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Home My WebLink About2282 FARADAY AVE; ; FS090003; Permit9/29/2020 FS090003 Permit Data City of Carlsbad Fixed Systems Permit Job Address: 2282 FARADAY AV Permit Type: FIXSYS Parcel No: 2120614600 Lot #: 0 Reference No.: Permit No: FS090003 Status: ISSUED Applied 1/12/2009 Approved: Issued: PC #: Inspector: Project Title: ISIS PHARMACEUTICAL 2 FIRE SUPPRESSION SYSTEM INSPECTIONS @ $65/EA Applicant: INTEGRATED PROTECTION SERVICES 5431 LOS ROBLES CARLSBAD, CA 760-476-3778 Owner: BMR-2282 FARADAY AVENUE LLC C/O PARADIGM TAX GROUP 3645 RUFFIN RD #310 SAN DIEGO CA Fees ($) J Add'l Fees ($) Total ($) Balance ($) 130 0 1. 130 -1 0 1/1 THERE ARE NO PLANS ASSOCIATED WITH THIS PERMIT :•: Integrated Protection Services FOAM SYSTEM SUMMARY INSTALLATION IDENTIFICATION ISIS PHARMACEUTICALS CARLSBAD, CA HAZARD CLASSIFICATION NONDIKED SPILL AREA PROTECTION NFPA 11 (2005) 5.8 TYPE OF PROTECTION FOAM-WATER DELUGE SYSTEM NFPA 16 (2003) 3.3.7.1 HAZARD DESCRIPTION ROOM 145 H3/H7 STORAGE FLAMMABLE/COMBUSTIBLE 604.59 FT 2 FLOOR AREA AREA TO_BE_PROTECTED FLAMMABLE/COMBUSTIBLE TOL ULENE LIQUID IDENTIFICATION FOAM APPLICATION METHOD FIXED DIRECTIONAL SPRAY NOZZLES DESCRIPTION, NUMBER AND PLACEMENT (16) TYCO D-3 80° BRASS NOZZLES OF FOAM APPLICATION DEVICE(S) (1) TYCO TYB OPEN, BRASS, SSP SPKR FOAM AGENT SELECTED ANSUL 30 AFJAFFF L FOAM FOAM SOLUTION APPLICATION RATE 0 .20 GPM/SQ. FT. OF FLOOR AREA PER _NFPA _16_(2003)_7.3.2.1 FOAM CONCENTRATION RATE 5.81 GPM WATER APPLICATION RATE 187.87 GPM DURATION OF DISCHARGE 10 MINUTE DURATION PER _NFPA _16_(2003)_7.3.3.1 GALLONS OF FOAM REQUIRED 58.10 GALLONS GALLONS OF WATER REQUIRED 1,878.70 GALLONS WATER SUPPLY INFORMATION 100 PSI STATIC PRESSURE 97.0 RESIDUAL, WI 900 GPM A VAILABLE SPECIAL DESIGN CONSIDERATIONS S YS TEM IS A U TOMA TIC INITIA TED BY U WIR DETECT/ON S YS TEM 5431 Los Robles Drive Carisba, CA 92008 ph: 760-476-3778 fx: 760-476-3793 Andc'M 31H ~jjljHydrauflc Summary FSD900QS Job Number: 86014 Rnnrt Dsc.rintian: Fo2m-W2tr Dpluop Svstm Job Job 86014 DesNn Ermeer Gene Janecko Job Name State CertitsebonlLicerne Number ISIS 778715 Roldraso I 2282 Farady Avenue RJ-IJ City of Carlsbad Mdreos2 Job Site H3/H7 Storage Crlg State Zip Code D,ov.rrg Name Carlsbad CA 86014_piping.cad System Remote Area(s) Most Demanding Sprirubter Data Occupancy 2.3 K-Factor 10.29 at 20.000 H3/H7 Storage Rosa Hiowarum At 5owoe Density Area otpplbatbn 200.00 0.20gpm/ft2 604.59ft2 (Actual 923.12ft2) Mdoloral Hose Supplies NcerWer Cr! Sprirdders Calculated Coverage Per SprirrkHr Node Flow(gpm) 17 100.00112 Hose At Node 8 50.00 Total Hone Streams 250.00 System Flow Demand Total Vmteter Required (lmwlmrdioq Hose Allowarwa) 243.68 443.68 Madnrmen pressure Ltnbolarse In Loops 0.000 Ma,drrnarr Veloofty Wove Ground 18.52 between nodes 11 and 13 Macroman Velocity Urnlor Gocant 2.77 between nodes 6 and 7 Volume oepeoty of Wet Pipes Voirorre nepsocy stOry Pmpeo 540.65ga1 Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node (gpm) (psi) (psi) (gpm) (psi) (gpm) (psi) (psi) 1 200.00 100.000 97.000 I 900.00 99.189 443.68 1 83.859 1 15.330 ------------- Contractor CorryactorNuWor Contact Name Contact Titte 778715 Gus Santerre Conyeotor Name phone Extension Integrated Protection Services 760-476-3778 Address 5431 Los Robles Drive FAX 760476-3793 Mdmnse 2 E-mail gussanteraol.com City Slate GpCode Web-tate Carlsbad CA 92008 www.ipsfire.com (,,©M.E.P.CAD, Inc. As AutoSPRINK®VR5 v5.1.32 11/29/2008 14:54:26 Page 1 IJA 1 Isummary Of Outfiowing Devices Job Number: 86014 Report Description: Foam-Water Deluge System Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor 'K) Pressure (psi) Sprinkler 317 10.39 10.29 2.3 20.409 Sprinkler 316 10.29 10.29 2.3 20.000 Sprinkler 303 10.65 10.29 2.3 21.432 Sprinkler 304 10.71 10.29 2.3 21.682 Sprinkler 318 10.70 10.29 2.3 21.629 Sprinkler 302 10.88 10.29 2.3 22.366 Sprinkler 306 10.69 10.29 2.3 21.606 Sprinkler 301 11.06 10.29 2.3 23.121 Sprinkler 311 21.64 14.82 5.6 4.930 Sprinkler 307 10.69 10.29 2.3 21.605 Sprinkler 315 11.19 10.29 2.3 23.658 Sprinkler 308 10.69 10.29 2.3 21.616 Sprinkler 314 11.04 10.29 2.3 23.055 Sprinkler 313 10.87 10.29 2.3 22.355 Sprinkler 312 10.76 10.29 2.3 21.882 Sprinkler 310 10.73 10.29 2.3 21.768 Sprinkler 309 10.71 10.29 2.3 21.675 Hose 8 50.00 50.00 0 79.515 c Most Demanding Sprinkler Data , © M.E.P.CAD, Inc. Auto5PRlNK'E VR5 v5.1.32 11/29/2008 14:55:01 Page 2 - lode Analysis I Job Number: 86014 Renorf flpscrintion: Foam-Watp.r Dplunp Svstm Node Elevation(Foot) Fittings Pressure(psi) Discharge(gpm) 32 4-0 T(5-0) 20.284 31 5-0 T(5-0) 21.143 18 8-0 P0(6-0) 20.548 19 5-6 mecT(5-0) 21.403 20 5-6 mecT(5-0) 21.349 17 8-0 mecT(5-0) 21.119 21 5-6 P0(5-0) 21.325 16 8-0 P0(5-0) 21.889 22 5-6 mecT(5-0) 21.325 13 34% LtE(3-0), BOR 34.851 120 4-0 31.700 121 4-11/2 31.655 14 4-9 DeIV(12-0) 29.772 123 9-71/2 25.429 15 8-0 T(10-0) 23.021 30 5-6 mecT(5-0) 23.410 29 5-6 mecT(5-0) 22.798 23 5-6 mecT(5-0) 21.336 26 5-6 mecT(5-0) 21.527 28 5-6 mecT(5-0) 22.087 27 5-6 mecT(5-0) 21.606 25 5-6 P0(5-0) 21.490 24 5-6 P0(5-0) 21.396 11 10-0 2T(10-0) 69.854 10 11-0 70.594 7 4-0 81.503 9 20-0 2P0(20-2) 70.593 6 -4-0 LtE(11-4%) 81.613 5 1-2 CV(-2.000) 81.457 4 1-2 81.465 3 -4-0 LtE(15-61/2) 83.766 2 -4-0 T(37-10%) 83.858 317 301/2 Spr(-20.409) 20.409 10.39 316 3-9 Spr(-20.000) 20.000 10.29 303 4-0 Spr(-21.432) 21.432 10.65 304 4-0 Spr(-21.682) 21.682 10.71 318 4-0 Spr(-21.629) 21.629 10.70 302 4-0 Spr(-22.366) 22.366 10.88 306 4-0 Spr(-21.606) 21.606 10.69 301 4-0 Spr(-23.121) 23.121 11.06 311 11-5 Spr(-14.930) 14.930 21.64 307 4-0 Spr(-21.605) 21.605 10.69 315 4-0 Spr(-23.658) 23.658 11.19 308 4-0 Spr(-21.616) 21.616 10.69 314 4-0 Spr(-23.055) 23.055 11.04 313 4-0 Spr(-22.355) 22.355 10.87 312 4-0 Spr(-21.882) 21.882 10.76 310 4-0 Spr(-21.768) 21.768 10.73 309 4-0 Spr(-21.675) 21.675 10.71 8 0-6 Hose 79.515 50.00 1 -4-0 S 83.859 243.68 , © M.E.P.CAD, Inc. AutoSPRINK® VR5 v5.1.32 11/29/2008 14:55:21 Page 3 111 1HYdru1jc Analysis 1 Job Number: 86014 Report Description: Foam-Water Deluge System Pipe Type Diameter Flow Velocity HWC Friction Loss ILength Pressure Downstream Upstream Elevation Discharge K-Factor Pt Pn Fittings Eq. Length Total Length Summary - Routel ..... BL 1.0490 0=10.29 3.82 C=120 0.038030 1-2 Pt 0.387 316 32 3-9 4-0 q=10.29 K=2.3 20.000 20.284 Spr(-20.000) 2E(2-0), T(5-0) 9-0 10-2 Pe Pv -0.102 BL 1.0490 0=20.68 7.68 C=120 0.138389 2-4 Pt 1.292 32 31 4-0 5-0 20.284 21.143 E(2-0), T(5-0) 7-0 9-4 Pe Pv -0.434 BL 1.3800 0=31.32 6.72 0=120 0.078490 3-0 Pt 0.706 31 18 5-0 8-0 21.143 20.548 P0(6-0) 6-0 9-0 Pe Pv -1.301 CM 2.0670 Q=64.97 6.21 C=120 0.042314 10-6 Pt 0.571 18 17 8-0 8-0 20.548 21.119 LtE(3-0) 3-0 13-6 Pe Pv CM 2.0670 0=75.85 7.25 C=120 0.056345 7-8 Pt 0.770 17 16 8-0 8-0 21.119 21.889 2LtE(3-0) 6-0 13-8 Pe Pv CM 2.0670 0=86.91 8.31 C=120 0.072478 5-7Y Pt 1.132 16 15 8-0 8-0 21.889 23.021 T(10-0) 10-0 15-71/2 Pe Pv CM 2.0670 0=193.68 18.52 0=120 0.319200 3-9 Pt 3.112 15 123 8-0 9-71/2 23.021 25.429 2LtE(3-0) 6-0 9-9 Pe Pv -0.704 CM 3.0680 0=193.68 8.41 0=120 0.046643 4-10'/ Pt 2.228 123 14 9-71/2 4-9 25.429 29.772 CV(-2.000) 4-1 1/2 Pe Pv 2.116 DY 2.4690 0=193.68 12.98 C=120 0.134336 0-0 Pt 1.612 14 121 4-9 4-11/2 29.772 31.655 DelV(12-0) 12-0 12-0 Pe Pv 0.271 DY 3.0680 0=193.68 8.41 0=120 0.046643 0-0 Pt 0.000 121 120 4-11/2 4-0 31.655 31.700 0-0 Pe Pv 0.045 DY 2.0670 Q=193.68 18.52 0=120 0.319200 0-0 Pt 2.873 120 13 4-0 34h/2 31.700 34.851 BV(6-0), LtE(3-0), BOR 9-0 9-0 Pe Pv 0.278 FM 2.0670 Q=193.68 18.52 0=120 0.319200 80-8 Pt 37.876 13 11 3-41/2 10-0 34.851 69.854 2T(10-0), 6LtE(3-0) 38-0 118-8 Pe Pv -2.872 CM 2.4690 0=193.68 12.98 0=120 0.134336 2-9 Pt 1.174 11 10 10-0 11-0 69.854 70.594 E(6-0) 6-0 8-9 Pe Pv -0.434 CM 3.2600 0=193.68 7.44 0=120 0.034706 85-6 Pt 3.900 10 9 11-0 20-0 70.594 70.593 LtE(6-81/2), P0(20-2) 26-1Y 112-41/2 Pe Pv -3.902 FR 4.2600 0=193.68 4.36 0=120 0.009431 41-9 Pt 0.468 9 8 20-0 0-6 70.593 79.515 LtE(7-11), Hose 7-11 49-8 Pe Pv 8.454 UG 6.4000 0=243.68 2.43 0=140 0.001494 9-6 Pt 0.037 8 7 0-6 -4-0 q=50.00 79.515 81.503 LtE(15-61/2) 15-61/2 250h/ Pe Pv 1.951 UG 6.0000 0=243.68 2.77 C=140 0.002046 31-1 Pt 0.110 7 6 -4-0 -4-0 81.503 81.613 2LtE(11-41/2) 22-81/2 5391/ Pe Pv UG 6.4000 0=243.68 2.43 C=140 0.001494 4-6 Pt 2.084 6 5 -4-0 1-2 81.613 81.457 T(51-10), CV(-2.000) 51-10 564 Pe Pv -2.240 UG 6.0650 Q=243.68 2.71 C=120 0.002582 3-1 Pt 0.008 5 4 1-2 1-2 81.457 81.465 3-1 Pe Pv UG 6.4000 0=243.68 2.43 C=140 0.001494 4-6 Pt 0.061 4 3 1-2 -4-0 81.465 83.766 GV(5-2), 2LtE(15-61/2) 36-3Y 40-9Y Pe Pv 2.240 UG 6.0000 Q=243.68 2.77 C=140 0.002046 7-01/2 Pt 0.092 3 2 -4-0 4-0 83.766 83.858 T(37-101/2) 37-1Y 44-11 Pe Pv UG 8.0000 0=243.68 1.56 C=140 0.000504 1-11 Pt 0.001 2 1 4-0 -4-0 83.858 83.859 S b-lb Pe Pv - Route 2 ..... BL 1.0490 0=10.39 3.86 C=120 0.038748 1-8 Pt 0.297 317 32 3U1/2 4-0 q=10.39 K2.3 20.409 20.284 Spr(-20.409) 3E(2-0) 6-U 7-8 Pe Pv -0.421 go ..... Route 3 ..... ©M.E.P.CAD, Inc. kfl AutoSPRlNK®VR5v5.b.32 11/29/2008 14:55:39 Page 1111-YdraUc Analysis Job Number: 86014 Report Description: Foam-Water Deluge System Pipe Type Diameter Flow Velocity HWC Friction Loss Length Pressure Downstream Upstream Elevation Discharge K-Factor Pt Pn Fittings Eq. Length Total Length Summary ___________ AO 1.0490 0=10.65 3.95 C=120 0.040542 161/ Pt 0.144 303 31 4-0 5-0 q=10.65 K=2.3 21.432 21.143 Spr(-21.432) E(2-0) 2-0 3-6'/ Pe Pv -0.434 QD .Route 4 ..... AO 1.0490 0=10.69 3.97 C=120 0.040845 201/ Pt 0.370 307 22 4-0 5-6 q=10.69 K2.3 21.605 21.325 Spr(-21.605) E(2-0), mecT(5-0) 7-0 9-0/ Pe p -0.650 CM 2.0670 Q=1.55 0.15 C=120 0.000042 8-111/2 Pt 0.000 22 21 5-6 5-6 21.325 21.325 -lW 8-111 / Pe Pv CM 2.0670 0=12.24 1.17 C=120 0.001929 9-2 Pt 0.023 21 20 5-6 5-6 21.325 21.349 LtE(3-0) 3-0 12-2 Pe Pv CM 2.0670 Q=22.94 2.19 C=120 0.006166 8-9 Pt 0.054 20 19 5-6 5-6 21.349 21.403 8-9 Pe Pv CM 2.0670 Q=33.65 3.22 C=120 0.012526 124 Pt 0.229 19 18 5-6 8-0 21.403 20.548 2LtE(3-0) 6-0 18-4 Pe Pv -1.084 .Route5 ..... AO 1.0490 0=10.69 3.97 C=120 0.040846 201/ Pt 0.370 306 21 4-0 5-6 q=10.69 K=2.3 21.606 21.325 Spr(-21.606) E(2-0), P0(5-0) 7-0I 9014Pv Pe -0.650 .Route6 ..... AO 1.0490 0=10.69 3.97 Cr120 0.040864 201/ Pt 0.370 308 23 4-0 5-6 q=10.69 K=2.3 21.616 21.336 Spr(-21.616) E(2-0), mecT(5-0) . 7-0 9-01/2 Pe Pv -0.650 CM 2.0670 0=19.83 1.90 0=120 0.004711 9-8 Pt 0.060 23 24 5-6 5-6 21.336 21.396 LtE(3-0) 3-0 12-8 Pe Pv CM 2.0670 0=30.54 2.92 Cr120 0.010471 9-0 Pt 0.094 24 25 5-6 5-6 21.396 21.490 9-0 Pe Pv CM 2.0670 0=41.27 3.95 Cr120 0.018277 2-0 Pt 0.037 25 26 5-6 5-6 21.490 21.527 2-0 Pe Pv -0.000 CM 2.0670 0=62.91 6.01 C=120 0.039863 2-0 Pt 0.080 26 27 5-6 5-6 21.527 21.606 2-0 Pe Pv 0.000 CM 2.0670 0=73.67 7.04 0=120 0.053385 9-0 Pt 0.480 27 28 5-6 5-6 21.606 22.087 9-0 Pe Pv CM 2.0670 0=84.54 8.08 0=120 0.068872 7-4 Pt 0.711 28 29 5-6 5-6 22.087 22.798 LtE(3-0) 3-0 10-4 Pe Pv CM 2.0670 0=95.59 9.14 Cr120 0.086434 7-1 Pt 0.612 29 30 5-6 5-6 22.798 23.410 7-1 Pe Pv CM 2.0670 0=106.77 10.21 C=120 0.106074 361/ Pt 0.695 30 15 5-6 8-0 23.410 23.021 LtE(3-0) 3-0 6-61/2 Pe Pv -1.084 .Route7 ..... AO 1.0490 0=10.70 3.97 Cr120 0.040886 2-01/2 Pf 0.371 318 20 4-0 5-6 q=10.70 K=2.3 21.629 21.349 Spr(-21.629) E(2-0), mecT(5-0) 7-0I 9-0'4Pv Pe -0.650 =. ..... Route 8 ..... AO 1.0490 0=10.71 3.98 0=120 0.040967 2-0'/fPt 0.371 309 24 4-0 5-6 q=10.71 K=2.3 21.675 21.396 Spr(-21.675) E(2-0), P0(5-0) 7-0I 9-011, Pe Pv -0.650 .Route9 ..... AO 1.0490 0=10.71 3.98 Cr120 0.040979 2-01/2fPt 0.371 304 19 4-0 5-6 q=10.71 K=2.3 21.682 21.403 Spr(-21.682) E(2-0), mecT(5-0) 7-0I 9-0'4Pv Pe -0.650 =. ..... Route lO ..... AO 1.0490 0=10.73 3.98 0=120 0.041129 2014Pt 0.373 310 25 4-0 5-6 q=10.73 K=2.3 21.768 21.490 Spr(-21.768) E(2-0), P0(5-0) 7-UI 9-0 Pe PV -0.650 Gb .Routell ..... AO 1.0490 0=10.76 3.99 C=120 0.041329 2-UYPt 0.375 312 27 4-0 5-6 q=10.76 K=2.3 21.882 21.606 Spr(-21.882) E(2-0), mecT(5-0) 7-0I 9-0 Pe Pv -0.650 =. ..... Route 12 ..... ©M.E.P.CAD, Inc. Ifi AutoSPRlNK®VR5v5.1.32 11/29/2008 14:55:39 Page 1111 Hydraulic Analysis Job Number: 86014 Report Description: Foam-Water Deluge System Pipe Type Diameter Flow Velocity HWC Friction Loss Length Pressure Downstream Elevation Upstream Discharge K-Factor Pt Pn Fittings Eq. Length Total Length Summary AO 1.0490 0=10.87 4.04 C=120 0.042155 2-01/2 Pf 0.382 313 4-0 28 5-6 q=10.87 K=2.3 22.355 22.087 Spr(-22.355) E(2-0), mecT(5-0) 7-0 9Q1/ Pe py -0.650 ED ..... Route 13 ..... AO 1.0490 0=10.88 4.04 C=120 0.042173 4-61/2 Pf 0.488 302 4-0 17 8-0 q=10.88 K=2.3 22.366 21.119 Spr(-22.366) E(2-0), mecT(5-0) 7-0 1161/ Pe Pv -1.734 .Route 14 ..... AO 1.0490 0=11.04 4.10 C=120 0.043374 2-01/2 Pt 0.393 314 4-0 29 5-6 q=11.04 K=2.3 23.055 22.798 Spr(-23.055) E(2-0), mecT(5-0) 7-0 9-01/2 Pe Pv -0.650 =. ..... Route 15 ..... AO 1.0490 0=11.06 4.11 C=120 0.043488 4-61/2 Pt 0.503 301 4-0 16 8-0 q=11.06 K=2.3 23.121 21.889 Spr(-23.121) E(2-0), P0(5-0) 7-0 1161/ Pe p -1.734 .Route 16 ..... AO 1.0490 0=11.19 4.15 C=120 0.044422 201/ Pt 0.403 315 4-0 30 5-6 q=11.19 K2.3 23.658 23.410 Spr(-23.658) E(2-0), mecT(5-0) 7-0 9-D1/2 Pe Pv -0.650 ab .Route 17 ..... BL 1.0490 0=21.64 8.03 C=120 0.150528 19-9Y Pt 4.032 311 11-5 26 5-6 q=21.64 K=5.6 14.930 21.527 Spr(-14.930) E(2-0), mecT(5-0) 7-0 26-9Y Pe Pv 2.565 - Route 18 ..... CM 2.0670 0=9.14 0.87 C=120 0.001124 10-0 Pt 0.011 22 5-6 23 5-6 21.325 21.336 10-0 Pe Pv Equivalent Pipe Lengths of Valves and Fittings (C=120 only) I Actual Inside Diameter Schedule 40 Steel Pipe Inside Diameter 487 ) = Factor C Value Multiplier j Value Of C 100 130 140 Multiplying Factor 0.713 1.16 1.33 150 1.51 f. © M.E.P.CAD, Inc. AutoSPRlNK® VRS v5.1.32 11/29/2008 14:55:39 Page 6 - IHYdraulic Analysis - I Pine Tvne Diameter Flow Veloc HWC Friction Loss Downstream Elevation Discharge K-Factor Pt Pn Fittings Pipe Type Legend Units Legend AO Arm-Over Diameter Inch BL Branch Line Elevation Foot CM Cross Main Flow gpm DN Drain Discharge gpm DR Drop Velocity fps DY Dynamic Pressure psi FM Feed Main Length Foot FR Feed Riser Friction Loss psi/Foot MS Miscellaneous HWC Hazen-Williams Constant OR Outrigger Pt Total pressure at a point in a pipe RN Riser Nipple Pn Normal pressure at a point in a pipe SP ST Sprig Stand Pipe Pf Pressure loss due to friction between points UG Underground Pe Pressure due to elevation difference between indicated points ________________________ Pv Velocity pressure at a point in a pipe Job Number: 86014 ort Description: Foam-Water Deluge System Length Pressure Eq. Length Summary Total Length Fittings Legend ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 111h° Elbow Ee2 221/20 Elbow Flow Device FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WrF Wrsbo WMV Water Meter Valve Z Cap , © M.E.P.CAD, Inc. Pfi AutoSPRINK® VR5 v5.1.32 11/29/2008 14:55:39 Page 7 Tag Job Number: 86014 Job ISIS 2282 Farady Avenue Carlsbad CA, Design Basis Occupancy: 1-13/1-17 Storage Total Sprinklers: 31 Number Of Sprinklers Calculated: 17 K-Factor: 2.3 Orifice Size: 0.5 Design Density: 0.20gpm/ft2 Average Density: 0.21gpm/ft2 Area of Application: 604.59ft2 (Actual 923.1 2ft2) Demand At Base Of Riser (BOR) Total Demand Flow(gpm): 193.68 Pressure(psi): 34.851 Water Supply Information At Time Of Design Static Pressure(psi): 100.000 Residual Pressure(psi): 97.000 Supply Flow(gpm): 900.00 Total Demand Flow(gpm): Total Demand Pressure(psi): E*J;I4!J , © M.E.P.CAD, Inc. JAutoSPRINK® VR5 v5.1.32 11/29/2008 14:55:57 Page 8 ~jjj IHYdraulic Graph Job Number: 86014 Report Description: Foam-Water Deluge System Supply at Node I 150- 120 105 Static Pressure 100.000 _____ __________ ___________ 900.00 97.000 __` F 90-- F71 Static Pressure r P1±- 43.68_c!59443.68 with hose streams T_ 60- 4 vst em demand cue 30 15- Ill I II I II I I I I I I II I 17001 I I I I I 19001 I I I I 11000 0 600 800 QI00 200 wo 400 500 Water flow, gpm Hythrnhc Graph Supply at Node 1 Static Pre 100.000 RedI Pe 900.00 @ 97.000 AwiRable Pre reflore of Tot 99.189 @443.68 Syctorrr Derrrem 243.68 @ 83.859 Sycrerr Darrer (Irretudir Hoo PJIowerr) 443.68 @ 83.859 , © M.E.P.CAD, Inc. 11 AutoSPRINK® VR5 v5.1.32 11/29/2008 14:56:12 Page 9 ANSULITE* 3x TE®3LOWVISCOSITY ARAFFF Data/Specifications CONCENTRATE El ANSULITE® 3x3 Low-Viscosity AR-AFFF (Alcohol-Resistant Aqueous Film-Forming Foam) Concentrate is formulated using a newly patented and proprietary technology. The foam concentrate has a dramatically reduced viscosity as compared to other listed polar-solvent type AR-AFFF concentrates on the market. This reduced viscosity enhances performance in all types of foam proportioning equipment including in- line eductors, balanced pressure systems, and built-in systems aboard CFR vehicles. Additionally, the fire fighting performance of ANSULITE 3x3 Low- Viscosity AR-AFFF Concentrate is superior to other 3% foam concen- trates. This includes the blended gasoline additive Methyl Tertiary Butyl Ether (MTBE) which is being used worldwide as an oxygenate to make gasoline cleaner burning. ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate offers many distinct advantages for ease of use and represents a continued commitment to quality by improving the first agent listed by Underwriters Laboratories for use as a 3% concentrate on both polar solvent and hydrocarbon fuels. ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate is formulated from special fluorochemical and hydrocarbon surfactants, a high molecular weight polymer, and solvents. It is transported and stored as a concen- trate to provide ease of use and considerable savings in weight and volume. It is intended for use as a 3% proportioned solution on both polar solvent and hydrocarbon fuels in fresh, salt or hard water. It may also be stored and used as a premixed solution in fresh water only. There are three fire extinguishing mechanisms in effect when using ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate on either a conventional Class B hydrocarbon fuel such as gasoline, diesel fuel, etc., or a Class B polar solvent (water miscible fuel) such as methyl alcohol, acetone, etc. First, an aqueous film is formed in the case of a conventional hydrocarbon fuel, or a polymeric membrane in the case of a polar solvent fuel. This film or membrane forms a barrier to help prevent the release of fuel vapor. Second, regardless of the fuel type, a foam blanket is formed which excludes oxygen and from which drains the liquids that form the film or the polymeric membrane. Third, the water content of the foam produces a cooling effect. Typical Physiochemical Properties at 77 °F (25 °C) Appearance Colorless to Pale Yellow Gelled Liquid Density 1.020 g/ml ± 0.020 pH 7.0-8.5 Refractive Index 1.3565 ± 0.0020 Surface Tension (3% Solution) 18 ± 1 dynes/cm Viscosity 1500 ± 500 cps *Brookfield Viscometer Spindle #4, Speed 30 ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate is a non-Newtonian fluid that is both pseudoplastic and thixotropic. Because of these proper- ties, dynamic viscosity will decrease as shear increases. ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate is unique among the ANSULITE AFFF agents in that it can be used on either conven- tional Class B fuel or the polar solvent type Class B fuels. Its excellent wetting characteristics make it useful in combating Class A fires as well. Because of the low energy required to make foam, it can be used with both aspirating and nonaspirating discharge devices. To provide even greater fire protection capability, it may be used with dry chemical extinguishing agents without regard to the order of application. Due to the velocity of the dry chemical discharge, care must be taken not to submerge the polymeric membrane below the fuel surface. A unique application for ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate is vapor mitigation for hazardous fuming compounds includ- ing fuming acids. Recent tests on oleum and chlorosulfonic acids conducted in conjunction with DuPont at a DOE testing facility in Nevada found the foam to be very effective when applied through medium expansion nozzles such as the ANSUL® Model KR-M2 and KR- M4. In addition, the concentrate is ideally suited for situations involving flammable liquid spills where prolonged vapor suppression is desirable in advance of the spill clean up. Application Rates using UL 162 Standard 50ff2 Fire Test on representa- tive hydrocarbon and polar solvent fuels are listed below. U.L. Type II Application(1) - Polar Solvents Minimum Recommended Application Rate Fuel Group Concentration gpm/ft2 (Lpm /m2) Alcohols Methanol (MeOH) 3% 0.10 (4.1) Ethanol (EtOH) 3% 0.10 (4.1) Isopropanol (IPA) 3% 0.15 (6.1) Tertiary Butyl Alcohol (TBA) 3% 0.19 (7.7) Ketones Methyl Ethyl Ketone (MEK) 3% 0.10 (4.1) Acetone 3% 0.15 (6.1) Methyl Isobutyl Ketone 3% 0.15 (6.1) (MIBK) Amines Ethylene Diamene 3% 0.10 (4.1) Ethers Methyl Tertiary Butyl Ether 3% 0.13 (5.3) (MTBE) MTBE Blended Gasoline(2) 3% 0.10 (4.1) Ethyl Tertiary Butyl Ether 3% 0.14 (5.7) Tetrahydrofuran (THF) 3% 0.20 (8.2) U.L. Type Ill Application(3) - Hydrocarbons Heptane 3% 0.10 (4.1) TYPE II DISCHARGE OUTLET -A device that delivers foam onto the burning liquid and partially submerges the foam or procedures restricted agitation of the surface as described in UL 162. MTBE (17.8%)/Regular Unleaded Gasoline (82.2%) Blend TYPE Ill DISCHARGE OUTLET - A device that delivers the foam directly onto the burning liquid as described in UL 162. Fire Performance -The fire performance of ANSULITE 3x3 Low- Viscosity AR-AFFF Concentrate is measured primarily against Underwriters Laboratories Standard 162. Foaming Properties - When used with fresh, salt or hard water at the correct dilution with most conventional foam making equipment, the expansion will vary depending on the performance characteristics of the equipment. Aspirating discharge devices produce expansion ratios of 5:1 to 10:1 depending primarily on type of aspirating device and flow rate. Nonaspirating devices such as handline water fog/stream nozzles or standard sprinkler heads give expansion ratios of 2:1 to 4:1. Medium expansion discharge devices produce typical expansion ratios between 20:1 to 60:1 depending primarily upon type of device and operating conditions. Proportioning - ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate can be easily proportioned (at the correct dilution) using most conven- tional proportioning equipment such as: Balanced pressure and in-line balanced pressure pump proportioning equipment Balanced pressure bladder tank proportioner Around-the-pump proportioners Fixed or portable (in-line) venturi proportioners Handline nozzles with fixed induction/pickup tubes The minimum and maximum usable temperature for ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate in this equipment is 35 "F (2 °C) to 120 "F (49 "C) respectively. Storage/Shelf Life - When stored in the packaging supplied (polyethyl- ene drums or pails) or in equipment recommended by the manufacturer and within the temperature limits specified, the shelf life of ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate is about 20-25 years. The factors affecting shelf life and stability for ANSULITE AFFF agents are discussed in detail in Ansul Technical Bulletin No. 54. Freezing of the product should be avoided. If, however, the product is frozen during transport or storage, it must be thawed and inspected for signs of sepa- ration. If separation has occurred, the product must be mechanically mixed until homogeneous. When the concentrate is to be stored in an atmospheric storage tank, a 1/4 in. (6 mm) layer of mineral oil should be added to seal the concen- trate and minimize the effects of evaporation. Compatibility - Since ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate is a unique blend of surfactants, high molecular weight polymers, and solvents; it is recommended that ANSULITE 3x3 Low- Viscosity AR-AFFF Concentrate should not be mixed with any other foam concentrates. Consult Ansul Incorporated with any questions of compatibility. Underwriters Laboratories successfully tested ANSULITE 3x3 Low- Viscosity AR-AFFF Concentrate to the requirements contained in UL Standard 162, "Standard for Air-Foam Equipment and Liquid Concentrates." To receive the UL listing, the following tests had to be performed successfully: Foam Quality Tests Class B Hydrocarbon Fuel Fire Tests Class B Polar Solvent Fuel Fire Tests Foam Identification Tests Tests of Shipping Containers Class B Hydrocarbon and Polar Solvent Fuel Sprinkler Tests (Standard type both upright and pendent) Besides determining agent characteristics, Underwriters Laboratories lists ANSULITE 3x3 Low-Viscosity Concentrate for use with specific hardware components that also carry the UL listing. To obtain these list- ings, ANSUL selected various hardware components from the major U.S. manufacturers of foam hardware. ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate is available in pails, drums, totes, or bulk shipment. Part No. 416493 5 gallon pail Part No. 416495 55 gallon drum Part No. 429741 265 gallon tote Part No. 416607 Bulk (contact ANSUL about domestic truckload delivery) Shipping Weight: 5 gal (19 L) pail —45 lb (20.4 kg) 55 gal (208.2 L) drum —495 lb (224.5 kg) 265 gal (1000 L) tote —2465 lb (1118 kg) Cube: 5 gal (19 L) pail —1.25 ft3 (0.0354 m3) 55 gal (208.2 L) drum - 11.83 ft3 (0.3350 m3) 265 gal (1000 L) tote —50.05 ft3 (1.42 m3) Materials of Construction Compatibility -Tests have been performed with ANSULITE 3x3 Low-Viscosity AR-AFFF Concentrate verifying its compatibility with standard carbon steel black" pipe and pipe manufac- tured from various stainless steel or brass compounds. Alternative pipe, plastic fittings, and valves may be used in some cases if acceptable to the customer and/or the authority having jurisdiction. Refer to Ansul Technical Bulletin No. 59, Form No. F-90109, addressing acceptable materials of construction for use with ANSUL foam concentrates. Galvanized pipe and fittings must not be used in areas where undiluted concentrate will contact them since corrosion will result. Please first consult Ansul Incorporated for specific guidelines concern- ing materials of construction. Inspection —As with any fire extinguishing agent, ANSULITE 3x3 Low- Viscosity AR-AFFF Concentrate, whether in the concentrate or pre- mixed form, should be inspected periodically. NFPA 11 "Standard for Low Expansion Foam and Combined Agent Systems" requires that foam concentrate samples be submitted to the manufacturer or other qualified laboratory for quality condition testing at least annually. Contact ANSUL for further information on annual inspection. ANSUL and ANSULITE are trademarks of Ansul Incorporated or its affiliates. I Calm Itqca Ansul Incorporated 715-735-7411 Copyright @2007 Ansul Incorporated Marinette, WI 54143-2542 www.ansul.com Form No. F-9350-6 VERTICAL AND HORIZONTAL BLADDER TANKS - ]j.1IU Data/Specifications The ANSUL® bladder tank is one component in a balanced pressure proportioning system. Its operation requires no external power other than a pressurized water system. The bladder tank may be used with any ANSUL foam agent. It can be used in a proportioning system incorporat- ing single or multiple proportioners and any suitable discharge device. ANSUL bladder tanks have numerous applications including truck loading racks, aircraft hangers, dip tanks, pump rooms, helipads, etc. The ANSUL bladder tank is a steel pressure vessel which stores a foam concentrate contained within an elastomeric bladder. The concentrate is discharged from the tank by incoming water applying pressure to the bladder. This applied energy is transferred to the concentrate, supplying pressurized concentrate to the proportioner. (Proportioners are separate items described on a separate data sheet.) ANSUL bladder tanks are available in both vertical and horizontal tank models and a variety of nominal capacities as listed in the tank informa- tion tables. Both tank models feature perforated center tubes which allow improved agent discharge. Features incorporated into the ANSUL bladder tanks include the following: Water pressurized bladder construction, alleviating the requirement for foam pumps or other energy sources Valves that are pinned in the normal operative positions and are supplied with nameplates identifying their functions and operating instructions Bladder tanks supplied with corrosion-resistant piping Exterior tank surfaces finished in red standard system paint or coated with an epoxy "CR" red finish for use in marine or corrosive environ- ments Tanks with a high build epoxy coated interior for use with both fresh and salt water The ANSUL vertical and horizontal tank assemblies are both Underwriters Laboratories listed and Factory Mutual approved with various ANSUL proportioners and foam concentrates and bear the (UL) label along with an American Society of Mechanical Engineers (ASME) code stamp. Bladder tanks 200 gallons (757 L) and larger areCE marked in confor- mance with the 97/23/EC Pressure Equipment Directive. Tanks less than 200 gallons (757 L) are acceptable based on sound engineering prac- tices of ASME code. The ANSUL vertical and horizontal bladder tanks shall be designed and constructed in accordance with the latest revisions to ASME code, Section VIII, Division I, for unfired pressure vessels with a working pres- sure of 175 psi (12.1 bar) and tested to at least 255 psi (17.6 bar). The tank shall be of (specify) gallon nominal capacity and overall dimensions as indicated in the appropriate diagram and corresponding information table. The tank shall be constructed of steel complying to ASME specifi- cations possessing a tensile strength of not less than 70,000 psi (4827 bar). The circumferential, as well as the longitudinal body seam, shall be machine welded and radiographed to ensure 85% efficiency when applicable by ASME codes. The tank heads shall be 2 to 1 elliptical to ensure strength while reduc- ing overall tank weight. All tank openings larger than 1 in. (2.5 cm) diameter shall be divided to prevent bladder blow-out. There shall be a water channel between the water inlet opening and water drain opening to establish a water path between the tank shell interior and the bladder. The tank interior shall have all welds and edges ground smooth. It shall be cleaned, sand blasted to a near white surface, and immediately coated with a high build epoxy coating. The tank data plate shall be of a material compatible with the tank shell and must be seal welded with appropriate procedure and material to the tank. (This ensures that the data plate will reflect the overall condition of the tank and that no corro- sion occurs undetected behind the data plate.) The data plate shall contain as a minimum ASME code stamp: year of manufacture, working pressure, board number, material thickness, temperature, and type of head. The tank shall also have a label specifying the type of foam concentrate the system was designed to use, the quantity of concen- trate, and any other pertinent warnings. The vertical tank assembly shall be supported by a continuous skirt of a diameter equal to the tank with four feet drilled for anchoring. The hori- zontal tank assembly shall be supported by two saddles permanently welded to the tank and drilled for anchoring. These supports provide maximum stability and a maximum amount of bearing area which protects against horizontal and vertical forces such as vibration and shifting. Lifting lugs shall be substantial welded tank attachments with a clear hole not less than 2 in. (5 cm) in diameter. The tank shall contain a flexible bladder of material tested by Underwriters Laboratories for compatibility with the agent to be used. The bladder material shall be no less than 0.05 in. (1.27 mm) thick and shall be constructed to conform with the inside tank dimensions. Both the vertical and horizontal tank assemblies shall contain porous center tubes of PVC. or other material compatible with the agent, with holes of no more than 3/4 in. (19 mm) diameter. The vertical tank assembly shall contain a single perforated center tube. The horizontal tank assembly shall contain both vertical and horizontal perforated center tubes connected with a cross fitting of compatible material. The following shall be assembled to each tank: a bladder drain/fill valve, bladder vent/fill valve, tank shell drain valve, and tank shell vent valve. These valves shall be 1 in. (2.5 cm), 1/4-turn ball valves with bronze bodies, hard chromium-plated bronze ball, bronze stem, stainless steel locking nut and handle, and high performance teflon seats and stuffing box ring. Each valve shall have a nameplate secured to it depicting the valve name and operating position. Also, the valve shall have a ring pin and chain attached for securing the valve in the operating position. The valve names shall coincide exactly with those in the tank instruction manual. All valves shall be piped out from under the tank for easy access. All pipe shall be Schedule 40 ASTM-B-43 and all fittings shall be ASTM B-62 or B-584 bronze. The bladder drain/till piping shall include a tee with 1/2 in. plug for future sight gauge connection. The tank exterior shall be prepared and finished in accordance with the appropriate red paint system standard or "CR" red per ANSUL specifica- tion or equivalent. A printed filling and maintenance manual shall be supplied with each tank. The manual shall contain a system schematic, installation instruc- tions, initial fill procedures, major and minor refill procedures, inspection and maintenance procedures, sight gauge use instructions, service and repair procedures, field inspection manual, and the manufacturer's warranty. TANK SHELL DRAIN VALVE 001160 The ANSUL bladder tank shipping assembly part numbers and approxi- For tanks with special engineered options, such as special pressure mate shipping weights are identified in the following tables. Part numbers ratings, seismic ratings, or trim and finish options, contact the Ansul vary according to tank requirements. Technical Services Department. Approximate Nominal Bladder Tank Dimensions Shipping Capacity Part No. Diameter A B C D E F Weight (i LLL Epoxy/Enamel in LQrnh in LQm1 in LCrn in Lrn1 in (rn in Lcrn in (cml in L1 50 (190) 70501/70502 24 (61) 64 (163) 57 (145) 24 (61) 7.5 (19) 20 (51) 19 (48) 470 (215) 100 (379) 69000/69001 24 (61) 90 (229) 82 (208) 52 (132) 8.5 (22) 19 (48) 19 (48) 700 (320) 150 (568) 70516/70517 30 (76) 90 (229) 82 (208) 49 (125) 10.5 (27) 21 (53) 21 (53) 980 (445) 200 (757) 69002/69003 30 (76) 108 (274) 100 (254) 68 (173) 10.5 (27) 22 (56) 21 (53) 1290 (585) 300 (1136) 69004/69005 36 (91) 112 (284) 104 (264) 70 (178) 10.5 (27) 25 (64) 24 (61) 1550 (705) 400 (1514) 419153/419154 48 (122) 92.5 (235) 84.5 (215) 55 (140) 10.5 (27) 32 (81) 30 (76) 2250 (1020) 500 (1893) 419155/419156 48 (122) 105.5 (268) 97.5 (248) 73 (185) 10.5 (27) 32 (81) 30 (76) 2500 (1134) 600 (2271) 69010/69011 48 (122) 118 (300) 110 (279) 87 (221) 10.5 (27) 32 (81) 30 (76) 2570 (1165) 700 (2650) 69012/69013 48 (122) 132 (335) 124 (315) 88 (224) 10.5 (27) 32 (81) 30 (76) 2840 (1288) 800 (3028) 419157/419158 48 (122) 146.5 (372) 138.5 (352) 95 (241) 10.5 (27) 32 (81) 30 (76) 3200 (1451) 900 (3407) 419159/419160 48 (122) 160.5 (408) 152.5 (387) 106 (269) 10.5 (27) 32 (81) 30 (76) 3400 (1545) 1000 (3785) 419161/419162 48 (122) 174.5 (443) 166.5 (423) 116 (295) 10.5 (27) 32 (81) 30 (76) 3600 (1635) 1100 (4164) 71118/71119 60 (153) 144 (366) 136 (346) 90 (229) 18.5 (47) 37 (94) 36 (91) 3750 (1701) 1200 (4542) 71120/71121 60 (153) 153 (389) 145 (368) 96 (244) 18.5 (47) 37 (94) 36 (91) 3950 (1792) 1300 (4921) 71122/71123 60 (153) 162 (412) 154 (391) 104 (264) 18.5 (47) 37 (94) 36 (91) 4140 (1878) 1400 (5300) 71124/71125 60 (153) 171 (435) 163 (414) 110 (279) 18.5 (47) 37 (94) 36 (91) 4350 (1973) 1500 (5678) 71126/71127 60 (153) 180 (458) 171 (435) 117 (297) 18.5 (47) 37 (94) 36 (91) 4530 (2054) WATER INLET 2 1/2 OR 3 IN NPT* / BLADDER VENT/FILL VALVE TANK SHELL VENT VALVE CONCENTRATE OUTLET 2 1/2 OR 3 IN NPT LIFTING LUG U r+ L_ l O DI H BLADDER A Tank Capacity Gal ku 50-100 (190-379) 150-200 (568-757) 300 (1136) 400-1000 (1514-3785) 1100-1500 (4164-5678) Dim. A' Dim. 'B' (Tank Dia.) in Lcm 24 (61) 1.7 (4.5) 30 (76) 1.7 (4.5) 36 (91) 1.7 (4.5) 48 (122) 2.2 (5.7) 60 (152) 2.2 (5.7) Dim. 'C' Dim. 'D' in (m (Role Dia.) 19.5 (49.5) 1 (2.5) 23.7 60.2) 1 (2.5) 28.0 (71.1) 1 (2.5) 37.0 (94.0) 1 (2.5) 47.0 (119.4) 1 (2.5) 90±2T ~±2'Y VP SKIRT OPENING B 0 0 WATER ° F° CHANNEL C 01 BL ADDER C 01 DRAIN/FILL C VALVE / D C SKIRT OPENING - - - - SKIRT OPENING I E 3 IN cm) -0---- DIAMETER 21/2 in NPT on tanks 1000 gallons or less * 3 in NPT on tanks over 1000 gallons Approximate Nominal Bladder Tank Dimensions Shipping Capacity Part No. Diameter A B C Weight L ILl Epoxy/Enamel in (cml in (cml in (c ml in (cml La (g1 100 (379) 69090/69091 24 (61) 52 (132) 44 (112) 74 (188) 720 (330) 150 (568) 70521/70522 30 (76) 58 (147) 50 (127) 74 (188) 1050 (477) 200 (757) 69092/69093 30 (76) 58 (147) 50 (127) 91 (231) 1320 (600) 300 (1136) 69094/69095 36 (91) 64 (162) 56 (142) 96 (244) 1600 (725) 400 (1514) 419178/419179 48 (122) 76 (193) 68 (173) 77 (196) 2300 (1043) 500 (1893) 419180/419181 4.8 (122) 76 (193) 68 (173) 90 (229) 2550 (1157) 600 (2271) 69100/69101 48 (122) 76 (193) 68 (173) 103 (262) 2800 (1270) 700 (2650) 69102/69103 48 (122) 76 (193) 68 (173) 117 (297) 3050 (1385) 800 (3028) 419182/419183 48 (122) 76 (193) 68 (173) 131 (333) 3250 (1474) 900 (3407) 419184/419185 48 (122) 76 (193) 68 (173) 145 (368) 3420 (1551) 1000 (3785) 419186/419187 48 (122) 76 (193) 68 (173) 159 (404) 3600 (1633) 1100 (4164) 71100/71101 60 (153) 88 (224) 80 (203) 123 (313) 4150 (1882) 1200 (4542) 71102/71103 60 (153) 88 (224) 80 (203) 132 (336) 4370 (1982) 1300 (4921) 71104/71105 60 (153) 88 (224) 80 (203) 141 (358) 4550 (2064) 1400 (5300) 71106/71107 60 (153) 88 (224) 80 (203) 150 (381) 4760 (2159) 1500 (5678) 71108/71109 60 (153) 88 (224) 80 (203) 159 (404) 4940 (2441) 1600 (6057) 71110/71111 60 (153) 88 (224) 80 (203) 169 (430) 5130 (2327) 1700 (6435) 71112/71113 60 (153) 88 (224) 80 (203) 178 (452) 5330 (2418) 1800 (6814) 71114/71115 60 (153) 88 (224) 80 (203) 187 (475) 5510 (2499) 1900 (7192) 71116/71117 60 (153) 88 (224) 80 (203) 196 (498) 5690 (2581) 2000 (7571) 71150/71151 72 (183) 100 (254) 93 (236) 154 (391) 6030 (2735) 2200 (8328) 71152/71153 72 (183) 100 (254) 93 (236) 166 (422) 6390 (2898) 2400 (9085) 71154/71155 72 (183) 100 (254) 93 (236) 180 (457) 6770 (3071) 2600 (9842) 71156/71157 72 (183) 100 (254) 93 (236) 193 (490) 7190 (3261) 2800 (10599) 71158/71159 72 (183) 100 (254) 93 (236) 205 (521) 7480 (3393) 3000 (11356) 71160/71161 72 (183) 100 (254) 93 (236) 218 (554) 7870 (3570) BLADDER VENT/FILL VALVE - WATER INLET 21/2OR3INNPT CONCENTRATE OUTLET TANK SHELL 2 1/2 OR 3 IN NPT* _.- VENT VALVE -__-- I BLADDER _- LIFTING LUG - - - uu 11 La o 'I r——iIl A B :o:oo:oo:oi I t______ DIAMETER 0 WATER CHANNE TANK SHELL DRAIN VALVE 3 IN DRAIN/FILL 7 IN (7.6 cm) VALVE It cm) 001161 * 21/2 in NPT on tanks 1000 gallons or less * 3 in NPT on tanks over 1000 gallons ..Tank Size A B C D E F G H Saddle Width Gal ILl in Irnl in LQrn1 in Irnl in £rnl in Icrnl in Icrnl In tcrnl in Lrnl In Ltrn1 100 (379) 16.0 (41) 33.75 (86) 35.5 (90) 0.63 (1.6) 5 (13) 10 (25) 18 (46) 0.63 (1.6) 3 (7.6) 150 (568) 18.0 (46) 37.75 (96) 35.0 (89) 0.63 (1.6) 8 (20) 16 (41) 24 (61) 0.63 (1.6) 3 (7.6) 200 (757) 20.0 (51) 41.75 (106) 44.0 (112) 0.63 (1.6) 8 (20) 16 (41) 24 (61) 0.63 (1.6) 3 (7.6) 300 (1136) 21.0 (53) 41.75 (106) 46.0 (117) 0.63 (1.6) 11 (28) 22 (56) 30 (76) 0.63 (1.6) 3 (7.6) 400 (1514) 16.88 (43) 33.75 (86) 36.5 (93) 0.88 (2.2) 17 (43) 34 (86) 42 (107) 0.88 (2.2) 4 (10.2) 500 (1893) 20.62 (52) 41.25 (105) 43.0 0.88 (2.2) 17 (43) 34 (86) 42 (107) 0.88 (2.2) 4 (10.2) 600 (2271) 22.5 (57) 47.25 (120) 49.5 (126) 0.88 (2.2) 17 (43) 34 (86) 42 (107) 0.88 (2.2) 4 (10.2) 700 (2650) 26.0 (66) 54.25 (138) 56.5 (144) 0.88 (2.2) 17 (43) 34 (86) 42 (107) 0.88 (2.2) 4 (10.2) 800 (3028) 30.62 (78) 61.25 (156) 63.5 (161) 0.88 (2.2) 17 (43) 34 (86) 42 (107) 0.88 (2.2) 4 (10.2) 900 (3407) 34.12 (87) 68.25 (173) 70.5 (179) 0.88 (2.2) 17 (43) 34 (86) 42 (107) 0.88 (2.2) 4 (10.2) 1000 (3785) 37.62 (96) 75.25 (191) 77.5 0.88 (2.2) 17 (43) 34 (86) 42 (107) 0.88 (2.2) 4 (10.2) 1100 (4164) 28.0 (71) 58.25 (148) 60.0 (152) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1200 (4542) 30.5 (78) 63.25 (161) 64.5 (164) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1300 (4921) 32.5 (83) 67.25 (171) 69.0 (175) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1400 (5299) 35.0 (89) 72.25 (184) 73.5 (187) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1500 (5678) 37.0 (94) 76.25 (194) 78.0 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1600 (6057) 39.5 (100) 81.25 (206) 88.0 (234) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1700 (6435) 42.0 86.25 (219) 87.5 (222) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1800 (6814) 44.0 (112) 90.25 (229) 92.0 (233) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 1900 (7192) 46.5 (118) 95.25 (242) 96.5 (245) 0.88 (2.2) 23 (58) 46 (117) 54 (137) 1.0 (2.5) 4 (10.2) 2000 (7571) 36.0 (91) 74.25 (189) 72.2 (183) 0.88 (2.2) 29 (74) 58 (147) 66 (168) 1.0 (2.5) 4 (10.2) 2200 (8328) 39.0 (99) 80.25 (204) 81.7 (208) 0.88 (2.2) 29 (74) 58 (147) 66 (168) 1.0 (2.5) 4 (10.2) 2400 (9085) 42.5 87.25 (222) 88.2 (224) 0.88 (2.2) 29 (74) 58 (147) 66 (168) 1.0 (2.5) 4 (10.2) 2600 (9842) 45.5 (116) 93.25 (237) 94.7 (241) 0.88 (2.2) 29 (74) 58 (147) 66 (168) 1.0 (2.5) 4 (10.2) 2800 (10599) 485 (123) 99.25 (252) 100.7 (256) 0.88 (2.2) 29 (74) 58 (147) 66 (168) 1.0 (2.5) 4 (10.2) 3000 (11356) 52.0 (132) 106.25 (270) 107.2 (272) 0.88 (2.2) 29 (74) 58 (147) 66 (168) 1.0 (2.5) 4 (10.2) I. H C 001162 ANSUL is a trademark of Ansul Incorporated or its affiliates. I iIiAGLrLI tqc Ansul Incorporated Marinette, WI 54143-2542 715-735-7411 www.ansul.com Copyright ©2008 Ansul Incorporated Form No. F-83179-8 Bladder Tank Sight Gauge The sight gauge, for ANSUL® bladder tanks, is a device designed as a convenient visual method of estimating the level of foam concentrate in the tank. Bladder tank construction does not allow pressurized, continuous, or direct gauge readings. The ANSUL sight gauge is a non-pressure-rated device. It normally shows empty avoiding a false "full reading" and an erroneous sense of security. Because ANSUL bladder tanks are pressurized when operated, the pressure must be relieved before a sight gauge reading can be taken. After the water is drained, and the pressure is vented, the full port ball valve can be opened to the "READ" position. This allows the concentrate in the tank to seek its own level in the sight gauge tube enabling a visual estimation of the bladder tank concentrate level. As an integral part, the gauge has easy-to-follow instructions with a ring pin to secure the valve handle in the proper position. I 1 The sight gauge shall be a device for estimating the quantity of foam concentrate in a bladder tank, and shall be self-draining. The gauge tube shall be 1/2 in. polycarbonate and tested for compatibil- ity with the agent used. It shall be fastened to the tank near the tube top and the tube bottom shall terminate in a 1/2 in. full port bronze body ball valve. The valve shall have a chromium-plated bronze ball, bronze stem, stain- less steel handle and locking nut, and high performance reinforced teflon seats and stuffing box ring with a 600 psi (4136 kPa) W.O.G. rating. The valve shall have a clearly legible nameplate including the necessary steps to safely use the sight gauge. The valve handle shall be drilled so that it may be pinned in the position that allows operation of the bladder tank. The pin shall be attached to the valve by a chain to avoid loss. The gauge assembly shall be designed for connection to a 1/2 in. F.N.P.T. The ANSUL sight gauge shipping assembly is an option shipped as a separate component, Part No. 68427 for 50-400 gallon (189.3-1514 L) vertical bladder tanks (VBT) and all horizontal bladder tanks, or Part No. 422863 for 500-1500 gallon (1892.7-5678.1 L) VBT. The approxi- mate shipping weight is 3 lb (1.4 kg). TUBE SIGHT GAUGE USE A READ 0 OPERATING VALVE _f RING PIN 001163 Nominal Dimension A* Dimension A* Capacity (Vertical Tank) (Horizontal Tank) Gallons in. (cm) in. (cm) 50 52 (132) - - 100 78 (198) 40 (102 150 78 (198) 46 (117) 200 96 (244) 46 (117) 300 100 (254) 52 (132) 400 96 (244) 58 (147) 500 114 (290) 58 (147) 600 102 (259) 64 (163) 700 120 (305) 64 (163) 800 112 (284) 70 (178) 900 124 (315) 70 (178) 1000 134 (340) 70 (178) 1100 127 (323) 76 (193) 1200 136 (345) 76 (193) 1300 145 (368) 76 (193) 1400 154 (391) 76 (193) 1500 163 (414) 76 (193) 1600-1900 - - 76 (193) 2000-3000 - - 88 (224) Dimensions are approximate ANSUL is a trademark of Ansul Incorporated or its affiliates. I I jg1c Ansul Incorporated 715-735-7411 copyright (52008 Ansul Incorporated Marinette, WI 54143-2542 www.ansul.com Form No. F-83178-3 I2IJ The hydraulic concentrate control valve is designed for use in either a bladder tank system or an in-line balanced pressure proportioning system. The valve is used to automatically open the line supplying concentrate to the foam proportioner. The valve requires no electrical power. It operates solely by the pressure of the inlet water supply. Standard valve sizes are available from 1 in. to 2 1/2 in. to match the concentrate inlet thread size on the full range of ANSUL® proportioners and in-line balanced pressure proportioner (IBP) assemblies. Each hydraulic concentrate control valve assembly consists of a factory assembled and tested ball valve, hydraulic actuator, and mounting kit attaching the actuator to the ball valve. The actuator has a position indi- cator and manual override capability. The internal components of the actuator are designed to be compatible for use with pressurized water which is used as the actuating means. The actuator is a double-acting type. This means that the pressurized water supplied to the actuator can be used to either close or open the valve. However, for foam concen- trate lines, the valve is normally closed, and is hydraulically opened for system use. Care should be taken therefore, that the proper pressure sensing port is utilized on the actuator to drive the valve to the position (closed or opened) desired. The hydraulic concentrate control valve can be used in conjunction with any type closed-head sprinkler system (wet pipe, dry pipe, and preac- tion). It can also be used in open-type deluge systems. To pressurize the valve, the water line is commonly run from the alarm trim of the sprinkler valve. See "Typical Piping Arrangement." The pressure sensing line to the actuator should be a minimum of 1/4 in. pipe or alternate 3/8 in. tubing (the actual connection to the actuator is 1/8 in. NPT). The actua- tors are sized to operate with a minimum pressure of 30 psi (207 kPa). ANSUL should be consulted for applications where the water pressure potentially could be lower. The maximum recommended water pressure to the actuator is 160 psi (1103 kPa). If potentially higher pressures could be encountered, an available 1/4 in. pressure reducing (PRV) valve, Part No. 415020, should be installed in the line to the actuator. Hydraulic Concentrate Control Valve 006740 I The hydraulic concentrate control valve shall consist of a factory assem- bled and tested: D Threaded bronze body ball valve, with mounting pad, designed for a minimum 400 psi (2758 kPa) WOG. Valve shall be fitted with a stain- less steel ball, stem, and packing nut. Valve seats shall be of glass reinforced Teflon* material. n Hydraulic actuator approved by the manufacturer for using water as the medium to operate the actuator. The actuator shall have a position indicator and have the capability for manual override. The actuator shall be designed to operate the valve with a minimum of 30 psi (2.07 bar) water pressure and shall contain no external moving parts which could cause fouling of adjacent equipment, injury to personnel, misalignment problems common to external linkage systems, or potential for disengagement caused by tampering. D Mounting kit for securely attaching hydraulic actuator to ball valve. Refer to the following chart to determine the size of hydraulic control valve required when the size of proportioner has been determined. Bladder Pump System Proportioner Tank (In-Line Balance Size System Pressure) 2in. un. un. 2 1/2 in. 1 in. 1 in. 3 in. 1 1/4 in. 1 in. 4in. 11/2 in. 11/2 in. 6 in. 2 in. 1 1/2 in. 8 in. 2 1/2 in. 2 in. rrB~ALL,~yAwE~4-,rmE~~wikG—qkiE7q-g,rALY~L- =I For your convenience, Ansul Incorporated also offers the ball valves and swing check valves that are used with most Bladder Tank Foam Systems. All valves are of bronze construction and have NPT connec- tions. The Water Inlet and Concentrate Isolation Ball Valves feature nameplates with their respective name, a ring pin, and tamper seal to allow valve to be visually monitored as to its correct position. Water Inlet Ball Valve 006739 CONCENTRATE ISOLATION BALL VALVE F9 SIGHT GAUGE (OPTIONAL) DRAIN BLADDER TANK )DER DRAIN PROPORTIONER = VALVE LOCAL CODES MAY REQUIRE BACKFLOW PREVENTER IN WATER FEED LINE. VALVES ARE INCLUDED WITH TANK ASSEMBLY 001204 ,_. VENT WATER INLET BALL VALVE Swing Check Valve 006738 006742 BLADDER VENT Pressure Reducing Valve (PRV) IpvALvEsAND:swlNGcHEcs a) Concentrate 11t1:1lIYflk!L. I(J1LAJ Approximate Valve Length* Shipping Weight Part No. Description in. (cm) lb. (kg) 68787 Water Inlet Ball Valve/Nameplate, 1 in. 3.50 (9) 1 (.5) 68822 Water Inlet Ball Valve/Nameplate, 1 1/4 in. 4.00 (10) 1 (.5) 68788 Water Inlet Ball Valve/Nameplate, 1 1/2 in. 4.50 (11) 1 (5) 68789 Water Inlet Ball Valve/Nameplate, 2 in. 4.75 (12) 2 (1.0) 74202 Water Inlet Ball Valve/Nameplate, 2 1/2 in. 6.50 (17) 2 (1.0) 404669 Water Inlet Ball Valve/Nameplate, 3 in. 6.75 (17) 2 (1.0) 74188 Concentrate Isolation Ball Valve/Nameplate, 1 in. 3.50 (9) 1 (.5) 74192 Concentrate Isolation Ball Valve/Nameplate, 1 1/4 in. 4.00 (10) 1 (.5) 74196 Concentrate Isolation Ball Valve/Nameplate, 1 1/2 in. 4.50 (11) 1 (.5) 74200 Concentrate Isolation Ball Valve/Nameplate, 2 in. 4.75 (12) 2 (1.0) 74203 Concentrate Isolation Ball Valve/Nameplate, 2 1/2 in. 6.50 (17) 2 (1.0) 404670 Concentrate Isolation Ball Valve/Nameplate, 3 in. 6.75 (17) 2 (1.0) 403155 Swing Check Valve (Brass), 1 in. 3.25 (8) 2 (1.0) 403780 Swing Check Valve (Brass), 11/4 in. 4.00 2 (1.0) 403781 Swing Check Valve (Brass), 11/2 in. 4.50 2 (1.0) 403782 Swing Check Valve (Brass), 2 in. 5.25 (13) 3 (1.4) 403080 Swing Check Valve (Brass), 2 1/2 in. 6.25 (16) 3 (1.4) 65987 Hydraulic Concentrate Ball Valve, 1 in. 3.25 10 (4.5) 65988 Hydraulic Concentrate Ball Valve, 1 1/4 in. 3.75 15 (6.8) 403490 Hydraulic Concentrate Ball Valve, 1 1/2 in. 4.25 20 (9.0) 403491 Hydraulic Concentrate Ball Valve, 2 in. 4.75 (12) 20 (9.0) 403827 Hydraulic Concentrate Ball Valve, 2 1/2 in. 6.50 (17) 30 (13.6) 415020 Pressure Reducing Valve, 1/4 in. 1.50 (4) 2 (1.0) Note: Optional stainless steel flanged valves available upon request. * Nominal length dimension is from thread inlet to thread outlet. ANSUL is a trademark of Ansul Incorporated or its affiliates. Teflon is a registered trademark of E.I. duPont de Nemours & Co. cit rr Ansul Incorporated 715-735-7411 Copyright ©2007 Ansul Incorporated OLL U Marinette, WI 54143-2542 www.ansul.com Form No. F-9197-2 (jAf8t!)1 EataLSpecificatiors ANSUL® proportioners are specifically designed to accurately proportion and control the mixing of pressurized ANSUL foam concentrates into a water stream with minimum pressure loss. ANSUL proportioners are UL listed with certain ANSUL foam concentrates and are used in conjunc- tion with bladder tanks and pumped proportioning skids. Typical applica- tions include flammable liquid storage tanks, loading racks, aircraft hangars, heliports, and anywhere flammable liquids are used, stored, processed, or transported. Each ANSUL proportioner consists of a body, inlet nozzle, and metering orifice, all of which are corrosion-resistant brass. The proportioner body is designed in four sizes to fit between 3 in., 4 in., 6 in., or 8 in. pipe flanges. Clearly marked on the proportioner body are the flow direction arrow, as well as the type and percentage of concen- trate for which the proportioner was designed. The inlet nozzle is secured by a stainless steel retaining ring that is inter- nally concealed to prevent removal after installation. The metering orifice is sized according to the type and percentage of concentrate used and is also secured with a stainless steel retaining ring. I I The proportioner body, inlet nozzle, and foam orifice shall be of low zinc (less than 15%) brass. The nozzle and foam orifice retaining rings shall be of stainless steel. The proportioner body shall be designed so that it fits between two 150 lb. pipe flanges. Only the recovery section of the proportioner shall protrude into the system water piping. To capture and seal against the flange gaskets, the mating face shall be machined with 32 grooves per inch (2.5 cm) for the 4, 6, and 8 in. models, and 64 grooves per inch (2.5 in.) for the 3 in. model. The body shall be clearly marked with a flow direction arrow, and the type and percent of foam concentrate that it was designed to proportion. The convergent inlet nozzle shall have a rounded inlet and a smooth machined finish to ensure minimum stream constriction and maximum velocity. It shall be retained by an internally concealed retaining ring that prevents removal after installation. The inlet nozzle shall terminate in the foam concentrate annulus chamber and be concentric with and set back from the proportioner recovery section. The foam concentrate metering orifice shall be machined to the proper diameter for the agent. It shall rest on a machined surface to prevent leakage and shall be secured by a removable stainless steel retaining ring. RETAIl RING METER ORIEIC cUx I iir r-rrj I Dimensions Proportioner A B C D E F Size in (cm) in (cm) in (cm) in in (cm) in (cm) 3 in 5.3 (13.5) 2.50 (6.35) 6 (15.2) 11/4 NPT 15 (38) 1.19 (3.02) 4 in 6.8 (17.3) 2.54 (6.45) 8 (20.3) 11/2 NPT 20 (51) 1.27 (3.23) 6 in 8.6 (21.8) 3.25 (8.26) 12 (30.5) 2 NPT 30 (76) 1.63 (4.14) 8 in 11.0 (27.9) 3.56 (9.04) 12 (30.5) 2 1/2 NPT 40 (102) 1.78 (4.52) STRAIGHT F Proportioner Part No. Concentrate Used 3 in 4 in 6 in 8 in 1%AFFF 70800* 69350* 69370* 69390 3% AFFF 70801** 69351** 69371** 69391** 3% AFFF @ 2% 70817* 69367* - - o. (Sub-surface) 3% AFFF 70802 69352 69372 69392 (Freeze Protected) 3% AR-AFFF 70803** 69353** 69373** 69393** 6% AFFF 70804* 69354* 69374* 69394* 6% AR-AFFF 70806* 69356* 69376** 69396** 3% Protein Foam 70807 69357 69377 69397 3% Fluoroprotein Foam 70811 69361 69381 69401 2 3/4% JET-X 70816* 69366* 69386* 69406* 0.5% S1LVEX 70818 - - - Shipping Weight 10 lb 20 lb 40 lb 70 lb (4.5 kg) (9.1 kg) (18.1 kg) (31.8 kg) * UL Listed with Bladder Tanks UL Listed and FM Approved with Bladder Tanks The following table lists the nominal flow range for each proportioner size. For flow ranges using specific concentrates, consult Ansul Incorporated, Applications Engineering, Marinette, WI 54143-2542. Proportioner Nominal Flow Range Size gpm (Lpm) 3 in. 70-800 (265-3028) 4in. 200-1600 (757-6057) 6in. 300-3400 (1136-12870) 8in. 500-5500 (1892-20819) NOTICE: Listed Nominal Flow Ranges do not apply for Alcohol Resistant Concentrate. I thEat pi 001202 (1379) 200 '0*! / (1034) 150 1 A Ill (690) 100 (276) 40 Lu (207) 30 (138) 20 1 400 (1514) 700 1000 2000 3000 5000 gpm (2650) (3785) (7571) (11356) (18927) (Lpm) WATER FLOW 0010011111MMENpiIVAu I V4•RU •••rauuuir •••• MENOWAMMINFA wuuvi•uu 0 ~FAMIMFAIMFAMMM•IU MEN M11511MAMIFAMMIN ••UU•W41IIi•UA••Il UaUflhlPVAIUlI NINE F11111FAM 111111111110FA11111I 150 200 300 400 600 1000 2000 3000 5000 7000 gpm (568)(757) (1136)(1514) (2271) (3785) (7571) (11356) (18927) (26498) (Lpm) FLOW RATE ANSUL is a trademark 01 Afoul Incorporated or its affiliates. I 811 lAIR 1.LLl I t'c Ansul Incorporated 715-735-7411 Copyright 5)2007 Ansul Incorporated Marinette, WI 54143-2542 www.ansuI.com Form No. F-8452-5 (kPa) (psi) 001201 (138) 20 (103) 15 (69) 10 (62) 9 (55) 8 (48) 7 0 (41) 6 (34) 5 (28) 4 Lu 0. (21) 3 (17) 2.5 (14) 2 (10) 1.5 171 1 ttJCG /Fire & Building / Products Technical Services: Tel: (800) 381-9312 I Fax: (800) 791-5500 Type D3 Protectospray® Directional Spray Nozzles, Open, Medium Velocity General Description The Type D3 Protectospray Nozzles are open (non-automatic) directional spray nozzles and they are designed for use in water spray fixed systems for fire protection applications. They are external deflector type nozzles that discharge a uniformly filled cone of medium velocity water droplets. The D3 Nozzles are effective in cover- ing exposed vertical, horizontal, curved, and irregular shaped surfaces in a cooling spray to prevent excessive absorption of heat from an external fire and possible structural damage or spread of fire to the protected equip- ment. In some applications, depending on water design density requirements, the Type D3 Nozzles may also be used for fire control or extinguishment. The Type D3 Nozzles are available in a wide variety of orifice sizes and spray angles (included angle of dis- charge) to provide versatility in system design. Refer to Technical Data Sheet TFP890 for information on Blow-Off Plugs that can be used for applications where protection is required against insect infestation or accumulation of debris within the nozzle orifice. It is recommended that the end user be consulted with respect to the suitability of the materials of construction and IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and in- stallation can permanently damage a sprinkler system or its compo- nents and cause the nozzle to fail to operate in a fire situation. finish for any given corrosive environ- ment. The effects of ambient tempera- ture, concentration of chemicals, and gas/chemical velocity, should be con- sidered, at a minimum, along with the corrosive nature to which the sprin- klers may be exposed. The Type D3 Protectospray Nozzle is a redesignation for the Gem Type D3. WARNINGS The Type D3 Protectospray Nozzles described herein must be installed and maintained in compliance with this document, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these de- vices. The design of individual water spray fixed systems can vary considerably, depending on the characteristics and nature of the hazard, the basic pur- pose of the spraying system, the con- figuration of the hazard, and wind/draft conditions. Because of these vari- ations as well as the wide range of available nozzle spray characteristics, the design of water spray fixed sys- tems for fire protection must only be performed by experienced designers who thoroughly understand the limita- tions as well as capabilities of such systems. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Page 1 of 6 APRIL, 2006 TFPS02 FIGURE 1 TYPE D-3 PROTECTOSPRAY NOZZLES NOMINAL DIMENSIONS ORIFICE SIZE MINIMUM DIAMETER K-FACTOR NFPA (GPM - V'si) ISO/SI (LPM - -\/bar) NO. 16 0.203' (5,16 mm) 1.2 17,3 NO. 18 0.250" (6,35 mm) 1.8 25,9 NO. 21 0.281" (7,14 mm) 2.3 33,1 NO. 24 0.328" (8,33 mm) 3.0 43,2 NO. 28 0.375" (9,53 mm) 4.1 59,0 NO. 32 0.438" (11,13 mm) 5.6 80,6 NO. 34 0.500" (12,70 mm) 7.2 103,7 TABLE A SELECTION OF ORIFICE SIZES 65° 125° 80° 140° 95° 160° 110° 180° TABLE B SELECTION OF SPRAY ANGLES SPRAY ANGLE (INCLUDED ANGLE OF DISCHARGE) AND ORIFICE SIZE STAMPED ON WRENCHING AREA 1/2" NP1 1-3/4" (44,5 mm) rim) NOMINAL MAKE-IN Page 2 of 6 TFP8O2 Technical Data Approvals The natural finish, chrome plated, and lead coated bronze, as well as stain- less steel Type 03 Protectospray Noz- zles are UL and C-UL Listed, as well as FM Approved. Maximum Working Pressure 175 psi (12,1 bar). Also refer to Figure 2, Note 2. Discharge Coefficient Refer to Table A. Spray Angles Refer to Table B. Finish and Material Refer to Table E. Thread Connection 1/2 inch NPT. Physical Characteristics (Bronze) Frame .............Bronze Deflector ...........Bronze Splitter ............Bronze Pin ..............Bronze Physical Characteristics (Stainless Steel) Frame .........ASIM A-296, Grade CF-8M (equiv.Type 316 S.S) Deflector .......Type 316 S.S Splitter ........Type 316 S.S Pin . . . . . . . . . . Type 316 S.S Design Criteria Nozzle Placement. Where direct im- pingement of water spray onto all of the protected surface is required by the Authority having Jurisdiction, the nozzles are to be spaced and directed so that their spray patterns will com- pletely cover the plane-of-protection with the minimum required average density; however, it is recommended that indoor nozzle spacing be 12 feet (3,7 m) or less and that outdoor nozzle spacing be 10 feet (3,0 m) or less. Where rundown or slippage is planned, e.g., exposure protection of vessels per NFPA 15, the above rec- ommended indoor and outdoor spac- ings also apply. When used for protecting the surfaces of a vessel, for example, the nozzles are positioned normal to and approxi- mately 2 feet (0,6 m) from the surface. This approach, in conjunction with a properly selected spray angle, will tend to make more effective use of the spray as well as help minimize the disturbance effects of wind/draft con- ditions on the water spray patterns. Spray Patterns. The Design Spray Profiles for the nozzle spray angles of 65 to 180 degrees are shown in Figure 2 and apply to discharge pressures of 20 to 60 psi (1,4 to 4,1 bar). Discharge pressures in excess of 60 psi (4,1 bar) will result in a decrease in coverage area since the spray patterns tend to draw inwards at higher pressures. Re- fer inquiries on higher discharge pres- sures to the Technical Services De- partment. The maximum axial distances between the nozzle tip and plane-of-protection, for exposure pro- tection, are given in Table C and D. When the axial distance from the noz- zle tip to the plane-of-protection is 3 feet (0,6 m) or less, the Design Spray Profile is the same as the nominal spray angles of 65 thru 140 degrees. Main Pipeline Strainers. Main pipe- line strainers per NFPA 15 are re- quired for systems utilizing nozzles with a flow path less than 3/8 inch (9,5 mm) diameter, i.e., No. 16 thru No. 24 (Ref. Table A), and for any system where the water is likely to contain obstructive material. FIGURE 3 TYPE W1 SPRINKLER WRENCH TFPSO2 Page 3 of 6 RADIAL DISTANCE FROM RADIAL DISTANCE FROM NOZZLE CENTERLINE, FEET NOZZLE CENTERLINE, METERS 0 2 4 6 8 0 05 1,0 1,5 2,0 25 0 • ; - - - - - - 0 - --- 0) 05 2 LL 1800 o 180° Li 4 --s 1600 \ 160° N ---y N 15- 6 140° Z20 ___\\, 140° 8 125° 125° LL L 2,5 W - 110° 110° 10 - - - - - 3,0 -----\--\ 12 11111 iS 950 950 ;35 \\ -------- 80° 4,0--------— 80° 14 ---- - -- 65° 4,5---- 16 ---- - --- 65° QI AXIAL DISTANCE NOZZLE NE OF SPRAY PROFILE \- \PROTECTION ,\ FIXED ANGLE ' —"ADIAL (ORIENTATION) DISTANCE GRAVITY NOTES: 1 Design data obtained from tests in still air. Design data applies to a residual (flowing) pressure range at the nozzle inlet of 20 to 60 psi (1,4 to 4,1 bar). For pressures up to 175 psi (12,1 bar) consult Tyco Fire & Building Products Technical Services. Refer to the authority having jurisdiction for their minimum required residual pressures. The shapes of the Design Spray Profiles remain essentially unchanged over the maximum Axial Distances shown in Tables C and D. For axial distances of 2 feet (0,6 meters) and less and for nozzle spray angles of 65° to 140°, the Design Spray Profile is the same as the nominal spray angle. The maximum Axial Distances shown in Tables C and 0 are based on exposure protection. FIGURE 2 WATER DISTRIBUTION DESIGN DATA Installation Type D3 Protectospray Nozzles must be installed in accordance with the fol- lowing instructions: NOTE A leak tight 1/2 inch NPT nozzle joint should be obtained with a torque of 7 to 14 ft.lbs. (9,5 to 19,0 Nm). A maxi- mum of 21 ft. lbs. (28,5 Nm) of torque may be used to install nozzles with 1/2 NPT connections. Higher levels of torque may distort the nozzle inlet and cause leakage or impairment of the nozzle. Step 1. With pipe thread sealant ap- plied to the pipe threads, hand tighten the nozzle into the nozzle fitting. Step 2. Tighten the nozzle into the nozzle fitting using only the W-Type 11 Sprinkler Wrench (Ref. Figure 3). With reference to Figure 1 the W-Type 11 Sprinkler Wrench is to be applied to the wrenching area. Care and Maintenance The Type D3 Protectospray Nozzles must be maintained and serviced in accordance with the following instruc- tions: Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permission to shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. Type D3 Protectospray Nozzles must never be painted, plated, coated or altered in any way after leaving the factory; otherwise, the spray perform- ance may be impaired. Care must be exercised to avoid dam- age to the nozzles -before, during, and after installation. Nozzles damaged by dropping, striking, wrench twist/slip- page, or the like, must be replaced. Frequent visual inspections are rec- ommended to be initially performed for nozzles installed in potentially corro- sive atmospheres to verify the integrity of the materials of construction and finish as they may be affected by the corrosive conditions present for a given installation. Thereafter, annual inspections per NFPA 25 are required. Water spray fixed systems fo fire proc- tion service require regularly sched- uled care and maintenance by trained personnel. In addition to inspecting nozzles for proper spray performance during water flow trip tests of the sys- tem, it is recommended that nozzles be periodically inspected for broken or missing parts (including blow-off plugs where applicable), loading/obstruc- tions, or other evidence of impaired protection. The inspections should be scheduled weekly or as frequently as (Continued on Page 6) Page 4 of 6 MAXIMUM AXIAL DISTANCE FOR 65° SPRAY ANGLE IN FEET AND INCHES FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 0° 10-6 12-6 13-0 13-3 14-6 15-0 15-6 300 8-3 10-9 10-9 11-9 12-6 13-6 13-9 450 7-3 10-0 10-0 11-3 11-6 12-6 12-9 60° 6-6 9-3 9-6 10-9 11-0 11-9 12-6 900 6-0 8-6 9-0 10-3 10-6 10-9 11-6 1200 5-9 7-6 7-6 7-6 8-3 9-0 9-6 135° 5-6 6-0 6-3 6-6 7-0 8-0 8-6 150° 5-3 5-6 5-6 5-9 6-3 7-3 7-6 180° 5-0 5-0 5-0 5-6 5-9 6-6 7-0 MAXIMUM AXIAL DISTANCE FOR 800 SPRAY ANGLE IN FEET AND INCHES FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 0° 9-0 10-6 11-0 12-0 13-0 14-0 14-0 30° 7-3 8-3 8-9 10-6 11-6 12-3 12-3 45° 6-3 7-6 8-0 10-3 10-6 11-3 11-3 60° 5-6 7-0 7-6 10-0 10-3 10-9 10-9 90° 5-0 6-0 7-0 9-3 9-6 9-9 10-0 120° 4-6 4-9 5-9 6-6 7-3 7-0 8-0 135° 4-3 4-6 5-0 5-6 6-0 6-3 6-9 150° 4-0 4-0 4-6 5-0 5-6 5-6 6-0 180° 3-9 3-9 4-0 4-6 4-9 5-3 5-6 MAXIMUM AXIAL DISTANCE FOR 95° SPRAY ANGLE IN FEET AND INCHES FIXED ANGLE ORIFICE SIZE 16 18 21 24 28 32 34 0° 7-0 7-9 9-6 10-6 11-0 12-0 12-6 30° 5-9 6-6 7-9 9-9 10-6 10-9 11-0 45° 5-3 6-3 7-0 9-6 9-9 10-3 10-3 60° 4-9 6-0 6-9 9-3 9-6 9-9 9-9 90° 4-0 5-0 6-6 8-3 8-6 8-9 8-9 120° 3-6 3-9 5-0 5-3 6-3 6-0 6-6 135° 3-3 3-6 4-0 4-6 5-3 5-3 5- 150' 3-0 3-0 3-6 4-0 4-6 4-6 4-9 180° 3-0 3-0 3-3 3-9 1 4-0 4-3 4-6 MAXIMUM AXIAL DISTANCE FOR 110° SPRAY ANGLE IN FEET AND INCHES FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 0° 6-0 7-0 9-0 9-6 11-0 11-3 11-6 30° 5-3 6-3 7-3 8-9 9-6 9-9 10-0 45° 4-9 5-9 6-6 8-6 9-0 9-0 9-3 60° 4-3 5-6 6-3 8-3 8-6 8-6 8-9 90° 3-6 4-6 5-9 7-6 7-6 7-6 7-9 120° 2-9 3-3 4-6 4-6 5-6 5-6 5-6 135° 2-6 2-9 3-6 3-6 4-6 4-6 4-9 150° 2-3 2-6 3-0 1 3-3 3-6 1 3-9 4-3 1 180° 2-3 2-3 2-9 3-0 3-3 1 3-6 3-9 TFP8O2 MAXIMUM AXIAL DISTANCE FOR 125° SPRAY ANGLE IN FEET AND INCHES FIXED ANGLE ORIFICE SIZE 16 18 21 24 28 32 34 0° 4-6 5-0 6-6 7-9 10-0 10-3 10-6 30° 3-9 3-9 6-3 6-9 8-6 8-6 8-9 45° 3-0 3-6 5-9 6-0 7-9 7-6 8-3 60° 2-6 3-0 5-6 5-9 7-3 7-3 7-9 90° 2-0 2-9 4-9 5-0 5-9 6-0 6-6 120° 1-9 2-3 3-3 3-3 3-9 3-9 4-6 135° 1-6 1-9 2-6 2-6 3-3 3-3 3-9 150° 1-6 1-6 2-0 2-3 2-6 2-9 3-6 180° 1-3 1-3 1-9 2-0 2-3 2-6 3-3 MAXIMUM AXIAL DISTANCE FOR 140° SPRAY ANGLE IN FEET AND INCHES FIXED ANGLE ORIFICE SIZE 16 18 21 24 28 32 34 0° 4-0 4-6 6-0 6-6 8-0 8-0 8-0 30° 3-3 3-6 5-6 5-6 6-3 7-0 7-0 45° 2-9 2-9 5-0 5-0 5-6 6-6 6-6 60° 2-3 2-6 4-6 4-6 5-3 5-6 5-9 90° 1-9 2-3 4-0 4-0 4-6 4-6 5-0 120° 1-6 1-9 2-3 2-6 2-6 3-0 3-6 135° 1-3 1-6 1-6 1-9 2-0 2-6 2-9 150° 1-3 1-3 1-6 1-6 1-9 2-3 2-6 180° 1-0 1-0 1-3 1-3 1-6 2-0 2-3 MAXIMUM AXIAL DISTANCE FOR 160° SPRAY ANGLE IN FEET AND INCHES FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 0° 3-6 3-9 4-9 5-0 6-0 6-9 7-0 30° 2-9 3-0 4-3 4-6 5-0 5-9 6-3 45° 2-3 2-6 3-9 4-0 4-6 5-3 5-6 60° 1-9 2-3 3-6 3-9 4-3 4-9 5-3 90° 1-3 1-9 3-0 3-3 3-6 3-9 4-3 120° 1-0 1-3 1-6 2-0 2-0 2-3 2-6 135° 1-0 1-0 1-3 1-3 1-6 1-9 2-0 150° 0-9 0-9 1-0 1-0 1-6 1-6 1-9 180° 0-9 0-9 0-9 0-9 1-3 MAXIMUM AXIAL DISTANCE FOR 180° SPRAY ANGLE IN FEET AND INCHES FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 0° 2-9 3-0 3-6 3-6 4-0 6-0 6-0 30° 2-3 2-3 3-6 3-6 3-9 5-0 5-0 45° 1-9 2-0 3-3 3-3 3-6 4-3 4-3 60° 1-6 1-9 2-9 2-9 3-3 3-9 3-9 90° 1-0 1-6 2-0 2-0 2-6 3-0 3-0 120° 0-9 1-0 1-0 1-0 1-6 1-6 1-6 135° 0-6 0-9 0-9 0-9 1-3 1-3 1-3 150° 0-6 0-6 0-6 0-6 1-0 1-0 1-0 180° 0-6 0-6 0-6 0-6 0-9 0-9 0-9 TABLE C MAXIMUM AXIAL DISTANCE BETWEEN NOZZLE TIP AND PLANE-OF-PROTECTION FOR EXPOSURE PROTECTION - FEET AND INCHES - TFP8O2 MAXIMUM AXIAL DISTANCE FOR 65° SPRAY ANGLE IN METERS FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 00 3,2 3,8 4,0 4,0 4,4 4,6 4,7 30° 2,5 3,3 3,3 3,6 3,8 4,1 4,2 45° 2,2 3,0 3,0 3,4 3,5 3,8 3,9 60° 2,0 2,8 2,9 3,3 3,4 3,6 3,8 90° 1,8 2,6 2,7 3,1 3,2 33 35 120° 1,8 2,3 2,3 2,3 2,5 2,7 2,9 135° 1,7 1,8 1,9 2,0 2,1 2,4 2,6 150° 1,6 1,7 1,7 1,9 1,9 2,2 2,3 180° 1,5 1,5 1,5 1,7 1,8 2,0 2,1 MAXIMUM AXIAL DISTANCE FOR 80° SPRAY ANGLE IN METERS FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 0° 2,7 3,2 3,4 3,7 4,0 4,3 4,3 30° 2,2 2,5 2,7 3,2 3,5 3,7 3,7 45° 1,9 2,3 2,4 3,1 3,2 3,4 3,4 60° 1,7 2,1 2,3 3,0 3,1 3,3 3,3 90° 1,5 1,8 2,1 2,8 2,9 3,0 3,0 120° 1,4 1,4 1,8 2,0 2,2 2,1 2,4 135° 1,3 1,4 1,5 1,7 1,8 1,9 2,1 150° 1,2 1,2 1,4 1,5 1,7 1,7 1,8 180° 1,1 1,1 1,2 1,4 1,4 1,6 1,7 MAXIMUM AXIAL DISTANCE FOR 95° SPRAY ANGLE IN METERS FIXED ANGLE ORIFICE SIZE 16 18 21 24 28 32 34 0° 2,1 2,4 2,9 3,2 3,4 3,7 3,8 30° 1,8 2,0 2,4 3,0 3,2 3,3 3,4 45° 1,6 1,9 2,1 2,9 3,0 3,1 3,1 60° 1,4 1,8 2,1 2,8 2,9 3,0 3,0 90° 1,2 1,5 2,0 2,5 2,6 2,7 2,7 120° 1,1 1,1 1,5 1,6 1,9 1,8 2,0 135° 1,0 1,1 1,2 1,4 1,6 1,6 1,7 150° 0,9 0,9 1,1 1,2 1,4 1,4 1,4 180° 0,9 0,9 1,1 1,1 1,2 1,3 1,4 MAXIMUM AXIAL DISTANCE FOR 110° SPRAY ANGLE IN METERS FIXED ANGLE ORIFICE SIZE 16 18 21 24 28 32 34 00 1,8 2,1 2,7 2,9 3,4 3,4 3,5 30° 1,6 1,9 2,2 2,7 2,9 3,0 3,0 45° 1,4 1,8 2,0 2,6 2,7 2,7 2,8 60° 1,3 1,7 1,9 2,5 2,6 2,6 2,7 90° 1,1 1,4 1,8 2,3 2,3 2,3 2,4 120° 0,8 1,0 1,4 1,4 1,7 1,7 1,7 135° 0,8 0,8 1,1 1,1 1,4 1,4 1,4 150° 0,7 0,8 0,9 1,0 1,1 1,1 1,3 180° 0,7 0,7 0,8 0,9 1,0 1,1 1,1 Page 5 of 6 MAXIMUM AXIAL DISTANCE FOR 125° SPRAY ANGLE IN METERS FIXED ANGLE ORIFICE SIZE 16 18 21 24 28 32 34 0° 1,4 1,5 2,0 2,4 3,0 3,1 3,2 30° 1,1 1,1 1,9 2,1 2,6 2,6 2,7 45° 0,9 1,1 1,8 1,8 2,4 2,3 2,5 60° 0,8 0,9 1,7 1,8 2,2 2,2 2,4 90° 0,6 0,8 1,4 1,5 1,8 1,8 2,0 120° 0,5 0,7 1,0 1,0 1,1 1,1 1,4 135° 0,5 0,5 0,8 0,8 1,0 1,0 1,1 150° 0,5 0,5 0,6 0,7 0,8 0,8 1,1 180° 0,4 0,4 0,5 0,6 0,7 0,8 1,0 MAXIMUM AXIAL DISTANCE FOR 140° SPRAY ANGLE IN METERS FIXED ANGLE ORIFICE SIZE 16 18 1 21 24 28 32 34 0° 1,2 1,4 1,8 2,0 2,4 2,4 2,4 30° 1,0 1,1 1,7 1,7 1,9 2,1 2,1 45° 0,8 0,8 1,5 1,5 1,7 2,0 2,0 60° 0,7 0,8 1,4 1,4 1,6 1,7 1,8 90° 0,5 0,7 1,2 1,2 1,4 1,4 1,5 120° 0,5 0,5 0,7 0,8 0,8 0,9 1,1 135° 0,4 0,5 0,5 0,5 0,6 0,8 0,8 150° 0,4 0,4 0,5 0,5 0,5 0,7 0,8 180° 0,3 0,3 0,4 0,4 0,5 0,6 0,7 MAXIMUM AXIAL DISTANCE FOR 160° SPRAY ANGLE IN METERS FIXED ANGLE ORIFICE SIZE 16 18 21 24 1 28 32 34 0° 1,1 1,1 1,4 1,5 1,8 2,1 2,1 30° 0,8 0,9 1,3 1,4 1,5 1,8 1,9 450 0,7 0,8 1,1 1,2 1,4 1,6 1,7 60° 0,5 0,7 1,1 1,1 1,3 1,4 1,6 900 0,4 0,5 0,9 1,0 1,1 1,1 1,3 120° 0,3 0,4 0,5 0,6 0,6 0,7 0,8 1350 0,3 0,3 0,4 0,4 0,5 0,5 0,6 150° 0,2 0,2 0,3 0,3 0,5 0,5 0,5 180° 0,2 0,2 0,2 0,2 0,4 0,5 0,5 MAXIMUM AXIAL DISTANCE FOR 180° SPRAY ANGLE IN METERS FIXED ORIFICE SIZE ANGLE 16 18 21 24 28 32 34 00 0,8 0,9 1,1 1,1 1,2 1,8 1,8 30° 0,7 0,7 1,1 1,1 1,1 1,5 1,5 45° 0,5 0,6 1,0 1,0 1,1 1,3 1,3 60° 0,5 0,5 0,8 0,8 1,0 1,1 1,1 900 0,3 0,5 0,6 0,6 0,8 0,9 0,9 120° 0,2 0,3 0,3 0,3 0,5 0,5 0,5 135° 0,2 0,2 0,2 0,2 0,4 0,4 0,4 150° 0,2 0,2 0,2 0,2 0,3 0,3 0,3 180° 0,2 0,2 0,2 0,2 0,2 0,2 0,2 TABLED MAXIMUM AXIAL DISTANCE BETWEEN NOZZLE TIP AND PLANE-OF-PROTECTION FOR EXPOSURE PROTECTION - METERS - Page 6 of 6 TFP8O2 PIN 49-3XX-X-XXX ORIFICE SIZE 16 No. 16 18 No. 18 21 No. 21 24 1 No. 24 28 No. 28 32 No. 32 34 No. 34 may be necessary, and corrective ac- tion must be taken to ensure that the nozzles will perform as intended in the event of a fire. For installations subject to freezing and where blow-off plugs have been installed, a periodic inspection must be performed for evidence of ice build-up from trapped condensate which could affect the proper release of the blow- off plugs. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. The in- stalling contractor or sprinkler manu- facturer should be contacted relative to any questions. It is recommended that water spray fixed systems be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years TABLE E PART NUMBER SELECTION from date of shipment by TFBP. No warranty is given for products or com- ponents manufactured by companies not affiliated by ownership with TFBP or for products and components which have been subject to misuse, improper installation, corrosion, or which have not been installed, maintained, modi- fied or repaired in accordance with ap- plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of prod- ucts. TFBP shall not be responsible for sprinkler system design errors or inac- curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The forecioina warranty is made in lieu press or implied, including warranties of merchantability and fitness for a par- ticular ouroose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- SPRAY ANGLE 065 65° 080 80° 095 95° 110 110° 125 125° 140 140° 160 160° 180 180° als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure When placing an order, indicate the full product name and P/N. Contact your local distributor for avail- ability. D3 Protectospray Nozzles: Specify: No. (specify) orifice, Type D3 Protectospray Nozzle with (specify fin- ish/coating and material) with (specify number) degree spray angle, P/N (specify from table E). Sprinkler Wrench: Specify: Type Wi 1 Sprinkler Wrench, P/N 56-452-1-001. Optional Blow-Off Plugs: Specify: Blow-Off Plug Style (specify letter), P/N (specify from Figure 1). (No. 16) Style A ...........P/N 56-320-1-001 (No. 18) Style K ...........P/N 56-320-1-009 (No. 21) Style J ............P/N 56-320-1-008 (No. 24) Style I ............P/N 56-320-1-007 (No. 28) Style H ...........P/N 56-320-1-006 (No. 32) Style E ...........P/N 56-320-1-005 (No. 34) Style 0 ...........P/N 56-320-1-004 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 tqC0 /Fire. & Building / Products Technical Services: Tel: (800) 381-9312 I Fax: (800) 791-5500 Series TV-B - 28, 5.6, and 8.0 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Standard Response, Standard Coverage General Description The Series TY-B, 2.8, 5.6, and 8.0 K-factor, Upright and Pendent Sprin- klers described in this data sheet are standard response - standard cover- age, decorative 5 mm glass bulb type spray sprinklers designed for use in light, ordinary, or extra hazard, com- mercial occupancies such as banks, hotels, shopping malls, factories, refin- eries, chemical plants, etc. The recessed version of the Series TY-B Pendent Sprinkler, where appli- cable, is intended for use in areas with a finished ceiling. It uses a two-piece Style 10 (1/2 inch NPT) or Style 40 (3/4 inch NPT) Recessed Escutcheon. The Recessed Escutcheon provides 1/2 inch (12,7 mm) of recessed adjust- ment or up to 3/4 inch (19,1 mm) of total adjustment from the flush pen- dent position. The adjustment pro- vided by the Recessed Escutcheon re- duces the accuracy to which the fixed pipe drops to the sprinklers must be cut. Corrosion resistant coatings, where applicable, are utilized to extend the life of copper alloy sprinklers beyond that which would otherwise be ob- tained when exposed to corrosive at- mospheres. Although corrosion resis- tant coated sprinklers have passed the standard corrosion tests of the appli- IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and in- stallation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. cable approval agencies, the testing is not representative of all possible cor- rosive atmospheres. Consequently, it is recommended that the end user be consulted with respect to the suitability of these coatings for any given corro- sive environment. The effects of ambi- ent temperature, concentration of chemicals, and gas/chemical velocity, should be considered, as a minimum, along with the corrosive nature of the chemical to which the sprinklers will be exposed. An intermediate level version of the Series TY-B Pendent Sprinkler can be obtained by utilizing the Series TY-B Pendent Sprinkler in combination with the Model S2 Shield. WARNINGS The Series TY-B Sprinklers described herein must be installed and main- tained in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these de- vices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Model/Sprinkler Identification Numbers TYII5I - Upright 2.81K, 1/2"NPT TY1251 - Pendent 2.81K, 1/2"NPT TY3151 - Upright 5.61K, 1/2"NPT TY3251 - Pendent 5.61K, 1/2"NPT TY4151 - Upright 8.01K, 3/4"NPT TY4251 - Pendent 8.01K, 3/4"NPT TY4851 - Upright 8.01K, 1/2"NPT TY4951 - Pendent 8.01K, 1/2"NPT Page 1 of 8 DECEMBER, 2007 TFPISI 7/16" :11,1 mm) "JOMINAL MAKE-IN 2-3/16' (55,6 mm) 6* 5 4 2 3 CROSS SECTION Page 2 of 8 TFPI5I E SSU DEFLECTOR zgo~ _ ;J—J WRENCH 3 FLATS CROSS UPRIGHT SECTION 1 - Frame 3 - Sealing 4 - Bulb 6 - Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Assembly 5 - Compression 7 - Bushing orifice seat on frame. Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 1 STANDARD RESPONSE SERIES TY-B UPRIGHT (TYII5I) AND PENDENT(TY1251) SPRINKLERS 2.8 K-FACTOR, 1/2 INCH NPT ESCUTCHEON PLATE SEATING SURFACE 1/2' ** NPT 7/16" (11,1 mm) STYLE 10 NOMINAL RECESSED MAKE-IN ESCUTCHEON SSU * DEFLECTOR IT ESCUTCHEON PLATE SEATINI SURFACE -r— — 2-1/4" (57,2 mm) 1-9/16" (39,7 mm) DEFLECTOR PENDENT 2-3/16" (55,6 mm) I = sq rll~ I SSP DEFLECTOR* H 2-7/8" (73,0 mm) DI A. H 1/2" NPT** PENDENT RECESSED PENDENT UPRIGHT 1 - Frame 3 - Sealing 4 - Bulb 6 - Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Assembly 5 - Compression orifice seat on frame. Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 2 STANDARD RESPONSE SERIES TY-B UPRIGHT (TY3 151) AND PENDENT (TY3251) SPRINKLERS 5.6 K-FACTOR, 112 INCH NPT TFPI5I Page 3 of 8 ESCUTCHEON 1/2' (12,7 mm) STYLE 40 PLATE SEATING ** NOMINAL RECESSED ssu SURFACE MAKE-IN ESCUTCHEON NPT DEFLECTOR -r— — 1/2" 5 V (12,7 mm)2-5/16" _______NOMINAL I 4 (58,7 mm) _________ _____MAKE-IN E HI 1-9/16" 2-1/4" 2 (572mm)3 (39,7 mm )RENC _____ FLATS SSP DEFLECTOR* 2-7/8 (73,0 mm) DIA. 3/4 NPT PENDENT RECESSED PENDENT UPRIGHT CROSS SECTION 1 - Frame 3-Sealing 4 - Bulb 6 - Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Assembly 5 - Compression orifice seat on frame. Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 3 STANDARD RESPONSE SERIES TV-B UPRIGHT (TY4 151) AND PENDENT (TY4251) SPRINKLERS 8.0 K-FACTOR, 3/4 INCH NPT ESCUTCHEON PLATE SEATING SURFACE 2-1/4" (57,2 mm) 1-9/16" (39,7 mm) 7/16(11,1 mm) NOMINAL SSU * DEFLECTOR MAKE-IN NPT II CROSS PENDENT UPRIGHT SECTION WRENCH FLATS 55p* DEFLECTOR 1 - Frame 3-Sealing 4 - Bulb 6- Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Assembly 5 - Compression orifice seat on frame. Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 4 STANDARD RESPONSE SERIES TV-B UPRIGHT (TY4851) AND PENDENT (TV4951) SPRINKLERS 8.0 K-FACTOR, 112 INCH NPT Page 4 of 8 TFPI5I SPRINKLER FINISH (See Note 8) K TYPE TEMP. BULB LIQUID NATURAL BRASS I CHROME PLATED I WHITE"*LEAD IPOLYESTER COATED I WAX COATED I WAX OVER LEAD COATED 2.8 1/2" NPT PENDENT (TY1251) and UPRIGHT (TYII5I) 135"F/57°C Orange 1, 2, 3 N/A 155°F/68°C Red 175°F/79°C Yellow 200°F/93°C Green 286°F/141"C Blue 360°F/182°C Mauve 1,2 5.6 1/2" NPT PENDENT (TY3251) and UPRIGHT (TY3151) 135°F/57°C Orange 1, 2,3,4,5,6,7 1,2,3,5 1,2,3,5 1,2,3,5 155°F168°C Red 175°F/79°C Yellow 200°F/93°C Green 286°F1141°C Blue 1**,2**, 3** 5** 2**, 3** 5- 360°F/182°C Mauve N/A RECESSED PENDENT (TY3251)* Figure 4 135"F/57"C Orange 1, 2, 3, 4, 5 N/A 155°F/68°C Red 175°F/79°C Yellow 200°F/93°C Green 286°F/141°C Blue 1,2 8.0 NPT PENDENT (TY4251) and UPRIGHT (TY4151) 135"F/57°C Orange 1, 2, 3,4, 5, 6, 7 1,2,5 1,2,3,5 1,2,5 155"F/68°C Red 175°F/79°C Yellow 200°F193°C Green 286°F1141°C Blue 1**,2**, 3** 5** 1, 2**, 5** 360°F1182°C Mauve N/A RECESSED PENDENT (TY4251)* Figure 5 135"F157°C Orange 1,2,3,4,5 N/A 155"F168"C Red 175°F/79°C Yellow 200°F/93°C Green 286°F/141°C Blue 1,2 8.0 1/2" NPT PENDENT (TY4951) and UPRIGHT (TY4851) 135°F/57"C Orange 1, 2, 3, 4, 5,6 N/A 155°F/68"C Red 175°F/79°C Yellow 200°17/93°C Green 286"F/141 "C Blue 360"F/182°C Mauve NOTES: Listed by Underwriters Laboratories, Inc. (UL). Listed by Underwriters Laboratories, Inc. for use in Canada (C-UL). Approved by Factory Mutual Research Corporation (FM). Approved by the Loss Prevention Certification Board (LPCB Ref. No. 007k103). Approved by the City of New York under MEA 354-01-E. VdS Approved (For details contact Tyco Fire & Building Products, Enschede, Netherlands, Tel. 31-53-428-4444/Fax 31-53-428-3377). Approved by the Loss Prevention Certification Board (LPCB Ref. No. 094a/05). Where Polyester Coated, Lead Coated, Wax Coated, and Wax over Lead Coated Sprinklers are noted to be UL and C-UL Listed, the sprinklers are UL and C-UL Listed as Corrosion Resistant Sprinklers. Where Lead Coated, Wax Coated, and Wax over Lead Coated Sprinklers are noted to be FM Approved, the sprinklers are FM Approved as Corrosion Resistant Sprinklers. * Installed with Style 10 (1/2" NPT) or Style 40 (3/4" NPT) 3/4" Total Adjustment Recessed Escutcheon, as applicable. ** 150"F/66°C Maximum Ceiling Temperature. Frame and deflector only. Listings and approvals apply to color (Special Order). TABLE A, LABORATORY LISTINGS AND APPROVALS 1- TFPI5I Page 5 of 8 SPRINKLER FINISH K TYPE NATURAL CHROME WHITE LEAD WAX WAX OVER BRASS I PLATED POLYESTER COATED COATED LEAD COATED 2.8 PENDENT (TY1251) 1/2 and 175 PSI (12,1 BAR) N/A NPT UPRIGHT (TYII5I) PENDENT (TY3251) 5.6 and 250 PSI (17,2 BAR) 175 PSI (12,1 BAR) 1/2" UPRIGHT (TY3151) OR NPT 175 PSI (12,1 BAR) RECESSED PENDENT (TY3251) (SEE NOTE 1) N/A 8.0 PENDENT (TY4251) 3/4" and 175 PSI (12,1 BAR) NPT UPRIGHT (TY4151) RECESSED PENDENT (TY4251) 175 PSI (12,1 BAR) N/A 8.0 PENDENT (TY4951) 1/2" and 175 PSI (12,1 BAR) NPT UPRIGHT (TY4851) NOTE: 1. The maximum working pressure of 250 psi (17,2 bar) only applies to the Listing by Underwriters Laboratories, Inc. (UL); the Listing by Underwriters Laboratories, Inc. for use in Canada (C-UL); and, the Approval by the City of New York. TABLE B, MAXIMUM WORKING PRESSURE Technical Data Approvals UL and C-UL Listed. FM, LPCB, VdS, and NYC Approved. (Refer to Table A for complete ap- proval information including corrosion resistant status.) Maximum Working Pressure Refer to Table B. Discharge Coefficient K = 2.8 GPM/psi112 (40,3 LPM/barl/2) K = 5.6 GPM/psil/2 (80,6 LPM/barl/2) K = 8.0 GPM/psi112 (115,2 LPM/barl/2) Temperature Ratings Refer to Table A. Finishes Sprinkler: Refer to Table A. Recessed Escutcheon: White Coated, Chrome Plated, or Brass Plated. Physical Characteristics Frame .............Bronze Button .........Brass/Copper Sealing Assembly .......... Beryllium Nickel w/Teflont Bulb ...............Glass Compression Screw .....Bronze Deflector ...........Copper Bushing (K=2.8) .......Bronze Operation The glass Bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass Bulb, allowing the sprinkler to activate and water to flow. Design Criteria The Series TY-B Pendent and Upright Sprinklers are intended for fire protec- tion systems designed in accordance with the standard installation rules rec- ognized by the applicable Listing or Approval agency (e.g., UL Listing is based on the requirements of NFPA 13, and FM Approval is based on the requirements of FM's Loss Prevention Data Sheets). Only the Style 10 or 40 Recessed Escutcheon, as applicable, is to be used for recessed pendent installations. Page 6 of 8 TFPI5I 2-7/8 DIA. 5/8±1/4" (73,0 mm) 3/4" (19,1 mm) (15,9±6,4mm) 2-1/4 DIA. 1/4(6,4 mm) FACE OF 572 MOUNTING SPRINKLER mm) PLATE FITTING 1/8' (3,2 mm) / MOUNTING SURFACE/ CLOSURE SERIES 1-1/4' (31,8 mm) I TYB 3/4(19,1mm) FIGURE 5 SERIES TV-B RECESSED PENDENT SPRINKLER ASSEMBLY WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON 56 K-FACTOR, 1/2 INCH NPT 2-7/8 DIA. H 5/8±1/4 (73,0 mm) 3/4" (19,1 mm) (15,9±6,4 mm) 2-1/4" DIA. 1/4" (6,4 mm) (57,2 mm) FACE OF MOUNTING SPRINKLER PLATE FITTING 1/8" (3,2 mm) \4 MOUNTING /" SURFACE/// CLOSURE SERIES 1-5/16" (33,3 mm) TYB 13/16(20,6 mm) FIGURE 6 SERIES TV-B RECESSED PENDENT SPRINKLER ASSEMBLY WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 40 RECESSED ESCUTCHEON 8.0 K-FACTOR, 3/4 INCH NPT WRENCH RECESS (END "A" USED FOR 1/2" NPT MODELS) WRENCH RECESS (END "B" USED FOR 3/4" NPT MODELS) FIGURE 7 W-TYPE 6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 8 W-TYPE 7 RECESSED SPRINKLER WRENCH Installation The Series TY-B Sprinklers must be installed in accordance with the follow- ing instructions: NOTES Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 135°F/57°C to 3/32 inch (2,4 mm) for the 360°F/1820C temperature ratings. A 1/2 inch NPT sprinkler joint should be obtained with a minimum to maxi- mum torque of 7 to 14 ft.lbs. (9,5 to 19,0 Nm). A 3/4 inch NPT sprinkler joint should be obtained with a mini- mum to maximum torque of 10 to 20 ft.lbs. (13,4 to 26,8 Nm). Higher levels of torque may distort the sprinkler inlet and cause leakage or impairment of the sprinkler. Do not attempt to make-up for insuffi- cient adjustment in the escutcheon plate by under- or over-tightening the TFPI5I Page 7 of 8 sprinkler. Readjust the position of the sprinkler fitting to suit. The Series TY-B Pendent and Up- right Sprinklers must be installed in accordance with the following instruc- tions. Step I. Pendent sprinklers are to be installed in the pendent position, and upright sprinklers are to be installed in the upright position. Step 2. With pipe thread sealant ap- plied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Ref. Figure 7), except that an 8 or 10 inch adjustable Crescent wrench is to be used for wax coated sprinklers. With reference to Figures 1, 2, 3, and 4 the W-Type 7 Sprinkler Wrench or the adjustable Crescent wrench, as applicable is to be applied to the wrench flats. When installing wax coated sprinklers with the adjustable Crescent wrench, additional care needs to be exercised to prevent damage to the wax coating on the sprinkler wrench flats or frame arms and, consequently, exposure of bare metal to the corrosive environ- ment. The jaws of the wrench should be opened sufficiently wide to pass over the wrench flats without damag- ing the wax coating. Before wrench tightening the sprinkler, the jaws of the wrench are to be adjusted to just con- tact the sprinkler wrench flats. After wrench tightening the sprinkler, loosen the wrench jaws before removing the wrench. After installation, the sprinkler wrench flats and frame arms must be in- spected and the wax coating re- touched (repaired) whenever the coat- ing has been damaged and bare metal is exposed. The wax coating on the wrench flats can be retouched by gen- tly applying a heated 1/8 inch diameter steel rod to the areas of wax that have been damaged, to smooth it back over areas where bare metal is exposed. NOTES Only retouching of the wax coating ap- plied to the wrench flats and frame arms is permitted, and the retouching is to be performed only at the time of the initial sprinkler installation. The steel rod should be heated only to the point at which it can begin to melt the wax, and appropriate precautions need to be taken, when handling the heated rod, in order to prevent the installer from being burned. The Series TY-B Recessed Pendent Sprinklers must be installed in ac- cordance with the following instruc- tions. Step A. After installing the Style 10 or 40 Mounting Plate, as applicable, over the sprinkler threads and with pipe thread sealant applied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step B. Tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Ref. Figure 8). With reference to Figure 3 or 4, the W-Type 7 Recessed Sprinkler Wrench is to be applied to the sprinkler wrench flats. Step C. After the ceiling has been in- stalled or the finish coat has been ap- plied, slide on the Style 10 or 40 Clo- sure over the Series TY-B Sprinkler and push the Closure over the Mount- ing Plate until its flange comes in con- tact with the ceiling. Care and Maintenance The Series TY-B Sprinklers must be maintained and serviced in accord- ance with the following instructions: NOTES Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permission to shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. The owner must assure that the sprin- klers are not used for hanging of any objects; otherwise, non-operation in the event of a fire or inadvertent opera- (ion may result. Absence of an escutcheon, which is used to cover a clearance hole, may delay the time to sprinkler operation in a fire situation. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated or otherwise altered after leaving the factory. Modi- fied sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age to the sprinklers - before, during, and after installation. Sprinklers dam- aged by dropping, striking, wrench twist/slippage, or the like, must be re- placed. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installation Section). Frequent visual inspections are rec- ommended to be initially performed for corrosion resistant coated sprinklers, after the installation has been com- pleted, to verify the integrity of the cor- rosion resistant coating. Thereafter, annual inspections per NFPA 25 should suffice; however, instead of in- specting from the floor level, a random sampling of close-up visual inspec- tions should be made, so as to better determine the exact sprinkler condi- tion and the long term integrity of the corrosion resistant coating, as it may be affected by the corrosive conditions present. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. The in- stalling contractor or sprinkler manu- facturer should be contacted relative to any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in ac- cordance with local requirements and/or national codes. I j_ TEMPERATURE RATING 135 135°F/57°C 155 155°F/68°C 175 175°F/79°C 200 200°F/93°C 286 I 286°F/141°C 360 I 360'F/1 82'C Page 8 of 8 TFPI5I PIN 57-XXX-X-XXX I MODEL/SIN I 1 4 T 9 7 6 8 I.. SPRINKLER 530 2.8K UPRIGHT (i/2"NPT) TY1151 NATURAL BRASS 531 2.8K PENDENT (1/2"NPT) TY1 251 WHITE POLYESTER 570 5.6K UPRIGHT (1/2"NPT) TY3151 WHITE (RAL9O1O)° 571 5.6K PENDENT (1/2"NPT) TY3251 CHROME PLATED 590 8.0K UPRIGHT (3/4"NPT) TY4151 LEAD COATED 591 8.0K PENDENT (3/4"NPT) TY4251 WAX COATED 286°F/141°C MAX. - 560 8.0K UPRIGHT (1/2"NPT) TY4851 WAX OVER LEAD 286°F/141°C MAX. 561 8.0K PENDENT (1/2"NPT) TY4951 * Eastern Hemisphere sales only. TABLE C PART NUMBER SELECTION SERIES TY-B PENDENT AND UPRIGHT SPRINKLERS ages, including but not limited to labor Procedure Warranty charges, regardless of whether TFBP was informed about the possibility of Products manufactured by Tyco Fire & such damages, and in no event shall When placing an order, indicate the Building Products (TFBP) are war- TFBP's liability exceed an amount full product name. Refer to the Price ranted solely to the original Buyer for equal to the sales price. List for complete listing of Part Num- ten (10) years against defects in mate- bers. rial and workmanship when paid for and properly installed and maintained The foregoing warranty is made in lieu of any and all other warranties. ex- Contact your local distributor for avail- under normal use and service. This warranty will expire ten (10) years press or implied, including warranties ability. of merchantability and fitness for a oar- from date of shipment by TFBP. No ticular purpose. Sprinkler Assemblies with NPT Thread Connections: warranty is given for products or corn- This limited warranty sets forth the ex- Specify: (Specify Model/SIN), Stand- ponents manufactured by companies clusive remedy for claims based on ard Response, (specify K-factor), not affiliated by ownership with TFBP failure of or defect in products, materi- (specify temperature rating), Series or for products and components which als or components, whether the claim TY-B (specify Pendent or Upright) have been subject to misuse, improper is made in contract, tort, strict liability Sprinkler with (specify type of finish or installation, corrosion, or which have or any other legal theory. coating), P/N (specify from Table C). not been installed, maintained, modi- fied or repaired in accordance with ap- This warranty will apply to the full ex- plicable Standards of the National Fire tent permitted by law. The invalidity, in whole or part, of any portion of this Recessed Escutcheon: Specify: Style (specify 10 or 40 ) Re- Protection Association, and/or the standards of any other Authorities warranty will not affect the remainder. cessed Escutcheon with (specify*) fin- Having Jurisdiction. Materials found ish, P/N (specify*). by TFBP to be defective shall be either * Refer to Technical Data Sheet TFP770. repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor Sprinkler Wrench: authorizes any person to assume for it, Specify: W-Type 6 Sprinkler Wrench, any other obligation in connection with P/N 56-000-6-387. the sale of products or parts of prod- ucts. TFBP shall not be responsible for Specify: W-Type 7 Sprinkler Wrench, sprinkler system design errors or inac- P/N 56-850-4-001. curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under © 2007 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 any other legal theory, for incidental, Limited indirect, special or consequential dam- Ordering May 7, 2007 Design 205a A DELUGE SYSTEM D ES 6i; The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com DESCRIPTION A Deluge System is an empty pipe system that is used in high-hazard areas or in areas where fire may spread rapidly. It can also be used to cool surfaces such as tanks, process lines, or transformers. In this type of application, open sprinklers or spray nozzles are em- ployed for water distribution. The deluge valve is activated by a release system (manual, fixed-temperature, rate-of-temperature rise, radiation, smoke, or combustion gases, hazardous vapors, pressure increase). When the system is tripped, water flows through all spray nozzles or sprinklers simultaneously. The Viking deluge system can be activated by a hydraulic, pneumatic, electric, or manual release system or any combination of these release systems. But, in all cases, the deluge valve itself is activated hydraulically. See the following schematics and the "Equipment" section of the Viking Engineering and Design Data book for complete information regarding individual devices. System design requirements are to be found in rules set forth by various groups including the National Fire Protec- tion Association (NFPA), FM Global (FM), Industrial Risk Insurers (IRI), Loss Prevention Council (LPCB), and the Authorities Having Jurisdiction. Deluge systems require hydraulically-calculated piping. EVALUATION OF THE DESIGN PROBLEM When designing a deluge system for a particular installation, consideration must be given to the following: Type of hazard System's overall purpose Approvals required, published standards, and job specifications Area to be protected by one deluge system Water supply Drainage Floatable combustible liquids Equipment shut-down Corrosive atmospheres Draft curtains The necessity of explosion-proof electrical equipment Appropriate equipment A. TYPE OF HAZARD Efforts should be made to acquire specific information regarding the hazard to be protected. This information is essential to apply the appropriate standards. B. SYSTEM'S OVERALL PURPOSE Given the type of hazard to be protected, determine the purpose and the desired performance characteristics of the system. Should it be designed to cool surfaces only? To extinguish fires only? Or, to both cool surfaces and extinguish fires? Also, deter- mine if water additives such as low-expansion foam and AFFF water wetting agents are required to meet the stated purpose of the system. If so, also refer to the Viking Foam Systems Engineering Design Data book. C. APPROVALS REQUIRED, PUBLISHED STANDARDS, AND JOB SPECIFICATIONS Among those things affecting the system design are: 1. Approvals required by various groups. For example: Insurance standards, owner, local and national building codes, insur- ance underwriter, consulting engineer, and architect. 2. Standards set forth in various publications. For example: National Fire Protection Association's National Fire Codes - and Fire Protection Handbook. FM Global's Loss Prevention Data. Loss Prevention Council rules for Automatic Sprinkler Installation. 3. Job specifications. These should be evaluated to make certain they comply with all rules stipulated by the approval bodies. D. AREA TO BE PROTECTED BY ONE DELUGE SYSTEM Some installation standards state that a discharge rate of 3,000 gpm (11 355 L/min) should not be exceeded for a single system. System size may be further limited by the water supply available to the system and/or the hazard classification. If there is any question concerning the adequacy of the deluge system's coverage, seek the advice of the insurance underwriter or a qualified consulting engineering firm. E. WATER SUPPLY Since deluge systems are hydraulically-calculated, the static and residual water-pressure characteristics of the water supply should be obtained by conducting an on-site water-flow test. Prior water-supply data may already be available from the following sources: job specifications, consulting engineer, architect, insurance underwriter, owner, or local water department. Prior data must be applicable and may need to be verified. If a fire pump is needed, acquire a pump supply curve from the pump manufac- turer. However, be sure to check with authorities having jurisdiction (approving body) regarding pump characteristics (percentage Form No. F_032989 Revised page replaces page 205a-1 dated April 18, 2003. (Removed reference to Easy Trim.) Design 205b May 7, 2007 A DELUGE SYSTEM DESIGN The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com over rated capacity at percentage of rated psi). DRAINAGE A deluge system may produce a large volume of water. The owner should be notified as early as possible concerning the total volume of water expected to ensure proper drainage and, where necessary, collection. FLOATABLE COMBUSTIBLE LIQUIDS If the area being protected contains a large volume of floatable combustible liquid, a safe drainage or diking system should be installed to prevent the possibility of transferring the fire to adjacent areas. EQUIPMENT SHUT-DOWN Because a deluge system applies water to the total system areas simultaneously, it may be advisable to install equipment that will automatically shut down selected production equipment. Examples of equipment that might be automatically shut down during deluge system operation are: Equipment prone to more severe water damage when ON" than "OFF". Pumps, pipe lines, and conveyers supplying combustible solids, liquids, or gases to the system area. Equipment that would present a serious electrical hazard if exposed to water (e.g. transformers, generators, conveyers, high-capacity battery chargers, high-amperage motors, etc.) Large-volume air handling systems, if the drafting they create would serve to spread the fire to adjacent areas. 1. CORROSIVE ATMOSPHERES Request information from the owner or owner's representative regarding the system's environment. Corrosive elements may be present in the system's area requiring a special protective coating for all deluge system components. Note: For outside exposed piping or where corrosive atmospheres exist, use steel/galvanized pipe and steel malleable or ductile iron fittings or copper. DRAFT CURTAINS Draft curtains may be required to separate each deluge system when multiple systems serve a common roofed area. The draft curtains suppress the operation of any system adjacent to the system serving the fire area. Proper placement of draft curtains will prevent the unnecessary use of water otherwise needed to fight the fire. EXPLOSION-PROOF ELECTRICAL EQUIPMENT If the system protects areas where explosive vapors may be present, explosion-proof electrical equipment is required. Check with the owner or other authorities regarding ratings. EQUIPMENT SELECTION 1. GENERAL Viking deluge equipment is designed to allow for a variety of release devices. The release system detection device itself may be thermostatic (fixed-temperature/rate-of-temperature-rise) or manual. When the detection device is activated, the deluge valve is tripped. Note: Because the deluge valve is hydraulically operated, it must not be exposed to freezing temperatures. A heated enclosure may be required. a. Hydraulic Release Systems Description (refer to data page 203a-i). Hydraulic release systems may utilize rate-of-temperature rise, fixed-tem- perature, manual releasing devices, or combinations thereof. Hydraulic release systems are normally the least expen- sive of possible release systems; however, they must not be installed in areas that are not subject to freezing. Under certain conditions, when using a hydraulic release system, the deluge valve may be subject to water columning. See paragraph below titled: MAXIMUM ALLOWABLE HEIGHT OF RELEASE LINE ABOVE THE DELUGE VALVE. Hydraulic Release System Design - Release Lines - Use galvanized steel pipe or corrosion-resistant tubing, such as copper or brass for release lines. Do not exceed 1,000 ft. (304.8 m) of %" (15 mm) pipe in a release-line system. In systems over this capacity, larger pipe sizing is required. - Maximum Allowable Height Of Release Line Above The Deluge Valve - Hydraulic release system piping must not exceed the maximum elevation allowed for hydraulic release piping above the Deluge Valve. Refer to current Technical Data for the Viking Deluge Valve used. b. Pneumatic Release Systems 1. Description (refer to data page 202a-i). Pneumatic Release systems may utilize rate-of-temperature-rise, fixed-tem- perature, manual releasing devices, or combinations thereof. Pneumatic Release systems may be used in most areas. Costs of installation and maintenance are usually higher than a comparable hydraulic release system. Valve trip-time may vary depending on the length of the release line and the air pressure maintained on the release system. May 7, 2007 Design 205c A A A DELUGE SYSTEM DESIGN The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com 2. Pneumatic Release System Design - Pressure to be maintained in a Pneumatic Release System - For recommended pneumatic (air or nitrogen) pressures to be maintained in pneumatic release systems, refer to cur- rent Viking Technical Data for the system used. For additional information concerning pneumatic release system equip- ment, devices, and installation instructions, refer to the Viking Engineering and Design Data book section describing Pneumatic Supplies. - Release Line Restriction - All pneumatic-release systems must be equipped with a restricted orifice in the air or gas supply to ensure that the automatic air supply cannot replace pneumatic pressure as fast as it escapes when a releasing device operates. This restriction is already incorporated in the Viking air maintenance device and release line air supply assembly. - Reducing Trip Time - If the deluge system trip time is excessive, it can be substantially reduced by one or more of the following: Add a check valve (Circle Seal or equivalent) in branch portions of the release-line system. (Install so flow is toward releasing device). Install an optional accelerator on the pneumatic release system to provide earlier alarms and/or allow the system to trip faster. An Accelerator may be necessary to meet system discharge time requirements. - Release Line Dehydrator - All pneumatic release systems must be provided with an air dehydrator to minimize corrosion and prevent ice plugs. - Pneumatic Supply - Refer to Viking Technical Data, System Data, and associated schematic drawings for the deluge system used. Also, refer to the Viking Engineering and Design Data book section describing "Pneumatic Supplies" for additional informa- tion on pneumatic (air or nitrogen) equipment, devices, and installation requirements. Electric Release Systems Description (refer to data page 204a-h). Electric release systems may be rate-of-temperature-rise, fixed-tempera- ture, manual, products of combustion, light, or combinations thereof, and may be used in most areas. Installation and maintenance costs, however, are usually higher than comparable hydraulically or pneumatically operated systems. Also, the electrical release systems requires a stable source of power. A back-up power source should be considered and may be required. Electric Release System Design - Determine element to be detected - Determine the physical change to be detected such as fixed-temperature, rate-of-temperature increase, radiation, smoke, pressure, and the level at which the detection should take place. Determine whether two or more elements shall be detected, such as fixed temperature and smoke. Determine the need for explosion-proof components. - Determine requirements for supervision - Circuits that are not normally energized can be supervised by passing a small amount of current through them. This current will operate a sensing relay, but is not great enough to allow the controlled device to operate. If a break occurs in the supervised circuit, this supervisory current will be interrupted and a trouble alarm will sound. Detector circuits, release circuits, and alarm circuits are commonly supervised. If bell circuits with more than one bell are to be super- vised, polarized bells must be used. Determine the requirements for such supervision. - Select appropriate detectors - From the manufacturer's information, determine which detectors satisfy the physical change requirements. Note the electrical characteristics of the devices chosen, the supervision capabilities, and the suitability for the application. Verify that the detector is listed and approved for the application used, and is compatible with all other components. Space in accordance with manufacturer's recommendations. - Select the appropriate releasing device - Normally, solenoid valves are used. Note the electrical characteristics of the device chosen. The releasing device must be compatible with the system control panel and other electrical components. - Determine accessory or auxiliary device requirements - Often electrical detection systems will be required to sound auxiliary alarms and provide contacts for independent alarm systems. The requirements for these auxiliary services and their need for supervision should be determined and their electrical characteristics considered. - Consider the power supply and requirements for standby power - The dependability of the power supply is a critical factor; with interruption of power, the control system will either trip immediately or be unable to trip, depending on its mode or configuration. A mechanical detection system can be de- signed to provide protection in this event. However, if available power is suspect, standby power in the form of a battery - Design 205d May 7, 2007 .4 A DELUGE SYSTEM DESIGN The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com charger and suitable batteries are usually required and must be provided. - Determine the current requirements of the system - Determine the current requirements of the sum of components in the system, when it is in the set and tripped condition. Do not exceed rated capacity of the control panel used. Do not exceed the rated capacity of any system circuit. - If a standby power supply is used, determine its capacity - Standby power must be provided as long as regular power is out of service. Therefore, this time is dependent upon a large number of factors, including location of the installation, the level of maintenance, the availability of maintenance, and the historical frequency and duration of power outages. A 24-hour standby capability is usually considered the minimum requirement with 100 hours usually the maximum. Multiplying the maximum system current requirements by the time requirements will give the battery capacity and battery charger requirements. - Select compatible components - From the manufacturer's technical information, determine that the devices selected are compatible with each other. Observe all manufacturer's technical instructions. - Wire sizes and maximum resistance - Requirements are found on individual Technical Data sheets. - Location of release and pressure switch - The location of the solenoid valve is shown on the various System Data sheets. Flow through the release must be in the direction indicated. The pressure switch in the release control unit system is located in the alarm line. d. Manually-Operated Release Systems Manually operated release systems are usually integrated into one of the other types of release systems. Normally a system will incorporate a manual release at the valve, exits, operator station, or other convenient locations to operate the system during a fire emergency. 3. FLOW CONTROL VALVE SUBSTITUTION FOR DELUGE VALVE The Viking Flow Control Valve may be used for some deluge applications. This valve offers the same operating features as a deluge valve. In addition, it offers ON-OFF remote control. Seethe Flow Control Valve section of the Viking Engineering and Design Data book for device and trimming requirements. Form No. F_032989 Revised page replaces page 205a-1 dated April 18, 2003. (Removed reference to Easy Trim.) August 1, 2008 Deluge Valves 218a DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE 4 2-1/2" (DN65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com 1. DESCRIPTION The Viking Model F-i Deluge Valve is a quick opening, differential diaphragm and flood valve with one moving mechanism. The Deluge Valve is used to control water flow in Del- uge and Preaction sprinkler systems. The valve is held closed by system water pressure trapped in the priming chamber; keeping the outlet chamber and system piping dry. In fire conditions, when the releasing system operates, pressure is released from the priming chamber. The Deluge Valve clapper opens to allow water to flow into the system piping. Features: Field replaceable Diaphragm and Seat Rubbers Designed for installation in the horizontal or vertical position Designed to be reset without opening the valve Compatible with Hydraulic, Pneumatic and/or Electric Release Systems NOTE: FOR PART NUMBERS OF ACCESSORIES, REFER TO VIKING LIST PRICE SCHEDULE. LISTINGS AND APPROVALS: U.L. Listed - Guide No. VLFT & VLJH C-UL Listed FM Approved - Deluge Sprinkler Systems, Preaction Sprinkler Systems, Refrigerated Area Sprinkler Systems American Bureau of Shipping (ABS) - Certificate No. 05-H5502910C-PDA NYC Department of Buildings - MEA 89-92-E Vol XXXI CE - Pressure Equipment Directive 97/23/EC TECHNICAL DATA Specifications: Maximum Working Water Pressure: 250 PSI (17.4 bar) Style: Straight through Connections: See Table 1 Factory tested: to 500 psi (34.5 bar) Valve differential: 2:1 (priming chamber to inlet chamber) Priming chamber supply restriction (required): 0.0625" (1,6 mm) Color of Valve: Red Friction loss: Refer to Table 1 Cv Factor: Refer to Table 1 Material Standards: Refer to Figure 2 Ordering Information: Part Numbers - Refer to Table 1 8" - Manufactured since 2002 4" & 6" - Manufactured since 2003 2-1/2" & 3" - Manufactured since 2004 ACCESSORIES: Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikinggroupinc.com. The Web site may include a more recent edition of this Technical Data Page. Refer to Current VIKING PRICE LIST for Part Numbers. A Conventional Trim Trim package for use with the Model F-i Deluge Valve. The trim package includes the VALVE ACCESSORY PACKAGE and the fittings and nipples shown on the Viking Deluge Valve Conventional Trim Chart Trim Chart for the valve used. Trim Charts are provided in trim packages and the Viking Engineering Design Data book. For optional factory assembled "modu- lar" trim packages, refer to the Viking list price schedule or contact the manufacturer. A Deluge VALVE ACCESSORY PACKAGE includes required trim components. This package is needed when Viking Trim Packages are not used. Auxiliary Components are required for specific valve functions. For complete operating trim requirements, refer to system data for the system used. System data is provided in the Viking Engineering Design Data book. Additional accessories are available and may be required for system operation or supervision. Refer to the system description and technical data for complete operating trim requirements for the system used. Form No. F_110802 Revised page replaces page 218 a-i dated November 30, 2007. (Corrected orientation of PORV) Deluge Valves 218b August 1, 2008 DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE 2-1/2" (0N65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com DESCRIPTION I Nominal Size Part Number Friction Loss* Cv Factor Shipping Weight Threaded Pipe O.D. NPT65mm I 2W 12401 12 ft. (3.6m) 155 67 lbs. (30 kg) Flange/Flange Flange Drilling ANSI 3' 12014 12 ft. (3.6m) 155 82 lbs. (37 kg) ANSI 4" 11953 21 ft. (6.5 m) 428 146 lbs, (66 kg) ANSI 6' 11955 39 ft. (11.9m) 839 271 lbs. (123 kg) ANSI 8" 11991 57 ft. (17.4m) 1577 466 lbs. (212 kg) ANSI/Japan 6' 11964 39 ft. (119m) 839 271 lbs. (123 kg) PN10/16 0N80 12026 12 ft. (3.6m) 155 82 lbs. (37 kg) PN10/16 DN100 11965 21 ft. (6.5 m) 428 127 lbs. (58 kg) PN10/16 DNI50 11956 21 ft. (6.5 m) 428 127 lbs, (58 kg) PN10 DN200 11995 57 ft. (17.4m) 1577 418 lbs. (190 kg) PN16 DN200 11999 57 ft. (17.4m) 1577 466 lbs. (212 kg) Flange/Groove Flange Drilling / Pipe O.D. ANSI / 89mm 12018 12 ft. (3.6m) 155 75 lbs. (34 kg) ANSI / 114mm 11952 21 ft. (6.5 m) 428 136 lbs, (62 kg) ANSI / 168mm 6" 11954 39 ft. (11.9m) 839 261 lbs. (118 kg) PN10/16 / 89mm 0N80 12030 12 ft. (3.6m) 155 75 lbs. (34 kg) PN10/16 / 114mm DN100 11958 21 ft. (6.5 m) 428 136 lbs, (62 kg) PN10/16 / 165mm 0N150 12640 39 ft. (11.9m) 839 261 lbs. (118 kg) PN10/16 /168mm 0N150 11954 39 ft. (119m) 839 261 lbs. (118 kg) Groove/Groove Pipe O.D. 73mm 2W1 0N65 12403 12 ft. (3.6m) 155 67 lbs. (30 kg) 76mm DN80 12729 12 ft. (3.6m) 155 67 lbs. (30 kg) 89mm 3/ DN80 12022 12 ft. (3.6m) 155 64 lbs. (29 kg) 114mm 4"/ON100 11513 21 ft. (6.5 m) 428 127 lbs, (58 kg) 165mm 0N150 11910 39 ft. (119m) 839 245 lbs. (111 kg) 168mm 6" I 0N150 11524 39 ft. (11.9m) 839 245 lbs. (111 kg) 219mm 8" / DN200 11018 57 ft. (17.4m) 1577 403 lbs. (183 kg) *Expressed in equivalent length of Schedule 40 pipe based on Hazen & Williams C=120 4. INSTALLATION (Refer to Figure 1 identification of trim components). Q= CV AP Q= Flow Cv= Flow Factor (GPM/1 PSI AP) AP= Pressure Loss through Valve S= Specific Gravity of Fluid Table 1-Valve Part Numbers and Specifications A. General Instruction 1. Viking Straight Through Deluge Valves may be installed in the horizontal or vertical position. 2. The valve must be installed in an area not subject to freezing temperatures or physical damage. 3. The valve must be trimmed according to current Viking Trim Charts and appropriate instructions for the system used. Trim Charts are printed in the Viking Engineering and Design Data book, and are provided with trim packages. Remove all plastic protectors from the openings of the Deluge Valve. Apply a small amount of pipe joint compound or tape to the external threads of all pipe connections required. Take care not to allow any compound, tape, or other foreign matter inside any of the nipples or openings of the valve or trim components. Viking Model F-i Deluge Valve Conventional Trim Charts are provided with Trim Packages and in the Viking Engineering and Design Data book. Verify that all system components are rated for the water working pressure of the system. Hydrostatic Test: The Model F-i Deluge Valve is manufactured and listed for use at a maximum Water Working Pressure of 250 PSI (17.2 bar). The valve is factory tested at 500 PSI (34.5 bar). Model F-i Deluge Valves may be hydrostatically tested at 300 PSI (20.7 bar) and/or 50 PSI (3.4 bar) above the normal Water Working Pressure, for limited periods of time (two hours), for the purpose of acceptance by the Authority Having Jurisdiction. If air testing is required, do not exceed 60-PSI (4.1 bar) air pressure. NOTE: NEVER CONDUCT THE HYDROSTATIC TEST AGAINST THE PRESSURE OPERATED RELIEF VALVE. (P.O.R.V.) TEMPORAR- ILY REMOVE THE P.O.R.V. FROM THE TRIM AND PLUG TRIM OPENINGS WHILE CONDUCTING THE HYDROSTATIC TEST. TRIM NOTE: DISCHARGE PIPING FROM THE AUXILIARY DRAIN VALVE, THE FLOW TEST VALVE, AND ALL SYSTEM DRAINS SHOULD BE KEPT SEPARATE. DO NOT CONNECT THE OUTLET OF THE DRIP CHECK TO ANY OTHER DRAIN. 4. The priming line must be connected upstream of the system water supply main control valve or to a constant source of water at August 1, 2008 Deluge Valves 218c DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE IM 2-1/2" (DN65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvingcorp.com a pressure equal to the system water supply. 5. After the Deluge Valve is set, operation of the Deluge Valve requires the release of priming water from the priming chamber. This may be by automatic or manual operation of the release system. Viking Deluge Valves are compatible with hydraulic, pneumatic, and electric release systems. For specific Trim arrangements refer to Trim Charts and System Data describing the system being installed. Trim Charts are printed in the Viking Engineering and Design Data book, and are provided with trim packages. System Data sheets are printed in the Viking Engineering and Design Data book. Hydraulic Release Systems: See Figures 3-6 for the maximum allowable elevation of hydraulic release piping above the Deluge Valve. If the maximum height of hydraulic release piping exceeds the limit shown in Figures 3-6 for the valve used, use a Pneumatic or Electric Release System. Pneumatic Release Systems: A Viking Pneumatic Actuator is required between the release system connection provided on deluge valve trim and pneumatic release system piping. Electric Release Systems: Solenoid Valves, System Control Panels, and Electrical Detectors must be compatible. Consult appropriate listing and/or approval guides. NOTE: FOR OPERATION AT WATER PRESSURES IN EXCESS OF 175 PSI (12.1 BAR), A 250 PSI (17.2 BAR) RATED SOLENOID VALVE MUST BE USED. REFER TO APPROPRIATE VIKING TECHNICAL DATA PAGE FOR TYPE OF SYSTEM USED. CAUTION: OPERATION OF VIKING DELUGE VALVES BY PRESSURIZING THE PRIMING CHAMBER WITH AIR PRESSURE OR ANY OTHER PRESSURIZED GAS IS NOT RECOMMENDED OR APPROVED. B. Placing the Valve in Service For Deluge Valves equipped with Conventional Deluge Valve Trim, follow steps 1 through 10 (and 11 & 12 if applicable) below. 1. Verify: The system Main Water Supply Control Valve (Dl) is closed and the Deluge Valve is trimmed according to current Viking Trim Charts and schematic drawings for the system used. The system has been properly drained. Auxiliary Drain (13.13) is open. The Emergency Release (13.9) is closed. The system water supply piping is pressurized up to the closed Main Water Supply Control Valve (Dl) and the priming line is pressurized up to the closed Priming Valve (13.1). 2. For Systems equipped with: a. Hydraulic Release Systems: Verify that all releasing devices are set and that any Inspector's Test Valve and/or auxiliary drain valves are closed. Open Priming Valve (B.1).Allow the hydraulic release system to fill. When priming pressure gauge (13.7) indicates that the release piping and priming chamber pressure is equal to system supply pressure, proceed to step 3. Proceed to step 3. b. Pneumatic Release Systems: Set the release system. Open Priming Valve (13.1). Proceed to step 3. c. Electric Release Systems: Open Priming Valve (13.1). Set the electric release system. Proceed to step 3. 3. Open Flow Test Valve (B.11). 4. Partially open Main Water Supply Control Valve (Dl). 5. When full flow develops from the Flow Test Valve (B.11), close the Flow Test Valve. Verify that there is no flow from the open Auxiliary Drain (13.13). 6. Close Auxiliary Drain (13.13). 7. Fully open and secure the Main Water Supply Control Valve (Dl). 8. Verify that the Alarm Shut-off Valve (13.6) is open and that all other valves are in their normal** operating position. 9. Depress the plunger of Drip Check (13.14). No water should flow from the Drip Check when the plunger is pushed. 10. Check for, and repair all leaks. 11. On new installations, those systems that have been placed out of service, or where new equipment has been installed, trip test the system to verify that all equipment functions properly. Refer to INSPECTION, TESTS AND MAINTENANCE paragraph 6-I1-C: ANNUAL Trip Test instructions. Deluge Valves 218d August 1 2008 DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE om 2-1/2" (0N65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com To Reteose To Release System System B,4 13.3 B4 B,5- B.2 B.1 / B.9 B.9 fro / I / -- A.1 ..- . -- ....--B.6 B.11 Bli : / I IBlU B15 B5 L B12 B13 '°i B,13 . --- Vertical Valve Horizontal Valve Dashed tines indicate Nipples and Fittings incLuced with Trim Phantom lines incicate Piping required but not included with Trim Figure 1 - Conventional Trim Components A.1 Deluge Valve B.9 Emergency Release B.1 Priming Valve (Normally Open) B.10 Alarm Test Valve (Normally Closed) B.2 Strainer B.11 Flow Test Valve (Normally Closed) B.3 1/16 Restricted Orifice B.12 Water Supply Pressure Water Gauge and Valve B.4 Spring Loaded Check Valve B.13 Auxiliary Drain Valve (Normally Closed) B.5 Pressure Operated Relief Valve (PORV) B.14 Drip Check Valve B.6 Alarm Shut Off Valve (Normally Open) B.15 Drain Cup B.7 Priming Pressure Water Gauge and Valve D.1 Water Supply Control Valve B.8 Drain Check Valve August 1, 2008 Deluge Valves 218e DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE ON 2-1/2" (DN65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com CAUTION! PERFORMING A TRIP TEST RESULTS IN OPERATION OF THE DELUGE VALVE. WATER WILL FLOW INTO THE SPRIN- KLER PIPING. TAKE NECESSARY PRECAUTIONS TO PREVENT DAMAGE. 12. After completing a trip test, perform SEMI-ANNUAL maintenance. C. Valve Removed From Service NOTE: WHEN A VALVE HAS BEEN REMOVED FROM SERVICE AND IS SUBJECT TO FREEZING OR WILL BE OUT OF SERVICE FOR AN EXTENDED PERIOD OF TIME, ALL WATER MUST BE REMOVED FROM THE PRIMING CHAMBER, TRIM PIPING, WATER SUPPLY PIPING AND OTHER TRAPPED AREAS. OPERATION (Refer to Figure 2) The Viking Model F-i Deluge Valve has an inlet chamber, an outlet chamber and a priming chamber. The inlet chamber and outlet chamber are separated from the priming chamber by the clapper (5) and diaphragm (6). In the set condition: System pressure is supplied to the priming chamber through a restricted priming line (trim) equipped with a check valve. System water supply pressure trapped in the priming chamber holds the clapper (5) on seat (2) due to area differential design. Clapper (5) separates the inlet chamber from the outlet chamber, keeping the outlet chamber and system piping dry. In fire conditions: When the release system operates, pressure is released from the priming chamber faster than it is supplied through the restricted priming line. Water supply pressure in the inlet chamber forces the clapper (5) off from seat (2), allowing water to flow through the outlet and into the system and alarm devices. For Deluge Valves equipped with Conventional Trim: When the deluge valve operates, the air side of the PORV looses pressure, causing the PORV to operate. When the PORV operates, it continually vents the priming chamber to prevent the deluge valve from resetting even if the open releasing devices close. The deluge valve can only be reset after the system is taken out of service, and the outlet chamber of the deluge valve and associated trim piping is depressurized and drained. INSPECTIONS, TESTS AND MAINTENANCE I. Inspection It is imperative that the system be inspected and tested on a regular basis. The frequency of the inspections may vary due to con- taminated water supplies, corrosive water supplies or corrosive atmospheres. Also, the alarm devices, detection systems or other connected trim may require a more frequent schedule. For minimum maintenance and inspection requirements, refer to NFPA 25. In addition, the Authority Having Jurisdiction may have additional maintenance, testing, and inspection requirements which must be fol- lowed. The following recommendations are minimum requirements. (For additional information, refer to Viking Trim Charts and System Data describing systems with the release system used.) A. Weekly: Weekly visual inspection of the Viking Deluge Valve is recommended. Verify that the Main Water Supply Control Valve (D.i) is open and that all other valves are in their normal** operating position and appropriately secured. Check for signs of mechanical damage, leakage, and/or corrosive activity. If detected, perform maintenance as required. If neces- sary, replace the device. Verify that the valve and trim are adequately heated and protected from freezing and physical damage. II. Tests A. Quarterly Water Flow Alarm Test 1. Notify the Authority Having Jurisdiction and those in the area affected by the test. 2. To test the local electric alarm (if provided) and/or mechanical water motor alarm (if provided), OPEN the alarm test valve (13.5) in the deluge valve trim. Electric alarm pressure switches (if provided) should activate. Electric local alarms should be audible. The local water motor gong should be audible. If equipped with remote station alarm signaling devices, verify that alarm signals were received. 3. When testing is complete, CLOSE the alarm test valve (13.10). 4. Verify: All local alarms stop sounding and alarm panels (if provided) reset. All remote station alarms reset. Supply piping to water motor alarm properly drains. - Deluge Valves 218f August 1, 2008 DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE 4M 2-1/2" (DN65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com Verify that the alarm shut-off valve (13.6) is OPEN, and the alarm test valve (13.10) is CLOSED. Verify that the outlet chamber is free of water. No water should flow from the drip check (13.14) when the plunger is pushed. Notify the Authority Having Jurisdiction and those in the affected area that testing is complete. B. Quarterly Main Drain Test 1. Notify the Authority Having Jurisdiction and those in the area affected by the test. 2. Record pressure reading from the water supply pressure gauge (13.12). 3. Verify that the outlet chamber of the deluge valve is free of water. No water should flow from the drip check (13.7) when the plunger is pushed. 4. Fully OPEN the flow test valve (B.11). 5. When a full flow is developed from the flow test valve (B. 11), record the residual pressure from the water supply pressure gauge (B.12). 6. When the test is complete, SLOWLY CLOSE the flow test valve (13.11). 7. Compare test results with previous flow information. If deterioration of the water supply is detected, take appropriate steps to restore adequate water supply. 8. Verify: Normal water supply pressure has been restored to the inlet chamber, the priming chamber, and the release system. The pressure on the priming chamber water pressure gauge should equal the system water supply pressure. All alarm devices, and valves are secured in normal** operating position. 9. Notify the Authority Having Jurisdiction that the test is complete. Record and/or provide notification of test results as required by the Authority Having Jurisdiction. ** For normal operating position, refer to Figure 1 and/or Trim Charts and System Data for the system used. C. Annual Trip Test: CAUTION! PERFORMING THIS TEST RESULTS IN OPERATION OF THE DELUGE VALVE. WATER WILL FLOW INTO THE SPRINKLER PIPING AND FROM ANY OPEN SPRINKLERS AND/OR NOZZLES. TAKE NECESSARY PRECAUTIONS TO PREVENT DAMAGE. 1. Notify the Authority Having Jurisdiction and those in the area affected by the test. 2. Fully open the flow test valve (B.11) to flush away any accumulation of foreign material. 3. Close the flow test valve (B.11). 4. Trip the system by operating the release system. Allow a full flow to pass through the deluge valve. Water flow alarms should operate. 5. When test is complete: Close the main water supply control valve (Dl). Close the priming valve (13.1). Open the auxiliary drain valve (13.13). Open all system main drains and auxiliary drains. Allow the system to drain completely. 6. Perform SEMI-ANNUAL maintenance. Refer to paragraph 6.III.13 SEMI-ANNUAL MAINTENANCE. 7. Place the system in service. Refer to Item 4.13, INSTALLATION: PLACING THE VALVE IN SERVICE. NOTE: DELUGE VALVES SUPPLIED BY BRACKISH WATER, SALT WATER, FOAM, FOAM/WATER SOLUTION, OR ANY OTHER COR- ROSIVE WATER SUPPLY, SHOULD BE FLUSHED WITH GOOD QUALITY FRESH WATER BEFORE BEING RETURNED TO SERVICE. 8. Notify the Authority Having Jurisdiction that the test is complete. Record and/or provide notification of test results as required by the Authority Having Jurisdiction. Ill. Maintenance NOTICE: THE OWNER IS RESPONSIBLE FOR MAINTAINING THE FIRE PROTECTION SYSTEM AND DEVICES IN PROPER OPER- ATING CONDITION. THE DELUGE VALVE MUST BE KEPT FROM FREEZING CONDITIONS AND PHYSICAL DAMAGE THAT COULD IMPAIR ITS OPERATION. Where difficulty in performance is experienced, the valve manufacturer or his authorized representative shall be contacted if any field adjustment is to be made. WARNING: ANY SYSTEM MAINTENANCE WHICH INVOLVES PLACING A CONTROL VALVE OR DETECTION SYSTEM OUT OF SER- VICE MAY ELIMINATE THE FIRE PROTECTION CAPABILITIES OF THAT SYSTEM. PRIOR TO PROCEEDING, NOTIFY ALL AUTHORI- TIES HAVING JURISDICTION. CONSIDERATION SHOULD BE GIVEN TO EMPLOYMENT OF A FIRE PATROL IN THE AFFECTED AR- EAS. - August 1, 2008 Deluge Valves 218g DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE 2-1/2" (DN65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com A. After Each Operation: 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. Deluge Valves and trim that have been subjected to brackish water, salt water, foam, foam/water solution, or any other corrosive water supply, should be flushed with good quality fresh water before being returned to service. Perform SEMI-ANNUAL maintenance after every operation. B. Semi-Annual Maintenance: 1. Remove the system from service. (Refer to Deluge or Preaction System Data that describes systems with the release system used for additional information.) Close the Main Water Supply Control Valve (Di) and Priming Valve (B.i). Open the Auxiliary Drain Valve (B.13). Relieve pressure in the priming chamber by opening the Emergency Release Valve (B.9). 2. Inspect all trim for signs of corrosion and/or blockage. Clean and/or replace as required. 3. Clean and/or replace all strainer screens (including B.2). 4. Refer to Item 4-13, INSTALLATION: PLACING THE VALVE IN SERVICE. C. Every Fifth Year Internal inspection of Deluge Valves is recommended every five years unless inspections and tests indicate more frequent internal inspections are required. Refer to DISASSEMBLY instructions provided below. Internal inspection of strainers, and restricted orifices is recommended every five years unless inspections and tests indicate more frequent internal inspections are required. Record and provide notification of inspection results as required by the Authority Having Jurisdiction. D. Valve Disassembly (Refer to Figure 3) Remove the valve from service (see the release system description and Technical Data for additional information). Close the main control valve, open the main drain valve. Release the pressure in the priming chamber by opening the Emergency Release Valve. Remove trim as required to allow removal of cover (4). Remove screws (9). Lift cover (4) from body (1). Remove clapper assembly (No. 3, 5, 6, 7, 9, 10, ii) by lifting it from the body (1). Inspect seat (2). If replacement is necessary, remove screws (12). Remove old seat (2) and 0-ring (13). Replace with new seat (2) and 0-ring (13). Replace screws (12). To replace the diaphragm rubber (6), remove the circle of screws (10). Remove the clamp ring (3) and remove the diaphragm rubber (6). To replace the seat rubber assembly (7), clapper assembly (3, 5, 6, 7, 9, 10, 11) must be removed from the valve. Remove the circle of screws (12). Seat rubber assembly (7) can be removed. NOTE: PRIOR TO INSTALLING A NEW CLAPPER RUBBER (6) OR SEAT RUBBER ASSEMBLY (7), MAKE CERTAIN THAT ALL SUR- FACES ARE CLEAN AND FREE OF FOREIGN MATTER. THE PLATED SEAT (2) MUST BE SMOOTH AND FREE OF NICKS, BURRS OR INDENTATIONS. E. Valve Reassembly Prior to reassembly flush the valve of all foreign matter. To reassemble, reverse disassembly procedure. AVAILABILITY The Viking Model F-i Deluge Valve is available through a network of domestic and international distributors. See the Viking Corp. Web site for closest distributor or contact The Viking Corporation. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Viking directly. - Deluge Valves 218h August 1, 2008 DELUGE VALVE MODEL F-I STRAIGHT THROUGH STYLE 2-1/2" (DN65) - 8" (DN200) The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com 9 10 515436 12 13 11 _ 2-1/2' - 15-1/8' (384] - 15-1/9' (384] - 19-1/2' (495] 6' - 24-3/8' (619] Figure 2 - Replacement Parts 8' - 29-1/2' (749] ITEM PART NUMBER NO. REQ'D. NO. DESCRIPTION MATERIAL -1/2" (DN65) 4" 6" 8" -1/2" (DN65) 4" 6" 8" &3"(DN80) (DN100) (DNI50) (DN200) &3"(DN8O) DNIOO' DN150 DN200 1 -- -- -- -- Body DuctileIron 1 1 1 1 2 * * * * Seat Brass 1 1 1 1 3 02493B 02378B 05704B 10514 RingClamp,UpperDiaphragm BrassCasting 1 1 1 1 4 -- -- -- -- Cover DuctileIron65-45-12 1 1 1 1 Ductile Iron 65-45-12, Teflon Powder 1 5 08846N 08844N 08570N 10518N/B Clapper Coated 6 12012 11560 11561 10510 Upper Diaphragm E PDM - ASTM D-2000 1 1 1 1 7 02497B 02382B 02176B 10512 Rubber Seat Assembly EPDM-ASTM0-2000 1 1 1 1 8 -- DataPlate AluminumEtched 1 1 1 02169A Screw,H.H.C.1,1/2-13x1-1/4(32) Steel, SAE-Grade5,ASTM A449 10 9 02200A Screw, H.H.C1., 1/2-13 x 1 1/2 (38) Steel, SAE-Grade 2 12 05707A 05707A Screw,H.H.C1.,5/8-11x13/4(44) Steel,LowCarbon,SAEGrade2 -- 15 16 02496A - - Screw, R_H____10_24x3/8(9_5) Stainless Steel, UNS_S30200 6 - - 02383A Screw, H_H_C1__5/16_18x1/2(13) Stainless Steel, UNS_S30400 8 10 07932 Screw, H_H_C1__3/8_16x1/2(13) Stainless Steel, UNS_S30400 12 11021 Screw,S.H.C2.,3/8-16x1/2(13) Stainless Steel, UNS-S30400 12 02494A Screw, R_H____10_24x1/2(127) Stainless Steel, UNS_530200 6 02383A Screw, H_H_C1__5/16_18x1/2(13) Stainless Steel, UNS_S30400 8 - 02454A Screw, H_H_C1__3/8_16x5/8(16) Stainless Steel, UNS_S30400 12 - 11022 Screw, S.H.C2.,3/8-16x3/4(19,1) Stainless Steel, UNS-S31600 12 Screw, RH____10_24x5/8(16) Stainless Steel, UNS_S30200 4 = 12 Screw, S_H_C2__10_24x3/4(19_1) Stainless Steel, UNS_S31600 6 Screw, S_H_C2__1/4_20x3/4(19_1) Stainless Steel, UNS_S31600 8 6 13 * * * * 0-Ring EPDM 1 1 1 1 14 ______ 11570 F01256 Eye Bolt, 5/8_11_UNC Carbon Steel 15 -- 1Nut,5/8-11-UNC StainlessSteel -- Indicates replacement part not available * Indicates part available only in sub-assembly listed below SUB-ASSEMBLY 2, 12 14711-3 14711-4 14711-6 14711-8 Seat Replacement Kit' 13 13488 13490 13492 13484 ClapperAssembly Kit *Note: Includes 0-ring lubricant to be added to ring groove in seat. Hex Head Cap Screw 2 Socket Head Cap Screw, (8" Valve - #10 & 11 must be S.H.C. for clearance with seat) 3 Round Head, Phillips Drive Screw TECHNICAL DATA TECHNICAL DATA August 1, 2008 Deluge 204a DELUGE SYSTEM CONTROLLED BY ELECTRIC RELEASE The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com 1. DESCRIPTION (Refer to Figures 1-4) Viking Deluge Systems utilize a Viking Deluge Valve to control the water supply to system piping equipped with open sprinklers and/or spray nozzles. The system piping remains empty until the deluge valve is activated by operation of the release system. Deluge sys- tems are commonly used where it is desirable to simultaneously spray water from all open sprinklers and/or nozzles on the system when it operates. Electrically controlled deluge systems require an electric solenoid valve controlled by an approved system control Panel with compatible detection system. In fire conditions, when the detection system operates, the system control panel energizes solenoid valve open, causing the deluge valve to open and allowing water to enter the system piping. Water will flow from any open sprinklers and/or spray nozzles on the system. 2. LISTINGS AND APPROVALS FM Approved - The Viking electrically controlled Deluge System is FM Approved when installed with specific components. Refer to current FM Approval Guide. Consult the manufacturer for any component approvals too recent to appear in the FM Approval Guide. 3. SYSTEM OPERATION (Refer to Figures 1-4) IN THE SET CONDITION System water supply pressure enters the priming chamber of the deluge valve through the 1/4" (6,4 mm) priming line, which in- cludes a normally open priming valve (B.1), strainer (B.2), restricted orifice (B.3) and Check Valve (B.4) and the normally closed PORV (13.10). In the SET condition, water supply pressure is trapped in the Priming Chamber by Check Valve (B.4) and normally closed Solenoid Valve (El). The pressure in the Priming Chamber holds the Deluge Valve clapper closed, keeping the outlet chamber and system piping dry. IN FIRE CONDITIONS When the detection system (E.4) operates, the System Control Panel (E.3) activates an alarm and energizes the normally closed Solenoid Valve (El) open. Pressure is released from the priming chamber faster than it is supplied through restricted orifice (13.3) (13.3). The Deluge Valve clapper opens to allow water to flow into the system piping and alarm devices, causing the water motor alarm (C.2) and water flow alarms connected to the alarm pressure switch (Cl) to activate. Water will flow from any open sprinklers and/or spray nozzles on the system. FOR DELUGE VALVE TRIM (Refer to Figures 1-4) When the Deluge Valve operates, the air side of the PORV (13.10) loses pressure, causing the PORV (13.10) to operate. When the PORV (13.10) operates, it continually vents the priming chamber to prevent the Deluge Valve (Al) from resetting even if the open releasing devices close. The Deluge Valve (A. 1) can only be reset after the system is taken out of service, and the outlet chamber of the deluge valve and associated trim piping are de-pressurized and drained. TROUBLE CONDITIONS If the detection system operates due to mechanical damage or malfunction, the Deluge Valve will open. Water will flow from any open sprinklers and/or spray nozzles on the system. Water motor alarm (C.2) and alarms connected to alarm pressure switch (Cl) will activate. MANUAL OPERATION Anytime the handle inside emergency release (8.11) is pulled, pressure is released from the priming chamber and the deluge valve (Al) will open. Water will flow into the system piping and alarm devices. Water will flow from any open sprinklers and/or spray nozzles on the system. 4. INSTALLATION Refer to current Viking Technical Data describing individual components of the Viking Deluge System. Technical Data describing the Viking Deluge Valve and other system components are packed with product and in the Viking Engineering and Design Data book. Also, refer to applicable installation standards, codes, and Authorities Having Jurisdiction. The deluge valve (Al) and trim must be installed only in areas where they will not be subjected to freezing temperatures. Alarm pressure switch (Cl) should activate when pressurized to 4 to 8 PSI (.3 to .6 bar) on pressure rise. Alarm pressure switch (C.1) should be wired to activate the waterflow alarm. All initiating devices (detectors) (E.4), indicating appliances, releasing devices(E.1), and the system control panel (E.3) must be compatible and approved for use with the deluge system that is used. Refer to appropriate Fire Protection Equipment Approval Guides and current Viking Technical Data describing individual components of the Viking Deluge System that is used. Form No. F_110589 Revised page replaces page 204a-h dated May 7, 2007. (Updated drawings with new PORV.) Deluge 204b August 1, 2008 DELUGE SYSTEM CONTROLLED BY ELECTRIC RELEASE The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com 5. PLACING THE SYSTEM IN SERVICE (Refer to Figures 1-4) NOTE: FOR NEW INSTALLATIONS, REFER TO INSTRUCTIONS PROVIDED IN TECHNICAL DATA DESCRIBING THE VIKING DELUGE VALVE AND OTHER SYSTEM COMPONENTS. (SEE SECTION 8.) To Return a System to Service: Verify that the system has been properly drained. Auxiliary drain (13.6) should be open. Verify that the emergency release (8.11) is closed. Open the priming valve (13.1). Reset the system control panel. For Viking Model VFR400 Panel, open the panel and press "RESET". Solenoid valve (E. 1) should close. Flow from the solenoid valve (El) to the drain cup should stop. Open the flow test valve (B.15). Partially open the main water supply control valve (Dl). When full flow develops from the flow test valve (B.15), close the flow test valve (B.15). Verify that there is no flow from the open auxiliary drain (B.6). Close the auxiliary drain (B.6). Fully open and secure the main water supply control valve (Dl). Verify that the alarm shut-off valve (13.9) is open and that all other valves are in their normal operating position. Depress the plunger of the drip check valve (B.7). No water should flow from the drip check valve (13.7) when the plunger is pushed 6. EMERGENCY INSTRUCTIONS (Refer to Figures 1-4) To Take System Out of Service: WARNING: PLACING A CONTROL VALVE OR DETECTION SYSTEM OUT OF SERVICE MAY ELIMINATE THE FIRE PROTECTION CAPABILITIES OF THE SYSTEM. PRIOR TO PROCEEDING, NOTIFY ALL AUTHORITIES HAVING JURISDICTION. CONSIDERATION SHOULD BE GIVEN TO EMPLOYMENT OF A FIRE PATROL IN THE AFFECTED AREAS. After a fire, verify that the fire is OUT and that placing the system out of service has been authorized by the appropriate Authority Hav- ing Jurisdiction. 1. Close the water supply control valve (Dl). 2. Open the auxiliary drain (B.6). 3. Silence alarms (optional). To silence electric alarms controlled by Viking Model VFR400 Release Control Panel, open panel, and press "ALARM SILENCE". To silence electric alarms controlled by the pressure switch (Cl) and to silence the water motor alarm (C.2), close the alarm shut-off valve (13.9). NOTE: ELECTRIC ALARMS CONTROLLED BY A PRESSURE SWITCH INSTALLED IN THE W' (15 MM) NPT CONNECTION FOR A NON-INTERRUPTIBLE ALARM PRESSURE SWITCH CANNOT BE SHUT OFF UNTIL THE DELUGE VALVE IS RESET OR TAKEN OUT OF SERVICE. NOTE: SPRINKLER SYSTEMS THAT HAVE BEEN SUBJECTED TO A FIRE MUST BE RETURNED TO SERVICE AS SOON AS POSSI- BLE. THE ENTIRE SYSTEM MUST BE INSPECTED FOR DAMAGE, AND REPAIRED OR REPLACED AS NECESSARY. 4. Close the priming valve (13.1) (optional). 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. 5. Replace any detectors (E.4) that have been damaged. 6. Replace any sprinklers and/or spray nozzles that have been damaged or have been exposed to fire conditions. 7. Perform all maintenance procedures recommended in Technical Data describing individual components of the system that has operated. 8. Return the system to service as soon as possible. Refer to section 5. PLACING THE SYSTEM IN SERVICE. August 1, 2008 Deluge 204c DELUGE SYSTEM NIKJNG4 * ELECTRIC RELEASE CONTROLLED BY 6fl; The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com INSPECTIONS AND TESTS NOTICE: THE OWNER IS RESPONSIBLE FOR MAINTAINING THE FIRE PROTECTION SYSTEM AND DEVICES IN PROPER OPERAT- ING CONDITION. It is imperative that the system be inspected and tested on a regular basis in accordance with NFPA 25. Refer to INSPECTIONS and TESTS recommended in current Viking Technical Data describing individual components of the Viking Deluge System used. (See sec- tion 8 for hyperlinks to Viking Technical Data.) The frequency of the inspections may vary due to contaminated water supplies, corrosive water supplies, corrosive atmospheres, as well as the condition of the air supply to the system. For minimum maintenance and inspection requirements, refer to NFPA 25. In addi- tion, the Authority Having Jurisdiction may have additional maintenance, testing, and inspection requirements that must be followed. WARNING: Any system maintenance that involves placing a control valve or detection system out of service may eliminate the fire protection capabilities of that system. Prior to proceeding, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a fire patrol in the affected areas. ORDERING INSTRUCTIONS To order a complete Electric release Deluge system, the following components must be purchased: Deluge Valve, Conventional Trim, and a Release Trim package. Valve Part Numbers DESCRIPTION NOMINAL SIZE PART NUMBER Flange/Groove Painted Red Flange Drilling / Pipe O.D. Model F-i ANSI/89mm 12018 ANSI 114mm 11952 ANSI 168mm 6" 11954 PN10/16 / 89mm DN80 12030 PN10/16/114mm DN100 11958 PN10/16 / 165mm DNISO 12640 PN10/16/168mm 0N150 11954 HALAR® Flange Drilling! Pipe O.D. Model F-2 ANSI /89mm 3' 120190/B ANSI / 114mm 4" 119590/B ANSI / 168mm 6" 119610/B PNIO/16/89mm DNOO 126440/B PN10/16/114mm DN100 126450/B PN10/16/165mm DN150 126410/B PN10/16/168mm DN150 119610/B Groove/Groove Painted Red Pipe O.D. Model F-I 48mm IW/DN4O 12125 60mm 2/ DNSO 12057 73mr 21A" / 0N65 12403 76mm DN80 12729 89mm 3/DN80 12022 114mm 4"/DN100 11513 165mm 0N150 11910 168mm 6"/DNI50 11524 219mm 8"/DN200 11018 HALAR® Pipe O.D. Model F-2 48mm 1W! DN40 121270/B 60mm 2" / DNSO 120580/B 73mr 21A" / DN65 124040/B 76mm 0N80 127300/B 89mm X1 DN80 120230/B 114mm 4/ DN100 115140/B 165mm DN150 119110/B 168mm 6" / DN1SO 115250/B 219mm 8"/0N200 111180/B DESCRIPTION NOMINAL SIZE PART NUMBER DELUGE VALVE Angle Style Threaded NPT Painted Red Model & Pipe O.D Model E-3 48mm 1W / DN40 09889 Model E-1 60mm 2" / DN50 05852C HALARI Model E-4 48mm 1W / 0N40 098900/B Model 6-2 60mm 2"! DN50 083610/B Flange/Flange Painted Red Flange Drilling Model E-I ANSI 05912C ANSI 05909C ANSI 6" 05906C ANSI/Japan 6" 07136 PN10/16 DN80 08626 PN10t16 DN100 08629 PN10/16 DN150 08631 HALAR® Flange Drillin! Model E-2 ANSI 083620/B ANSI 083630/B ANSI 6" 083640/B PN10/16 DNBO 088620/13 PNI0/16 DN100 088630/B PN10/16 DN150 088640/B Flange/Groove Painted Red Flange Drilling / Pipe O.D.Model E-1 ANSI / 89mm 3' 05835C ANSI / 114mm 4" 05839C ANSI / 168mm 6" 05456C PN10/16 / 89mm 0N80 09539 PN10/16/114mm ONIOO 09540 PN10/16 / 168mm 0N150 05456C HALAR® Flange Drilling! Pipe O.D. Model E-2 ANSI /89mm 110640/B ANSI / 114mm 110650/B ANSI /168mm 6" 110010/B PN10/16/168mm 0N150 110010/B DESCRIPTION NOMINAL SIZE PART NUMBER Straight Through Threaded Painted Red Pipe O.D. Model F-I NPT48mm 11/1. 12126 NPT60mm 12059 NPT 65mm 21/V 12401 6SP48mm DN40 12662 BSP60mm DN50 12686 HALAR(9, Model F-2 NPT65mm 2%" 124020/B Flange/Flange Painted Red Flange Drilling Model F-I ANSI 12014 ANSI 11953 ANSI 6" 11955 ANSI 8" 11991 ANSI/Japan 6" 11964 PN10/16 0N80 12026 PN10/16 DN100 11965 PN10/16 DN150 11956 PN10 0N200 11995 PN16 0N200 11999 HALAR® Flange Drilling Model F-2 ANSI 120150/B ANSI 119600/B ANSI 6" 119620/B ANSI 8" 119920/B PN10/16 0N80 120270/B PN10/16 DN100 119660/B PN10/16 0N150 119630/B PN1 DN200 119960/B PN1 I DN200 120000/B Note: When viewing this datapage online, Part Numbers displayed in BLUE are hyperlinks. Clicking the part number will open the corresponding Technical Data Page. - Deluge 204d August 1, 2008 DELUGE SYSTEM CONTROLLED BY ELECTRIC RELEASE The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com Valve Trim Package Part Numbers DESCRIPTiON NOMINAL I PART SIZE NUMBER CONVENTIONAL Rated to 250 silt 724 kPa) II DELUGE VALVE TRIM Includes Deluge Valve Use with Angle Style Valves Galvanized Accessory Package 1W1 DN40 14629-1 2"! DN50 14630-1 3", DN80 14631-I 4"IDN100 14632-I 6") DNI50 14633-1 Brass 11W1 DN40 14629-2 2'! DNSO 14630-2 3"! DN80 14631-2 4"! DNIOO 14632-2 6" I DN150 14633-2 Use with Straight Through Valves________ Galvanized Hoz 1W! DN40 14635-1 2"! DN50 14635-1 21W! DN65 14637-1 3 / DN80 14637-1 4" DN100 14638-1 6"! DNI50 14640-1 8" I DN200 14643-1 Vert. 1W! DN40 14634-1 2" I DNSO 14634-1 2W1 DN65 14636-1 3"! Dt80 14636-1 4", ONIOO 14639-1 6" / DNISO 14641-1 6"! 0N200 14642-1 Brass HOz. I WI DN40 14635-2 2"! DN50 14635-2 2W! 0N65 14637-2 3! DN80 14637-2 4"! DN100 14638-2 6"! DN150 14640-2 8" I DN200 14643-2 Vert. 1W! DN40 14634-2 2" / DN50 14634-2 2'/" I DN65 14636-2 DN80 14636-2 DN100 14639-2 6"!DNI50 14641-2 8"! DN200 14642-2 Release Trim Package Part Numbers ELECTRIC RELEASE TRIM PACKAGES Finish I Part Number Use with Straight Through and Angle Style Valves Galvanized 10830 Brass 10832 NOTE: Solenoid valve must be ordered separataly. TO SYSTEM C.3 I B.9 B.8 F - Deluge 204e August 1, 2008 DELUGE SYSTEM CONTROLLED BY ELECTRIC RELEASE The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com SYSTEM COMPONENTS A. Valve A.1 Deluge Valve B. Deluge Valve Conventional Trim * (See Deluge Valve Conventional Trim Charts) B.1 Priming Valve B.2 Strainer B.3 1/16 Restricted Orifice 6.4 Spring Loaded Check Valve B.5 Alarm Test Valve (Normally Closed) 6.6 Auxiliary Drain Valve (Normally Closed) B.7 Drip Check Valve B.8 Drain Check Valve B.9 Alarm Shut-Off Valve (Normally Open) B.10 Pressure Operated Relief Valve (P.O.R.V.) B.1 1 Emergency Release B.12 Priming Pressure Water Gauge and Valve B.13 Water Supply Pressure Gauge and Valve B.14 Drain Cup B.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser D. 1 Water Supply Control Valve E. Release System E.1 Solenoid Valve E.2 Electric Release Module Trim E.3 System Control Panel configured for Single Zone Deluge operation. E.4 Electric Detection System. Heat Detector shown for clarity. Dashed lines indicate pipe required but not - - - listed in System Components Table. * Viking Deluge Valve Trim Packages contain items 13.1 through 13.15 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains B.2 through B.5, B.7 through B.11, and B.14. B.14 1/2"(15 mm) NPT toN Non-Interuptable Alarm I B.5 Pressure Switch I (Optional) To (f Drain 13.13 Water Supply Dotted lines indicate electrical detection system wiring required but not listed in System Components Table. For additional wiring requirements refer to technical data for components used. FIGURE 1: ANGLE DELUGE VALVE WITH CONVENTIONAL TRIM 1-1/2" VALVE SHOWN - August 1, 2008 Deluge 204f DELUGE SYSTEM NlKjw4j III ELECTRIC RELEASE CONTROLLED BY The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com E.31 SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve Conventional Trim (See Deluge Valve Conventional Trim Charts) 13.1 Priming Valve 13.2 Strainer El B.2 B.3 1/16 Restricted Orffice B.4 BA Spring Loaded Check Valve B.12 E.2 13.3 B.l B.5 Alarm Test Valve (Normally Closed) B.6 Auxiliary Drain Valve (Normally Closed) I I B.7 Drip Check Valve B.8 Drain Check Valve 8.10 Pressure Operated Relief Valve (P.O.R.V.) I B.9 Alarm Shut-Off Valve (Normally Open) 13.11 8.11 Emergency Release TO 13.12 Prtmlng Pressure Water Gauge and Valve SYSTEM 8.13 Water Supply Pressure Gauge and Valve 13.14 Drain Cup C3 13.10 B.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 ' 13.6 1 C.1 Alarm Pressure Switch and/or B.9 I I C.2 Water Motor Alarm (Strainer Required) I i C.3 Strainer A.1 I I D. Riser B.8 B i D.1 Water Supply Control Valve D.2 90 EH. (Grooved Eli Shown. Deluge Valve 1/2 (15 mm) NPT for I i I also available with Flanged Outlet) Non-Interuptable Alar 13.1.l I I E. Release System m Pressure Switch (Optional) E.1 Solenoid Valve B.5 El Electric Release Module Trim B.14 D.2 E.3 System Control Panel configured for Single Zone Deluge operation. E.4 Electric Detection System. Heat Detector shown for clarity. o --- Dashed Ones Indicate pipe required but not listed In D.11 11 System Components Table. B.l 5 * Viking Deluge Valve Trim Packages contain items 13.1 through B.15 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains 13.2 through B.5, 13.7 through B.1 1, and 13.14. Dolled lines indicate electrical detection system wiring required but not listed in System Components Table. For additional wiring requirements refer to technical data for components used. FIGURE 2: ANGLE DELUGE VALVE WITH CONVENTIONAL TRIM 6" VALVE SHOWN. ALSO AVAILABLE IN 2", 3", & 419. - Deluge 204g August 1, 2008 qN DELUGE SYSTEM CONTROLLED BY ELECTRIC RELEASE The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-9454495 Email: techsvcs@vikingcorp.com SYSTEM COMPONENTS -. .- .-. / / A. Valve A.1 Deluge Valve B. Deluge Valve Conventional Trim * (See Deluge Valve Conventional Trim Charts) B.1 Priming Valve B.2 Strainer B.3 1/16" Restricted Orifice B.4 Spring Loaded Check Valve B.5 Alarm Test Valve (Normally Closed) B.6 Auxiliary Drain Valve (Normally Closed) BY Drip Check Valve B.8 Drain Check Valve B.9 Alarm Shut-Off Valve (Normally Open) B.10 Pressure Operated Relief Valve (P.O.R.V.) B.11 Emergency Release B.12 Priming Pressure Water Gauge and Valve B.13 Water Supply Pressure Gauge and Valve B.14 Drain Cup B.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser D.1 Water Supply Control Valve E. Release System E.1 Solenoid Valve E.2 Electric Release Module Trim E.3 System Control Panel configured for Single Zone Deluge operation. E.4 Electric Detection System. Heat Detector shown for clarity. Dashed lines indicate pipe required but not listed in 'System Components" Table. * Viking Deluge Valve Trim Packages contain items B.1 through B.15 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains B.2 through B.5, B.7 through B.11, and B.14. Dotted lines indicate electrical detection system wiring required but not listed in To Drain "System Components" Table. For additional wiring requirements refer to technical data for components used. FIGURE 3: STRAIGHT THROUGH DELUGE VALVE WITH HORIZONTAL CONVENTIONAL TRIM 6" VALVE SHOWN. ALSO AVAILABLE IN 1-112", 2", 2-1/2", 3", 4" & 8". August 1, 2008 Deluge 204h qN DELUGE SYSTEM CONTROLLED BY ELECTRIC RELEASE The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com SYSTEM COMPONENTS E.4 C.4 - -S -S - To System / r 13.1 V1 O ** S BiD B.7 B.8 D.1 - Water B 13 Supply A. Valve A.1 Deluge Valve B. Deluge Valve Conventional Trim * (See Deluge Valve Conventional Trim Charts) B.1 Priming Valve B.2 Strainer B.3 1/16 Restricted Orifice B.4 Spring Loaded Check Valve B.5 Alarm Test Valve (Normally Closed) B.6 Auxiliary Drain Valve (Normally Closed) B.7 Drip Check Valve B.8 Drain Check Valve B.9 Alarm Shut-Off Valve (Normally Open) B.10 Pressure Operated Relief Valve (P.O.R.V.) B.1 1 Emergency Release B.12 Priming Pressure Water Gauge and Valve B.13 Water Supply Pressure Gauge and Valve B.14 Drain Cup B.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser D.1 Water Supply Control Valve E. Release System E.1 Solenoid Valve E.2 Electric Release Module Trim E.3 System Control Panel configured for Single Zone Deluge operation. E.4 Electric Detection System. Heat Detector shown for clarity. Dashed lines indicate pipe required but not listed in System Gomponente Table. * Viking Deluge Valve Trim Packages contain items B.1 through B.15 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains B.2 through B.5, B.7 through Bit and B.14. Dotted lines indicate electrical detection system wiring required but not listed in System Components' Table. For additional wiring requirements refer to technical data for components used. 14 To Drain 13.6 FIGURE 8: STRAIGHT THROUGH DELUGE VALVE WITH CONVENTIONAL VERTICAL TRIM 6" VALVE SHOWN. ALSO AVAILABLE IN 1-112", 2", 2-1/2", 3", 4" & 8". Form No. F_110589 Revised page replaces page 204a-h dated May 7, 2007. (Updated drawings with new PORV.) tqCo /Fire & Building / Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Model BFV-N Butterfly Valve Grooved End 2-1/2 Inch - 10 Inch (DN65 - DN250) General Description The Model BFV-N Grooved End But- terfly Valves (Ref. Figure 1) are indicat- ing type valves designed for use in fire protection systems where a visual in- dication is required as to whether the valve is open or closed. They are used, for example, as system, sectional, and pump water control valves. They have cut groove inlet and outlet connections that are suitable for use with grooved end pipe couplings that are listed and approved for fire protection systems. For applications requiring supervision of the open position of the valve, the Gear Operators for the Model BR/-N Butterfly Valves are provided with two sets of factory installed internal switches each having SPDT contacts. The supervisory switches transfer their electrical contacts when there is move- ment from the valve's normal open po- sition during the first two revolutions of the handwheel. WARNINGS The Model BFV-N Grooved End But- terfly Valves described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authori- ties having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Technical Data Model BFV-N Sizes: ANSI Inches / DN 2-1/2 (DN65), 3 (DN80), 4 (DN100), 5 (DN125), 6 (DN150), 8 (DN200), 10 (DN250) Approvals The 2-1/2 through 10 inch (DN65 - DN250) Model BFV-N Grooved End Butterfly Valves are UL and C-UL List- ed and FM Approved. In addition, the Model BFV-N Grooved End Butterfly Valves are listed by the California State Fire Marshall under Listing No. 7770-1670:100. All laboratory listings and approvals are for indoor and outdoor use. Maximum Working Pressure 2-1/2 - 8 Inch (DN65 - DN200): 300 psi (20,7) bar 10 Inch (DN250): 175 psi (12,0 bar) Materials of Construction: Body Ductile iron conforming to ASTM A-395 Body Coating Polyamide Disc Ductile iron conforming to ASTM A-395 Disc Seal Grade EPDM "E" encapsulated rubber conforming to ASTM D-2000 Upper & Lower Stem Type 416 Stainless Steel conforming to ASTM 582 Lower Plug PVC Operator Gear operator with iron housing Friction Loss The approximate friction loss, based on the Hazen Williams formula and ex- pressed in equivalent length of pipe with C= 120, is as follows. The data is based on friction loss information col- lected at a typical flow rate of 15 feet per second. 6.9 feet of 2-1/2 inch Sch. 40 pipe for the 2-1/2 inch valve. 8.7 feet of 3 inch Sch. 40 pipe for the 3 inch valve. 4.5 feet of 4 inch Sch. 40 pipe for the 4 inch valve. 6.6 feet of 5 inch Sch. 40 pipe for the 5 inch valve. 11.1 feet of 6 inch Sch. 40 pipe for the 6 inch valve. 10.2 feet of 8 inch Sch. 30 pipe for the 8 inch valve. .12.1 feet of 10 inch Sch. 30 pipe for the 10 inch valve. Page 1 of 4 MAY, 2008 TFPI5I0 Page 20f4 TFPI5I0 Nominal Nominal Installation Dimensions in Inches and (mm) Weight Valve ,. Pipe A B C D E F G H Sizes O.D. 2-1/2 2.88 3.85 11.71 3.25 5.43 6.00 7.81 2.50 0 22 DN65 (73,0) (98,0) (297,4) (83,0) (137,9) (152,4) (198,4) (63,5) (10,0) 3' 3.50 3.85 12.25 3.54 5.68 6.00 7.81 2.50 0 23 - 28 DN80 (88,9) (98,0) (311,1) (90,0) (144,2) (152,4) (198,4) (63,5) (10,4) 4.50 4.56 13.95 4.35 6.58 6.00 7.81 2.50 0 DN100 (114,3) (116,0) (354,3) (110,0) (167,1) (152,4) (198,4) (63,5) (12,7) 5.56 5.86 14.93 4.84 7.07 6.00 7.81 2.50 0 31 DN125 (141,3) (149,0) (379,2) (123,0) (179,6) (152,4) (198,4) (63,5) (14,1) 6.63 5.86 17.31 5.93 8.35 6.00 7.81 2.50 0.67 41 DN150 (168,3) (149,0) (439,7) (151,0) (212,0) (152,4) (198,4) (63,5) (17,0) (18,6) 8" 8.63 5.26 19.20 6.87 9.29 6.00 7.81 2.50 5.86 53 DN200 (219,1) (134,0) (487,7) (174,0) (236,0) (152,4) (198,4) (63,5) (148,8) (24,1) 10" 10.75 6.29 25.11 9.17 11.50 9.00 7.68 3.00 7.41 88 DN250 (273,1) (160,0) (637,8) (233,0) (292,1) (228,6) (195,1) (76,2) (188,2) (40,0) ______ ______ INDICATOR F HANDWHEEL FLAG 1/2 NPT CONDUIT T G CONNECTION GEAR OPERATOR E BODY 7 aD C DISC A FIGURE 1 MODEL BFV-N GROOVED END BUTTERFLY VALVE - NOMINAL DIMENSIONS - TFPI5IO Page 3 of 4 Installation The Model BFV-N Grooved End But- terfly Valves may be installed with flow in either direction and can be posi- tioned either horizontally or vertically. The grooved end pipe couplings used with the Model BFV-N must be listed or approved for fire protection service and installed in accordance with the manufacturers instructions. The Model BFV-N Butterfly Valve may be installed with any schedule of pres- sure class of pipe or tubing that is list- ed or approved for fire protection. As applicable, refer to Figure 2 for the internal switch wiring diagram. Conduit and electrical connections are to be made in accordance with the authority having jurisdiction and/ or the National Electrical Code. With reference to Figure 2, the "supervi- sory switch" is intended for connec- tion to the supervisory circuit of a fire alarm control panel in accordance with NFPA 72. The "auxiliary switch" is in- tended for the unsupervised connec- tion to auxiliary equipment in accor- dance with NFPA 70, National Electric Code. NOTE For outdoor applications with inter- nal supervisory switches, it is recom- mended that wiring connections be made at a temperature above 15°F (-90C), in order to insure sufficient flex- ibility of the wire lead insulation. Care and Maintenance The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and devic- es in accordance with the applicable standards of the National Fire Pro- tection Association (e.g., NFPA25), in addition to the standards of any au- thority having jurisdiction. The install- ing contractor or product manufac- turer should be contacted relative to any questions. Any impairment must be immediately corrected. It is recommended that automatic sprinkler systems be inspected, test- ed, and maintained by a qualified in- spection service. I— ------ A SUPERVISORY SWITCHSWITCH L J SWITCH SHOWN WITH VALVE FULL OPEN UJ 1 0, 0, Z zi jI WI -J W < <I Er END OF LINE PANEL RESISTOR 40 F- AUXILIARY G SWITCH SWITCH SHOWN I (_ \ J WITH VALVE - FULL OPEN I 0 5 LU - + BELL POWER CONTACT RATING 1/2A@125VDC 1/4A @250 VDC 15.1A/12HP@ 125, 250 VAC 5A@ 125 VAC "L" FIGURE 2 MODEL BFV-N BUTTERFLY VALVE - INTERNAL SWITCH WIRING DIAGRAM - NOTE Before closing a fire protection system control valve for maintenance or in- spection work on either the valve or fire protection system which it controls, permission to shut down the affected fire protection systems must be ob- tained from the proper authorities and all personnel who may be affected by this decision must be notified. Page 4 of 4 TFPI5IO Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warran- ty is given for products or components manufactured by companies not af- filiated by ownership with TFBP or for products and components which have been subject to misuse, improper in- stallation, corrosion, or which have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Fire Protec- tion Association, and/or the standards of any other Authorities Having Juris- diction. Materials found by TFBP to be defective shall be either repaired or re- placed, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other ob- ligation in connection with the sale of products or parts of products. TFBP shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties, ex- press or imDlied, including warranties of merchantability and fitness for a par- ticular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure Grooved End Butterfly Valves: Specify: (specify inch size) Model BFV-N Grooved End Butterfly Valve with internal supervisory switches, P/N (specify). Valve Size Valve Part Number 2-1/2 ......................59 -300-F-025N 3 .......................... 59-300-F-030N 4 .......................... 59-300-F-040N 5 .......................... 59-300-F-050N 6 .......................... 59-300-F-060N 8 .......................... 59-300-F-080N 10 ......................... 59-300-F-lOON @2008 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 Table 3-3.1 Pipe or Tube Materials and Materials and Dimensions Ferrous Piping (Welded and Seamless) Specification for Black and Hot-Dipped Zinc-Coated (Galvanized) Welded and Seamless Steel Pipe for Fire Protection Use Specification for Welded and Seamless Steel Pipe Wrought Steel Pipe Specification for Electric-Resistance-Welded Steel Pipe Copper Tube (Drawn, Seamless) Specification for Seamless Copper Tube Specification for Seamless Copper Water Tube Specification for General Requirements for Wrought Seamless Copper and Copper-Alloy Tube Fluxes for Soldering Applications of Copper and Copper-Alloy Tube Brazing Filler Metal (Classification BCuP-3 or BCuP-4) Solder Metal, 95-5 (Tin-Antimony-Grade 95TA) Alloy Materials Dimensions (Foreign or Domestic) Standard ASTM A 795 ANSI/ASTM A53 ANSI B36.10M ASTM A 135 ASTM B 75 ASTM B 251 ASTM B 813 ASTM B 32 ASTM B 446 e Table 3-4.1 Manufacturing Standards for Underground Pipe (Foreign or Domestic) S Materials Cement Mortar Lining for Ductile Iron Pipe and Fittings for Water Polyethylene Encasement for Ductile Iron Pipe Systems Ductile Iron and Gray Iron Fittings, 3-in. Through 48-in., for Water and Other Liquids Rubber-Gasket Joints for Ductile Iron Pressure Pipe and Fittings Flanged Ductile Iron Pipe with Ductile Iron or Gray Iron Threaded Flanges Thickness Design of Ductile Iron Pipe Ductile Iron Pipe, Centrifugally Cast for Water Steel Water Pipe 6 in. and Larger Coal-Tar Protective Coatings and Linings for Steel Water Pipelines Enamel and Tape - Hot Applied Cement-Mortar Protective Lining and Coating for Steel Water Pipe 4 in. and Larger - Shop Applied Field Welding of Steel Water Pipe Steel Pipe Flanges for Waterworks Service - Sizes 4 in. Through 144 in. Dimensions for Fabricated Steel Water Pipe Fittings Reinforced Concrete Pressure Pipe, Steel-Cylinder Type for Water and Other Liquids Prestressed Concrete Pressure Pipe, Steel-Cylinder Type, for Water and Other Liquids Reinforced Concrete Pressure Pipe, Non-Cylinder Type, for Water and Other Liquids Reinforced Concrete Pressure Pipe, Steel-Cylinder Type, Pretensioned, for Water and Other Liquids Asbestos-Cement Distribution Pipe, 4 in. Through 16 in., for Water and Other Liquids Selection of Asbestos-Cement Water Pipe Installation of Ductile Iron Water Mains and Their Appurtenances Cement-Mortar Lining of Water Pipe Lines 4 in. and Larger— in Place Installation of Asbestos-Cement Water Pipe Polyvinyl Chloride (PVC) Pressure Pipe, 4 in. Through 12 in., for Water Distribution Steel Pipe - A Guide for Design and Installation Standard AWWA C104 AWWA C105 AWWAC11O AWWA C1 11 AWWA CI15 AWWA C150 AWWA C 15 AWWA C200 AWWA C203 AWWA C205 AWWA C206 AWWA C207 AWWA C208 AWWA C300 AWWA C301 AWWA C302 AWWA C303 AWWA C400 AWWA C401 AWWA C600 AWWA C602 AWWA C603 AWWA C900 AWWA Mu Table 3-5.1 Fittings Materials and Dimensions (Foreign or Domestic) Materials and Dimensions Standard Cast Iron Cast Iron Threaded Fittings, Class 125 and 250 ASME B16.4 Cast Iron Pipe Flanges and Flanged Fittings ASME B16.1 Malleable Iron Malleable Iron Threaded Fittings, Class 150 and 300 ASME B16.3 Steel Factory-Made Wrought Steel Buttweld Fittings ASME B16.9 Buttwelding Ends for Pipe, Valves, Flanges, and Fittings ASME B16.25 Specification for Piping Fittings of Wrought Carbon ASTM A 234 Steel and Alloy Steel for Moderate and Elevated Temperatures Steel Pipe Flanges and Flanged Fittings ASME B16.5 Forged Steel Fittings, Socket Welded and Threaded ASME B16.11 Copper Wrought Copper and Bronze Solder Joint Pressure Fittings ASME B16.22 Cast Bronze Solder Joint Pressure Fittings ASME B16.18 a Table A-3-3.2 Steel Pipe Dimensions (Foreign or Domestic) Schedule lOa Schedule 30 Schedule 40 Nominal Pipe Size (in.) 1/2b 3/4b 1 1 1/4 1 1/2 2 21/2 3 31/2 4 5 6 8 10 12 Outside Diameter In. mm 0.84 21.3 1.05 26.7 1.315 33.4 1.66 42.2 1.9 48.3 2.375 60.3 2.875 73 3.5 88.9 4 101.6 4.5 114.3 5.563 141.3 6.625 168.3 8.625 219.1 10.75 273.1 12.75 - Inside Diameter In. mm 0.674 17 0.884 22.4 1.097 27.9 1.442 36.6 1.682 42.7 2.157 54.8 2.635 66.9 3.26 82.8 3.76 95.5 4.26 108.2 5.295 134.5 6.357 161.5 8.249 209.5 10.37 263.4 12.09 - Wall Thickness In. mm 0.083 2.1 0.083 2.1 0.109 2.8 0.109 2.8 0.109 2.8 0.109 2.8 0.12 3 0.12 3 0.12 3 0.12 3 0.134 3.4 0.134c 3.4 0.188c 4.8 0.188c 4.8 0.33 - Inside Diameter in. mm 8.071 205 10.14 257.6 Wall Thickness in. mm 0.277 7 0.307 7.8 Inside Diameter In. mm 0.622 15.8 0.824 21 1.049 26.6 1.38 35.1 1.61 40.9 2.067 52.5 2.469 62.7 3.068 77.9 3.548 90.1 4.026 102.3 5.047 128.2 6.065 154.1 7.981 - 10.02 - 11.938 - Wall Thickness in. mm 0.109 2.8 0.113 2.9 0.133 3.4 0.14 3.6 0.145 3.7 0.154 3.9 0.203 5.2 0.216 5.5 0.226 5.7 0.237 6 0.258 6.6 0.28 7.1 0.322 - 0.365 - 0.406 - aSchedule 10 defined to 5-in. (127-mm) nominal pipe size byASTM A 135, Standard Specification for Electric-Resistance-Welded Steel Pipe. bThese values applicable when used in conjunctibn with 5-13.20.2 and 5-13.20.3. cWall thickness specified in 3-3.2 and 3-3.3.