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Home My WebLink About1891 RUTHERFORD RD; ; AS990032; Permit5/18/22, 10:39 AM Job Address: Permit Type: Parcel No: Lot#: Reference No.: PC#: Project Title: Applicant: Fees($) 544 AS990032 Permit Data City of Carlsbad Sprinkler Permit Permit No: AS990032 1891 RUTHERFORD Status: ISSUED RD SPRINK Applied 7/16/1999 2121203600 Approved: 0 Issued: Inspector: ISIS PHARMACEUTICALS Add'I Fees ($) 0 Owner: DIVERSIFIED CARLSBAD 47&48 LL C C/O WILLIAM TSCHANTZ 1770 GILLESPIE WAY #101 EL CAJON CA Total($) Balance($) 544 0 1 /1 Carlsbad Fire Department AS C\~0032 990203 2560 Orion Way Carlsbad, CA 92008 Fire Prevention (760) 931-2121 Plan Review Requirements Category: Auto. Sprinkler, OH Reviewed by: Date of Report: 07/27/1999 ------------ Name: Action Fire Systems Address: 9185 Harness St City, State: Spring Valley CA 91977 Plan Checker: Job #: 990203 Job Name: Carlsbad Research Bldg #: CB991613 ------------------ Job Address: 1891 Rutherford Rd Ste. or Bldg. No. ~ Approved D Approved Subject to D Incomplete Review FD Job# The item you have submitted for review has been approved. The approval is based on plans, information and / or specifications provided in your submittal; therefore any changes to these items after this date, including field modifications, must be reviewed by this office to insure continued conformance with applicable codes and standards. Please review carefully all comments attached as failure to comply with instructions in this report can result in suspen_sion of permit to construct or install improvements. The item you have submitted for review has been approved subject to the attached conditions. The approval is based on plans, information and/or specifications provided in your submittal. Please review carefully all comments attached, as failure to comply with instructions in this report can result in suspension of permit to construct or install improvements. Please resubmit to this office the necessary plans and / or specifications required to indicate compliance with applicable codes and standards. The item you have submitted for review is incomplete. At this time, this office cannot adequately conduct a review to determine compliance with the applicable codes and / or standards. Please review carefully all comments attached. Please resubmit the necessary plans and / or specifications to this office for review and approval. 1st 990203 2nd FD File# 3rd Other Agency ID .. ASC,C\0052. r ACTION ·FIRE SYSTEMS 1 ----------------------r.-1R :IRR1RO ;,..· ----------------------HYDn l\U LIC _DE SIGN lNf-ORMATION SHEET MAME. /:}/..!] /7#A,£M,4c? .i!Cl_?:/C!/lC..S La7_4,£:, OATE_7-.QL.r? ----- l.OCATION~~L_~z:e./lf£e0£C> ,,££} • -~A/??-S4$AP~ C7 &_, ·------~ BUJLOING • G Q.. 7" 4$ SYSTEM, NQ _________ _ CONlRACTOA~ e,U~/~ <--' c'!crJ 6'.-Z;__, ~ C'. ~---<XHffRAci No._fl~'8-~--- CALCULA TED BY D__{J_p,-J J .:1 ~_o,.:)~flL-t/£_,? ___ r _____________ DAAWING N0 .. -~2_,_, _______ _ CONSH\l..'CTION: fX!_ COMBIJS llOl.E ( J NON-COMBU5TIBLf. CEILING HEIGHT._..,.._23'_9 ,, _ __fT. OCCllf'fd,JC'Y •••-••~E...c.L.c? ~-L.L. .. r-~ /...rH.__ A) ,:E&t..J 1),,411; Z:.~Add..t4~--- ORD. HAZ. GP. FIGURE r- ( J 1 ) 2 l J J ) EX. HAZ. CURV-· ____ _ C:ALCULAT10N SUMMAnY 1 GPr,1 REOUIRED_41.4 .... • ,._• _j __ "C'' FACTOR USED: PSI FIEOUIR(D __ _!]_ 7,_4-~_ AT BASE Of R1m:n OVF..RHEAO _ _Lg~ UNDERGROUND. /5() >-_J c .. 0.. ::-> V, cc • UJ 1-<t ;:. UJ C) <t a: 0 ln )-t 0 0 :E ... 0 u WATE A FLOW TEST I DA TE & TIM( . s-L!L9'<:!!'> ____ _ STA TIC PSI J:ZO RESI.DUAL PSI // 5' ____ _ GPM FLOWING __ / __ 5_='__,0 ___ _ ELEVATION PUMP DAB RATED ~PACITY ·- Al PSI ELEVATION •. toe Ar 10,-1 __ _g_f/_ -r /-r: ~/?..~ ~?_Q_~O r -----~--·-- sou R cE OF INFORMATION~_£. S, J C:, /\A, W_i_f} , _ _ft_ __ ~_L) ____________ _ ~ l) c{ .I a: --------------CLASS _________ LOCATION -------.-c:..----- -------------ARE A AISLE WIDTH~---------- ) SINGLE ROW ) DOUBLE HOW ) MULTIPLE ROW -----"' PALLETIZf.D _____ ~.,,.. --------" J E~CAf>SULATt:D J NON• ENCAPSULATED Dc.7\te: 11/01/91 JOB TITLE: ISIS PHARMACEUTICALS WATER SUPPLY DATA SOURCE NODE Tf-lG STt:4T IC PHEBS. (Vi:H ) HESI D. Pl~E~"3S. l}.f ( Pf3 I ) FLDl,,J (.WnlL. PF!E~:3S. t]J ( Gf-1M) <Pbl ) TDTf.4L. DEMf.~l'JD <GPM) Pag£:: 1 C: \BL~2 HEQ'D PHESS. <PSI) Ul * 108.0 ~103.~::i 1530 .. 0 .1.07.4 5;::'.4 .2 --i(-,R£pcle€0 6v /Odj'tr rtJ/Z-evs#ro~ AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE TOTAL HOSE STREAM ALLOWANCE AT SOURCE OTHER HOSE STREAM ALLOWANCES TDH~L DISCHr~RC::iE FF<OM ~':\CTI VE SPRIN~{LERS NODE ANALYSIS DATA NODE l IZI 1 102 11213 104 105 1 tZtt-:, 1 tZl7 108 10'::) 110 111 1 u~ 113 114 11 ~~-i 116 l.17 118 119 120 121 122 123 12Lt 12~i 126 127 128 129 130 131 13i:?:'. 1 7··;-.;:,,.., 134 TAG ELEVATION <FT> 28.8 28.8 28.8 28.8 28.8 i:'.~8. 8 28.8 28.8 2B.8 i::'.8. 8 28.8 28.8 2B. B 28.8 28.8 28.8 28.8 28.8 28.8 28.8 28.8 28.8 28.8 28.B 28.8 i::'.B. 8 28.8 28.8 28.8 28.8 28.8 28.8 28.a 28.8 NODE TYPE PHESSURE (PSI) 83.2 B3.3 B3. Lt 83.4 83.5 83.6 83.6 B3.7 83.8 83. 1 83.2 8~?:;. L► f)3. L~ 83.6 83.7 83 .. 7 83. 1 83. i.~ 83 .. 4 B3. Lt 83.5 83.6 B3.7 83.7 83.3 83.3 83.4 83.5 83.6 83.6 83.7 5;:::4. 2 GPM :-jQL Q) GPM 50.0 GPM Lt24 .. 2 GPM DI SCHf.:1 F<GE <GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 JOB TITLE: ISIS PHARMACEUTICALS ~ODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) <PSI) <GPM) 151 28. 8 01 •• 2 15~~ i='.8. a EV+. ;::: 15~3 28. 8 8'+ • ..... 154 ;:::8. 8 8-4-.. ? ..... 1 c.· t::· ...J .. J i.:~8. 8 8.1i • ~; 156 ;;::8. 8 84 .. L• 1 r::·-, Ji i.::'.8 . 8 84. 4 15B i:::8 .. 8 84. 4 1~_;9 28. 8 81+. L• 160 i::'.8. B 84. 2 161 28. 8 a.1. ... 2 162 28. 8 84. -... --~ 163 28. 8 BL + .. -. ~ 164 28. 8 84. L• 165 28. B 8L1-. i► 166 i::'.8. 8 84. 4 167 f:B .. B 81+. c:· ,._c 168 c~H. 8 84. 5 1("\g 28. 8 83. ( .... 170 28. 8 G --. d~. 6 :1.71 28. 8 83. 7 1 7,~~ i:~8. B 83. f3 173 28. 8 83. 9 l.74 28. 8 83. 9 175 28. 8 BL ... 0 176 ;;~8. 8 B'+. 1 177 ;:::B. 8 81+. 2 178 28. 8 B3. 7 179 28. 8 83.8 180 28. 8 83.8 181 ;.:.::8. 8 83. 9 182 28. 8 84.0 183 28. 8 8L►• 1 184 28. 8 8L1-. 2 201 28. 8 82.0 20,:: 28. B 82.0 203 28. 8 B2. 0 cJZl4 28. 8 82 .. 2 i.~05 28. 8 82. 2 206 28. 8 82 .. 2 207 28. 8 82 .. 1 208 ;;::8. 8 82. 1 209 i::'.8. 8 82. 1 301 11. 2 L•7 • ') 30i.:~ 11. 2 47. Cj 303 11. 2 47.·➔ 30L► 11. 2 L1-9 • c:-,._I 305 11. i::: 49. 1::.-..J 306 11. .-, 1.-::. Lt-9 • 5 307 11. t::-... J 50. C) 308 11. 5 ~51Zt. 9 309 11. 5 ~50 . 9 310 11. i:-.::, 5lt). 9 311 11. 3 ~.52. 4 \ SPFH N•<L.Ef< SYSTEM HYDRAUL. IC ANAL YSI B Page 3 JOB TITLE: ISIS PHARMACEUTICALS ~ODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE <FT) <PSI> (GPM) 312 11. 3 ::c:_::;. 8 313 11. 2 r··r-;.);:'J,. r.::--..J 31 Lt 11. 2 ~5~5. r.:· ._( ~)0 10.6 48. 2 ::j 1 10.6 it-9. 7 ~)i::'. 10.6 ~:il. ..... ~ c:· ..... J~ 10. ( ... 52. B ~S4 10.6 54. 1 ~;5 10. ( ... r::-c::· ,_•~·. 7 ~ .. ff."\ 10.6 68 .. a 57 10.6 BL 2 1Q 9. 0 i:~7 . B i::'.9 .. IZI J.R 11. ~; 28. 9 2Q 9.0 29. 1 29.7 2R 11. 5 3tt.'t. c::· ...} 3Q ':).0 2L,-. 2 27. 1 3R 11. 5 25. 1 Lt-Q 9. 0 I-<= 5. 5tZt ~~5. 6 27.8 4R 11. 5 26. Lt ~jQ 9.0 I-<= 5. 50 35. 121 32.5 5R 11. 5 2;6. 2 GQ 9.0 16. 7 6R 11. 5 17. 1 7Q <). Ii.) I-<= 5 .. 50 1 7. -::, '·-2i~. 8 7R 11. 5 18. 0 8Q 9.0 I-<= 5. 50 20. 7 8R 11. 5 i::'. 1 • .L. C)Q '}. Qt 16. B 9R 11. 5 16. 8 10Q 9.0 !-(,= 5. 50 17. i:::--..J 23.0 10R J.1. 5 18. 1 11Q 9. 0 i::'.0. 9 25. 1 11 H 11. 5 f:1. 6 li::'.Q 9.0 I·<= 5. 50 35. 2 l c~F< 11. 5 36. 5 13Q 9.0 17. 1 13H 11. 5 1 7. 1 ll,-Q 9.0 . I-<= 5. 50 lB .. 0 23.3 14R 11. ~-i 18. 5 15Q 9.0 I-<== 5. 50 21. c:-._( 15R 11. 5 22. Q.'t 16Q 9.0 I-<= 5. 50 35. 7 16R 11. 5 -:i_;7. 2 L,-5 10.6 3•:,. 6 4& 10.6 39. 8 47 10.6 40. 0 '+8 10. 6 '+0. Lt '+9 10.6 41. i:°:: 1 26.0 83. Lt- 2 26.0 83. -7 I _/ 3 26.0 8(--.. 0 4 26.0 83. 4 5 26.121 86. 0 G 26.0 a ·--,.:~. 4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS JOB TITLE: ISIS PHARMACEUTICALS ~ODE TAG ELEVATION NODE TYPE <FT> 7 26. 0 B c=:6. 0 9 26. 0 10 26 . IZl 1 1 26. Q) 1 .-, i::. 26. IZl 13 f:6. 0 14 26. IZl 14A 26. 0 15 26. 0 16 26. 0 17 26. 0 18 26. 0 19 i::'.6. 0 2121 26. 0 21 26. 0 f:2 2('\. 0 22A 28. 8 23 26. 0 24 i.~6. 0 24(-:'\ 28. 8 . -,c::-C..J 2(, • 0 i::'.6 26. 0 27 26. 0 28 26. 0 29 26. 0 3121 26. 0 30A 28. B 31 2('\. Q) TOH 25. i:::-.J BOR 0. 5 HOSE ST~<EAM U5 --3. IZl U4 ·=· '-. 0 U3 f:. tZI Ui.~ -3. 0 Ul -3. 0 SOURCE PRESSURE DISCHARGE (Vi'3 I) <GPM> 86.0 83.4 86. fl) 83 .. 3 83. 1 --- B5.9 83. 1 H5.9 83.2 85.9 83.2 85.9 82. l 85.9 (:33 . 2 82.2 83.8 8.lt-. 1 85 . .li- 85. 8 8~5 • l) 83. f'. 8i::'.. 0 86.0 86.4 97 • .lt- 98. 9 97.3 102.3 1'l.V1-. 6 10.lt-. 7 50.0 .lt-74. 2 Page 4 SP H I N ~~LE f< £NSTEM HYDHAULIC AN~lLYBIS Page 5 JOB TITLE: ISIS PHARMf'.'.~CEUT I CALS PIPE D~lTA PIPE T~~G G! <GPM) DIA<IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. t)EL <FPS) HW(C) <FT> SUM. NODES <FT) (K) <PSI> <GPM) F.Ln/FT <PSI) Pipe: 1 -·-32. ':l 2 .. 203 PL 20 .. 33 PF 0 .. 3 l f~6. 0 0.0 83. i► 12). 12) 2.8 120 FTG T2L PE 0. 0 2 i::'.6. 0 0.0 f33 .. 7 It). 0 0.009 TL 36.33 PV 0 .. :l Pipe: 2 -32.9 2.203 PL 70.00 PF 0. 7 -:::, '--f~6. 0 0.0 B3.7 0 .. 0 2.8 li::'.0 FTG T PE 1. i:~ 101 28 .. B 0.0 8~;. c~ 0 .. 12t 0.009 TL 80. 0'21 PV 0. 1 Pipe: ·-;-,..> -·-32. 9 2.203 PL 8. tZt0 PF 0. 1 101 28.8 0.0 83.2 0.0 2 .. 8 121li FTG PE 0.0 102 28 .. 8 0.0 f.33 .. 3 0 .. 0 0 .. 009 TL 8 .. 00 p1...,1 0. 1 Pipe: LJ, --2;2. 9 2. 20~; PL 8. 0ft) PF 0. 1 10i::'. 28.8 0. 0 C . ..,, "'"\ '-:L.:,. _:, 0.0 2.8 li::'.0 FTG PE ,~., l{J 103 28.8 0. 0 83. L► II..~. 0 0.009 TL 8.00 PV 0. 1 Pipe: 5 ·-32. 9 i~ .. C~03 PL 8.00 PF 0. 1 103 28.8 0.0 83. L► It). 0 2.8 120 FTG PE 0.0 104 ~::8. 8 0.0 83.4 0.0 0.009 TL 8.00 Pl) 0. 1 Pipe: 6 -32.9 2.203 PL 8. 1£'0 PF 0. 1 104 28.8 0.0 83.4 0.0 2.8 120 FTG PE 0. 0 105 28.8 0.0 83.5 0. 0 0.009 TL 8. '210 PV 0. 1 Pipe: 7 --32. 9 2 .. 203 PL 8.00 PF 0. 1 105 28.8 fl,. fl) 83.5 fl). 0 2.B 120 FTG PE 0.0 10("\ 28.8 0.0 83.6 0 .. 0 0.009 TL 8.00 PV 0. 1 Pipe: 8 -32.9 2.203 PL 8.00 PF 0. 1 1 tZH~ 28.8 0.0 83.6 0.0 2.8 120 FTG PE 0.0 107 ;.:.::a. B 0.0 83.6 0. ll.i 0. 01219 TL 8.00 p1...,1 0. 1 Pipe: ':) ---:3i?::. 9 i::'. .. 203 PL 8. 00 PF 0. 1 107 28.8 0.0 83.6 0. 0 2.8 120 FTG PE 121. 0 108 ~~8. a 0.0 l:33.7 0. 0 0.009 TL 8.IZIIZI PV 0. 1 Pipe: 10 -32.9 2. 20~; PL 8. 0121 PF 0. 1 11218 28.8 0.0 83.7 tZt. 0 2.8 120 FTG PE 0.121 109 28.8 0.0 83.8 12.,. IL' 0.009 TL 8. 0121 PV 0. 1 Pipe: 11 --32. 9 2.203 PL 87.00 PF 0.9 109 28.8 121. tZI 83.8 0. Qt 2.8 120 FTG 2T PE 1 .-. • C. 3 26 .. 0 0.0 B6. 0 0.121 0.009 TL 107.00 PV 0. 1 Pipe: 1 .-, a::. -34.121 2.21213 PL 80. 121121 PF 0.9 4 26.0 0.0 83.4 0.0 2. '-) li:::0 FTG 2T PE 1 -::, • I.... 110 28.8 0.0 82;. 1 fl'. tZI 0.009 TL 100. 00 PV 0. 1 Pipe: 1 ---... ~ -~3L~ • 0 2. 212,~3 PL B.00 PF 0. 1 110 f~B. 8 121. 0 83. 1 0.0 2.9 120 FTG PE 0.0 111 28.8 IZI. IZt 83. j~ 0. 0 0.009 TL B.00 PV 0. 1 SPRIN~(LEH SYSTEM HYDRAULIC ANALYSIS Page ("\ JOB TITLE: IBIS PHARMACEUT I Cr::'.\Lf:3 PIPE Df-Hf.'.l (cont'd) PIPE TA{3 Q(GPM) DIA<IN> LENGTH PF<ESS. END ELE\.1• NOZ. PT DISC. VEL<FPB) HW(C) <FT) SUM. NODES <FT> < K) <PFH) <GPM) F.L./FT <PSI) Pipe: 14 --34. 0 2. i::'.03 PL 8.00 PF 0. 1 11.1 28.8 l{.1. 0 83. i.::'. l{.1. 0 i::'.. 9 121l1 FTG PE 0. 0 112 28.8 0.0 B3.3 c~. 0 0. 0C~9 TL 8 .. 00 PV 121. 1 Pipe: 15 -.311-. e, i:::" i:~fl)~; PL 8.00 PF t21. 1 112 2f3. 8 0 .. 0 83.3 0a 0 2.'➔ 120 FTG PE 0. It) 113 28.8 0.0 83.4 0" 0 0.009 TL 8. 0,1 PV 0. l Pipe: 16 --3Lt-. tZI 2.203 PL. 8.00 PF 0. 1 113 28.8 0.0 82:;n lt-0. 121 2.9 12tt) FTG PE 0.0 114 28.8 0.0 83.4 0.0 0.009 TL 8 .00 PV 0. 1 Pipe: 17 -34.0 2. 20~; PL 8. 1210 PF 0. 1 114 28.8 0.0 83.4 0. 121 2 .. 9 120 FTG PE 0.0 115 28.8 0.0 82:;. 5 0. 0 0.009 TL 8.00 PV 121. 1 Pipe: 18 -3Lt-. 0 2. i.~03 PL 8.00 PF 0. 1 115 i.:'.8. 8 0.0 B3.5 flt. QI i::'.. C) L:::0 FTG PE 0.0 116 28.8 0.0 83.6 0.0 0.009 TL 8.00 PV 0. 1 Pipe: 19 -~A. 0 2. 21l'l3 PL 8.00 PF 0. 1 116 ~::8. 8 0. 0 83.6 0.0 ;~. 9 li~0 FTG PE 0.0 117 28.8 0.0 83.7 ll'l. 0 0.009 TL 8.00 PV 0. 1 Pipe: 20 ·-3Lt-. 0 2.203 PL 8.00 PF 0. 1 117 28.8 0. e, 83.7 0.0 2.9 120 FTG PE 0.0 1 H~ 2B.8 0.0 83.7 0. 121 0.009 TL 8.00 PV 0. 1 Pipe: 21 -3'+. ll'l 2. 20~; PL 87.00 PF 1.0 118 28.8 0.0 83.7 0.0 2.9 120 FTG 2T PE 1..2 5 26.0 0. 0 86.0 0.0 0.009 TL 107.00 PV 0. l Pipe: 22 ·--3Lt-. 1 2.203 PL 80. 00 PF IZt.9 6 26.0 0.0 83.4 121.0 2.9 120 FTG 2T PE 1 .-, • C. 119 28.8 0.0 83. 1 0.0 0.009 TL 100.00 P\.' 0. 1 Pipe: 23 -34 . 1 2.203 PL 8.00 PF 0. 1 119 28.8 0.0 fB. 1 0.0 ;=.:. 9 li::'.0 FTG PE 0.0 120 28.8 0. lt°:1 B3.2 0.0 ll.'l. 009 TL 8.00 PV 0. 1 Pipe: 2l• -3-4-. 1 2.203 PL 8.00 PF 0. 1 120 i.::'.8. 8 0. 0 83. 2 0.0 2.9 120 FTG PE 0.0 121 28.8 0.0 83.3 0.0 0.009 TL 8.00 PV 0. 1 Pipe: .-·,c:· C . ...J -311-. 1 2.203 PL 8.00 PF 0. 1 121 28.8 0.0 83.3 0. 0 2.9 120 FTG PE 0.0 122 28.8 0.0 8~;. Lt-0. ll.'l 0.009 TL 8.00 PV 0. 1 Pipe: 26 -3L1-. 1 2.203 PL 8.00 PF 0. 1 1 .-,.-·, cc. 28.8 ll.'l. 0 82;. L• 0.0 ·2. 9 120 FTG PE 0.0 123 28.8 0.0 83. '+ 0.0 0.009 TL B.00 PV 0. 1 SP RI NI·< LE f< SYSTEM HYDH~~UL IC ANALYSIS Page 7 JOB TITLE: ISIS PHARMACEUTICALB PIPE DATA (cont'd) PIPE H~G Q<GPM) DIA<IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. l.,'EL <FPS) HW<C> <FT> SUM. NODES <FT) 00 (PSI> <GPM> F. L. /FT <PSI) Pipe: 27 ··-3Lt-• 1 2.203 PL 8. tZltZI PF 0. 1 u·::3 28 .. 8 0.0 B3 • .1.,. If). 0 2.9 120 FTG PE 0.0 12L► 20 .. 8 0. tZI H3 .. ~S 0. ,~ 0. 00') TL 8. 00 PV ~:). 1 Pipe: 28 --3.1.t-. 1 2 .203 PL 8.00 PF 0. 1 124 28.B 0.0 83.5 0. ILi 2.9 120 FTG PE 0. tZt 1i::'.~i 28.B 0. It.~ 83.6 0. ,;,~ I,~. 009 TL 8. 00 PV 0. l Pipe: i:~9 ·--3Lt-. l i~. 203 PL 8.00 PF 0. 1 125 2a. ·a 0.0 83.6 it.i .. 0 2.9 :1.20 FTG PE 0.0 126 28.8 0.0 83.7 0.0 0.009 TL 8.00 PV tZI. 1 Pipe: 30 -3.lt-. 1 2. 203 PL 8.00 PF 12:1. 1 126 28.8 0.0 8~3. 7 0.0 2. •=) 120 FTG PE 0.0 127 28.8 0.0 83.7 It). 0 tZl.009 TL 8.00 PV tZI. 1 Pipe: 31 ·--3Lt-• 1 i::'.. 203 PL 87.00 PF 1.0 127 28.8 0.0 83.7 0.0 2.9 ii:::0 FTG 2T PE 1 .-, . ,::. 7 26. tZt 0.0 B6.0 0. ':) 0.009 TL 107.00 PV 0. 1 Pipe: 2;2 --3.1.•. 4 2.203 PL 96. ll.'0 PF 1. 1 8 26.0 0.0 83.4 0.0 2. 9 120 FTG 2T PE 1. f~ 128 28.8 0.0 B3.3 it.i. 0 0.010 TL 116.00 PV 0. 1 Pipe: 33 ---. , ---~.q. 4 2.203 PL 8. 1210 PF 0. 1 128 28.8 0.0 82:;. :~; 0.0 2.9 120 FTG PE 0.0 129 28.8 0.0 8~3. 3 tZlntZI 0.010 TL 8.00 PV 0. 1 Pipe: 34 -3Lt-. 4 i~. 203 PL 8.00 PF 0. 1 129 2B.8 0.0 a-· ·--\.J ■ ,_, 0.0 2 .9 120 FTG PE 0. l[.'I 130 i::8 .. 8 121. It) 83. L• ,~,. ,z, 0. 01 It.~ TL 8.00 PV 0. 1 Pipe: 3~:j -34.4 2.203 PL 8.00 PF 121. 1 130 28.8 0.0 B3. Lt-12\. lli 2.9 120 FTG PE 0.0 131 ~::8. B 0. tZI 83. ~) tZI. 0 0. 010 TL 8.00 PV 0. 1 Pipe: 36 -31►• 4 i:!.. 203 PL 8.00 PF 0. 1 131 28.8 0.0 83.5 0.0 2.9 12121 FTG PE 0. 0 132 28.8 0.0 83.6 121.0 0.010 TL 8.00 P\...l 0. 1 Pipe: 37 ---3L~. 4 2.203 PL 8.00 PF 0. 1 132 28.8 0.0 83.6 it.1. 0 2.9 120 FTG PE 0.0 133 28.8 0.0 83.6 0.0 0. 010 TL 8.00 PV tZI. 1 Pipe: 38 -3.l•· '-• 2. 202; PL 8.00 PF 0. 1 133 i::'.8. 8 0.0 83.6 0.0 2.9 120 FTG PE 0. IZt 134 28.8 0.0 83.7 0. ,21 0.010 TL 8.00 PV 0. 1 Pipe: 39 -34.4 2.203 PL 87.00 PF 1.121 134 28.8 0.0 83.7 0. t2t 2.9 120 FTG 2T PE 1.2 <) 26.0 0.0 86.0 0.0 tZl.010 TL 107.00 PV 0. 1 ~,PR I N~<LEH SYSTEM HYDRAULIC ANf-lLYS IS Page 8 JOB TITLE: ISIS PHAF<Mf~CEUT I CALS PIPE DATA (cont'd) PIPE Tf~lG Q(GPM) DIA<IN) LENGTH PREE~S. END ELEt,,1• NOZ. PT DISC .. VEL<FPB> HW(C) <FT> SUM. NODES <FT> 00 (PBI > WPM> F" L. /FT <PSI> Pipe: 40 --3.l►,, a 2. 21213 PL 23f.. 00 PF ~::'. .. 7 10 i.:'.6. 0 0. Q.1 [\2_;. -~·· 0n lt?J i:~ .. 9 12ft) FTG 4T PE It). 0 \oJ 11 26. IZI 0.0 B6.0 li.L 0 0.010 TL 271.00 PV 0. 1 Pipe: '+ 1 -·35 .. ,21 2. 202; PL 231. 00 PF 2.7 12 26.0 0 .. 0 l) ·-. ..._ \. ,.-:, .. '9~ ti..'l.0 i~~-9 120 FTG 4T PE 0. ti.) 13 26.0 0.0 85.9 ti.). 0 0.010 TL 271. 00 PV 0. 1 Pipe: 42 -35.7 2.203 PL 231.0121 PF i:::. a 14 26.0 0.0 8:3. 1 0.0 3.0 121l1 FTG 4T PE 0.0 15 26.0 0.0 B5.9 0. i;~ 0. 010 TL 271. 1210 PV 0. 1 Pipe: i~3 -·36. 0 ;~. i~0~; PL i='.31. IZl!i.1 PF 2 .. 8 16 i::'.6. 0 0. 0 8-;-...., . 1 0.0 3.0 120 FTG 4T PE 0.0 17 f~6. 0 0. e, 85.9 0. ll1 0. ll.110 TL 271.. 00 PV 0. 1 Pipe: 44 --35. 4 2.203 PL 231. 00 PF i::'.. 7 18 26.0 0.0 83. i.::'. 0 .. 0 3.0 1212.1 FTG "►T PE 0.0 19 i::'.f~. tZl 0. "?.'I H5.9 0. 0 0. 0 1 Qt TL 271. 00 PV 121 .. 1 Pipe: "►~i --35 .. 1 2. ;;:02; PL 152.33 PF 1.7 ;:.=~0 2f,. 0 0.0 B3.2 0. Ii) 3. 0 1~::0 FTG ;:;:T PE 1. 2 178 28.8 0.0 83.7 e,. 12.'I 0. ll11 ll1 TL 172.33 PV ll.1. 1 Pipe: 46 -35. 1 2.203 PL 8.00 PF 0. 1 178 f:8. 8 0.0 83.7 ll.1. 0 3. ll.1 120 FTG PE 0.0 179 28.8 0.0 83.B tZl.0 0.010 TL 8.00 Pl..' 0. 1 Pipe: 47 ---c:· -,.!,-...J. 1 c:. 20~; PL 8.00 PF 0. 1 179 28.8 0.0 83.8 0.0 3. tZI 120 FTG PE tZl.0 18121 28.B 0.0 83.B 0.0 0.010 TL 8.00 PV 0. 1 Pipe: 48 --2;5 . 1 2.203 PL B. 00 PF tZI. 1 180 28.8 0.0 83.8 0.0 3 .. 0 120 FTG PE 0.0 181 28.8 0. tZI H3.9 ,~" tZI tZI. 010 TL 8.00 Pl..' 0. 1 Pipe: 49 --35. 1 2.203 PL 8.00 PF 0. 1 181 28.8 0.0 83.9 0.0 3.0 120 FTG PE ei. tZt 182 28.8 0.0 8"•· 0 0.0 0. ll.110 TL 8.00 PV 0. 1 Pipe: 50 -·-35. 1 2 .. 21213 PL 8.00 PF 0. 1 182 28.8 !t'.l. ll' 84 .. 0 0. It) 2;. 0 120 FTG PE 0.0 183 28.8 0. tZl 8.lt. 1 •Zt. 0 0.010 TL 8.00 PV 0. 1 Pipe: 51 -35. j_ 2.203 PL 8.00 PF 0. 1 183 28.8 0. 0 8.lt. 1 tZl. 0 3.0 120 FTG PE 0. 121 184 28.8 0.0 Bi►• 2 0 .. lt'.l 0.010 TL 8.00 PV 0. 1 Pipe: 52 ·-3~:5. 1 2. i.=::03 PL 30.67 PF 0. ~5 181+ 28.8 0. IZl 81+. 2 0. IL' 3.0 121l' FTG 2T PE 1. ;~ (:'. l 26.0 0.0 85.9 0. tZI 0.010 TL 50.67 PV tZI. 1 SPRIN~{LER SYSTEM HYDRr.:1ULIC AN(.'.\LYSlf> Page 9 JOB TITLE: HHB PH~4RMACEUT I Cf.'.:\LS PIPE DATA (cont'd) PIPE TAG Q(GPM) DIA<IN> LENGTH PRESS .. END EL.EV .. NOZ. PT DISC. VEL(FPS) HW<C) <FT> SUM. NODES <FT> < K > <PSI> <GPM) F. L. /FT <PSI> Pipe: ~53 "-3Lt .. G 2.203 PL 2.83 PF t21. 1 22 26.0 0. 121 B3. i.::'. Q.'I. Q.'I 2.9 120 FTG T PE 1.2 22{~ 2B.8 0. 0 8~:'.. 1 0.0 0 .. 010 TL 12.83 ptJ 0. 1 Pipe: ~i4 -2;.1. •• 6 2. f:0~3 PL 139. 17 PF 1.4 i:.=~i='.t~ ~~B. 8 0.0 82. 1 0 .. 0 2. 9 120 FTG T PE ,~. 0 169 28.8 0.0 83.6 0.0 0.010 TL 11t9. 17 PV tZI. 1 Pipe: i:::-1::-...J...J ·-<~;Lt. G i::'.. i::'.03 PL 8. 00 PF 0. 1 1&9 28.8 0.0 83.6 0. Q) 2.9 j_ 21t.i FTG PE 0 .. 0 170 2H.8 0. 0 83.G 1Z1. tZl 0.010 TL 8.00 PV 0. 1 Pipe: 56 -34.6 2. 21Li3 PL 8.00 PF 0. 1 170 i::'.8. 8 0 .. 0 83 .. G ,21. 0 2.9 120 FTG PE 0.0 17l 28.8 0.0 83.7 0.0 fi. 010 TL 8.00 PV 0. 1 Pipe: 57 -34.6 2. i='.03 PL 8.00 PF 0. 1 171 28.8 It). 0 8:3. 7 Q.'l. ILi f:. s, 120 FTG PE 0. Q.'l 172 28.8 0.0 f.33. 8 0.0 121,. ILi 10 TL 8.00 PV 0. 1 pip€•: 58 -·3'+. 6 2.203 PL 8.00 PF 0. 1 172 28.8 0.0 83.8 0 .. 0 2.9 120 FTG PE 0.0 173 28.8 0.0 83.9 0.0 0.010 TL. 8.00 Pl.) 0. 1 Pipe: 59 --3Lt. G 2.203 PL B.00 PF tZI. 1 173 28.8 0.0 83.9 0.0 ;.:~. 9 120 FTG PE 0.0 1 7'+ 28.8 0.0 83.'1 0 .. 0 0.010 TL B.00 PV 0. 1 -~ Pipe: 60 -34.6 ;:::. f:03 PL 8.00 PF 0. 1 174 28 .. 8 0 .. 0 83 .. 9 0.0 2.9 120 FTG PE 0. 121 175 28.8 0.0 81+. !Li 0.0 0.010 TL 8. 00 PV l{.i. 1 Pipe: 61 "·"3.lt. 6 i.~ .. 203 PL 8.00 PF IZI. 1 175 f:8. a 0.0 BL1-. 0 ei. 121 2.9 12fli FTG PE 0.0 176 28.8 IZI. 0 84. 1 IZI. 0 0.010 TL 8 .. 00 PV 0 .. 1 Pipe: c-· "\C -34.6 ·~-203 PL 8.00 PF 0. 1 176 28.8 0.0 84. 1 0 .. 0 i~~-9 li::'.0 FTG PE 0. 0 177 28.8 0. 121 8Lt. 2 0n0 0.010 TL 8.00 PV 0. 1 Pipe: 63 ·-3it. 6 2 .. 203 PL 30.67 PF 0.5 177 28.8 0.0 8Lt. 2 0. 0 2.9 120 FTG 2T PE Li='. 23 2(;. 0 0.0 85.9 tZI.IZI 0.010 TL 50.67 PV 0. 1 Pipe: 64 --Lt2. ll.) 2.203 PL 2.83 PF 0 .-, • i::. 24 26.0 0 .. 0 H~3 .. 2 0,, 0 3.5 120 FTG T PE 1.2 24(4 28.8 0.0 8f::. 2 0.0 0. 01-l+ TL 12.83 PV 121. 1 Pipe: 65 -42.121 2.21213 PL 2121. 1210 PF 0. Lt 21+(:'.l 28.8 0. 121 82. i.:~ 0. 0 3.5 121li FTG T PE 1 ·=· . '-- •jC:-L-..J i='.G. 0 0.0 B3.8 0 .. 0 0.tZll.4 TL 30 .. 00 PV 121. 1 SPfH N~~LEF~ SYSTEM HYDHAULIC AN(4LYSIE~ Page 10 ,JOB TITLE: ISIS PHARMACEUT I CAL~3 PIPE DAH~ (cont" d) PIPE TAG n<GPM) DH4(1N) LENGTH PF<ESS. END ELE\.1• NOZ. PT DISC. VEL..(FPB> HltJ ( C) <FT) SUM. NODES (FT) 00 <PSI) <GPM) F. L. /FT <PSI> Pipe: 66 ·--25. 3 ~~" i='.1213 PL 24.50 PF 121. 2 .-,c:-i:::. .. , 26. it) 0. l{.i 83.8 0.0 ·::, L... l 121li FTG 2T PE 0. 0 26 2G .0 0.0 8L~" 1 IZl .. ,::i 0 .. 0tZt~5 TL 44. ~S0 pl) 0. 121 Pipe: 67 --L•2. 0 ;~. 202; PL 87.00 PF 1. ·::· .._, 26 2G.0 0.0 84. 1 0.0 ---. r-..!, • ;::, 120 FTG T PE 0.0 ~?.7 2€."\. 0 l{.i. 0 85. L► 0. 0 0. llH 1+ TL 97. 0tti PV 0. 1 Pipe: 68 -·-2i::'. .. 4 2.203 PL 7.tZltZI PF 0.0 27 2("\. 0 e,. 0 8~.:i. Lt 0. Ill 1. 9 121li FTG L PE Li='. 160 ~~B. 8 0. 0 8L►• 2 0 .. 0 0.004 TL 10.00 PV 0.0 Pipe: 69 --22. , ... 2. 21li3 PL 8. lt)0 PF l{.i. tti 160 28.8 0. 0 84.2 0.0 1.9 120 FTG PE 0.0 161 28.8 0.0 84.2 !Li. 0 0. 00L► TL 8.00 PV 0.0 Pipe: -NI -~::2 .. 4 1~: N 20:~ PL 8.00 PF 0. 10 161 i.:~8. 8 121. ti) BL►• 2 Ii.). 0 1. C) 120 FTG PE 0.0 16i::'. 2H.8 0.0 84.3 0 .. tZl 0.004 TL 8.00 Pl) ILi. 0 Pipe: 71 -22. L► 2.203 PL 8.00 PF !Li. 0 l.bi::'. i::'.8. a 0.0 84.3 121. 0 1.9 120 FTG PE 0.0 163 28.8 0. fl) 8.l•. 2:; 0.0 0. 012'.l'+ TL 8.00 PV 0.0 Pipe: 7;?.. -j~~i::'.. 4 i:::'.. 203 PL 8.00 PF ,21. 121 H,3 28.8 0. l{.i BL►• 3 0.0 1.9 121li FTG PE 0.0 164 28.8 0.0 BL1-. L1-,~. 0 0.004 TL 8.00 P\J tZl. 0 Pipe: 73 -22.4 2 .. 203 PL 8 .. 00 PF 0.0 164 28.8 0.0 84.4 0. 0 1.9 li:"::0 FTG PE 0.0 165 28.8 1t.'l. 0 84. LJ-0.0 0. 00'-► TL 8.00 PV 0.0 Pipe: 74 ---22. 4 2.203 PL 8.00 PF 0.0 165 28.8 0.0 84. Lt 0 .. 0 1.9 120 FTG PE 0.0 166 28.8 0.0 BL, .• L1-0.0 0. 00L► TL 8.00 PV 0.0 Pipe: 75 -"22 . .l► 2.203 PL 8.00 PF 0.0 166 28.B 0.0 8Lt. Lj. 0.0 1. I:) 120 FTG PE 0.0 167 28.8 0.0 84. ~5 ltJ. 0 0. 1t.'l01+ TL 8.00 PV 0.0 Pipe: 7C--. ·--22 ,. L► 2. ~~1213 PL 8.00 PF 0. IZI 167 28.8 0.0 81+. 5 0.0 1.9 120 FTG PE 0.0 168 28.8 0.0 84.5 0.0 0.004 TL 8.00 P\J 0.0 Pipe: 77 --22. 1► 2.203 PL 5.50 PF 0. 1 168 28.8 0.0 8l1-. 5 0. 1Z1 1.. I:) 120 FTG T PE 1 -::, • L... 28 26. !Li 0.0 85.8 0.0 1t.'l. 004 TL 15.50 pt.,• 0.0 Pipe: 78 -42.0 3.31 Lt PL 25. 17 PF 0. 1 28 26 . l{.i 0.0 85.8 0.0 1.6 121Li FTG 2T PE:. 0.0 2':t 26.0 0.0 (35.9 0.0 0.002 TL 55. 17 PV 0.0 SPRINKLER SYSTEM HYDHAULIC ~~NAL YSI S Page 11 ·JOB TITLE: ISIS PHt~RMACEUT I Cf-1L.S PIPE DATA (cont'd) PIPE T(~lG Q(GPM) DIA<IN) LENGTH PRESS. END ELEV. NOZ. PT DIBC .. VEL<FPS) Hl.-J ( C) <FT> SUM. NODES <FT> < K) <PSI) (GPM) F.L./FT <PSI> Pipe: 79 ·--l.6 .. 7 c~. 203 PL 56. 50 PF 0.2 25 26.0 0. e1 B3.8 Q). 0 1. , .. 12'21 FTG L►T PE 0. 0 26 i~6. 0 0.0 84. 1 0 .. 0 0. 0,:'.13 TL 96.50 PV 0.0 Pipe: 80 -t9.6 2.203 PL 11.00 PF 0. tZt 27 26.0 Ii). 0 85. L,-,~,. 0 1.6 120 FTG L PE 1.2 151 28.8 0.0 EV+. ~~ 0. 12t It). 003 TL 14.00 PV ll,. Ji.) Pipe: 81 --l 9. 6 i~:'.. 2ti.)3 PL 8.00 PF 0. e, 151 28.B 0.0 £:v ... 2 IL•. tZl 1..6 120 FTG PE 0.0 152 2H.8 0.0 l:)L,-• 2 0.0 0. 003 TL 8.00 PV 0. e, Pipe: 82 -19.6 i~. 203 PL 8.00 PF 0.0 15~:'. 28.8 0.0 8L1-. 2 0.0 1..6 120 FTG PE 0.0 153 28.8 0.0 84.3 0. lli 0.003 TL 8. 0ft) PV tZt.tZt Pipe: 8""' ,.J --19 .. 6 2.203 PL 8.00 PF 0. 12' 152; 28.8 It). 0 BL•. 3 0.0 1. 6 1 ;~0 FTG PE !Li. 0 154 28.8 0.0 84.3 ~?I. 0 0.003 TL 8. 00 PV 0. fZI Pipe: 84 -19.6 ;:::. f~03 PL 8. 01t.i PF 0.0 154 28.8 0.0 BL •• 3 0.0 1.6 120 FTG PE 0.0 155 28.8 0. 0 84.3 0. l{.i 0. 003 TL 8. 0Qi PV 0. 0 Pipe: B~3 ·--19. f, 2.203 PL 8.00 PF 0.0 1 ca:::· __,._, 28.8 0. 0 84.3 IL•. 1t.i 1.6 12'21 FTG PE 0.0 156 28.8 0.0 84.4 0.0 0.003 TL 8.00 PV 0. Q) . .., Pipe: 86 --19.6 2. i:~03 PL 8.00 PF '21. 0 156 28.8 0. 0 8L1-. 4 0. ~:'.I 1.(, li~0 FTG PE 0.0 1 t57 i::'.8. 8 0. e1 B4.4 0.0 e1. 003 TL 8.00 PV 0.0 Pipe: 87 --19. 6 2. 20~3 PL 8.00 PF 0.0 157 28.8 0.0 f:V~. L~ 0. IL• 1.6 121l) FTG PE 0. 0 158 28.8 0.0 B4.4 0.0 0. 0,:'.13 TL 8.00 PV 0.0 Pipe: 88 -19.6 2.203 PL 8. 1{)0 PF It.,. 0 158 i::'.8. 8 0.0 84.4 0.0 l.. f~, li~0 FTG PE 0.0 159 28.8 0. 0 84. 1► tZt. 0 0.003 TL 8.00 PV tZt .. tZI Pipe: 89 ·--l. 9. 6 2. i::'.03 PL 17.50 PF 0. 1 159 28.8 0.0 84. L► l{.i. tZt 1.6 120 FTG 2T PE 1 .-. • a::.. 28 26.0 0.0 85.8 0.0 0.003 TL 37.50 PV 0. 121 Pipe: 90 0.0 2.703 PL 18.00 PF 0.0 201 28.8 0.0 82.0 0.0 0.0 120 FTG PE 0.0 20i:~ 28.8 0.0 82. l{.i Ill. Qt 0.000 TL 18.00 PV tZl.0 Pipe: 91 0. 1 2.703 PL 15.00 PF 0.0 202 28.8 0. 0 BE::. e1 ll). 1t.i 0. 0 120 FTG T PE 0.0 30A i:~B. 8 0. 0 8i~. 121 0.0 0. 00121 TL 27.00 PV 0.0 SPRINKLER SYtHEM HYDRAULIC ANf=tLYSIS Pa~1e 1 .-, C JOB TITLE: ISIS PHt~RMACEUT I Cf.\LS PIPE Dr.:lTr.:1 (cont'd) PIPE Tr-lG G! <GPM> Dln(IN) LENGTH PREE,S. END ELEV. NOZ. PT DISC. ~JEL <FPS) Hl--J <C> <FT> SUM. NODEB (FT) no <PBI) (GPJYJ) F. L... /FT <PSI) Pipe: 92 tZI. IZt 2.703 PL 210.00 PF Qt. ,21 3t2tA 28.8 0.0 82.0 lt,l. IZI 0. ti.) 12121 FTG T PE 1 .-, "C 30 26. tZI Qt.Qt l3~3,. ~::: Qt• ~~I 0. 01,)0 TL 222.00 P\.' 0. e, Pipe: 93 0.0 2. 202:; PL 3.00 PF 0.0 i::'.Ql3 28.8 0.0 Bi:::. 0 0. Ii.) 0.0 li='.0 FTG T PE ~!'.I. IZt 31Ztf.:l 28.8 0.0 82. Qt Ill. 0 0.000 TL 13.00 PV Ill. 0 Pipe: <:) l► 0.0 2. 21z13 PL 16.00 PF 0.0 f~IZt4 28.8 0.0 8i::'.. 2 0.0 0.0 12fli FTG PE 0.0 205 28.8 ~~-0 f32.2 0.0 0.000 TL 1(,. 00 PV 0.0 Pipe: 9 :_; 0.0 i::'.. 203 PL 16.00 PF 121. 0 205 2B.8 0.0 s·=· •:::, ,_. I.... 0. fi 0. ~~) li::'.0 FTG PE ,!'.I. 121 206 28.8 0.0 8i::'.. 2 0. Ill 0.000 TL 16.00 PV 0.0 Pipe: 96 --0. tZl ;~. i::'.03 PL 1.00 PF 0.121 206 28.8 0.0 A·-·, .-, \.,.;C.e C 0 .. 0 0.0 12121 FTG T PE 0.0 i::'.4t➔ i:~8 . 8 0.0 Bi:.~. i::'. 0. Ill 0.000 TL 11.00 PV ~~-12, Pipe: 97 0.0 2.203 PL 16.00 PF 0.0 i:~07 2B.B 0.0 a·::'J L.... 1 0 .. 0 0.0 li::'.0 FTG PE 0.0 i=~lt.18 28.B Q.i. 0 82. 1 1Zt. f2t 0. 0012.i TL 16.00 pt) 0.0 Pipe: 98 0. ti.) 2.203 PL 16.00 PF 0.0 208 28.8 0.0 82. 1 0. tZt 0.0 120 FTG PE 0.0 ~::09 28.8 0.0 a·=-L.... 1 ~~-0 0.000 TL 16.00 PV 0 .. 0 Pipe: 99 -0.0 2. 202:; PL 1. 00 PF 0.0 209 28.8 0.0 a·::'J a;;... 1 0.0 0. 0 120 FTG T PE 0.0 22(.'.l 28.8 0.0 82. 1 0.0 0.000 TL 11.00 PV 0. tZI Pipe: 100 3i::'.. 9 4.310 PL 4.50 PF 0.121 1 2[,. 0 0 .. 0 83 . .lt, 0. 1t,i 0 .. 7 120 FTG PE 0.0 4 26.0 0.0 83.4 0.0 0.000 TL 4.50 P\J 0.0 Pipe: HH (,6 .. 9 4.310 PL 12.00 PF 0. 0 L• f~{;. 0 0.0 B3 .. 4 0. ILi 1. ~5 1~::0 FTG PE 0 .. 0 6 26.0 0.0 83 • .l► 0.0 lli. 001 TL 12.00 PV 0.0 Pipe: 102 H.il. ''..'I Lt,. 310 PL 1 i::'.. 00 PF 0.0 6 26.0 0.0 3-:;• .l ..,J,. .. 0. li..'l ·::, ·::, '-". '-" 120 FTG PE 0. t;:.i 8 26.0 0. 0 83.4 0.0 0. 0tZt3 TL 12.00 PV 0.0 Pipe: 103 l3~i. 4 L►• 310 PL 12.00 PF 0. 1 8 26.0 0. 0 8.3. i► 0.0 3.0 U::0 FTG PE 0.0 10 26.0 0. 0 82;. 3 0. 0 0.005 TL 12.00 PV 0. 1 Pipe: 104 1 70. :~ 4.310 PL 7.92 PF 121. 1 10 26.0 0.0 a -;• -..~ ..., . ..., 0.0 -, ---~. I 120 FTG PE 0.0 12 26.0 0.0 83.3 0.0 0.007 TL 7.92 PV 0. 1 SPRIN~{LER SYSTEM HYDF<AULIC ANALYSIS Page 12; JOB TITLE: H3IS PHAHMACEUTICALS PIPE Df.HA (cont:' d) PIPE H4G G! <GPM) DI~~(IN> LENGTH PRESS. END ELEV. NOZ. PT DISC. t,,'EL ( FP~3) Hl--J (C) <FT> SUM. NODES (FT) ( K) (PSI) <GPM) F. L. /FT <PSI) Pipe-?: 10~5 21Z1~5. -~ .. ., 4.310 PL 12.00 PF 121 .. 1 1 .-, .::. 26. fl' 0.0 83.3 fl,. 0 I ,~• ·'-1-. '.:) 120 FTG PE 0.0 14 26.0 0.0 B3. 1 ,::. . 0 0. 010 TL 12.00 PV 0. 1 Pipe: 106 2Ld. 0 J.i .• 3H.1 PL 7. 0lt) PF 0. 1 14 26.0 0.0 f33. 1 0 .. 0 5.3 120 FTG PE 0.0 1 '+A 26.0 0.0 83. 1 121 .. Ii.) e,. 12113 TL 7.00 PV 0.2 Pipe: 1 tZl7 -·-183. f~ 1 •• 3 lit) PL 5.00 PF 0.0 14A 26.0 0. 0 83. 1 0.0 L•• 0 12fl'l FTG PE 0.0 16 2E.,. 0 0.0 i:3~3 .. l 0 .. 0 0 .. 00B TL 5. 00 pt; 0. 1 Pipe: 108 --11•7. 2 4.310 PL 12.00 PF 0. 1 16 i::'.6. 0 0.0 83. 1 0.0 3. i~ 120 FTG PE 0.0 18 26.0 0. It) 8~;. 2 "-'· 0 0. @Zt5 TL 12.00 PV 0 .. 1 Pipe: 109 -·-11 l.. 8 4.310 PL 12.00 PF 0.0 18 f:6. 0 0.0 83.2 "-'· f' 2. ~) 120 FTG PE 0.0 20 26. 0 0.0 B3.2 ti). 0 0 .. 003 TL 12. 00 PV 0. 1Z1 Pipe: 110 -7( ..... 6 .L •• 31f' PL 9. 5'+ PF Q.1. 0 20 26.0 0.0 83.2 0. 0 1..7 120 FTG PE 0.0 2i.~ 26.0 0. 0 82:. i::: 0.0 0.002 TL 9. 5 1+ PV "-'· 0 Pipe: 111 ·--.l•2. 0 4. 3.10 PL 16.00 PF 0. Qt 2f~ 26.0 0. "-' 83. i.:'. 0 .. It) 0.9 12ft) FTG PE 0.0 i::'.4 i::'.6. 0 0.0 83. ;::: ,!:t. 0 0.001 TL 16.00 PV 0. IZt .1,, Pipe: 112 0. Ill i, .• 310 ~=•L C).00 PF 0.0 24 26.0 0.0 B3. i2 0.0 tZI. 0 1 i::'.0 FTG PE 0. Ii.) 3tt) 26.0 0 .. 0 8~3. 2 fl1. e, 0. 001l' TL 9.00 PV 0.0 Pipe: 113 ·--32. <) 6.403 PL 12.00 PF 0.0 3 26.0 0.0 B6. t21 0 .. e, 0 .. 2; 120 FTG PE 0 .. 0 r::.-,.J i:::E,. 0 0.0 86.0 0 • 0 0.000 TL 12. tZIIZI PV tZI. 0 Pipe: 11 1► -66.9 6 .. 4tt13 PL 12.00 PF 0.0 ,::.-26.0 0.0 B6.0 0.0 0. 7 120 FTG PE 0. 121 .. J 7 26. fl' 0.0 8( ..... 0 0.0 0.000 TL 12.00 PV 0.0 Pipe: 11 ~=-j "·-101. 1 (,. 403 PL 12.IZIIZI PF 0. Qt 7 26.0 ei. e, 8(.... tZI 0.0 1. fl) 12Q.' FTG PE 0. tZI '·) ~::(;. 0 0. 0 H6.0 0.0 0.000 TL 12.00 PV 0.0 Pipe: 116 -135. I.. ( .... 403 PL 12. 00 PF tZI. 0 <) i.~6. 0 IZI. 0 f:36.0 0.0 1.3 120 FTG PE 0. e, 1 1 26.0 0.0 86.0 0 .. 121 0 .. 0flH TL 12.00 P~' 0 .. 0 Pipe: 117 -170.3 t., • lt-03 PL 5.29 PF 0. e, 1 1 26. t2l 0.0 86. 121 ft). 0 ·1. 7 120 FTG T PE "-'· 0 31 2E,. ILi 0. 121 86.0 0.0 0.001 TL 35.29 Pt..' 0.0 SP H I N ~(LE f< SYf:>TEM HYDH~~ULIC ANALYSIS Page 14 JOB TITLE: IBIS PHAliMACEUT I Cf.:'.\LB PIPE D(Hf.:l (cont'd) PIPE TAG G! <GPM) DI~~<IN> LENGTH PRESS. END ELEI..). NOZ. PT DISC .. VEL(FPS> Hl.-J <C> <FT> SUM. NODES (FT) 00 <PHI> <GPM> F. L. /FT <PSI) Pipe: 118 -·-424. 1 6.403 PL 22.75 PF 121. 2 31 26.0 0.0 86. e, 0. It) LJ,,. 2 12ti..'t FTG L PE 0 .2 TOR i.'.::5. 5 0.tZI BG. 1+ c::i. 0 0.006 TL 31.75 p1.,1 0. l Pipe: 119 -1.2, ... 1 6. L1-03 PL 25.00 PF 0. j_ TOR 2~5. 5 0.0 B6.4 0.0 .t'.1-. 2 120 FTG PE 10.B BOH flt. 5 H. S. 97. LJ, ~50. Q.i 0.006 TL 25.00 PV 0. 1 Pipe: li::'.0 ···-4 7 £J,. l 8.510 PL 1121. 00 PF 0.121 BOF< 0. ~:i H. S. 97. LJ, 50 .. 0 i='.. 7 111-0 FTG L PE 1.5 U5 --3. 0 0 .. 0 9B.9 IZt. ILi 0.001 TL 21.97 PV 0.0 Pipe: 121 -••i· 7 '-•. 1 7.987 PL 260.00 PF 0. 5 ur:::-'-' --3. 0 0.0 9B.9 0. ~~ 3.0 150 FTG 7L PE ;=.:. 2 U4 ~~-0 0. ti..'t 97. -:,·♦ ..... 0. 0 0.002 TL 355.20 p1.,1 0. 1 Pipe: li::'.2 FIXED PREGSURE LOSS DEVICE U3 i.~. e, 0.0 102. 3 0 .0 5.0 psi, LJ, 7LJ-. 1 gpm U4 i:~. c::i 0.0 97.3 0 .. ti..' Pipe: 122; --1· 7 .l.1-. 1 7.987 PL 12.00 PF 0. 1 U3 2.0 0.0 10i::'.. 3 0.0 3.0 150 FTG T2L PE i=.: •. 2 u·=· '----2;. 0 0.0 1 fl't.l.J,. 6 0. 0 0.002 TL 84.53 PV 0. j_ Pipe: li:~4 ·-474 . i::'. 7.987 PL LttZI. 00 PF 0. 1 u--, C. --3. 0 0 .. 0 10-4. 6 0.0 3.0 150 FTG TG PE 0.0 Ul --3 . IZI SRCE 10L~. 7 (NIA> 0 .. 00i::'. TL 89.87 PV 0. 1 -~ Pipe: 1 i::5 -1+2. 0 6. 1+03 PL 12.-00 PF 0 .0 29 26.0 0.0 85.9 ILi. QI 0 . Lt 120 FTG PE 0.0 23 26.0 0.0 85.9 0. !Li 0. 0Qi0 TL 1 2 .00 PV 0.0 Pipe: 126 --76 . 6 6.403 PL 9.54 PF 0. tZt 23 2fa.0 0. 0 8~j. 9 flt. 0 0.B i.20 FTG PE 0. tZt 21 26.0 0.0 85.9 It). 0 0.000 TL 9 .. 54 PV 0. IZI Pipe: 127 -11 1. 8 6 • .l.•03 PL 12.00 PF 0.0 ~~ 1 i::'.6. 0 0. tZI 85.9 0.0 1. 1 1 i::'.0 FTG PE 0.0 19 26. e, 0.0 85.9 0.0 0.000 TL 12.00 PV 12). 0 Pipe: li:~8 ·--1'+7. 2 6. 41213 PL 12.00 PF 0. tZt 19 26.0 fl). 0 85. ':) ll'i. 0 1.5 1 i='.0 FTG PE 0.0 17 26.0 0.0 B5.9 0.0 0u001 TL 12.00 PV 0.0 Pipe: 129 -183. E:: 6. L►fl.t3 PL 12.00 PF 0.0 17 26.0 0. 0 85.9 0.0 1.8 li:.=~0 FTG PE 0. 0 15 E::6. 0 0.0 85.9 0.0 0.001 TL 12.00 PV 0. 0 pip<~: 130 -·-21 B. 9 6 .403 PL 12.00 PF 0. Q) 15 i.~6. 0 0. 0 85.9 0. e, 2. f: 120 FTG PE 0 .0 13 26.0 0.0 135.<) 0 .0 121. 002 TL 12.00 PV 0.0 SPRINKLEH SYSTEM HYDRAULIC r.1NAL.YSI S Page 15 JOB TITLE: ISIS PH~➔ RMACEU TI C~1L S PIPE DATA (cont'd) PIPE T~:1G G! (C:iPM> DH'.l(IN> LENGTH PRESS. END ELEV. NOZ. PT DISC. \.'EL (FPS> HW<C> (FT> SUM. NODES <FT> 00 <PSI) <GPM> F. L .. /FT < PE, I) Pipe: 131 ···-253. 9 (,. 403 PL i::'.. G2 PF Ii.)" 1 13 26. flt flt. tZl f.\5.9 e,. e, .-·, c::-c:. ... J 120 FTG T PE Q.t. 0 ---1 .. _:!-26. Ill 0. tZI B6 .. 1Z1 1Zt. 1,1 0.002 TL 32. (:,2 PV 0. IZI Pipe: l 2:;f: Q.'i. !Lt L 101+ PL 10.00 PF 0.0 301 11. 2 0.0 47 .. 9 0 .. 0 0. 0 li::'.0 FTG PE t,1. 121 :30;.~: 11. 2 0 .. flt ./.► 7. 9 tt.'i. 0 0. 00Q.'i TL 10.00 PV 0.0 Pipe: 133 0. ,zi 1. 1•5i:~ PL 1 e,. 00 PF Qt. IZI 3e,i::: 11. 2 0 .0 '+7. g 0. !Lt e,. 1t.1 120 FTG PE Q.i. 0 303 11. 2 0.0 Li-7. 9 0.0 ILi. 01t.10 TL 10.00 P\.' Qt. IZI Pipe: 1 ~31+ 0. 0 1.687 PL 3.00 PF 0.0 303 11. 2 0.0 1• 7. 9 '=-'· tZI 0.0 120 FTG ET PE 0.3 50 10.6 0.0 .1.,.g_ 2 C:.'i. 0 0.000 TL 15.00 PV 0.0 Pipe: 135 IZI. 0 1.452 PL 10.00 PF 0.0 30-4 11. 2 fl'i. 0 .lt9. ~; Q.i. !Li 0. !Lt 120 FTG PE 0.0 305 11. 2 0.0 L►<). ~S ,z,. 0 ILi. 000 TL 10.00 PV 0.0 Pipe: 136 lt.'i. ,~ 1. L►5i:~ PL 10. 01{) PF 0.0 305 11. 2 0. e, '+9. 5 0.0 0. tZI li='.0 FTG PE 0.0 3t2.i6 11. 2 0.0 1.,.9. ~; !Li. 0 0. 01/)Q) TL 10.00 P\.' 0.0 Pipe: 137 ···-0. 0 L 687 PL 3.00 PF 0. Qt 306 11. 2 0.0 Lt9. 5 fl'i. Ql 0.0 12e1 FTG ET PE 0.3 51 10.6 0.0 1►9. 7 0.0 0.000 TL. 15.00 P\.' 1Z1. 0 Pipe: 138 ,zi. 0 L 1 QIL• PL 13.00 PF 0.0 307 11. ~s 0. 0 ~:.50. 9 0.0 0. ~~ 120 FTG E PE 0 .. 121 308 11. ~j 0.0 50.9 0.0 flt. 000 TL 15. fli0 PV 0.0 Pipe: 139 0. 0 1. 452 PL 10.00 PF tZI. ,zi 308 11. 5 0.0 5,zi. 9 It~. 0 ll'i. 0 120 FTG PE !Li. 0 30<) 11. 5 0. IZt 50.<) 0.0 0.000 TL 10.00 PV 0.0 Pipe: 1 1+0 0.0 1. (-.87 PL 10.00 PF 0.0 309 11. ~:j 0.0 50.9 e,. 0 0. t2t li::!0 FTG PE 0.0 310 11. 5 0. t2t 50.9 tt'.l. 0 0.000 TL 10.00 PV 0. Ill Pipe: 1 "• 1 0.0 1.687 PL 3.00 PF 0.0 310 11. ~i 0.0 50.9 0. ,zi 0.0 1f:0 FTG ET PE 0.4 52 10.G 0.0 51. 3 0.0 0. 0012, TL 15.00 PV 0. tZ1 Pipe: 1 L►2 --0. 0 1. 101+ PL 3.25 PF 0.0 311 11.~:~ 0. 0 ~:Si~~. 4 0.0 0.0 li::'.0 FTG 2T PE 0.3 53 10. l-. e,. 0 ~i2. 8 0 .. 0 0.000 TL 17 ·::,c ..., • a;;;.._1 ~•\,' 0.0 Pipe: 143 0.0 1. 104 PL 3.25 PF 1,:1. 0 312 11. 3 0.0 53.8 1/..l. tZl 0.0 120 FTG 2T PE 0.3 ~54 10.G 0.0 5L►,, 1 ,~. 0 0.000 TL 13.25 P\.' 0.0 SPRI N~\LEH SYSTEM HYDf<AULIC ANALYSIS Pc:tge 16 JOB TITLE: ISIS PHAHMACEUT I Cf~L S PIPE D~nr.:1 (cecnt"cl) PIPE T{-\G Gi <GPM) DH~< IN) LENGTH PRESS .. END ELE V .. NOZ. PT DISC. l,,'EL (FPS ) Ht.,.J (C) (FT) SUM. NODES <FT) 00 <P£H ) <GP M) F II L.. /FT <PSI) Pipe: 1 l.t4 0.0 1. 4~52 PL 10.00 PF 0 .. ei 313 11. 2 0. I{) 55. ~s ,21. 0 0. Q) 12e1 FTG PE 0.0 31 '+ 1 Li:.~ 0 .. 0 ,:::-r.::-r.:.~ ,J,.J .... J 0.0 0. 12)00 TL 10. 00 PV 0. ,21 Pipe: 145 -,t-'. e, 1. €,B7 PL 3. l{.10 PF 0. l{.i 3 1 '-t 11. i::'. 0. tZI 1::-i:::-r.::-... J...J. ,.J 0. ~'.) 0. Q1 1;:::0 FTG ET PE Qi. 3 c::-i:::· ...J...J 10. E., 0. Qt 55.7 It). It) 0.00121 TL. 15. Q)0 PV l{.i. 0 Pipe: 1 '-t6 ···1+i::'.Lt. 1 3.314 PL 11. 50 PF 1. 6 5121 10.6 0.0 48. i::'. ,~i. 0 15.8 120 FTG PE 0.0 51 10. (; 0.0 .lt9. 7 0.0 0. 137 TL 11.50 P\.' 1. 7 Pipe: 1.l• 7 ... 1.21 •• 1 3.31 1• PL 11.75 PF 1. 6 ~) 1 10. (; 0.0 1+9. 7 Ill. 0 15.8 U::0 FTG PE tZI. 0 52 112.i . E., 0.0 51. -;, ..... Q.1. 0 0 .. 137 TL 11. 75 pl.,' 1. 7 Pipe: 148 ···4i::'.Lt. 1 3. 31 Lt PL 10.50 PF 1 • .lt 52 1121. 6 l{.i. l{.i 51. 3 0.0 i~i. 8 120 FTG PE 0. l{.i 53 10.6 0.0 52.8 0.0 0. 137 TL 112'. 50 pl) 1. 7 Pipe: 1 l►C) --1.21. •• 1 3. 31 it, PL 10 .. 00 PF 1., Lt r·-. ~.:, 10.6 0.0 52.8 0.0 1 ~5. B 120 FTG PE 0. IZt 54 10.6 0.0 5.1. •• 1 0.0 l{.i. 137 TL 10.00 PV 1..7 Pipe: 1 ~50 ····4i::'.Lt-. 1 3.314 PL 11.75 PF 1. (:, 54 10.6 Ii..~. 0 54. 1 0.0 15.8 1212.1 FTG PE 0.0 c:.-1:::-...J...J 10.6 0.0 55.7 Ii.). 0 0. 137 TL 11. 75 PV 1.7 Pipe: 1 :.ii --L►2L►• 1 3. 31 1• PL 80.83 PF 13. 1 55 10.6 0.0 55.7 Ii.). Qt 15.8 120 FTG T PE 0.0 56 11£1. 6 0.121 68 .. 8 l{.i. 121 0. 137 TL 95.83 PV 1. 7 Pipe: 152 ···42L►• 1 3.314 PL 65.67 PF 1 i~. 1.. 56 10. ('\ 121.0 €."' B. 8 0.0 l ~5. 8 120 FTG T2L PE 0.0 57 10.6 0. 0 81. i::'. 0.0 0. 137 TL 90. ('\ 7 PV 1. 7 Pipe: 153 --42.l•. 1 3. 31 l.1, PL 32. 50 PF 8.5 c=-·-, ...JI 10.G 0.0 81.i::'. 0 .. ti) 1 ~3. B 120 FTG i:::T PE G .. 7 14A 26.0 0.0 a -;• ..._,. 1 1£i. t2l 0. j -;_.-7 •'-' I TL 62.50 pl.) 1.7 Pipe: 1 ~5,,. i::'.9. Ii.) 1. 10Lt-PL 4.00 PF 2. i=~ 1R 11. c:· 0.0 i::'.8. 9 0. IZt C). 7 12,~ FTG ET PE 1. 1 ._J lQ 9. 121 5.5 27.8 29.0 0.202 TL 11. 00 PV 0.6 Pipe: 1 c:-i:::· ...J...J 2'➔• t2t 1. 1121'+ PL 8. 00 PF 1. 6 2R 11. 5 0.0 3tZt. 5 0 .. 0 9.7 120 FTG PE 0.0 1R 11. 5 0. lli i::'.8. 9 Q.i. e, 0.202 TL 8.00 PV 0.6 Pipe: 156 29.7 1. 10Lt-PL 5.00 PF 2. ~:i 2R 11. ~i 0. 0 30. t.i 0. e, .g. 9 120 FTG ET PE 1. 1 2Q 9.0 t::' ,:::-...,,. ...J i::'.9. 1 29.7 0.210 TL 12.00 PV 0.7 SPRINKLER SYSTEM HYDF<AUL IC ~lNAL YSI S Page 17 JOB TITLE: ISIS PHARMACEUTICALS PIPE DATr-1 (cont'd) PIPE n:1G G! (CiPM) DIA<IN) LENGTH PRESS. END ELE\.). NOZ. PT DISC. t.,,'EL <FPS) Hl.--J <C> <FT> SUM. NODES <FT) 00 (PBI> <GPM> F. L. /FT <PSI) Pipe: 1 ~57 ~5[3. 6 1. 1 tZIL► PL 1. •• 75 PF 8 .. 7 .1+!::i 10.6 l{.i. 0 39 .. 6 0 .. 0 19.7 121li FTG ET PE 0. 4 c~li 11. ~5 e,. 0 30. 1:::-,.J 0 .. ''.) 0. 7 L►2 TL 11.75 PV 2.6 Pipe: 158 58.6 :3. 31L► PL :35. 00 PF 0.2 t.H; H~. 6 0. tZl 39.8 l{J. tZl i~~-2 li::'.0 FTG 2L PE I~~. tZI 45 10 .. 6 0.0 2/-). 6 !Li .. 0 0. 001+ TL '•5. 00 pl) 0. tZ1 Pipe: 1 ~:j':'.) ·=•·7 1 1.. ltZl4 PL 1+. 00 PF 2.0 I.-I " 3R 11. 5 !Li. l{.i ..... c::· i::: ....... 1 ,~,. 0 9 .. 1 12Q.i FTG ET PE 1. 1 3Q 9.0 c:.-,:::-,J. ,J i::'.4. ~~ -::,·7 1-I • 1 ei .. 17B TL 11 • tZltZt Pt.,,' ei. 6 Pipe: 160 f~7. j_ 1. 101 ... f::tL 7.50 PF L -:;-,_, L►R 11. ~s 0.0 i='.6. 4 e,. 0 9 .. 1 li:::'.0 FTG PE i,::t. e, 3R 11. 5 0.0 .-,r.::· ,::. ,J. 1 0.0 0. 178 TL 7. =.i0 PV Q.'1. 6 Pipe: 161 27.8 1. 104 PL 3. 2!5 PF 1. <) i►R 11. 5 0. 0 26. '• 1t.i .. e, C, ~ . :3 120 FTG ET PE 1. 1 4Q 9.0 r.::-a:::-,J. ,J i:~5. 6 i::'.7 .. 8 121. 187 TL 10.25 PV 0.6 Pipe: 162 51. •• g 1. 101.. PL 9.75 PF 13.0 L►b 10. (; 0.0 39.B t,'.'.I. 0 18.4 120 FTG 2T PE 0. I+ i+f< 11. 5 Q.i. 0 26. '• Ii.). 0 0. 6~/7 TL 1 ':>. 75 PV 2 .. ~; pip<~: 163 3i::'. .. ~) 1. 104 PL 5.00 PF 2.2 5R 11. 5 '-1). 0 3€,. 2 17.1 .. ,~ 10.'0 12Q.'1 FTG 2E PE 1.. 1 5Q 9 .0 5 .. 5 35.0 :~;;:.::. 5 121. 2~.:i0 TL 9. 00 PV 0. 8 Pipe: 1 (-,L► 32.5 1. 10-'• PL 3. 00 PF 2;,. 2 L,-E, 10.G 0.0 39 .8 0.0 10 .. 9 120 FTG 2T PE 0. I+ 5R 11. 5 0.0 2~(~. 2 0. 0 0. 2=.iQ.1 TL 13.00 PV Q.i. 8 Pipe: 165 14G. 1 3.314 PL 10.00 PF 0. i:::'. Lt-7 10.6 0.0 1.0. 0 0 .. 0 5. '+ 120 FTG PE 0.0 '-HS H) .. 6 tZl. 0 39.8 0.0 0.019 TL 10. 00 pt; 0. ;~ Pipe: 16E., 22. 5 1. 10L1, PL. 4 .. 75 PF 1.5 E,R 1 L ~S 0.0 1 7. 1 0 .. 0 7.5 120 FTG ET PE 1. 1 f~Q 9.0 5.5 16. 7 22. 5 12). 126 TL 11.75 Pt.,' Q.i. 4 Pipe: 167 2~~. ~.) 1. 104 PL 6.50 PF 0.8 7R 11. 5 0.0 18.0 0.0 ...., , ... I • .::, 1f'.0 FTG PE 0.0 6R 11. 5 0. ,21 1 7. 1 Qt. 0 0. 126 TL 6.50 PV 0 .. 4 Pipe: 168 22.8 1. 104 PL 7.25 PF 1.8 7R 11. ~) 0. 0 18.0 0.0 7.6 120 FTG ET PE 1. 1 7G! 9 .0 5. ~; 17.2 22. 8 0. 129 TL 14. 25 PV 0. L• Pipe: 169 -'1-5. 3 1.. 10Lt-PL 7.50 PF 3.5 8R 11. 5 Q.'1. 0 21.4 0. 121 15. ·::• I..-120 FTG PE 0.0 7R 11. 5 0. 1,; 18.0 0.0 0. 4(.-,ft) TL 7 .. 50 pt; 1. 6 BPHIN~<LER SYSTEM HYDRf4ULIC ANALYSIS Pc::,g e 18 JOB TITLE: ISIS PHAl1MACEUT I Cf.'.~LF:, PIPE D~HA (cont" d) PIPE TAG G!<GPM) DH)(IN) LENGTH PF<ESS. END ELEV. NOZ. PT DISC. t,,tEL (FPS) Hli-J (C) (FT) SUM. NODES <FT> no <PSI) <GPM> F. L. /FT <PSI> Pipe: 170 i:~5 . IL'! 1. H?l4 PL 4.75 PF LB BR 11. 5 0. IL~ i::'.1. 4 ,:1 . 0 8. L1. 120 FTG ET PE 1. 1 8Q 9. ,~ c::-•=-... J .... J i::~IZI .. 7 i:..:~~5 .. ''.) 0" 1 ~)3 TL 1 L 75 PV 0.5 Pipe: 171 70. •:;, ..... 1. 101• PL 7.50 PF 18.2 47 10.6 0.0 LHZI .. 0 0.0 i::'.3 .. 6 li::'.0 FTG 2T PE 0.4 E\H 11. ~) 0.0 21.4 e,. 0 1. 039 TL 17.50 PV 3.7 Pipe: l 7i::'. 216 .. 4 3. :314 PL 10.00 PF 0.4 .C:•8 10.6 0.0 40. 1+ ,21. 0 8.0 1212.1 FTG PE 0. 0 47 10.6 li..'l,. 0 L•0 .. 0 0 .. 0 0 .. 039 TL 10 .. 00 PV 0. I+ Pipe: 17:3 ;~C:. 5 1. 11211+ PL -4 . 50 PF 1. 1 9H 1 L ~3 0. ,zi 16 .. 8 tZI" ti..'l 7 .. 6 li::'.0 FTG 2E PE 1. 1 9G! 9. e, 5.5 16.B 22. ~:_:; 0. 127 TL 8.50 PV e,. 4 Pipe: 1 7'-► ~~~:'.. ~5 1.. 1,z,4 PL 10.75 PF 1. 1.. 10R 11. 5 0.0 18. 1 tt'.1. 0 7. 6 120 FTG PE 0. 0 9R 1:1.. 5 0.0 16.H 0.0 IL'!. 127 TL 10 .. 75 P\.' 0. '+ Pipe: 175 f::3. 0 1. 1121'+ PL 6.00 PF 1. _., l 101~ 11. 5 0.0 l 8. 1 0. I,~ 7.7 U::0 FTG ET PE 1. 1 l 0(~ 9.0 i:::· c:· ...J •.... , 17.5 23. lt'.I 0. 132 TL 13.00 P\...' 0. i. Pipe: 176 45.6 1. 10.l• PL 7.50 PF -, i::.- ~-...J 11 f{ 11. 5 0.0 21.(-. 0.0 1 i:::· J,. 2; 120 FTG PE 0. 0 10H 11. !:S 0.0 18. 1 tZt.0 0 .. 465 TL 7.50 pt) L6 Pipe: 177 25. 1 1. 10L• PL 5.00 PF 1.9 llR 11. 5 0.0 ;::: 1. 6 tZl.tZI 8.4 120 FTG ET PE 1. 1 11Q 9.0 c.-,:-.:· ...J • ...J 2e1. g 25. 1 0. 1 cc::· ......... , TL 12. 00 PV 0. 5 Pipe: 178 70. 7 1. 104 PL 7.50 PF U3. 3 48 10.6 0. e, 1+0. 4 0. tZt 23.7 120 FTG 2T PE 0. 4 11 I~ 11. 5 0. 0 (:'.1. 6 0.0 1. 048 TL 17.50 Pl..' 3.8 Pipe: 179 32. (~ 1. 10.1.. PL 5.25 PF 2.3 12R 11.. 5 0. tZt 36. ~5 tZI .. tZI 10.9 li='.0 FTG 2E PE 1. 1 12G! 9.0 r::-c::· ,._, ..... , 2~5. 2 2:2. (, 1t.'.f:5l TL 9.25 PV 0 .. 8 Pipe: 180 32.6 1... 104 PL 4.00 PF 3.5 48 1121.( ... 0. 0 1.0 .. .1.. 0.0 10.c.:1 121l1 FTG 2T PE 0.4 12R 11. 5 tZt. 0 36.5 0. tZI 0. 2~31 TL 14. 00 PV tZI. 8 Pipe: 181 319.7 3. :H 1• PL 10. Q.10 PF 0.8 '-•9 10 .. 6 0.0 41.2 121. 0 11. '-) 12121 FTG PE 0. Qt '+B 1 Q.1. (... 12.1. e, Lt-0. L• 0 .. 0 0.081 TL 10.00 PV 1.0 Pipe: 182 22.7 1. 101+ PL 4.50 PF 1. 1 13R 11. ::i 0.0 17. 1 0.0 7. E, 1i::'.0 FTG 2E PE 1. 1 13Q 9.0 i::.-1:::-... J • ...J l. 7. 1 2i:~. 7 0. 12B TL 8.50 pi..,1 0.4 SPRIN•{LEF-< SYSTEM HYDR~lULIC ANf.'.tLYSIB JOB TITLE: ISIS PHAHMACEUT I Cf-1LS PIPE Df.H(.4 (cont'd) PIPE H-)G Q(GPM> DH~< IN) LENGTH END ELE\.}. NOZ. PT DISC. \)EL (FPS) HW(C) (FT> NODES <FT> ( •·~) <PSI> <GPM> F. L. /FT Pipe: ll:13 2~:'.. 7 1. 10-4-PL 10. 7~5 11+R 11. 5 0. e, 1 B. ~5 i;:1 .. e, .. .., l • ("\ 120 FTG 13F! 11. !5 0.0 17 .. 1 0.0 0. 128 TL 10.75 Pipe: 181+ 23. -..·. ..... L 1121 1► PL L►,. 50 l.Ll-R 11. ~5 0.0 18.5 0 .. 0 7,,8 1;::::10 FTG ET 14G! 9. 0 i:::· c:-18. ll.i 2:~;. -. 0. 13~5 TL 11. 50 ......... '-' .:., Pi pr-2: 1B5 LJ-6. 0 1. 11214 PL 7. ~50 15R 11. ~i 0.0 i::'.i::'.. 0 !Li" e1 1 ~.:=.;. J+ 121l.1 FTG 14H 11. 5 0. Ill 18 .. 1:::-0.0 0. 4 7~:i TL 7.50 ... J pip€•: 1£.\6 25.5 1. 10'+ PL 3. 1{)0 15R 11. 5 0. 0 i:::'.2. 0 e,. 0 8. ~:i 120 FTG ET l ';.:jG! 9. 0 i:::-c::-.__I• ._I 21.5 .-•,i:::-c:...._, • ,::-._I 0 • 1 ~;9 TL 10.00 Pipe: 187 71.G 1. 104 PL 7.50 i+9 10.6 0.0 1►1. 2 fli,. 0 2.1. ... I[) 120 FTG 2T 15H 11.. ~5 0. e, ;:::2. 0 10. 0 1.073 TL 17.50 Pipe: 188 ~;2. 9 1. 104 PL 6.25 lGR 11.. 5 0.0 3·7 _ 2 0.0 11. 0 120 FTG i::'.E lb(] 9.0 5.5 ~;:.~. -i, ~;i:~. g 0. i:~51+ TL 10.25 Pipe: 189 32. •=) 1. 11214 PL Lt,. 00 1.,.9 10.6 0.0 1+1. 2 121. fll 11. e, 120 FTG 2T 16H 11. 5 0.0 ;.3·7. 2 0. ,~ 0. 2~54 TL 14.00 Pipe: 190 L►21+ • 1 2;. 31 1► PL 51. 0,21 ~j0 10. (; 0.0 48.2 0. ''.'.I 15.8 120 FTG l+C) 10.6 0. Qi '+1. i=: e,. tZI 121. 137 TL ~ii. 00 NOTES: ( 1 ) Calculations vJere pe·rformed by the HASS 5. ~-~-0 com put er· under· license no. 8'=)2f;\J521 granted by HHS S 1•s.t£~ms, Inc .. i::'.193 lianchwood Dr. ' N .. E .. t=lt lanta, Gr.1 302A~:i (2) The system has been balanced to provide an average imbalance at each node of 0.001 gpm and a maximum imbalance at any node of 0.09~ gpm. Page 19 PRESS. SUM. (PSI> PF 1.4 PE fli. 0 PV 0. '+ PF 1.6 PE 1. 1 PV 12t • .I.► PF 3.6 PE 0. 0 p1..,1 1.6 f:)F 1. 6 PE 1. 1 P'..' 0.5 PF 18.B PE 0. L► PV 3. <j PF 2.6 PE 1. 1 PV 0.8 PF 3.6 PE 0. 4 PV 0.8 PF 7. 0 PE 0. 121 PV 1.7 program (3) Velocity pressures are printed for information only, and are not used in balancing the system. Maximum water velocity in any pipe is 24.0 ft/sec. SPRINKLER SYSTEM HYDRAULIC ANALYSIS JOB TITLE: ISIS PHARMACEUTICALS (4) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP Pf-=lGE: F Mf.HER H ~lL.: DYt~rlFL Ht,.JC: L:~IL'l Diiamet er Equivalent Fittin!] Len~lths in FE•e-t (in) E T L C B G Ell Tee L.NGELL CHl-~VL'J BFYtJLV GATVL \,,I 2 .. f~Ql3 ~.:i .. 00 10. lt)IZt 3. 0ft) 11 .. 00 6.00 1..00 2.703 6" 00 1 i:~ .. 00 4. ,210 11+ .. 00 7 .. e,~~ 1.. 00 3. 31'+ 7.00 15. 0e, 5. 0,~1 16 .. Q)IZI 10n00 1.00 L~. 31 IZI 10.00 i:~0. 00 6,. ~'.JIZt 22.00 12.00 4.00 6. -403 14 .. lt.i0 30. e11z1 9. tt)0 32.00 10. 0Q.'I 3. !l.'10 PAGE: (3 MATEFHAL: BLT HWC: L::0 Diamet:£~r Equi Vc:\l ent: Fittin~J Lengths in Feet (in) E T L C B G Ell Tee LNGELL CHKl)LV BFYVLV (:)AT t...1L V 1.. H:'.14 2.00 5.00 2. ''.J''.J ~'3 .. 00 6 .. 00 1..00 :l. 1..5~~ 3 .. 00 6. IL'l0 i:~. 0ft) 7.00 6.00 1..00 1.. 687 '-•· 00 8 .. 00 i::'.. 00 9.00 6. 121121 1..00 Page 20 A D ALMCHF, DPtJLV 10.00 10.00 10.00 10. 0121 13 .. t;:.i0 10. 0Q.i 20.00 10 .. 121121 28.00 19 .. 00 A D ALMCI-H~ DPt...'L\,,• 10. 1210 10. 12)0 10 .. 00 10. 1t.i0 10.00 10. tZtlZI Page 21 JOB TITLE: ISIS PHARMACEUTICALS WATER SUPPLY CURVE p R E - i-· . .... , ,-. D u r~ r .. p s I 1 i::'.,~+ I l 1 lZt+ *\\\\0\\\\\\\\\\\\\\ I >: \ \, , \, \ \ \ \, \ \, \, '\ \ \ \ \' \ \, \ \ I ~: <-·· l Q13. ~:.:; psi 1:¥.1 152;0 g pm 10ti)+ Fl ov-, Test Point I ()QI+ I 81Z1+ I I 7 ,~1+ I btZI+ I se1+ I !==================~=========== 20+ LEGEND X -Required Water Supply 104.73 psi@ 524.2 gpm 10+ I 0 = Available Water Supply 107.38 psi@ 524.2 gpm II II II II 0 -i-·+-·-+· -----·-·-1---·------t--·--···-··-..... ·-1-·---·--·--·-..... ·---~-···-···-···---·-· -·--·---+· ·-·· ..... --.... -···-..... -·-·+---···-·-···--·-------·-·+----------·--·-·---· . t- 400 600 800 1000 1200 1400 1600 1800 2000 FLDW (GPM) October 31 , 1996 1. PRODUCT NAME VIKING HORIZON®MIRAGE® Model 8-2 Concealed Pendent Sprinkler UL and C-UL Standard Response Sprinkler Base Part No. 09782 Cover Plate Assembly Part No. 09804 UL and C-UL Quick Response .and . Factory Mutual Standard Response • Sprinkler Base Part No. 09783 Cover Plate Assembly Part No. 09804 (See Footnote No. 7, Below) Manufactured 1996- 2. MANUFACTURER THE VIKING CORPORATION 21 O N. Industrial Park Road Hastings, Michigan 49058 U.S.A. Telephone: 1616! 945-9501 800 968-9501 Fax Number: 616 945-9599 From outside U.S.A.: Jelephone: +1 (616) 945-9501 Fax Number: +1 (616) 945-9599 3. PRODUCT DESCRIPTION The Viking Horizon® Mirage® Con- cealed Sprinkler is a small, solder link and lever spray sprinkler designed for installation on concealed pipe systems where the appearance of a smooth ceil- ing is desired. The sprinkler is hidden from view by a low profile, small diame- ter cover plate installed flush to the ceil- ing. The cover plate is available in sev- eral decorative finishes to meet design requirements. The two piece design allows installation and testing of the sprinkler prior to instal- lation of the cover plate. After the sys- tem has been tested and the ceiling fin- ish applied, the "push on", "thriad off" design of the Horizon® Mirage cover plate assembly allows easy installation of the cover plate with up to 1/2" (12,7mm) adjustment available. The "thread off" feature, is designed to pre- vent unwanted disengagement of the cover assembly, while allowing it to be removed and reinstalled to permit tem- porary removal of ceiling panels without taking the sprinkler system out of service and removing the sprinkler. Inside the body of the Viking Horizon® Mirage® Concealed Sprinkler, the de- flector and sealing assembly are held in position by the heat sensitive fusible link. During fire conditions, when the tem- perature around the sprinkler ap- proaches it's operating temperature, the cover plate detaches. Continued heat- ing of the sprinkler causes the heat sen- sitive fusible link to disengage; releasing TECHNICAL DATA HORIZON® MIRAGE® CONCEALED SPRINKLER the deflector and sealing assembly. Water flowing through the sprinkler ori- fice strikes the deflector forming a uni- form spray pattern to extinguish or control the fire. 4. TECHNICAL DATA Refer to chart (below, this page) for approvals . Rated to 175 PSI (1 207 kPa) water working pressure Factory tested pneumatically to 95 PSI (655 kPa) •· - Spnng: U.S.A. Patent No. 4,570,720. Thread Size: 1/2" (15mm) NPT Orifice Size: Nominal 1/2" (15mm) K Factor: 5.5 (7 ,9 Metric: for use when pressure is measured in kPa) Minimum operating pressure: 7 PSI (48,3 kPa) Viking Horizon® Mirage®Concealed Sprinkler Installed in Acoustical Ceiling Available Cover Plate Adjustment: 1/2" (12,7mm) +/-1/4" (6,4 mm) Sprinkler Materials: Body: Brass Casting UNS-C84400 Body Cap: Brass UNS-C26000 Deflector: Copper UNS-C19500 Deflector Pins: Stainless Steel UNS-30300 Lever Bar: Copper Alloy UNS-C72500 Compression Screw: Brass UNS-C36000 J 1~ ~1 l-==--==-I l J L ) (. Fusible Link Assembly: Nickel Alloy and Eutectic Solder Fusible Link Levers: Stainless Steel UNS-S31600 Seal: Teflon® Tape UUC-UL listed Standard Response Part No. 09782 UUC-UL listed Quick Response FM approved Standard Response Part No. 09783 Sprinkler Nominal Highest Ambient Relulred Temperature Temperature Temperature Allowed Cover ssembly Classification Rating 1 at CelllnQ 2 Temperature Rating Ordinarv 165°F (74°C) 100°F (38°C) 165°F(74°C) Intermediate 220°F (104°C 150°F (65°C) 165°F 74°C) Base Part No.3 Approvals4 UL6 C-UL 5•6 FM7 NYC8 09782 A1, 81 A1, 81 -A1, 81 09783 A2,82 A2, 82 A1 A2,82 Approved Temperatures Approval Listings A-165°F (74°C) 1 -Listed Standard Response Sprinkler B -220°F (104°C) 2 -Listed Quick Response Sprinkler Footnotes 1. Temperature rating of Viking Horizon® Miragelfb Concealed Sprinkler is stamped on the sprinkler body. 2. Based on NFPA-13. Other limits may apply depending on fire loading, sprinkler location and other Authority Having Jurisdiction requirements. Refer to specific installation standards. 3. Base part number shown. For complete part number, see price list. 4. This chart shows the listings and approvals available at the time of printing. Other approvals are in process. Check with manufacturer for any additional approvals. 5. Listed by Underwriters Laboratories Inc. for use in Canada. 6. UL and C-UL listing is limited to smooth, flat horizontal ceilings. 7. Sprinkler Base Part No. 09783 is Factory Mutual Approved as a Standard Response Sprinkler. (Note: Cover Plate Assembly Part No. 09804 MUST be used). 8. Accepted for use by New York City Department of Buildings. MEA No. 89-92-E Vol. X. Note: Units of measure in parentheses may be approximations. Form No. 021993 Replaces Sprinkler page 20 a-c dated July 8, 1996 (Added NYC Acceptance) ;> Sprinkler 20 b Spring: Nickel Alloy Cover Plate Assembly Materials: Cover Plate Assembly: Brass UNS-C26000 Spring: Nickel Alloy Solder: Eutectic Cover Finishes: Polished Chrome Painted1 White (No. 1004)2 Painted1 Ivory (No. 1634)2 Painted1 Black (No. 1007)2 1 Painted finish consists of Polyester Baked Enamel. 2 Sherwin-Williams• Color Answers™ Interior Color Number. Other Colors available on re- quest. See Sherwin-Williams* Color Answers™ Interior Color Selection color numbers. Ordering Instructions: To order the Viking Horizon® Mirage® Concealed Sprinkler and Cover Plate Assembly, refer to: Sprinkler Base Part No. 09782 or09783 and Cover Plate Assembly Part No. ,.. 09804. Specify sprinkler temperature rating and temperature rating and finish of Cover Plate Assembly. (See Footnote No. 7, Page 20 a). Accessories: Concealed Sprinkler Wrench * Viking PN 08336W/B * Concealed Sprinkler Wrench PN 08336W/B is required. Previous Viking Horizon Flush Sprin- kler Wrenches appear similar, but are manufac- tured with an outside diameter too large for use with Horizon* Mirage*Concealed Sprinklers. A 1/2" ratchet is required (not available from Vi- king). 5. AVAILABILITY AND SERVICE Viking sprinklers are available through a network of Domestic, Canadian, and In- ternational Distributors. See the Yellow Pages of the telephone directory for your closest distributor (listed under "Sprin- klers Automatic Fire") or contact The Viking Corporation. 6. GUARANTEES For details of warranty, refer to Viking's current price schedule or contact Viking directly. 7. INSTALLATION WARNING: Viking sprinklers are manu- factured and tested to meet the rigid requirements of the approving agency. The sprinklers are designed to be in- stalled in accordance with recognized installation standards. Deviation from the standards or any alteration to the sprinkler or cover plate assembly after it leaves the factory including, but not lim- ited to, painting, plating, coating or modi- fication, may render the sprinkler inop- erative and will automatically nullify the TECHNICAL DATA approval and any guarantee made by The Viking Corporation. A. Sprinklers are to be installed in ac- cordance with the latest published standards of the National Fire Protec- ti on Association, Factory Mutual, Loss Prevention Council, Assemblee Pleniere, Verband der Sachver- sicherer or other similar organiza- tions, and also with the provisions of governmental codes, ordinances and standards whenever applicable. Concealed sprinklers are decorative sprinklers and may be considered special purpose. Refer to the Author- ity Having Jurisdiction prior to instal- lation. NQIE: Model 8-2 Cover Plate As- sembly 09804 MUST be used for all Factory Mutual Approved installa- tions. Previous Model 8-1 Cover Plate Assembly 0831 O may still be used for UUC-UL installations. B. Sprinklers must be handled with care. They must be stored in a cool, dry place in their original shipping con- tainer. Never install sprinklers that have been dropped, damaged in any way, or have been exposed to tem- peratures in excess of maximum am- bient temperature allowed. Such sprinklers should be destroyed im- mediately. C. Viking Horizon® Mirage® Concealed sprinklers are not intended for use in corrosive environments. Use only sprinklers listed for corrosive environ- ments when subject to corrosive at- mospheres. D. Use care when locating sprinklers near fixtures that can generate heat. Do not install sprinklers where they will be exposed to temperatures that exceed the maximum recommended ambient temperature for the tem- perature rating used. E. Adequate heat must be ;rovided when the Viking Horizon Mirage® Concealed sprinklers are installed on wet pipe systems. When installing Viking Horizon® Mirage® Concealed sprinklers on dry systems, refer to ap- propriate installation guides. F. The sprinklers must be installed after the piping is in place to prevent me- chanical damage. Before installing, make sure the appropriate model, style, orifice size and temperature rating with the desired response characteristic is used. Install the sprinklers according to the following steps: 1. Install all piping and cut the sprin- kler drop nipple to position the 1 /2 11 (15mm) NPT outlet of the re- ducing coupling at the desired October 31, 1996 HORIZON® MIRAGE ® CONCEALED SPRINKLER Concealed Sprinkler Protective Shell Concealed Sprinkler wrench** Part No. 08336W/B ** A 1 /2" ratchet is required. (Not available through Viking). [J [] Figure A elevation. The drop nipple must be perpendicular to the ceiling and centered in a 211 (50mm) di- ameter opening in the ceiling. 2: With the sprinkler in the plastic protective shell, apply a small amount of pipe joint compound or tape to the external threads of the sprinkler only. 3. Use only the special wrench* de- signed for installing Viking Hori- zon® Mirage® Concealed Sprin- klers. With the sprinkler in the plastic protective shell, place the unit into the wrench. * Concealed Sprinkler Wrench PN 08336W/B is required. Previous Viking Horizon Flush Sprinkler Wrenches appear similar, but are manufactured with an outside diameter too large for use with Horizon* Mirage® Con- cealed Sprinklers. A 1/2" ratchet is required (not available from Viking). 4. Turn the unit clockwise to thread the sprinkler into the 1 /2" (15mm) NPT outlet of the coupling. DO NOT use the fusible link to start or thread the sprinkler into a fitting. G. After installation, the entire system must be tested in accordance with the recognized installation stand- ards. The test is applied after the sprinkler installation to insure no damage has occurred to the sprinkler during shipping and installation, and Form No. 021993 October 31, 1996 TECHNICAL DATA I (--~==~ I ! __ ,, I ~g§§~~-- ~-=-~-i.:---~ 2" (50mm) \ i ,' -.-----.-' ' I diameter 1 ' L hole required. T C J 2-3/411 (69,8mm) Maximum Sprinkler 20 c HORIZON® MIRAGE® CONCEALED SPRINKLER 1/2" (15mm}7 NPT ' ' 2-1/411 (57,2mm) l 2-3/411 Sprinkler 09782 shown. Dimensions for Sprinkler 09783 are identical. to make sure the unit has been prop- erly tightened. If a thread leak should occur, normally the unit must be re- moved, new pipe joint compound or tape applied, and reinstalled. This is due to the fact that when the joint seal leaks, the sealing compound or tape is washed out of the joint. H. After testing, repairing all leaks, and installation and painting of the ceiling, the cover plate assembly may be at- tached. 1 . Remove the cover from the protec- tive box taking care not to damage the cover plate assembly. 2. Remove and discard the plastic protective shell from the sprinkler. (It is recommended to retain a protective shell in the spare sprin- kler cabinet. The internal diame- ter of the special Horizon® Mi- ra9e® Concealed Sprinkler Instal- lation Wrench is designed for use with the sprinkler contained in the shell.) 3. From below the ceiling, gently place the base of the cover plate assembly over the threaded body of the sprinkler protruding through the 2" (50mm) diameter hole in the ceiling. 4. Push the cover plate assembly onto the sprinkler until the unfin- ished brass flange of the cover plate base touches the ceiling. The maximum adjustment available, is 1/211 (12,7mm). DO NOT MODIFY THE UNIT. If necessary re-cut the sprinkler drop nipple. I. DISASSEMBLY: The "thread off" de- sign of the cover plate assembly al- lows the cover plate assembly to be removed and reinstalled to permit temporary removal of ceiling panels without taking the sprinkler system out of service and removing the sprin- Form No. 021993 (69,8mm) Figure B kier. To remove the cover plate as- sembly: 1. From below the ceiling, grasp the cover plate and gently tum it counterclockwise. If it is necessary to remove the entire sprinkler, the system must be removed from service. See Maintenance instruc- tions and follow all warnings and instruc- tions. J. RE-ASSEMBLY: The "push on" fea- ture of the cover plate assembly al- lows easy installation of the cover plate. 1. From below the ceiling, gently place the base of the cover plate assembly over the threaded body of the sprinkler. 2. Push the cover plate assembly on to the sprinkler until the unfinished brass flange of the cover plate base touches the ceiling. 8. MAINTENANCE NOTICE: The owner is responsible for maintaining the fire protection system and devices in proper operating condi- tion. For minimum maintenance and in- spection requirements, refer to the ap- propriate National Fire Protection Asso- ciation Pamphlet that describes care and maintenance of sprinkler systems. In addition, the Authority Having Juris- diction may have additional mainte- nance requirements which must be fol- lowed. A. The sprinklers must be inspected on a regular basis for corrosion, me- chanical damage, obstructions, paint, etc. The frequency of the in- spections may vary due to corrosive atmospheres, water supplies and ac- tivity around the device. 8. Sprinklers or cover plate assemblies that have been field painted or me- chanically damaged mustJ>e re- placed immediately. Sprinklers showing signs of corrosion shall be tested and/or replaced immediately as required. Installation standards require sprinklers to be tested and, if necessary, replaced after a specified term of service. For Viking Horizon® Mirage® Concealed Sprinklers, refer to the installation standards and the Authority Having Jurisdiction for the specified period of time after which testing and/or replacement is re- quired. Sprinklers and cover plate as- semblies that have operated cannot be reassembled or re-used, but must be replaced. When replacement is necessary, use only new sprinklers and cover plate assemblies. C. The sprinkler discharge pattern is critical for proper fire protection. Nothing should be hung from, at- tached to, or otherwise obstruct the discharge pattern. All obstructions must be immediately removed or, if necessary, additional sprinklers in- stalled. D. When replacing existing sprinklers, the system must be removed from service. Refer to the appropriate sys- tem description and/or valve instruc- tions. Prior to removing the system from service, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a fire patrol in the affected area. 1. Remove the system from service, draining all water and relieving all pressure on the piping. 2. Remove the cover plate assembly. a. From below the ceiling, grasp the cover plate and gently tum it counterclockwise. 3. Place a plastic protective shell (from the spare sprinkler cabinet) over the sprinkler to be removed. Sprinkler 20 d The internal diameter of the spe- cial Horizon® Mirage® Concealed sprinkler installation wrench is de- signed for use with the sprinkler contained in the shell. 4. Remove the sprinkler from the pip- ing in which it is installed. a. Using the special sprinkler wrench, tum the unit counter- clockwise to remove the old sprinkler. 5. Install the new unit. Care must be taken to replace the sprinkler with the proper model, style, orifice size, temperature rating and re- sponse characteristics. A fully stocked spare sprinkler cabinet should be provided for this pur- TECHNICAL DATA pose. Use of the correct Horizon® Mi- rage® Concealed Sprinkler can be verified by checking the fusible link for the following identification scheme: UUC-UL Standard Response: ..... No Stripe UUC-UL Quick Response illl.d FM Standard Response: . .... Purple Stripe (Refer to Technical Data Page 57 a-c for additional information). UUC-UL QREC: ..... Yellow Stripe (Refer to Technical Data Page 58 a-c for additional information). Replaces Sprinkler page 20 a-c dated July 8, 1996 (Added NYC Acceptance) October 31, 1996 HORIZON® MIRAGE® CONCEALED SPRINKLER Follow instructions provided in 11 INSTALLATION II paragraph 7. 6. Place the system back in service and secure all valves. Check the replaced sprinklers and repair all leaks. E. Sprinkler systems that have been subjected to a fire must be returned to service as soon as possible. The en- ti re system must be inspected for damage and repaired or replaced as necessary. Sprinklers that have been exposed to corrosive products of combustion or high ambient tempera- tures, but have not operated, should be replaced. Refer to the Authority Having Jurisdiction for minimum re- placement requirements. Form No. 021993 February 15, 1996 1. PRODUCT NAME Viking Model M Extra Large Orifice Sprinkler 2. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058 U.S.A. Telephone: (616) 945-9501 ( 800) 968-9501 Fax Number: (616) 945-9599 From outside U.S.A. Telephone: + 1 (616) 945-9501 Fax Number: + 1 (616) 945-9599 3. PRODUCT DESCRIPTION The Viking Model M Extra Large Orifice Sprinkler is a thermo-sensitive glass- bulb spray sprinkler. A rugged 5mm glass-bulb, an extra large orifice, and the familiar Model M design, are combined in the standard response Model M Extra Large Orifice Sprinkler. The extra large orifice provides greater flows at lower pressures than those pro- duced by standard orifice or large orifice sprinklers. This feature allows reduced pipe sizing for hydraulically calculated sprinkler systems which require high densities of water. The Model M Extra Large Orifice Sprinkler may eliminate the need for a fire pump or reduce the size of the pump if it is required. On existing systems, replacing large orifice sprinklers with extra large orifice sprin- klers may provide the higher densities required to allow an increase in the haz- ard classification of an occupancy . Viking Model M Extra Large Orifice Sprinklers are available in both upright and pendent styles with finishes and temperature ratings to meet desiin re- quirements. The special Teflon and polyester coatings can be used in deco- rative applications where colors are de- sired. In addition, these two finishes are corrosion resistant and provide protec- tion against many corrosive environ- ments. During fire conditions, the heat sensitive liquid in the glass-bulb expands, causing the bulb to shatter, releasing the pip cap and sealing spring assembly. The water flowing through the sprinkler orifice strikes the sprinkler deflector forming a uniform spray pattern to extinguish or control the fire. Viking Model M Extra Large Orifice Sprinklers may be ordered and/or used as open sprinklers (glass-bulb and pip cap assembly removed) on deluge sys- tems. TECHNICAL DATA The Viking Model M Extra Large Orifice Upright Sprinkler is UL listed and FM Approved for use in High Piled Storage Occupancies. See Approval Chart and Figure A. When acceptable to the Authority Having Jurisdiction, Viking Model M Extra Large Orifice Upright sprinklers may be used to protect single, double, multiple-row, and portable rack storage of Class I-IV group A and B plastics, cartoned, expanded or unexpanded, as well as exposed unexpanded with: a maximum storage height of ,. 20 ft. (6, 1 m), a maximum ceiling height of 25 ft. (7,6 m), 36 inches (914,4 mm) minimum deflector to top of storage clearance, design density of 0.60 gpm/sq. ft. (24,5 I/min/sq. meter), and a design area of 2000 sq. ft. (186 sq. meters) for wet systems or 2600 sq. ft. (242 sq. meters), for dry systems. A~'i'\ oo~~prinkler 13 e MODELM EXTRA LARGE ORIFICE SPRINKLER Upright 4. TECHNICAL DATA See Chart (page 13 g) for list of approvals. Glass Bulb Fluid Temperature rated to -65°F (-55°C) Rated 175 PSI (1 207 kPa) water work- ing pressure Factory tested hydrostatically to 500 PSI (3 448 kPa) Thread size: 3/4 NPT (20mm) Orifice Size: Nominal 5/8" (16mm) K Factor: 11.5 (16,6 Metric for use when pressure is measured in kPa) Spring: USA Patent No. 4,167,974 Bulb: USA Patent No. 4,796,710 Spacing requirements: Refer to Ap- proval Chart and Figure A Minimum operating pressure require- ments: Refer to to Approval Chart and Figure A Materials: Frame: Brass castings UNS-C84400 Deflector: Brass UNS-C26000 Bulb: Glass; Nominal 5mm diameter Seal: Teflon® Tape Spring: Nickel Alloy Sprinkler Nominal Sprinkler Ceiling Temperature at Sprinkler Temperature Temperature Rating Max. Ambient Max. Recommend. Bulb Classification (Fusing Point) Temp. Allowed1 Ambient Temp.2 Color3 Ordinary 135°F(57°C) 115°F(46°C) 100°F(38°C) Oranqe Ordinarv 155°F(68°C) 135°F(57°C) 100°F(38°C) Red Intermediate 175°F(79°C) 155°F(68°C) 150°F(65°C) Yellow Intermediate 200°F(93°C) 180°F(82°C) 150°F(65°C) Green High 286°F(141°C) 266°F(130°C) 225°F(107°C) Blue Sprinkler Finishes: Brass, Polished Chrome, Black Teflon® and White Polyester. Corrosion Resistant Coatings4: Black Teflon® and White Polyester in all temperatures and Wax coated brass in the following temperatures: 135°F(57°C) White Wax 175°F(79°C) Dark Brown Wax 155°F(68°C) Light Brown Wax 200°F(93°C) Dark Brown Wax. 1 Based on National Fire Prevention and Control Administration Contract No. 7-34860. 2 Based on NFPA-13. Other limits may apply depending on fire loading, sprinkler location and other authority having jurisdiction requirements. Refer to specific installation standards. 3 Temperature rating is stamped on deflector. 4 The Corrosion Resistant Coatings have passed the standard corrosion test required by the listed approving agencies. These tests cannot and do not represent all possible corrosive environments. Prior to installing, verify through the end user, that the coatings are compatible or suitable for the proposed environment. The coatings indicated are applied to the exposed exterior surfaces inly and therefore cannot be used as open sprinklers. Note that the spring is exposed on the Teflon coated sprinkler and the White Polyester sprinkler. Note: Units of measure in parentheses may be approximations. Form No. 010692 Replaces Sprinkler page 13 e, f, & g dated April 1, 1994 (Added FM Approved upright ELO.) Sprinkler 13 f February 15, 1996 MODELM TECHNICAL DATA EXTRA LARGE ORIFICE SPRINKLER UL & ULC Spacing and Minimum Pressure Requirements* Maximum Spacing {UL & C-UL Upright and UL & ULC Pendent) Ordinary Hazard Occupancies (UL & C-UL Upright and UL & ULC Pendent): 130 Ft2 (12,0 m2) Extra Hazard Occupancies (UL & C-UL Upright and UL & ULC Pendent): 90 Ft2 ( 8,4 m2) for pipe schedule systems. 100 Ft2 ( 9,3 m2) for systems hydraulically calculated according to NFPA 13 with densities of .25 GPM/Ft2 (10,2 Umin/m2) or greater. 130 Ft2 ~ 12, 1 m2) for systems hydraulically calculated according to NFPA 13 with densities less than .25 GPM/Ft2 (10,2 Umin/m ). High Piled Storage (UL & C-UL Upright): 100 Ft2 ( 9,3 m2) for systems hydraulically calculated according to NFPA 231, 231 C, or 231 D with densities of .25 GPM/Ft2 (10,2 Umin/m2) or greater. 130 Ft2 ( 1221 m2) for systems hydraulically calculated according to NFPA 231, 231 C, or 231 D with densities less than .25 GPM/Ft (10,2 Umin/m2). Maximum Distance Between Sprinklers {UL & C-UL Upright and UL & ULC Pendent) Ordinary Hazard Occupancies (UL & C-UL Upright and UL & ULC Pendent): 15 Ft (4,6 m) Extra Hazard Occupancies (UL & C-UL Upright and UL & ULC Pendent): 12 Ft (3,7 m) -Exception #1: Maximum distance between sprinklers= 12'-6" (3,8 m) in bays 25 ft. (7,6 m) wide. Exception #2: Maximum distance between sprinklers= 15'-0" (4,6 m) for systems hydraulically calculated according to NFPA 13 with densities less than .25 GPM/Ft2 (10,2 Umin/m2). High Piled Storage Occupancies (UL & C-UL Upright): 12 Ft (3,7 m) -Exception #1: Maximum distance between sprinklers= 12'-6" (3,8 m) in bays 25 ft. (7,6 m) wide. Exception #2: Maximum distance between sprinklers = 15'-0" (4,6 m) for systems hydraulically calculated according to NFPA 13 with densities less than .25 GPM/Ft2 {10,2 Umin/m2). Minimum Distance Between Sprinklers (UL & C-UL Upright and UL & ULC Pendent) Ordinary Hazard & Extra Hazard (UL & C-UL Upright and UL & ULC Pendent) 6 Ft (1.8 m) -Unless provided with baffles installed according to NFPA 13 High Piled Storage Occupancies (UL & C-UL Upright only): 6 Ft (1.8 m) -Unless provided with baffles installed according to NFPA 13 Minimum Operating Pressure (UL & C-UL Upright and UL & ULC Pendent) Ordinary Hazard & Extra Hazard (UL & C-UL Upright and UL & ULC Pendent) 7 PSI (48,3 kPa) _ High Piled Storage Occupancies (UL & C-UL Upright only): 10 PSI (70 kPa) FM** Approval Spacing & Minimum Pressure Requirements Maximum Spacing {FM Upright only) Ordinary Hazard, Extra Hazard, and High Piled Storage Occupancies (FM Upright only): 100 Ft2 (9 ,3 m2) Maximum Distance Between Sprinklers (FM Upright only) Ordinary Hazard, Extra Hazard, and High Piled Storage Occupancies (FM Upright only): 12 Ft (3,7 m) Minimum Distance Between Sprinklers (FM Upright only) Ordinary Hazard, Extra Hazard, and High Piled Storage Occupancies (FM Upright only): 7 Ft (2,1 m) Minimum Operating Pressure (FM Upright only) Ordinary Hazard, Extra Hazard, and High Piled Storage Occupancies (FM Upright only): 10 PSI (70 kPa) Figure A Listing and Approval Spacing and Minimum Pressure Requirements Requirements *UL, ULC, & C-UL listing of ELO Sprinklers requires installation to comply with recommendations set forth in NFPA Installation Standards. UL, ULC, & C-UL spacing and minimum pressure requirements shown are taken from NFPA 13 (1994 ed.), 231 (1995 ed.), 231-C (1995 ed.), and 231-0 (1994 ed) and are provided ** for reference only. For FM Approval, installation must compy with requirements of applicable Factory Mutual Loss Prevention Data Sheets. February 15, 1996 I I TECHNICAL DAT A MODEL M 5mm GLASS BULB STANDARD RESPONSE EXTRA LARGE ORIFICE Sprinkler 13 g MODEL M EXTRA LARGE ORIFICE SPRINKLER KEV ri:=== Temperature r--Finish A 1 X-Escutcheon (Pdt. Sprinkler only) Thread Nominal Deflector Nominal Overall Approval 2 Size Orifice Style K Factor3 Length UL4 ULC4 C-UL5 NYC6 FM7 N.P.T. B.S.P. Inches MM Description 3/4" 20mm 5/8" 16 Pendent 3/4" 20mm 5/8" 16 Upright APPROVED TEMPERATURES A -135°F (57°C), 155°F(68°CJ, 175°F ( 79°C), 200°F (93°C), 286°F (141 C) B -135°F (57°C), 155°F(68°C), 175°F ( 79°C), 200°F (93°C) C -286°F (141°C) D -155°F(68°CJ, 175°F ( 79°C), 200°F (93°C), 286°F (141 C) E -155°F(68°C), 175°F ( 79°C), 200°F (93°C) Base P/N1 U.S. Metric Inches MM A2.X A2.X 07961 11.5 16,6 2.75 69,9 B2Y B2Y B4X B4X D2 -- 09679 11.5 16,6 2.75 69,9 E4 --cs -- APPROVED FINISHES 1 -Brass, Chrome 2 -Brass, Chrome, Black Teflon®· and White Polyester 3 -Brass, Chrome, and Black Teflon® 4 -Wax coated Brass. Corrosion Resistant 5 -Brass with 200°F (93°C) wax coating. (For corrosion resistance.) Maximum ambient ceiling temperature at ceiling= 150°F (65°C). FOOTNOTES --A3X --B3Y ----B4X D2 -- E4 --D1 cs -- APPROVED ESCUTCHEONS X -Standard (surface) Y -Standard (surface) or recessed with E-1 escutcheon 1 Base part number shown. For complete part number, see price list. 2 This Chart shows the listin~s and approvals available at the time of printing. Other approvals are in process. Check with the manufacturer for any additional approvals. 3 Metric K Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K Factor shown by 10.0. 4 For UL and ULC listing requirements concerning ELO sprinkler spacing and minimum pressure requirements, refer to Figure A and applicable installation standards. 5 Listed by Underwriters Laboratories Inc. for use in Canada. 6 Accepted for use, City of New York Department of Buildings MEA 89-92-E Vol. III. 7 For FM Approval requirements concerning ELO sprinkler spacing and minimum pressure requirements, refer to Figure A. Also refer to applicable FM Loss Prevention Data sheets. Pintle Screw: Brass UNS-C36000. Pip Caj: Copper UNS -C31600 Teflon Sprinklers: Spring: Nickel Alloy; Exposed Pintle Screw: Brass UNS-C36000 Tin plated, painted black for appearance only Pip Cap: Leaded Bronze UNS-C31600 Teflon® coated Polyester Sprinklers: Spring: Nickel Alloy; Exposed Pintle Screw: Brass UNS-C36000 Tin plated, painted white for appearance only Pip Cap: Leaded Bronze UNS-C31600 · Tin plated Accessories: Sprinkler Wrench Standard ELO wrench: PN 07297M Wrench for coated & recessed ELO sprinklers: PN 07565W/B (1 /2" ratchet required) Available Finishes: Chrome, Brass, Black Teflon® or White Polyester 5. AVAILABILITY AND SERVICE Viking sprinklers are available through a network of Domestic, Canadian, and In- ternational Distributors, see the Yellow Pages of the telephone directory (listed under "Sprinklers Automatic Fire") or write to The Viking Corporation. 6. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Vi- king directly. 7. INSTALLATION WARNING: Viking sprinklers are manu- factured and tested to meet the rigid requirements of the approving agency. The sprinklers are designed to be in- stalled in accordance with recognized installation standards. Deviation from the standards or any alteration to the sprinkler after it leaves the factory in- eluding, but not limited to, painting, plating, coating or modification, may render the sprinkler inoperative and will automatically nullify the approval and any guarantee made by The Viking Cor- poration. A. Sprinklers are to be installed in ac- cordance with the latest published standards of the National Fire Protec- tion Association, Factory Mutual, Loss Prevention Council, Assembles Pleniere, Verband der Sachver- sicherer or other similar organiza- tions and also with the provisions of governmental codes, ordinances and standards whenever applicable. The use of Extra Large Orifice sprinklers may be limited due to occupancy and hazard. Refer to the Authority Hav- ing Jurisdiction prior to installation. 8. Sprinklers must be handled with care. They must be stored in a cool, dry place in their original shipping con- tainer. Never install sprinklers that have been dropped, damaged or ex- posed to temperatures in excess of • Sprinkler 13 h 7/16" 1-3/4" (11,1mm) 3/4" (20mm) NPT TECHNICAL DATA t 2-3/4" (69,9mm) ---::.·,·:•:~.:;:-./::~.:.1'··:·:'.tf•·'.,. l February 15, 1996 MODELM EXTRA LARGE ORIFICE SPRINKLER 3/4" '-c2omm) Model M NPT 7/16" ..... c11 , 1 mm) Model M Extra Large Orifice Model M Pendent Sprinkler Model M Extra Large Orifice Pendent Sprinkler Extra Large Orifice Upright Sprinkler Extra Large Orifice Installed with Model E-1 Installed with 1 /8" (3, 1 mm) Escutcheon Pendent Sprinkler Recessed Escutcheon the maximum ambient temperature allowed. Never install any glass bulb sprinkler if the bulb is cracked or if there is a loss of liquid from the bulb. (These sprinklers should be de- stroyed immediately). _C. Corrosion resistant sprinklers must be installed when subject to corrosive atmospheres. When installing corro- sion resistant sprinklers, take care not to damage the corrosion resistant coating. Use only the special wrench designed for installing coated Viking sprinklers (any other wrench may damage the unit). Note: All dimensions are approximate. Figure B compound or tape applied and rein- stalled. This is due to the fact that when the joint seal is damaged, the sealing compound or tape is washed out of the joint. Air testing the sprin- kler piping prior to testing with water may be considered in areas where leakage during testing must be pre- vented. Refer to the Installation Guides, and the Authority Having Ju- risdiction. F. Sprinklers must be protected from mechanical damage. Wet pipe sys- tems must be provided with adequate heat. When installing Extra Large Orifice Sprinklers on dry systems, refer to the Installation Guides, and the Authority Having Jurisdiction. 8. MAINTENANCE D. The sprinkler must be installed after the piping is in place to prevent me- chanical damage. Before installing, make sure the appropriate model, style, orifice size and temperature rating are used. NOTICE: The owner is responsible for 1. Install escutcheon, (if used) which maintaining the fire protection system is designed to thread on to the and devices in proper operating condi- external threads of the sprinkler. tion. For minimum maintenance and in- Refer to "Sprinkler Accessories" spection requirements, refer to the Na- for approved escutcheons and tional Fire Protection Association Pam- other accessories. phlet that describes care and mainte- 2. Apply a small amount of pipe joint nance of sprinkler systems. In addition, compound or tape to the external the Authority Having Jurisdiction may threads of the sprinkler only, tak-have additional maintenance, testing ing care not to allow a build up of and inspection requirements which must compound in the sprinkler inlet. be followed. 3. Install the sprinkler on the piping A. The Sprinklers must be inspected on using the special sprinkler wrench a regular basis for corrosion, me- anly, taking care not to over-chanical damage, obstructions, tighten or damage the sprinkler paint, etc. The frequency of the in- operating parts. DO NOT use the spections may vary due to corrosive deflector to start or thread the atmospheres, water supplies and ac- sprinkler into a fitting. tivity around the device. E. After installation, the entire sprinkler 8. Sprinklers that have been painted or system must be tested in accordance mechanically damaged must be re- with the recognized installation placed immediately. Sprinklers standards. The test is applied after showing signs of corrosion shall be the sprinkler installation to insure no tested and/or replaced immediately damage has occurred to the sprinkler as required. Standard response during shipping and installation, and Sprinklers that are 50 years old shall to make sure the sprinkler has been be tested and/or replaced as re- properly tightened. If a thread leak quired. Sprinklers that have oper- should occur, normally the sprinkler ated cannot be reassembled or re- must be removed, new pipe joint used, but must be replaced. When Replaces Sprinkler page 13 e, f, & g dated April 1, 1994 (Added FM Approved upright ELO.) replacing sprinklers, use only new sprinklers. C. The sprinkler discharge pattern is critical for proper fire protection, therefore, nothing should b~ hung from, attached to, or otherwise ob- struct the discharge pattern. All ob- structions must be immediately re- moved or, if necessary, additional sprinklers installed. D. When replacing existing sprinklers, the system must be removed from service. Refer to the appropriate sys- tem description and/or valve instruc- tions. Prior to removing the system from service, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a fire patrol in the affected area. 1. Remove the system from service, draining all water and relieving all pressure on the piping. 2. Using the special sprinkler wrench, remove the old sprinkler and in- stall the new unit. Care must be taken to replace the sprinkler with the proper model, style, orifice size and temperature rating. A fully stocked spare sprinkler cabi- net should be provided for this purpose. 3. Place the system back in service and secure all valves. Check and repair all leaks. E. Sprinkler systems that have been subjected to a fire must be returned to service as soon as possible. The entire system must be inspected for damage and repaired or replaced as necessary. Sprinklers that have been exposed to corrosive products of combustion or high ambient tem- peratures, but have not operated, should be replaced. Refer to the Authority Having Jurisdiction for mini- mum replacement requirements. Form No. 010692 September 28, 1998 I TECHNICAL DATA Upright Pendent Conventional Viking Micromatic® Model M Sprinkler Figure A 1. PRODUCT NAME Viking Micromatic® Model M Sprinkler Styles: Upright, Pendent, and -Conventional Manufactured since 1997 2. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058, U.S.A. Telephone: (616) 945-9501 (877) 384-5464 Fax: (616) 945-9599 e-mail: techsvcs@vikingcorp.com 3. PRODUCT DESCRIPTION The Viking Micromatic® Model M Sprin- kler is a small, thermosensitive glass- bulb spray sprinkler. The sprinkler is available in several styles, finishes, tem- perature ratings, and orifice sizes to meet design requirements. The small frame and rugged 5 mm glass bulb are aesthetically pleasing. Used in conjunc- tion with one of the various corrosion-re- sistant coatings, the unit provides pro- tection against many corrosive environ- ments. In addition, the special polyester or Teflon® coatings can also be used in decorative applications where colors are desired. During fire conditions, the heat-sensitive liquid in the glass bulb expands, causing the bulb to shatter, releasing the pip cap and sealing spring assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. 4. TECHNICAL DATA See Table 2 (page 11 c) and Table 3 (page 11 d) for list of approvals. Maximum spacing: 15 ft. (4,57 m) Minimum spacing: 6 ft (1,8 m) Minimum operating pressure: 7 PSI (48,3 kPa) Glass-bulb fluid temperature rated to -65 °F (-55 °C) Rated 175 PSI (1 207 kPa) water working pressure Factory tested hydrostatically to 500 PSI (3 448 kPa) Spring: USA Patent No. 4,167,974 Materials: Frame -Brass castings UNS-C84400 Deflector -Brass UNS-C26000 Bulb -Glass with glycerin solution; Nominal 5 mm diameter Seal -Teflon® tape Spring -Nickel alloy Screw -Brass UNS-C36000. Pip Cap -Copper UNS-C11000 and Stainless Steel UNS-S30400 ,-eflon® Sprinklers: Spring -Nickel alloy, exposed Screw -Brass UNS-C36000 Pip Cap -Copper UNS-C11000 and Stainless Steel UNS-S30400; Teflon® coated Polyester Sprinklers: Spring -Nickel alloy, exposed Screw -Brass UNS-C36000 Pip Cap -Copper UNS-C11000 and Stainless Steel UNS-S30400 Accessories: Sprinkler Wrench Standard Micromatic® Wrench: Part No. 05000CM Wrench for coated and recessed sprinklers: Part No. 07398W Refer to "Sprinkler Accessories" for other accessories. MICROMATIC® MODELM SPRINKLER Available Finishes: Chrome-Enloy® (patents pending), Brass, Bright Brass, White Polyester, Black Polyester, Black Teflon®, or Wax-Coated Brass or Polyester 5. AVAILABILITY AND SERVICE Viking sprinklers are available through a network of domestic, Canadian, and international distributors. See the Yel- low Pages of the telephone directory for a local distributor (listed under "Sprinklers-Automatic-Fire") or contact The Viking Corporation. Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this Technical Data page. 6. GUARANTEES For details of warranty, refer to Viking's current price schedule, or contact The Viking Corporation directly. 7. INSTALLATION WARNING: Viking sprinklers are manu- factured and tested to meet the rigid requirements of the approving agency. The sprinklers are designed to be in- stalled in accordance with recognized installation standards. Deviation from the standards or any alteration to the sprinkler after it leaves the factory in- cluding, but not limited to, painting, plat- ing, coating, or modification, may render the sprinkler inoperative and will auto- matically nullify the approval and any guarantee made by The Viking Corpora- tion. A. Sprinklers are to be installed in ac- cordance with the latest published standards of the National Fire Protec- tion Association, Factory Mutual, Loss Prevention Council, Assemblee Pleniere, Verband der Sachver- sicherer or other similar organiza- tions, and also with the provisions of governmental codes, ordinances, and standards whenever applicable. B. Sprinklers must be handled with care. They must be stored in a cool, dry place in their original shipping con- tainer. Never install sprinklers that have been dropped, damaged, or ex- posed to temperatures in excess of the maximum ambient temperature allowed. Never install any glass-bulb sprinkler if the bulb is cracked or if there is a loss of liquid from the bulb. If a glass bulb lacks the appropriate amount of fluid, it should be set aside Note: Units of measure in parentheses may be approximations. Form No. F _ 100397 Replaces page 13 a-d and page 11 a-d, dated August 3, 1998 (updated list of approvals). Sprinkler 11 b TECHNICAL DATA Sprinkler Nominal Sprinkler Ceiling Temperature at Sprinkler Bulb Temperature Temperature Rating Max. Ambient Max. Recommended Color3 Classification (Fusing Point) Temp. Allowed1 Ambient Temp.2 Ordinary 135 °F (57 °C) 115 °F (46 °C) 100 °F (38 °C) Orange Ordinarv 155 °F (68 °C} 135 °F (57 °C} 100 °F (38 °C) Red Intermediate 175 °F (79 °C) 155 °F (68 °C) 150 °F (65 °C) Yellow I nter_mediate 200 °F (93 °C) 180 °F (82 °C) 150 °F (65 °C) Green Intermediate 212 °F (100 °C) 192 °F (88 °C) 150 °F (65 °C) Green High 286 °F (141 °C) 266 °F (130 °C) 225 °F (107 °C) Blue Extra High 360 °F (182 °C) 340 °F (171 °C) 300 °F (149 °C) Mauve Ultra High5 500 °F (260 °C) 480 °F (249 °C) 465 °F (240 °C) Black Sprinkler Finishes: Brass, Bright Brass, Chrome-Enloy®, White Polyester, Black Polyester, and Black Teflon® Corrosion-Resistant Coatlngs4: Polyester and Teflon® in all temperatures, Wax-Coated Brass, and Wax over Polyester in the following temperatures: 135 °F (57 °C) White Wax 175 °F (79 °C) Dark Brown Wax 155 °F (68 °C) Light Brown Wax 200 °F (93 °C) Dark Brown Wax 212 °F (100 °C) Dark Brown Wax FOOTNOTES 1 Based on National Fire Prevention and Control Administration Contract No. 7-34860. 2 Based on NFPA-13. Other limits may apply depending on fire loading, sprinkler location, and other Authority-Having-Jurisdiction requirements. Refer to specific installation standards . ... 3 Temperature rating is stamped on the deflector. 4 The corrosion-resistant coatings have passed the standard corrosion test required by the listed approving agencies. These tests cannot and do not represent all possible corrosive environments. Prior to installing, verify through the end user that the coatings are compatible or suitable for the proposed environment. The coatings indicated are applied to the exposed exterior surfaces only and, therefore, cannot be used as open sprinklers. Note that the spring is exposed on the Teflon®-coated sprinkler and the White Polyester sprinkler. 5 Sprinklers of Ultra High temperature rating are intended for use inside ovens, dryers, or similar enclosures with normal operating temperatures above 300 °F (149 °C). Where the ambient temperature around the_ Ultra High temperature rated sprinkler is significantly reduced below 300 °F (149 °C), response time of the Ultra High temperature rated sprinkler may be severely retarded. Table 1 and returned to Viking (or an author- ized Viking distributor) for analysis as soon as possible. If the sprinkler is not returned to Viking, it should be destroyed immediately. C. Corrosion-resistant sprinklers must be installed when subject to corrosive atmospheres. When installing corro- sion-resistant sprinklers, care must be taken not to damage the corro- sion-resistant coating. Use only the special sprinkler wrench and immedi- ately replace any damaged units. D. Before installation, be sure to have the appropriate sprinkler model and style, with the proper orifice size, temperature rating, and response characteristics. The sprinklers must be installed after the piping is in place to prevent mechanical damage. 1. Install escutcheon (if used), which is designed.to thread onto the ex- ternal threads of the sprinkler. When installing sprinklers using a Model E-1 or Model F-1 Escutch- eon, thread the center adapter ring onto the external threads of the sprinkler. Refer to the 11Sprin_- kler Accessories" section of the Viking Engineering and Design Data book for approved escutch- eons and other accessories. 2. Apply a small amount of pipe-joint compound or tape to the external threads only, taking care not to allow a build-up of compound in the sprinkler orifice. .. 3. Install the sprinkler on the piping using the special sprinkler wrench only, while taking care not to dam- age the sprinkler operating parts. (Any other type of wrench may damage the unit). DO NOT use the sprinkler deflector to start or thread the sprinkler into a fitting. E. After installation, the entire sprinkler system must be tested in accordance with the recognized installation standards. The test is applied after sprinkler installation to ensure that no damage has occurred to the sprinkler during shipping and installation, and to make sure the unit has been prop- erly tightened. If a thread leak should occur, normally the sprinkler must be removed, new pipe-joint compound or tape applied, and then reinstalled. This is due to the fact that when the joint seal is damaged, the sealing compound or tape is washed out of September 28, 1_998 MICROMATIC® MODELM SPRINKLER the joint. Air testing the sprinkler pip- ing prior to testing with water may be considered in areas where leakage during testing must be prevented. Refer to to the Installation Guides and the Authority Having Jurisdiction. F. Sprinklers must be protected from mechanical damage. Wet pipe sys- tems must be provided with adequate heat. When installing sprinklers on dry systems, refer to the Installation Guides and the Authority Having Jurisdiction. 8. MAINTENANCE NOTICE: The owner is responsible for maintaining the fire-protection system and devices in proper operating condi- tion. For minimum maintenance and in- spection requirements, refer to the Na- tional Fire Protection Association pam- phlet that describes care and mainte- nance of sprinkler systems. In addition, the Authority Having Jurisdiction may have additional maintenance, testing, and inspection requirements which must be followed. A. Sprinklers must be inspected on a regular basis for corrosion, mechani- cal damage, obstructions, paint, etc. The frequency of the inspections may vary due to corrosive atmospheres, water supplies, and activity around the device. B. Sprinklers that have been painted or mechanically damaged must be re- placed immediately. Sprinklers showing signs of corrosion shall be tested and/or replaced immediately as required. Micromatic® Model M Sprinklers that are 50 years old shall be tested and/or replaced as re- quired. Sprinklers that have operated cannot be reassembled or re-used, but must be replaced. When replac- ing sprinklers, use only new sprin- klers. C. The sprinkler discharge pattern is critical for proper fire protection. Therefore, nothing should be hung from, attached to, or otherwise ob- struct the discharge pattern. All ob- structions must be immediately re- moved or, if necessary, additional sprinklers installed. D. When replacing existing sprinklers, the system must be removed from service. Refer to the appropriate sys- tem description and/or valve instruc- tions. Prior to removing the system from service, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a fire patrol in the affected area. (continued on page 11 d) ...,_ September 28, 1998 Sprinkler 11 c TECHNICAL DATA I MICROMATIC® MODELM SPRINKLER MICROMATIC® MODEL M SPRINKLER 5 mm GLASS BULB, STANDARD RESPONSE See row A KEY See row 3 of of Approved -i r-Approved STANDARD ORIFICE Temp. Chart A 3 Finish Chart Thread Nominal Deflector Nominal Overall Approvals2 Size Orifice s le K-Factor6 Len th N.P.T. B.S.P. lnche Base P/N1 U.S. Metric Inches mm UL C-UL FM NYC3 VdS LPCB 1/2" 1/2 10138 5.5 2.3 --A3 84 C6 F7 A3 84 C6 F7 A7 D5 F7 A3 84 C6 -- 1/2" 1/2 10139 5.5 2.3 --A3 84 C6 F7 A3 84 C6 F7 A7 D5 F7 A3 84 C6 A2 A1 B 1/2" 1/2 10233 5.5 2.3 58 A7 D5 F7 A2 A1 88 15 mm 15 10173 79 58 A3 84 C6 A3 84 C6 A7 D5 E1 15mm 15 10174 79 58 A7 D5 E1 A2 A1 88 15mm 15 10193 79 58 A3 84 C6 F7 A3 84 C6 F7 A7 D5 E1 A3 84 C6 -- LARGE ORIFICE 1/2" 17/32 --10220 8.0 2.4 61 A3 84 C6 F7 A3 84 C6 F7 A7 D5 F7 A3 84 1/2" 17/32 --4 10223 8.0 11 5 2.4 61 A3 84 C6 F7 A3 84 C6 F7 A7 D5 F7 A3 84 3/4" 17/32 --10141 8.0 11,5 2.4 61 A3,84,C6,F7 A3, 84, C6, F7 A7,D5,F7 A3,84,C6 A2 A1, 88 3/4" 17/32 --Pendent4 10142 8.0 11 5 2.4 61 A3 84 C6 F7 A3 84 C6 F7 A7 D5 F7 A3 84 C6 A2 1 88 15mm 20 Pendent4 10187 --A3 84 C6 F7 A3 84 C6 F7 D5 --A1 88 15mm 20 U ri ht 10190 --A3 84 C6 F7 A3 84 C6 F7 D5 --A1 88 20mm 20 U ri ht 10169 8.0 11,5 2.4 61 A3,B4,C6 A3,B4,C6 D5, E1 A2 A1,88 20mm 20 Pendent4 10170 8.0 11 5 2.4 61 A3 84 C6 A3 84 C6 D5 E1 A2 A1 88 SMALL ORIFICE 7/16 · U ri ht 10191 58 A3 84 C6 F7 A3 84 C6 F7 1/2" 3/8 U ri ht 10218 2.7 2.3 --A3,B4,C6,F7 A3, 84, C6, F7 A7,D5 A3,84 1/2" 7/16 --U ri ht 10219 4.0 2.3 --A3, 84, C6, F7 A3, 84, C6, F7 A3,84 1/2" 3/8 Pendent4 10221 2.7 2.3 58 A3 84 C6 F7 A3 84 C6 F7 A7 D5 A3 84 1/2" 7/16 --Pendent4 10222 4.0 58 A3,84,C6,F7 A3, 84, C6, F7 A3,B4 10mm 10 Pendent4 10175 58 2.3 58 A2 A1 B 10mm 10 U ri ht 10176 5,8 2.3 58 A2 A1 ,88 15mm ~8 U ri ht 10192 58 A3 84 C6 F7 A3 84 C6 F7 E5 15 mm 7/16 Pendent4 10188 --A3 84 C6 F7 A3 84 C6 F7 15mm 3/8 Pendent4 10189 --A3 84 C6 F7 A3 84 C6 F7 CONVENTIONAL 1/2" 1/2 Conv. 10227 5.5 2.3 A3, 84, C6 A3,B4,C6 A2 A1, 88 3/4" 17/32 --Conv. 10228 8.0 2.4 A3 84 C6 A3 84 C6 A2 A1 88 15 mm 15 Conv. 10172 7,9 58 A3, 84, C6 A3,84,C6 A2 A1 , 88 20 mm 20 Conv. 10168 11,5 61 A3, 84, C6 A3,84,C6 A2 A1, 88 APPROVED TEMPERATURES APPROVED FINISHES A -135 °F (57 °C), 155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C), 1 -Brass, Bright Brass, and Chrome-Enloy® 286 °F (141 °C), and 360 °F (182 °C) B -135 °F (57 °C), 155 °F (68 °C), 175 °F (79 °C), and 200 °F (93 °C) C -286 °F (141 °C) 2 -Brass, Bright Brass, Chrome-Enloy®, White Polyester>, and Black Polyesters 3 -Brass, Bright Brass, Chrome-Enloy®, Black Teflon®s, White Polyesters, and Black Polyester> D -135 °F (57 °C), 155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C), and 212 °F (100 °C) E -135 °F (57 °C), 155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C), 212 °F (100 °C), 286 °F (141 °C), and 360 °F (182 °C) F -500 °F (260 °C)7 4 -Wax-Coated Brass and Wax over Polyester (corrosion resistant) 5 -Wax-Coated Brass (corrosion resistant) 6 -200 °F (93 °C) Wax Coating (corrosion resistant); maximum ambient temperature allowed at ceiling = 150 °F (65 °C) 7 -Brass and Chrome-Enloy® 8 -Wax-Coated Brass, Wax Over Polyester, White Polyester, Black Polyester, and Black Teflon FOOTNOTES 1 Base part number shown. For complete part number, refer to price list. 2 This table shows the listings and approvals available at the time of printing. Other approvals are in process. Check with the manufacturer for any additional approvals. 3 Approved by the New York City Board of Standards and Appeals, MEA No. 89-92-E, Volume 12. 4 Refer to "Sprinkler Accessories" section for approved escutcheons and other accessories. 5 UL and C-UL approved as a corrosion-resistant sprinkler. 6 Metric K-Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K-Factor shown by 10.0. 7 Sprinklers of Ultra High temperature rating are intended for use inside ovens, dryers, or similar enclosures with normal operating temperatures above 300 °F (149 °C). Where the ambient temperature around the Ultra High temperature rated sprinkler is significantly reduced below 300 °F (149 °C), response time of the Ultra High temperature rated sprinkler may be severely retarded. Table 2 • Sprinkler 11 d TECHNICAL DATA MICROMATIC® MODEL M SPRINKLER 5 mm GLASS BULB, STANDARD RESPONSE September 28, 1998 MICROMATIC® MODELM SPRINKLER KEY See row A ~ i---See row 3 of of Approved Approved INSTALLED WITH E-1 RECESSED ESCUTCHEON7 Temp. Chart A 3 Finish Chart Thread Nominal Deflector Nominal Overall Approvals2 Size Orifice Style K-Factor8 Length N.P.T. B.S.P. Inches mm Description Base P/N1 U.S. Metric Inches mm UL C-UL FM7 NYC3 VdS LPCB 1/2" --1/2 --Pendent4 10139 5.5 --2.3 --83 83 D1 83 82 83 3/4" --17/32 --Pendent4 10142 8.0 --2.4 --83 83 D1 83 82 83 --15 mm --15 Pendent4 10173 --7,9 --58 83 83 D1 --82 83 --20mm --20 Pendent4 10170 --11,5 --61 83 83 D1 --82 83 INSTALLED WITH F-1 ADJUSTABLE ESCUTCHEON6 1/2" --1/2 --Pendent4 10139 5.5 --2.3 --83 83 --83 C1 83 3/4" --17/32 --Pendent4 10142 8.0 --2.4 --83 83 --83 C1 83 --15mm --15 Pendent4 10173 --7,9 --58 --------C1 83 --20mm --20 Pendent4 10170 --11,5 --61 --------C1 83 ~ APPROVED TEMPERATURES APPROVED FINISHES A -135 °f (57 °C), 155 °F (68 °C), 175 °F (79 °C), 1 -Brass, Bright Brass, and Chrome-Enloy® 200 °F (93 °C), 286 °F (141 °C), and 360 °F (182 °C) 2 -Brass, Bright Brass, Chrome-Enloy®, White Polyester5, and Black Polyester5 B -135 °F (57 °C), 155 °F (68 °C}, 175 °F (79 °C), 3 -Brass, Bright Brass, Chrome-Enloy®, Black Teflon®5, White Polyester5, and 200 °F (93 °C) and Black Polyester5 C -286 °F (141 °C) 4 -Wax-Coated Brass and Wax over Polyester (corrosion resistant) 5 -Wax-Coated Brass (corrosion resistant) D -135 °F (57 °C}, 155 °F (68 °C), 175 °F (79 °C}, 6 -200 °f (93 °C) Wax Coating (corrosion resistant); maximum ambient 200 °F (93 °C}, and 212 °F (100 °C) temperature allowed at ceiling = 150 °F (65 °C) FOOTNOTES 1 Base part number shown. For complete part number, refer to price list. 2 This table shows the listings and approvals available at the time of printing. Other approvals are in process. Check with manufacturer for any additional approvals. 3 Approved by the New York City Board of Standards and Appeals, MEA No. 89-92-E, Volume 12. 4 Refer to "Sprinkler Accessories" section for approved escutcheons and other accessories. 5 UL and C-UL approved as a corrosion-resistant sprinkler. 6 E-1 Recessed Escutcheons and F-1 Adjustable Escutcheons must be ordered separately from sprinklers. Refer to the price list. 7 FM approval of recessed standard orifice and large orifice Model M pendent sprinklers with the E-1 Escutcheon is limited to Wet Systems and Preaction Systems qualifying as Wet Systems, for hazard occupancies up to and including Ordinary Hazard Group II. 8 Metric K-Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K-Factor shown by 10.0. Table 3 1 . Remove the system from service, drain all water, and relieve all pressure on the piping. 2. Using the special sprinkler wrench, remove the old sprinkler and in- stall the new unit. Care must be taken to ensure that the replace- ment sprinkler is the proper model and style, and has the appropriate orifice size, temperature rating, and response characteristics. A fully stocked spare sprinkler cabi- net should be provided for this purpose. 3. Place the system back in service and secure all valves. Check and repair all leaks. E. Sprinkler systems that have been subjected to a fire must be returned to service as soon as possible. The entire system must be inspected for damage, and repaired or replaced as necessary. Sprinklers that have been exposed to corrosive products of combustion or high ambient tempera- tures, but have not operated, should be replaced. Refer to the Authority Having Jurisdiction for minimum replacement requirements. Replaces page 13 a-d and page 11 a-d, dated August 3, 1998 (updated list of approvals). Form No. F _ 100397