I Provisions for combustion and ventilation air 'hall be made in accordance with latest edition" of Section 5.3, Mr for Combus• thin and Ventilation, of the National Fuel Gee Code, ANSI 2223,1, or Sections 7.2, 7,3 or 7.4 of CAN/CGA B149 Installation Codes, and applicable provisions of the local building codes. Special conditions created by mechanical exhausting of air and fireplaces must be considered to avoid unsatisfactory furnace operation. Furnace locations may be in "confined space" or "unconfined space". Unconfined space is defined in Table 2 and Figure 2. These spaceemay have adequate air by infiltration to provide air for eombuetion, ventilation, and dilution of flue games. Buildings with tight construction (for example, weather stripping, heavily insulated, caulked, vapor barrier, etc.), may need additional air provided as described for confined space. 50 CU. FT. OR MORE PER 11100 STU/14R. INPUT ALL EQUIP. INSTALLED et.a,raetra war MOM oaa�r� saaeaa. ■1 WRNAer IMAM CLOTHES Nom *gm IIII • r UNCONFINED FIGURE 2 TABLE 2 MINIMUM ARE UNCONFINED FURNACE MAXIMUM STUN / INPUT RATING 40,000 80,000 80,000 100,000 120,000 140,000 250 375 500 325 750 875 A IN SQUARE FEET FOR SPACE INSTALLATIONS WITH I FOOT CEILING MINIMUM AREA 24 SQUARE FEET OF UNCONFINED SPACE 003 Page 3 .1an•k.s,: di ?J!��M... .1�,F ;n i+: n.; c .+Vet WxP leak« :Leon (htiy:Li. u ° Y,t51i M1aliarvL4 09/17/02 TUE 09:11 FAX 208 442 2448 INSTALLER'S GUIDE --- CONTENTS INSTALLATION GENERAL 'The manufacturer awumes no responsibility for equipment installed in violation of any code or regulation. It is recommended that Manual J of the Air Conditioning Contractors Association (ACCA) or A.R.I. 230 be followed in estimating heating requirements. When estimating heating requirements for installation at Altitudes above 2000 ft., re. member the gay input must be reduced (See GAS INPUT ADJUSTMENT). Material in this shipment has been inspected at the factory and released to the transportation agency with- out known damage. Inspect exterior of carton for evi- dence of rough handling in shipment. Unpack carefully after moving equipment to approximate location,. If damage to contents is round, report the damage immedi- ately to the delivering agency. Codes and local utility requirements governing the installation of gas fired equipment, wiring, plumbing, and flue connections must be adhered to, Ia the absence of local codes, the installa- tion must conform with the National Fuel Gas Code ANSI Z223,1 'latest edition" or CAN/CGA 8149 Installation Codes. The latest code may be obtained from the American Gas Mao.. station Laboratories, 81501 E. P$eusant Valley Rd., Cleveland, Ohio 44131. These furnaces have been classified as Fan Assisted Combus- tion system CATEGORY I furnaces as required by ANSI Z21.47 "latest edition' and CAN /COA 2.3, Therefore they do not require any special provisions for venting other than what is indicated in these instructions. (Category I dsfured page 6). NOTE: To prevent shortening its service life, the furnace should not be used as a 'Construction Heater" during the finishing phases of construction. The low return air temperatures can lead to the formation of eesdensato ovew though this is a non.00ndensiag model. Condensate in the presence of chlorides and fluorides from paint, varnish stains, adhesives, cleaning compounds, and on. meat create a corrosive condition which may cause rapid deterioration of the heat exchanger. Pep GENSCO (SEATTLE) .ewe∎- - PAGE General Installation Instructions Location & Clearances Horizontal Installation Air for Combustion and Ventilation Duct Connections Return Air — Filters Venting -•- General Information Venting Into a Masonry Chimney Single Appliance Venting (with Tables) Common Venting (with Tables) Venting Examples Electrical Connections Gas Piping START-UP AND ADJUSTMENT Preliminary Inspections 24 Combustion and Input Check 24 High Altitude Derate 24 Sequence of Operation 25 Lighting Instructions 25 Control and Safety Switch Adjustment 26 ABNORMAL CONDITIONS 26 FIELD WIRING DIAGRAMS 27 OUTLINE DRAWING 25 2 2 3 3 &4 5 says 6&7 6 -11 12 -19 20 -22 23 23 LOCATION AND CLEARANCES The location of the furnace is normally selected by the architect, the builder, or the installer. However, before the furnace is moved into place, be sure to consider the following require- ments: 1. Is the location selected ea near the chimney or vent and as centralized for haat distribution as practical? 2. Do all cloarancee between the furnace and enclosure equal or exceed the minimums stated in Table 1. 3. Is thou sufficient space for servicing the furnace and other equipment? A minimum of 24 inches front accessibility to the furnace must be provided. Any access door or panel must permit removal of the largest component. 4. Are there at least 9 inches of clearance between the furnace combustion air openings in the front panel and any closed panel or door provided? (See Fig. 1) 5. Are the ventilation and combustion air openings large enough and will they remain unobstructed? If outside air is used, aro the openings act above the highest anew accumulation level? (See the Air for Combustion and Ventilation section) 6. Allow sutlicitent height in supply plenum above the furnace to provide for cooling coil installation, if the cooling coil is not installed at the time of this furnace installation. 7. A furnace shall be installed so electrical components are protected from water. 8. If the furnace is installed in a residential garage, it must be installed so that the burners, and the ignition source are located not less than 18 inches above the floor and the furnace must be located or protected to avoid physical damage from vehicles. CAUTION: Do not install the furnace in a corrosive or contaminated atmeephere. WARNING: Do not install the furnace directly on carpet- ing, tile or other combustible material other than wood flooring. Pub. No.18•CD19D2.4 r+...n.w..a.w..m+R.^liw�kr,n' axiK�frat!+,+ *:r„G MTI.n•Nr+. mks,+ nx. x, ..•r- +na.wnx,rv.....�..wr..vn, 1?1002