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F13-0027 HYDRAULIC CALCS, CUT SHEETS.pdf
I Overview Job Number CS2009 Report Description:Residential Job J.� De Engneer CS2009 Jason Brochu Village Center 5J Remodel 303-928-0192 970-945-9504 Aft—1 S U' N.Y" 124 Willow Bridge Rd. AAtlre5a2 AHd Vail,CO 81657 Aa resg s am s Caro n System D—AV Arse mApp om 0.100gpMM2 900ft1(Actual 14W) M*M DO.ren:Wg sv.W" "M swam 4.76 K-Factor 25.60 at 28.891 100.00 car"Pa spw+w r+Wb+ Of Sp.*kacent+«+ 100tt2 4 sraem a—nera.a sya rw.r n—W 97.316 103.22 rar u� P_e� 203.22 @ 97.316 +25,562(20.8%) Darcy-Weisbach equation is being used. Supplies Check Point Gauges Node Name Flow(gpm) Hose Flow(gpm) Static(psi) Residual(psi) Identifier Pressure(psi) K-Factof%) Flow(gpm) 1 Water Supply 1300.00 100.00 123.000 118.000 Thomas A Coakley,CET Western States Fire Protection Co. NICET Level III Registration#107852 Spriailder System Layout Signa 7 FP2.0-CS2009VilI age CenterA5JRernode1.cad Water Supply at Node 1 (1300.00, 100.00, 123.000,118.000) 150 135 Static Pressure 123.000 120 1300.00 118.000 105 103.22 @1 97.316 9 03.22 with hose streams N 75 N U1 a 60 ystern demand curve 45 30 15 L L 4 0075010001250 1500 1750 2000 2250 2500 Water flow,gpm Q M.E.P.CAD,Inc. AM AutoSPRINKQ VR10 00.0.55.0 Darcy-Weisbach Calculation 8!8,2013 2:4326PM Page 1 Hydraulic Graph Job Number:CS2009 Report Description:Residential Water Supply at Node 1 150 135 Static Pressure 123.000 120 1300.00 @ 118.000 105 103.22 @ 97.316 203.22 with hose streams 90 Z Q 75 a a a 60 S stem demand curve 45 30 15 0 -LI 0250 500 750 1000 1250 1500 1750 2000 2250 2500 Water flow,gpm Hydraulic Graph Water Supply at Node 1 Static:Pressure 123.000 Residual:Pressure 118.000 @ 1300.00 Available Pressure at Time d Test 122.878 @ 203.22 System Demand 97.316 @ 103.22 System Demand&6U,ng Hose Allowance at Source) 97.316 @ 203.22 ,ML,O M.E.P.CAD,Inc. AutoSPRINKO VR10 v10.0.55.0 8/6/2013 2:43:32PM Page 2 i Summary Of Outflowing Devices Job Number:CS2009 Report Description:Residential Actual Flow Minimum Flow K-Factor Pressure Device m m K (psi) Sprinkler 107 25.84 25.60 4.76 29.428 Sprinkler 108 25.60 25.60 4.76 28.891 Sprinkler 115 26.02 25.60 4.76 29.846 Sprinkler 116 25.77 25.60 4.76 29.266 EOI Most Demanding Sprinkler Data E,O M.E.P.CAD,Inc. AutoSPRINKO VR10 00.0.55.0 8/6/2013 2:43:39PM Page 3 I ydraulic Analysis Job Number:CS2009 Report Description:Residential Pipe Type Diameter Flow Velocity HWC/Roughness Friction Loss Length Pressure Downstream Elevation Discharge K-Factor Pt Pn Fittings Eq.Length Summary Upstream Total Length • •Route 1 BL 1.05 25.60 9.40 0.004" 0.370875 6'-11" Pf 3.310 108 11'-8'/z' 25.60 4.76(adj) 28.891 Sprinkler 2'-0" Pe -0.777 17 13'-6" 31.425 T(2'-0") 8'-11" Pv BL 1.53 51.37 9.00 0.004" 0.180463 3'-4" Pf 0.598 17 13'-6" 25.77 31.425 Flow(q)from Route 2 Pe 16 13'-6" 32.023 3'-4" Pv BL 1.53 103.22 18.08 0.004" 0.686529 41'-1" Pf 33.524 16 13'-6" 32.023 9'-6" Pe -1.383 24 16'-8'/z" 64.163 2T(3'-6"),E(2'-6") 50'-7" Pv BL 2.63 103.22 6.07 0.004" 0.041634 34'-8" Pf 2.901 24 16'-8'/z" 64.163 35'-8'/2" Pe 8.284 31 -2'-5" 75.348 2E(8'-3"),CV(19'-2%") 70'-4/2' Pv BL 2.63 103.22 6.07 0.004" 0.026732 2'-7" Pf 0.289 31 -2'-5" 75.348 8'-3" Pe 1.123 28 -5'-0" 76.760 E(8'-3") 10'-10" Pv BL 4.26 103.22 2.32 0.004" 0.002330 V-11'/2" Pf 12.485 28 -5'-0" 76.760 Pe 27 -5'-0" 89.245 BFP(-12.480) V-11 W, Pv DY 3.07 103.22 4.48 0.004" 0.011695 0'-0" Pf 8.000 27 -5'-0" 89.245 Pe 26 -5'-0" 97.245 PRV(-8.000) 0'-0" Pv BL 4.26 103.22 2.32 0.004" 0.002330 1'-0" Pf 0.002 26 -5'-0" 97.245 Pe -0.000 25 -5'-0" 97.247 V-0" Pv BL 4.28 103.22 2.30 0.004" 0.002275 30'-0" Pf 0.068 25 -5'-0" 97.247 Pe 1 -5'-0" 97.316 Water Supply 30'-0" Pv 100.00 Hose Allowance At Source 1 203.22 Gib•••••Route 2•••• BL 1.05 25.77 9.46 0.004" 0.397284 2'-8" Pf 1.858 116 14'-2'%" 25.77 4.76(adj) 29.266 Sprinkler 2'-0" Pe 0.300 17 13'-6" 31.425 T(2'-0") 4'-8" Pv Q&•••••Route 3..... BL 1.05 25.84 9.48 0.004" 0.377760 6'-11" Pf 3.372 107 11'-8'/2" 25.84 4.76(adj) 29.428 Sprinkler 2'-0" Pe -0.777 16 13'-6" 32.023 C(2'-0") 8'-11" Pv �*•••••Route 4••••• BL 1.05 26.02 9.55 0.004" 0.401198 2'-8" Pf 1.877 115 14'-2%" 26.02 4.76(adj) 29.846 Sprinkler 2'-0" Pe 0.300 16 13'-6" 32.023 C(2'-0") 4'-8" P Z2 K-Factor conversion eP=0.00021;6f� Q formula: KA=7.94Ku I Equivalent Pipe Lengths of Valves and Fittings(C=120 only) T C Value Multiplier Actual Inside Diameter 4.87 Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter ) =Factor Multiplying Factor 0.713 1.16 1.33 1.51 ©M.E.P.CAD,Inc. 8111 AutoSPRINK®VR10 00.0.55.0 8/6/2013 2:43:43PM Page 4 I [Hydraulic Analysis Job Number:CS2009 Report Description:Residential Pipe T ff e Diameter Flow Velocity HWC/Rou hness Friction Loss Length Pressure Downstream Elevation Discharge K-Factor Pt Pn Fittings Eq.Length Summary Upstream Total Length Pipe Type Legend Units Legend Fittings Legend AO Arm-Over Diameter Inch ALV Alarm Valve BL Branch Line Elevation Foot AngV Angle Valve CM Cross Main Flow gpm b Bushing DN Drain Discharge gpm BaIV Ball Valve DR Drop Velocity fps BFP Backflow Preventer DY Dynamic Pressure psi BV Butterfly Valve FM Feed Main Length Foot C Cross Flow Turn 90° FR Feed Riser Friction Loss psi/Foot cplg Coupling MS Miscellaneous HWC Hazen-Williams Constant Cr Cross Run OR Outrigger Pt Total pressure at a point in a pipe CV Check Valve RN Riser Nipple Pn Normal pressure at a point in a pipe DeIV Deluge Valve SP Sprig Pf Pressure loss due to friction between points DPV Dry Pipe Valve ST Stand Pipe E 90°Elbow Pe Pressure due to elevation difference between indicated points UG Underground Pv Velocity pressure at a point in a pipe EE 45°Elbow Eel 111/4°Elbow Eel 221/ Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90°FireLock(TM)Elbow fEE 45°FireLock(TM)Elbow flg Flange FN Floating Node fT FireLock(TM)Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose 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 PO Pipe Outlet PRV Pressure Reducing Valve PrV Pressure Relief Valve red Reducer/Adapter S Supply sCV Swing Check Valve Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap ©M.E.P.CAD,Inc. AutoSPRINK®VR10 vl0.0.55.0 8/6/2013 2:43:43PM Page 5 Western States Fire Protection Co. Pwadeaq I&W 4"Id Fire Sprinkler System Material Data Sheets For Village Center Unit 5J 124 Willow Bridge Rd. Unit 5j Vail, CO 81657 Prepared by: Jason Brochu Designer Western States Fire Protection Co. 274 Center Dr Glenwood Springs, CO 81601 Cell: (303)928-0192 Office: (970)618-3294 Fax: (970)945-9504 Email:jason.brochu @wsfp.us WSFP#CS2009 August 5,2013 Bulletin 176 Rev. B ® Model 171 Reliable Residential Sprinklers for Design Density of .10 gpm/ft2 Model F1 Res Sprinklers Listed to meet the minimum design density as required by UL1626. Types: ,. 1. F1 Res 30 Pendent ' 2. F1 Res 30 Recessed/F2 >_ 3. F1 Res 30 Recessed/FP 4. F1 Res 30 CCP Pendent F1 Res 30, 49, 58 & 76 F1 Res 30, 49, 58 & 76 5. F1 Res 49 Pendent Recessed Pendent/F1 Recessed Pendent/FP 6. F1 Res 49 Recessed Pendent/F1 7. F1 Res 49 Recessed Pendent/FP 8. F1 Res 49 CCP Pendent _ 9. F1 Res 58 Pendent 10.F1 Res 58 Recessed Pendent/F1 11.F1 Res 58 Recessed Pendent/FP 12.F1 Res 58 CCP Pendent 13.F1 Res 44 & 58 HSW F1 Res 30, 49, 58 & 76 F1 Res 58 HSWX 14.F1 Res 44 & 58 HSW Recessed HSW/F2 CCP Pendent 15.F1 Res 58 HSWX 16. KRes58 HSWX 17.F1 Res 44 SWC ", 18.F1 Res 76 Pendent t , 19.F1 Res 76 Recessed Pendent/F1 20.F1 Res 76 Recessed Pendent/FP 21.F1 Res 76 CCP Pendent F1 Res 44 & 58 F1 Res 44 SWC Listings & Approvals Recessed HSW/F2 1. Listed by Underwriters Laboratories Inc. and The 3mm glass-bulb pendent sprinklers permit the ef- UL Certified for Canada (cULus) ficient use of residential water supplies for sprinkler cover- 2. NYC MEA 258-93-E age in residential fire protection design. UL Listing Category Upon fire conditions, rising heat causes a sprinkler's heat-sensitive glass-bulb to shatter, releasing the water- Residential Automatic Sprinkler way for water flow onto the deflector, evenly distributing UL Guide Number the discharged water to control a fire. VKKW Technical Data: Patents • Thermal Sensor: Nominal 3mm glass-bulb US Patent No. 6,516,893 applies to the Model F1 Res 49 . Sprinkler Frame : Brass Casting & 58 Pendent Sprinklers • Sprinklers' Pressure Rating : 175 psi US Patent No. 7,353,882 applies to Model F1 Res 44 & Factory Hydrostatically Tested to 500 psi 58 HSW Sprinklers • Thread Size: 112" NPT (R'/2) US Patent No. 7,784,555 applies to Model F1 Res 44 SWC Sprinkler K-Factor: 3.0(Actual)-F1 Res 30 Pendent Sprinkler Patent Pending - Model F1 Res 76 Pendent Sprinkler 4.9(Actual)-F1 Res 49 Pendent Sprinkler 5.8(Actual) - F1 Res 58 Pendent&HSW/HSWX Product Description Sprinkler Model F1 Res Pendent sprinklers (Figs. 1, 2, 3 & 4) 7.6(Actual)-F1 Res 76 Pendent Sprinkler combine excellent durability, high sensitivity glass-bulb 4.4(Actual)-F1 Res 44 HSW Sprinkler and low profile decorative design. Density: Minimum 0.10 gpm/ft2 The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Application Example No. 1 Model F1 Res Sprinklers are used for Residential Fire Pro- Room Size= 12 ft x 20 ft (3.6 m x 6.1 m) tection according to UL 1626 Standard. Be sure that orifice Coverage Area= 12 x 20 = 240 ft2 (22.3 m2) size, temperature rating, deflector style and sprinkler type Flow @ 0.10 gpm/ft2 density= 240 x 0.10 = 24 gpm are in accordance with the latest published standards of Using an F1 Res 49 Pendent Sprinkler, K=4.9 The National Fire Protection Association or the approving Pressure= (24/4.9)2 = 24 psi (1.65 bar) authority having jurisdiction. The baseline flow for a 20 ft x 20 ft(6.1 m x 6.1 m) cover- When using F1 Residential Sprinklers for systems design age area using the baseline density of 0.05 gpm/ft2 will to NFPA 13D or NFPA 13R, use listed area of coverage and be 20 gpm @ 16.7 psi (75.7 L/min @ 1.14 bar). There- minimum flow and pressure requirements shown in Bulletin fore, the minimum flow required is 24 gpm @ 24 psi (90.8 135. L/min @ 1.65 bar). For systems designed to NFPA 13, use information in this bulletin. The number of design sprinklers shall be the most Example No. 2 hydraulically demanding sprinklers as required by NFPA 13. Room Size= 8 ft x 20 ft (2.4 m x 6.1 m) Flows and pressures can not be below the baseline flows Coverage Area= 8 x 20 = 160 ft2(14.9 m2) and pressurers. Flow @ 0.10 gpm/ft2 density= 160 x 0.10 = 16 gpm NFPA 13 Using an F1 Res 49 Pendent Sprinkler, K=4.9 Pressure= (16/4.9)2 = 10.7 psi (0.74 bar) For residential sprinkler systems designed to NFPA 13, a The baseline flow for a 20 ft x 20 ft(6.1 m x 6.1 m) cover- minimum density of 0.1 gpm/ft2 must be provided over the age area using the baseline density of 0.05 gpm/ft2 will "design area" that includes the four (4) hydraulically most be 20 gpm @ 16.7 psi(75.7 L/min @ 1.14 bar). Therefore, demanding sprinklers for the actual coverage areas being the minimum flow required is 20 gpm @ 16.7 psi (75.7 protected by the 4 sprinklers. The minimum required dis- L/min @ 1.14 bar). charge from each of the four most hydraulically demanding sprinklers shall be the greater of the following: Example No. 3 1. The flow rates given in the Reliable Residential Room Size= 10 ft x 16 ft (3.0 m x 4.91 m) Sprinkler Technical Bulletins referenced in Table A Coverage Area= 10 x 16 = 160 ft2 (14.9 m2) for NFPA 13D and 13R as a function of temperature Flow @ 0.10 gpm/ft2 density= 160 x 0.10 = 16 gpm rating and maximum allowable coverage area (for Using an F1 Res 76 Pendent Sprinkler, K=7.6 actual coverage areas less than or between those The baseline flow for a 16 ft x 16 ft coverage area is 21 indicated in the respective technical bulletin, it is re- gpm @ 7.6 psi (79.5 L/min @ 0.52 bar). Therefore, the quired to use the minimum required flow for the next minimum flow and pressure is 21 gpm @ 7.6 psi (79.5 largest coverage area); or L/min @ 0.52 bar). 2. A minimum discharge density of 0.1 gpm/ft2 applied over the"design area"consisting of the four most hy- Example No. 4 draulically demanding sprinklers for the actual cov- Room Size= 14 ft x 18 ft (4.3 m x 5.5 m) erage areas being protected by the four sprinklers. Coverage Area= 14 x 18 = 252 ft2(23.6 m2) The maximum dimension of the actual coverage area Flow @ 0.10 gpm/ft2 density= 252 x 0.10 = 25.2 gpm cannot be any greater than the maximum coverage (94.6 L/min) area indicated in the technical bulletins referenced Using an F1 Res 76 Pendent Sprinkler, K=7.6 in Table A. Pressure= (252/7.6)2 = 11 psi (0.76 bar) Design Note: Using the As=S x L method to deter- The baseline flow and pressure of an 18 ft x 18 ft cover- mine the sprinkler protection area of coverage in ac- age area is 21 gpm @ 7.6 psi (79.5 L/min @ 0.52 bar). cordance with NFPA 13,apply the 0.1 gpm/ft2density Therefore, the minimum flow and pressure is 25.2 gpm @ to this area to determine the minimum required flow. 11 psi (94.6 L/min @ 0.76 bar). Compare this flow to the minimum 0.05 gpm/ft2 cU- Lus Listed flow for the appropriate coverage area in In general residential sprinklers require flows and the technical bulletin for the specific residential sprin- pressures as listed for 0.05 densities to achieve the kler. If the flow stated in the technical bulletin is less proper spray pattern so the flows and pressures at than the calculated 0.1 gpm/ft2 density flow required, 0.05 density are the baseline flows and pressures. the .1 density flow must then be used in the equation Flows and pressures below the listed 0.05 density Q=K,solving for P,to establish the minimum required shall not be used. pressure using the sprinkler K-factor. Note: In many cases the listed flow of individual residential sprin- klers may exceed the required minimum 0.05 gpm/ft2 density. Reliable has available residential sprinklers with larger K-factors(K=5.8 and K=7.6)that will pro- vide lower pressure demands for 0.1 gpm/ft2 densi- ties in NFPA 13 residential applications. 2. Installation Models F1 Res sprinklers are to be installed as shown. Use of wrenches other than those specified may dam- Model F1, F2 and FP Escutcheons, illustrated herewith, age these sprinklers. are the only recessed escutcheons to be used with Mod- Note: A 'leak tight" sprinkler joint can be obtained with el F1 Res sprinklers. Use of any other recessed escutch- the following torque: eon will void all approvals and warranties. For installing 3/4" NPT(R3/4)— 14-20 ft-Ibs (19 - 27.1 N-m) Model F1 Res Pendent sprinklers use only the Model D . 1/2" NPT (R'/)—8-18 ft-Ibs (10.8—24.4 N-m) sprinkler Wrench; for installing Models F1 Res Recessed Do not tighten sprinklers over maximum recom- Pendent, CCP sprinklers use only the Model GFR2 sprin- mended torque. It may cause leakage or impairment kler wrench; for installing Model F1 Res recessed HSW of the sprinklers. sprinklers use only the Model GFR2 Sprinkler wrench. • Model F1 Res 30, 49, 58 & Model F1 Res 30, 49, 58 & 76 76 Pendent Recessed Pendent/ F1/F2 F1 escutcheon, 3/4" (19mm) adjustment Note: See escutcheon table for dimensions. 2 1/4"HOLE DA. [572mm] _ 1 15116"OW. I'll [49.2mm] 1"X 112"REDUCER 1-T AGAINST UNTIL TIGHT AGAINST SPRINKLER WRENCH 6055. FACE OF FITTING TO CEILING DIMENSION (F1 ESCUTCHEON) 1/3/16-116(F2 ESCUTCHEON) ADJUSTMENT [32mm] A, 155FGO2A z 27132"D. [722mm] 135FG03 Fig. 1 Fig. 2 3. Technical Data: F1 Res 30 Pendent and Recessed Pendent(SIN R3511) Thread Nominal Orifice Max. Sprinkler Max. Actual Sprinkler Size Inch (mm) Pressure Temp. Rating- Ambient Temp. K Length psi bar PF PC t'F PC Factor Inch mm 1/2" NPT 21/64"(8.2) 175(12) 155 68 100 38 3.0 2.25(57) (RI/2) 175 79 **Baseline flows and pressures for 0.05 density Ordinary Temp. Rating Intermediate Temp. Rat- Max.Coverage area Max. Spac- 155r'F/68pC in 175PF/79PC Top of Deflector Minimum Ft x Ft(m x m) ing Ft(m) Flow Pressure Flow GPM (V Pressure to Ceiling Spacing Inch (mm) Ft(m) GPM(Vmin) PSI (bar) min) PSI(bar) 12 x 12(3,6 x 3,6) 12(3,6) 8(30,3) 7.0(0,48) 8(30,3) 7.0(0,48) 1 to 4(25 to 100); 112 recessed using 8(2,4 14 x 14(4,3 x 4,3) 14(4,3) 10(37,8) 11 (0,76) 10(37,8) 11 (0,76) F2 escutcheon For Ceiling types refer to NFPA 13, 13R or 13D **Calculate for a .10 density but in no case go below the baseline flows & pressures Technical Data: F1 Res 49 Pendent and Recessed Pendent Nominal Sprinkler Max. Max. Actual Sprinkler Escutcheon*, F1 or F2, Data: Thread Orifice Temp. Pressure Ambient K Length Face of fitting to Size Inch Rating psi Tern E66 Inch Type "A" ceiling (mm) ?F PC (bar) fJ?F Factor (mm) ype Inch(mm) Inch(mm) Inch mm 1/2"NPT /,s" 11 155 68 175 12 4.9 2.25 57 s Min.=3/4(191 3/16-15/16 (R1/2) ( ) 175 79 ( ) ( ) F1 /4"(19.0) Max.=11/2(38.1) (4.7-24.0) **Baseline flows and pressures for 0.05 density F2 1/2'(12.7) Min.=15/16(23.8) 3/16-1/16 Max.=1 /2(38.1) (4.7-17.4) *Note:Escutcheons F1 or F2 may be used with Deflector-to-ceiling Model F1 Res 49&58 Recessed Pendent Sprinkler Maximum 1" (25mm)to 4" (100mm) *Deflector-to- ceiling Max.Sprinkler Flow Pressure Sprinkler Maximum 4" (100mm)to 8" (203mm) Spacing m(Lpm) p Identification Max.Sprinkler Flow Pressure Sprinkler ft m 9psi(bar) Number SIN Spacing m(Lm) Identification 12 x 12(3.6x3.6) 13(49) 7.0(0.48) ft m 9pp psi(bar) Number SIN 14 x 14(4.3x4.3) 13(49) 7.0(0.48) 12 x 12(3.6x3.6) 15(57) 9.4 (0.65) 16 x 16(4.9x4.9) 13(49) 7.0(0.48) R3516 14 x 14(4.3x4.3) 16(60.5) 10.6(0.73) 18 x 18(5.5x5.5) 17(64.3) 12.0(0.83) 16 x 16(4.9x4.9) 17(64.3) 12.0(0.83) R3516 20 x 20(6.1 x6.1) 20(75.7) 16.7(l.14) 18 x 18(5.5x5.5) 19(72) 15.0(1.0) 20 x 20(6.1 x6.1) 22(83.2) 20.2(l.4) *Note: The F1 Res 49 pendent and recessed pendent residential sprinklers can be installed per NFPA 13 in beamed ceilings meeting the following criteria: 1. Maximum beam depth=7"(178mm) 2. Beam spacing at or greater than 7.5 ft. (2.3m)on center. Technical Data: F1 Res 58 Pendent and Recessed Pendent Sprinkler Temp. Max. Thread Size Nominal Orifice Rating Max. Pressure Ambient Temp. K Sprinkler Length Inch (mm) wF �C psi(bar) Factor Inch (mm) °F PC 112" NPT(R1/2) 1/2"(13) 175 6g 175(12) 160 66 5.8 2.25(57) **Baseline flows and pressures for 0.05 density Max. Sprinkler Spacing Flow Pressure Ceiling-to-Deflector Sprinkler Identification ft(m) gpm (Lpm) psi (bar) Inch(mm) Number(SIN) 12 x 12(3.6x3.6) 16(61) 7.6(0.53) 14 x 14(4.3x4.3) 16(61) 7.6(0.53) 16 x 16(4.9x4.9) 16(61) 7.6(0.53) (25-100) R3513 18 x 18(5.5x5.5) 19(72) 10.8(0.75) 20 x 20(6.1x6.1) 22(83.3) 14.4(1.0) **Calculate for a .10 density but in no case go below the baseline flows & pressures 4. Technical Data: F1 Res 76 Pendent and Recessed Pendent Sprinkler Nominal Sprinkler Max. Max. Escutcheon*, F1 or F2, Data: Thread Temp. Ambient K Face of fitting Orifice Pressure Length Adjustment "A" Size Inch(mm) Ratin psi(bar) Tem . Factor Inch(mm) Type Inch(mm) Inch(mm) to ceiling wF wC �F wC Inch mm 3/4"NPT 1,/32(13.5) 155 68 175(12) 100 38 7.6 2.25(57) F1 3/4(19.0) Min.=3/4(19.1) s/1s-15/16(4.7-24.0) (R3/4) 175 79 150 66 Max.=11/2(38.1) F2 112(12.7) Min.=15/16(23.8) 3/16-1/16(4.7-17.4) *Baseline flows and pressures for 0.05 density Max.=11/2(38.1) Max.Sprinkler Sprinkler Flow Pressure Spacing 9pm(Lpm) p Identification *Calculate for a .10 density but in no case go ft(m) psi(bar) Number SIN below the baseline flows & pressures 12 x 12(3.6x3.6) 21 7.6(0.53) 14 x 14(4.3x4.3) 21 7.6(0.53) 16 x 16(4.9x4.9) 21 7.6(0.53) R7618 18 x 18(5.5x5.5) 21 7.6(0.53) 20 x 20(6.1 x6.1) 23 9.2(0.63) • Model F1 Res 30, 49, 58 & Model F1 Res 30, 49, 58 & 76 CCP Pendent 76 Recessed Pendent/FP FP push-on/thread-off escutcheon 2 5/8"DLL[110—] 2 518"[66.7mm] DIA. HOLE)N CDONG 2 5116" DIA. HOLE IN CEILING D..o S°z s/I . [58.7mm] [5a 16-D CUP r y---� CUP C 112" REDUCER 1"X 112"REDUCER CUP l ) I \ I CEILING 1 74 � MAX. FACE OF FITTING TO FACE OF CEILING L J DIMENSION CEILING __ —4 ggen 1 112"[38.1-1 MAX. "A" ,8 k4rtt�19 FACE OF F-IING COVER ADJUSTMENT HEIGHT ro FAGS ov CEawc DIMENSION 3 5116"D(A. 112"[13.Sm]NT 7 35F004D [84.1 mm] EP AwusruE I F1 RES 30, 49, 58 & 76 CCP PEND. 135FC01A Fig. 3 Fig. 4 NOTE: The F1 Res 76 will use a 1" x3/4" reducer. 5. Technical Data: F1 Res 30 CCP Pendent and Recessed Pendent/FP (SIN R3511) Thread Nominal Orifice Max. Pressure CCP Assembly Max. K Sprinkler Length Temp. Rating Ambient Temp. Size Inch(mm) psi (bar) ?F PC wF PC Factor Inch (mm) 1/2" NPT(R'/2) `b,"(8.2) 175(12) 135 57 100 38 3.0 2.25(57) *Baseline flows and pressures for 0.05 density Ordinary Temp. Rating Max. Coverage area Max. Spacing (155wF/68?C) Top of Deflector Minimum Ft x Ft(m x m) Ft(m) Flow Pressure Ceiling Spacing In ch (mm) Ft(m) GPM(L/min) PSI(bar) Inch 12 x 12(3,6 x 3,6) 12(3,6) 8(30,3) 7.0(0,48) 1 to 4(25 to 100); 112(13mm)recessed 8(2,4) 14 x 14(4,3 x 4,3) 14(4,3) 11 (37,8) 13.4(0,92) using FP escutcheon For Ceiling types refer to NFPA 13, 13R or 13D *Calculate for a .10 density but in no case go below the baseline flows & pressures Technical Data: F1 Res 49 CCP Pendent and Recessed Pendent/FP CCP Options Data: Nominal CCP Max. Max. Sprinkler A "B" Sprinkler Ambi- Cover Thread Orifice Assembly Pres- K Length CCP Height Temp. Rating ent Adjustment Size Inch Temp. Rating sure Tem Factor Inch Inch(mm) (mm) PF PC ?F rC psi (bar) vF . Inch(mm) (mm) '12(12.7) 5/s(24) /SRN PT 7/16"(11) 155 68 135 57 175(12) 100 38 4.9 2.25(57) 3 (4.7) 3/4 (19) *Baseline flows and pressures for 0.05 density FP Data "A": Max. Sprinkler Sprinkler "A" Flow Pressure FP Position Spacing gpm(Lpm) psi (bar) Identification Inch (mm) ft(m) Number(SIN) Max. Recessed 7/16(11) 12 x 12(3.6x3.6) 13(49) 7.0(0.48) 14 x 14(4.3x4.3) 13(49) 7.0(0.48) Min. Recessed 15/16(24) 16 x 16(4.9x4.9) 14(53) 8.2(0.56) R3516 Note:Sprinklers shown in Fig.3 and Fig. 4 are not suitable for in- 18 x 18(5.5x5.5) 18(68.1) 13.5(0.93) stallation in ceilings which 20 x 20(6.1x6.1) 20(75.7) 16.7(1.14) have positive pressure in the space above. Technical Data: F1 Res 58 CCP Pendent and Recessed Pendent/FP Nominal Orifice Sprinkler CCP Assembly Max. Pressure Max.Ambient K Sprinkler Thread Size Temp. Rating Temp. Rating psi (bar) Temp. Length Inch Inch (mm) ;'F PC rF wC aF PC Factor (mm) 112" NPT(R1/2) 112(13) 155 68 135 1 57 175(12) 100 38 5.8 2.25(57) *Baseline flows and pressures for 0.05 density Max.Sprinkler Spacing Flow Pressure Sprinkler Identification ft(m) gpm (Lpm) psi (bar) Number(SIN) 12 x 12(3.6x3.6) 16(61) 7.6(0.53) 14 x 14(4.3x4.3) 16(61) 7.6(0.53) 16 x 16(4.9x4.9) 16(61) 7.6(0.53) R3513 18 x 18(5.5x5.5) 19(72) 10.8(0.75) 20 x 20(6.1x6.1) 22(83.3) 14.4(l.0) *Calculate for a .10 density but in no case go below the baseline flows & pressures 6. Technical Data: F1 Res 76 CCP Pendent and Recessed Pendent/FP Sprinkler Temp. CCP Assembly Max.Ambient Sprinkler Inch (mm) Thread Size Nominal Orifice Rating Temp. Rating Max. (bar)x. Pressure Tem K Factor Length °F °C °F °C °F °C Inch(mm) 3/a" NPT(R3/4) "/32"(13.5) 155 68 :1355 57 175(12) 100 38 7.6 2.25(57) 175 79 150 66 *Baseline flows and pressures for 0.05 density Max.Sprinkler Spacing Flow Pressure Sprinkler Identification ft(m) m(L pm) psi bar Number SIN 12 x 12(3.6x3.6) 21 7.6(0.53) 14 x 14(4.3x4.3) 21 7.6(0.53) *Calculate for a .10 density but In 16 x 16(4.9x4.9) 21 7.6(0.53) R7618 no case go below the baseline flows 18 x 18(5.5x5.5) 22 8.4(0.58) & pressures 20 x 20(6.1x6.1) 25 10.8(0.74) • Model 171 Res 44 & 58 HSW Model F1 Res 44 & 58 Recessed HSW/F2 �K F1 Res 44& 58 Recessed HSW/F2 Technical Data: F1 Res 44 HSW& HSW/F2 Escutcheon, F2, Data: Sprinkler Adjustment Nominal Sprinkler Max. Max. Face of Fitting to Inch(mm) Thread Temp. Ambient K Type wall Size Orifice Rating Pressure Tem Factor Length Inch mm Inch (mm) PF PC psi (bar) PF PC Inch(mm) F2 1/2(13) 3/16-"/16(4.7-17.4) 112"NPT 3/e(10) :155 9 68 175(12) 100 38 4.4 2.45(62) (R/z) 75 7 150 66 *Baseline flows and pressures for 0.05 density Max. Sprinkler A Sprinkler Sprinkler Ceiling-to- Flow Pressure Spacing Temp. Rating Identification ft(m) Deflector ?F(PC) gpm (Lpm) psi (bar) Number(SIN) Inch mm 12x 12(3.6x3.6) 155(68) 175(79) 12(45.4) 7.5(0.52) 14x 14(4.3x4.3) 155(68) 175(79) 14(53.0) 10.2(0.71) 1 6 x 16(4.9x4.9) 4-6 155(68) 175(79) 16(60.6) 13.3(0.92) 16 x 18(4.9x5.5) (101-152) 155(68) 175(79) 18(68.1) 16.8(l.16) 18 x 18(5.5x5.5) 155(68) 175(79) 19(72.0) 18.7(l.29) 16 x 20(4.9x6.1) 155(68) 175(79) 23(87.1) 27.4(l.89) R3531 12 x 12(3.6x3.6) 155(68) 175(79) 14(53.0) 10.2(0.71) 14 x 14(43x4.3) 155(68) 175(79) 16(60.6) 13.3(0.92) 16 x 16(4.9x4.9) 6 12 155(68) 175(79) 17(64.4) 15.0(1.04) 16 x 18(4.9x5.5) (152-305) 155(68) 175(79) 20(75.7) 20.7(l.43) 16 x 20(4.9x6.1) 155(68) 175(79) 23(87.1) 27.4(l.89) *Calculate for a .10 density but in no case go below the baseline flows & pressures 7. • Model F1 Res 44 SWC 4"to 12' (101.60mm Tu _ ? 1 114"[31.75mm]Maximum 304.80mm] TURN TO ADJUST UNTIL To Woll DimFoce Of Fitting A..- ension PUSH ON COVER, THEN . TIGHT AGAINST WALL. I"X 112"Reducer id -- � Recom�rended i'\inui� i -�� Well Hole 2 5116° 2 5/8' [58.74mm] 3 5 �—nii --- - - --F- [66.68mm] Die. i° [84. 4mm14-] Die. L mnL -:- � Dio. // TURN COLLAR UNTIL TIGHT AGAINST SPRINKLER u 1 21/32» WRENCH BOSS. [42.07mm] 135FG07 -y 1/2 (12.70mm] Adjustment F1 RES 44 SWC Fig. 5 Technical Data: F1 Res 44 SWC Sprinkler Cover Max. Thread Nominal Temp. Temp. Max. Ambient K Sprinkler Size Orifice Rating Rating Pressure Temp. Factor Length Inch (mm) ?F 14C psi (bar) �F wC Inch (mm) "F wC 112"NPT 3/8(10) 155 68 135 57 175(12) 100 38 4.4 2.45(62) (R'/z) *Baseline flows and pressures for 0.05 density Max. "A"Ceiling-to- Flow Pressure Sprinkler Sprinkler Spacing Deflector Identification ft(m) Inch(mm) gpm(Lpm) psi (bar) Number(SIN) 12 x 12(3.6x3.6) 13(49.2) 8.7(0.60) 14 x 14(4.3x4.3) 14(53.0) 10.2(0.71) 16 x 16(4.9x4.9) (101-156 2) 17(64.3) 15.0(1.1) 16 x 18(4.9x5.5) 19(71.8) 18.7(l.13) 16 x 20(4.9x6.1) 23(87.1) 27.4(l.89) R3531 12 x 12(3.6x3.6) 14(52.9) 10.2(0.71) 14 x 14(43x4.3) 6-12 15(56.7) 11.7(0.81) 16 x 16(4.9x4.9) (152-305) 18(68.1) 16.8(l.16) 16 x 18(4.9x5.5) 20(75.6) 20.7(l.43) *Calculate for a .10 density but in no case go below the baseline flows & pressures 8. Technical Data: F1 Res 58 HSW & HSW/F2 Sprinkler Max. Escutcheon, F2, Data: Temp. Max. Sprinkler Thread p Ambient K Face of Fitting to Size Orifice Rating Pressure Temp. Factor Length Type Adjustment wall Inch (mm) psi (bar) Inch(mm) Inch (mm) wF wC wF rC Inch (mm) 112"NPT 1/2(13) 155 68 175(12) 100 38 5.8 2.45(62) F2 1/2(13) 3/16-11/16(4.7-17.4) (R1/2) 175 79 150 66 `Baseline flows and pressures for 0.05 density Max. A Sprinkler Sprinkler Ceiling-to- Flow Pressure Sprinkler Spacing Deflector Temp. Rating gpm (Lpm) psi (bar) Identification ft(m) Inch(mm) wF(PC) Number(SIN) 12 x 12(3.6x3.6) 155(68) 175(79) 16(60.6) 7.6(0.53) 14 x 14(4.3x4.3) 155(68) 175(79) 18(68.2) 9.7(0.67) 16 x 16(4.9x4.9) (101-4 156 2) 155(68) 175(79) 21 (79.5) 13.2(0.91) 16 x 18(4.9x5.5) 155(68) 175(79) 25(94.7) 18.6(l.28) 16 x 20(4.9x6.1) 155(68) 175(79) 29(109.8) 25(1.73) R3533 12 x 12(3.6x3.6) 155(68) 175(79) 22(83.3) 14.4(l.0) 14 x 14(4.3x4.3) 6-12 155(68) 175(79) 22(83.3) 14.4(l.0) 16 x 16(4.9x4.9) (152-305) 155(68) 175(79) 26(98.4) 20.1 (1.39) 16 x 18(4.9x5.5) 155(68) 175(79) 31 (117.4) 28.6(l.97) *Calculate for a .10 density but in no case go below the baseline flows & pressure 9. Technical Data: F1 Res 58 HSWX (SIN RA3533) Nominal Max. Sprinkler Max. Sprinkler Sprinkler Thread Orifice Pressure Temp. Rating Ambient K Length Identification Size Inch(mm) psi (bar) PF rC �Fem pC Factor Inch Number(SIN) Bulb 1/2 NPT 1/2"(13) 175(12) 155 68 100 38 5.8 2.45(62) RA3533 (R/z) 175 79 150 66 *Baseline flows and pressures for 0.05 density Ordinary Temp. Rating Intermediate Temp. (155?F/68PC) Rating Top of Deflector Minimum Max. Coverage area Max. Spacing 175NF/79?C Ft x Ft(m x m) Ft(m) Flow to Ceiling Spacing Flow Pressure GPM(L/ Pressure Inch (mm) Ft(m) GPM(L/min) PSI (bar) min PSI (bar) 18 x 20(5,5 x 6,1) 18(5,5) 30(114) 26.8(1,85) 30(114) 26.8(1,85) 20 x 20(6,1 x 6,1) 20(6,1) 30(114) 26.8(1,85) 30(114) 26.8(1,85) 4 to 6(100 to 152); 16 x 22(4,9 x 7,3) 16(4,9) 33(125) 32.4(2,23) 33(125) 32.4(2,23) 1/2(13)recessed using F2 escutcheon 16 x 24(4,9 x 7,3) 16(4,9) 38(144) 42.9(2,96) 38(144) 42.9(2,96) 14 x 26(4,3 x 7,9) 14(4,3) 42(160) 52.4(3,75) 42(160) 52.4(3,75) 8(2,4) 18 x 20(5,5 x 6,1) 18(5,5) 35(133) 36.4(2,5) 35(133) 36.4(2,5) 16 x 22(4,9 x 6,7) 16(4,9) 38(144) 42.9(2,96) 38(144) 42.9(2,96) 6 to 12(152 to 305); 112(13)recessed 16 x 24(4,9 x 7,3) 16(4,9) 42(160) 52.4(3,6) 42(160) 52.4(3,6) using F2 escutcheon 14 x 26(4,3 x 7,9) 14(4,3) 46(174) 62.9(4,34) 46(174) 62.9(4,34) For Ceiling types refer to NFPA 13, 13R or 13D *Calculate for a 0.10 density but in no case go below the baseline floor and pressures. • Model F1 Res 58 HSWX(Bulb) FACE OF FITTING TO WALL DIMENSION 7 11116" MIN. 2 114" HOLE DIA. [31.8mm] A [57.2mm] 1/8 CEILING TO (3.2mm] DEFLECTOR 7"X 112° REDUCER DIMENSION i -� �- ti r '-7 1 15/16° DIA. [49.2mm] ii 2 27132" DIA. p!,' [72.2mm] Model KRes58 HSWX(Link) TURN COLLAR UNTIL � 1 TIGHT AGAINST SPRINKLER `\`! WRENCH BOSS. \�\i 135FG08 1/2""[13mm] ADJUSTMENT F1 RES 58 HSWX Fig. 6 10. Technical Data: KRes58 HSWX (RA3593) Max. Sprinkler Nominal Max. Sprinkler Thread Orifice Pressure Ambient K Length Identification Size Inch(mm) psi(bar) -Fem . Factor Inch Number(SIN) Link 1/2"NPT 112"(13) 175(12) 100 38 5.8 2.45(62) RA3593 (R/2) *Baseline flows and pressures for 0.05 density Ordinary Temp. Rating Mini- Max. Coverage area Max. Spac- (165NF/74PC) Top of Deflector mum Ft x Ft(m x m) ing Ft(m) Flow Pressure n Ceiling ch (mm) Spacing GPM Umin) PSI(bar) In Ft(m) 18 x 20(5,5 x 6,1) 18(5,5) 29(109) 25(1,72) 20 x 20(6,1 x 6,1) 20(6,1) 30(114) 26.8(1,85) 4 to 6(100 to 152); 16 x 22(4,9 x 7,3) 16(4,9) 33(125) 32.4(2,23) 112(13)recessed using F2 escutcheon 16 x 24(4,9 x 7,3) 16(4,9) 38(144) 42.9(2,96) 14 x 26(4,3 x 7;9) 14(4,3) 42(160) 52.4(3,75) 8(2,4) 18 x 20(5,5 x 6,1) 18(5,5) 35(133) 36.4(2,5) 16 x 22(4,9 x 6,7) 16(4,9) 38(144) 42.9(2,96) 6 to 12(152 to 305); '/2(13)Recessed 16 x 24(4,9 x 7,3) 16(4,9) 42(160) 52.4(3,6) using F2 escutcheon 14 x 26(4,3 x 7,9) 14(4,3) 46(174) 62.9(4,34) For Ceiling types refer to NFPA 13, 13R or 13D *Calculate for a 0.10 density but in no case go below the baseline floor and pressures. Maintenance Model F1 Res 30, 49, F1 Res 58 & F1 Res 76 Sprin- manufacturer's installation guidelines and the appli- klers should be inspected quarterly, and the sprinkler cable installation standard. Where pendent residential system maintained in accordance with NFPA 25, 13, sprinklers are installed under sloped ceilings having 13D, and 13R. Do not clean sprinkler with soap and a pitch from [4/12] to [8/12], the sprinklers shall be water, Ammonia or any other cleaning fluids. Remove listed for such use. Deflector-to-ceiling distance list- dust by using a soft brush or gentle vacuuming. Re- ing shall be 1" to 8" maximum. Sprinkler frame and de- move any sprinkler which has been painted (other than flector shall be of bronze frame construction having a factory applied) or damaged in any way. A stock of 1/2" NPT thread. Water seal assembly shall consist of a spare sprinklers should be maintained to allow quick Teflon-coated Belleville spring washer with top-loaded replacement of damaged or operated sprinklers. Prior extruded or cold head cup with 3 mm glass bulb con- to installation, sprinklers should remain in the original taining no plastic parts, and having a temperature rat- cartons and packaging until used.This will minimize the ing of [155°F (68 0C)] [175°F (79 0C)]. Sprinklers shall potential for damage to sprinklers that could cause im- have a nominal K-factor of 4.9 & 5.8. Standard finish: proper operation or non-operation. [Bronze] [Chrome-plated] [White Polyester] [Special Model F1 Res 30, 49 & 58 Pendent Sprinkler finish-specify]. Residential pendent sprinklers shall be S ecifications Reliable Model F1 Res 49 & 58, SIN R3516 & R3513 P (Bulletin 135). Sprinklers shall be [cULus Listed] [New York City MEA Approved (258-93-E)] low flow residential pen- dent sprinklers engineered to provide a minimum de- sign density of 0.10 gpm/ft2 over the listed coverage area. Listed flows as specified by the manufacturer's technical data sheets are to be used. Residential sprinklers shall be installed in conformance with the 11. Model F1 Res 30,49&58 Recessed Pendent/F1, plate adjustment. Cover plate temperature rating shall be Model F1 Res 30,49&58 Recessed Pendent/F2, 135°F(57 0C). A plastic protective cap shall be provided Model F1 Res 30,49&58 Recessed Pendent/FP and factory installed inside the sprinkler cup to protect Sprinklers shall be [cULus Listed] [New York City MEA the sprinkler from damage, which could occur during Approved (258-93-E)] low flow residential recessed pen- construction before the cover plate is installed. Standard dent sprinklers engineered to provide a minimum design cover plate finish: [White] [Custom Color—specify].]. Con- density of 0.10 gpm/ft2 over the listed coverage area. cealed pendent sprinklers shall be Reliable Model F1 Res Listed flows as specified by the manufacturer's technical 49&58 CCP, SIN R3516&R3513(Bulletin 135). data sheets are to be used. Residential sprinklers shall Model F1 Res 44, F1 Res 58 Horizontal be installed in conformance with the manufacturer's instal- Sidewall, F1 Res 58 HSWX & KRes58 HSWX lation guidelines and the applicable installation standard. Where pendent residential sprinklers are installed under Residential Sprinkler Specifications sloped ceilings having a pitch from [4/12] to [8/12], the Sprinklers shall be [cULus Listed] low flow residen- sprinklers shall be listed for such use. Deflector-to-ceiling tial horizontal sidewall sprinklers engineered to pro- distance listing shall be 1"to 8"maximum.Sprinkler frame vide a minimum design density of 0.10 gpm/ft2 over and deflector shall be of bronze frame construction hav- ing a'/2" NPT thread. Water seal assembly shall consist of by the manufacturer's technical data sheets are to be a Teflon-coated Belleville spring washer with top-loaded used. Residential sprinklers shall be installed in con- extruded or cold head cup with 3 mm glass bulb contain- formance with the manufacturer's installation guide- ing no plastic parts, and having a temperature rating of lines and the applicable installation standard. Where [155°F (68°C)] [175°F (79°C)]. Sprinklers shall have a horizontal sidewall residential sprinklers are installed nominal K-factor of 4.9 (70). Standard finish: [Bronze] under sloped ceilings having a pitch from [4/12] to [Chrome-plated] [White Polyester] [Special finish— spec- [8/12],the sprinklers shall be listed for such use. Sprin- ify]. Recessed escutcheon assembly shall be a steel, kler frame and deflector shall be of bronze frame con- two-piece escutcheon [with 1/2" adjustment (Model F2)] struction having a '/2" NPT thread. Water seal assem- [with 3/a" adjustment (Model F1)] [of push-on and thread bly shall consist of a Teflon-coated Belleville spring off design with'/2"adjustment(Model FP)].Standard finish washer with top-loaded extruded or cold head cup shall be [brass][bright chrome] [white painted]. Residen- with 3 mm glass bulb containing no plastic parts, and tial recessed pendent sprinklers shall be Reliable [Model having a temperature rating of [155°F (68 0C)] [175°F F1 Res 49 & 58 Recessed Pendent/F1] [Model F1 Res (79 0C)]. The solder element (Link) version, the water 49 & 58 Recessed Pendent/F2] [Model F1 Res 49 & 58 seal consist of a cap with a bellville spring washer and Recessed Pendent/FP]SIN R3516&R3513(Bulletin 135). a temperature rating of 165°F (74 0C). The recessed assembly forthe HSWX(Bulb& Link) should be a steel Model F1 Res 30, 49 & 58 CCP Pendent two pieces escutcheon with 112" adjustment (Model (Concealed) F2)standard finish should be Bright Chrome and white Sprinklers shall be [cULus Listed] [New York City MEA painted. The F1 Res 58 HSW is also available with low Approved (258-93-E)] low flow residential concealed lead frame. F1 Res 58 HSW and HSWX sprinklers shall sprinklers engineered to provide a minimum design den- have a nominal K Factor of 5.8 and F1 Res 44 a nomi- sity of 0.10 gpm/ft2 over the listed coverage area. Listed nal K factor of 4.4. Standard finish: [Bronze] [Chrome- flows as specified by the manufacturer's technical data plated] [White Polyester] [Special finish— specify]. sheets are to be used. Residential sprinklers shall be in- Residential horizontal sidewall sprinklers shall be Reli- stalled in conformance with the manufacturer's installa- able Model F1 Res 44, F1 Res 58, F1 Res 58 HSWX & tion guidelines and the applicable installation standard. Model KRes58 HSWX, SIN R3531, RA3533 & RA3593 Where pendent residential sprinklers are installed under (Bulletin 135). sloped ceilings having a pitch from [4/12] to [8/12], the sprinklers shall be listed for such use. Sprinkler frame and deflector shall be of bronze frame construction having a 112" NPT thread. Water seal assembly shall consist of a Teflon-coated Belleville spring washer with top-loaded ex- truded or cold head cup with 3 mm glass bulb contain- ing no plastic parts, and having a temperature rating of 155°F (68 0C). Cover plate assembly shall consist of a brass cover plate and copper alloy retainer flange. Meth- od of attaching the cover plate to the sprinkler cup shall be a push-on and thread-off design allowing a '/2" cover 12. Model F1 Res 44 & 58 Recessed Horizontal Residential recessed pendent sprinklers shall be Reliable Sidewall Sprinkler [Model F1 Res 76 Recessed Pendent/F1] [Model F1 Res Use description for the Model F1 Res 58 horizontal 76 Recessed Pendent/F2] [Model F1 Res 76 Recessed sidewall sprinkler with the following modifications: Re- Pendent/FP]SIN R7618(Bulletin 135). place "horizontal sidewall sprinkler" with "recessed hori- Model F1 Res 76 CCP Pendent (Concealed) zontal sprinkler." Add: Recessed escutcheon assembly Sprinklers shall be [cULus Listed] low flow residential shall be a steel, two-piece escutcheon with /2" adjust- concealed sprinklers engineered to provide a minimum ment (Model F2). Standard finish shall be [brass][bright design density of 0.10 gpm/ft2 over the listed coverage chrome] [white painted] [Special finish- specify]. Resi- area. Listed flows as specified by the manufacturer's dential recessed horizontal sidewall sprinklers shall be technical data sheets are to be used. Residential sprin- Reliable Model F1 Res 58/F2, SIN R3513(Bulletin 135). klers shall be installed in conformance with the manufac- Model F1 Res 76 Pendent turer's installation guidelines and the applicable installa- Sprinklers shall be [cULus Listed] low flow resi- tion standard. Sprinkler frame and deflector shall be of dential pendent sprinklers engineered to provide a bronze frame construction having a3/4"NPTthread. Water minimum design density of 0.10 gpm/ft2 over the list- seal assembly shall consist of a Teflon-coated Belleville ed coverage area. Listed flows as specified by the spring washer with machined or cold head cup with 3 manufacturer's technical data sheets are to be used. mm glass bulb containing no plastic parts, and having a Residential sprinklers shall be installed in conformance temperature rating of 155°F (68 0C). Cover plate assem- with the manufacturer's installation guidelines and the bly shall consist of a brass cover plate and copper alloy applicable installation standard. Sprinkler frame and retainer flange. Method of attaching the cover plate to the deflector shall be of bronze frame construction having sprinkler cup shall be a push-on and thread-off design a3/4" NPT thread. Water seal assembly shall consist of allowing a '/2" cover plate adjustment. Cover plate tem- a Teflon-coated Belleville spring washer with machined perature rating shall be 135°F (57 0C). A plastic protec- or cold head cup with 3 mm glass bulb containing no tive cap shall be provided and factory installed inside the plastic parts, and having a temperature rating of[155°F sprinkler cup to protect the sprinkler from damage, which (68°C)] [175°F(79 1C)]. Sprinklers shall have a nominal could occur during construction before the cover plate K-factor of 7.6. Standard finish: [Bronze] [Chrome-plat- is installed. Standard cover plate finish: [White] [Custom ed] [White Polyester] [Special finish-specify]. Residen- Color-specify]. ]. Concealed pendent sprinklers shall be tial pendent sprinklers shall be Reliable Model F1 Res Reliable Model F1 Res 76 CCP, SIN R7618(Bulletin 135). 76, SIN R7618 (Bulletin 135). FinishesM Model F1 Res 76 Recessed Pendent/F1, Standard Finishes Model F1 Res 76 Recessed Pendent/F2, Sprinkler F1, F2, FP Escutcheons Model F1 Res 76 Recessed Pendent/FP Bronze Brass Sprinklers shall be [cULus Listed] low flow residen- Chrome Plated Bright Chrome Plated tial recessed pendent sprinklers engineered to provide White Polyester Coated White Painted a minimum design density of 0.10 gpm/ft2 over the listed Special Application Finishes coverage area. Listed flows as specified by the manu- Sprinkler F1, F2, Escutcheons facturer's technical data sheets are to be used. Residen- tial sprinklers shall be installed in conformance with the Bright Brass Bright Brass manufacturer's installation guidelines and the applicable Black Plated Black Plated Black Paint Black Paint installation standard. Sprinkler frame and deflector shall Off White Off White be of bronze frame construction having a3/4" NPT thread. satin Chrome Water seal assembly shall consist of a Teflon-coated Bel- Satin Chrome leville spring washer with machined or cold head cup with (')Other finishes and colors are available on special order. 3 mm glass bulb containing no plastic parts, and having Consult factory for details. a temperature rating of [155°F (68°C)] [175°F (79°C)]. Information Sprinklers shall have a nominal K-factor of 7.6. Standard Specify:Ordering finish:[Bronze][Chrome-plated][White Polyester][Special 1. Sprinkler Model finish-specify]. Recessed escutcheon assembly shall be 2. Sprinkler Type a steel, two-piece escutcheon [with 1/2" adjustment(Mod- 3. Temperature Rating el F2)] [with 3/4" adjustment (Model F1)] [of push-on and 4. Sprinkler Finish thread off design with 1/2" adjustment (Model FP)]. Stan- 5. Escutcheon Finish dard finish shall be[brass][bright chrome] [white painted]. 13. Reliable . . . For Complete Protection Reliable offers a wide selection of sprinkler components. Following are some of the many precision-made Reliable products that guard life and property from fire around the clock. • Automatic sprinklers • Deluge valves • Flush automatic sprinklers • Detector check valves • Recessed automatic sprinklers • Check valves • Concealed automatic sprinklers • Electrical system • Adjustable automatic sprinklers • Sprinkler emergency cabinets • Dry automatic sprinklers • Sprinkler wrenches • Intermediate level sprinklers • Sprinkler escutcheons and guards • Open sprinklers • Inspectors test connections • Spray nozzles • Sight drains • Alarm valves • Ball drips and drum drips • Retarding chambers • Control valve seals • Dry pipe valves • Air maintenance devices • Accelerators for dry pipe valves • Air compressors • Mechanical sprinkler alarms • Pressure gauges • Electrical sprinkler alarm switches • Identification signs • Water flow detectors • Fire department connection The equipment presented in this bulletin is to be installed in accordance with the latest published Standards of the National Fire Protection Association,Factory Mutual Research Corporation,or other similar organizations and also with the provisions of governmental codes or ordinances whenever applicable. Prod uctsmanuf actured and distributed by Reliable have been protecting life and property for over 90 years,and are installed and serviced by the most highly qualified and reputable sprinkler contractors located throughout the United States,Canada and foreign countries. Manufactured by The Reliable Automatic Sprinkler Co.,Inc. Recycled iabiL® (800)431-1588 Sales Offices Paper l (800)848-6051 Sales Fax (914)848-2051 Corporate Offices Revision lines indicate updated or new data. www.reliablesprinkler.com Internet Address EG.Printed in U.s.A 07/13 P/N 9999970322 Bulletin 006 Rev. H Model RFC30 (SIN RA0611) °J ® Model RFC43 (SIN RA0612) . [lei bi Model RFC49 (SIN RA0616) o Residential Flat Concealed Sprinklers A Residential Flat Concealed .N Sprinkler engineered for a minimum design density of 0.05 gpm/ft2 with low GPM requirements. Features 1. Very low water flow requirements. 2. Cover plate attachment (Plain or Perforated) ; with 112" (13mm)Total adjustment. : 3. Thread-On/Thread-Off or Push-On/Thread Off cover attachment option. 4. Smooth aesthetic ceiling profile. 1 5. Available in brass, chrome and black plated or painted finishes. Listings & Approval I� 1. Listed by Underwriters Laboratories, and certified by UL for Canada (cULus) 2. NYC MEA 258-93-E UL Listing Categories Residential Automatic Sprinklers UL Guide Number VKKW Product Description Model RFC30, RFC43 and RFC49 Concealed Residen- tial Sprinklers are fast response residential fusible solder link automatic sprinklers. Residential sprinklers differ from standard sprinklers primarily in their response time and water distribution patterns. Model RFC30, RFC43 and RFC49 sprinklers discharge water in a hemispherical pattern below the sprinkler de- and positively attached and blends into the ceiling, con- flector. Residential distribution patterns are higher and cealing the most dependable fire protection available, an generally contain a finer droplet size than standard sprin- automatic sprinkler system. kler patterns. The RFC30, RFC43 and RFC49 are UL Listed Residen- The combination of speed of operation and high dis- tial Sprinklers to be installed in the residential portions charge pattern required for residential sprinklers has of any occupancy in accordance with NFPA 13, 13R, & demonstrated, in fire testing, an ability for controlling 13 residential fires, and thereby providing significant evacu- The RFC30, RFC43 and RFC49 can reduce the need time for occupants. for precise cutting of drop nipples. The threaded cover ation t plate assembly can be adjusted without tools to fit ac- The ime RFC30,for RFC43 and RFC49 Sprinklers provide the best form of fire protection by combining an attractive ap- curately against the ceiling. The fire protection system pearance and 112" (13mm) of cover adjustment for ease need not be shut down to adjust or remove the cover of installation. The small diameter cover plate is easily plate assembly. The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Application and Installation The RFC30, RFC43 and RFC49, for residential instal- When inserting or removing the wrench from the sprin- lations, use a 165°F (74°C) fusible solder link in a tun- kler/cup assembly, care should be taken to prevent dam- ing fork style sprinkler frame with a drop-down deflector. age to the sprinkler. DO NOT WRENCH ON ANY OTHER This assembly is recessed into the ceiling and concealed PART OF THE SPRINKLER/CUP ASSEMBLY. MODEL by a flat cover plate. The cover plate is attached to the RFC30, RFC43 AND RFC49 CONCEALED SPRINKLERS skirt, using 135°F(57°C)ordinary temperature classifica- MUST BE INSTALLED ONLY WITH 135°F RATED COV- tion solder.When the ceiling temperature rises,the solder ERS. holding the cover plate releases the cover allowing the Note:A leak tight'/z" NPT(R1/2) sprinkler joint can be ob- deflector to drop into position and exposing the sprinkler tained with a torque of 8-18 ft-lbs (10,8- 24,4 N-m). Do not inside to ceiling temperature. The subsequent operation tighten sprinklers over maximum recommended torque. It of the solder link opens the waterway and causes the de- may cause leakage or impairment of the sprinklers. flector to drop into position to distribute the discharging Cover assemblies provide up to 1/2" (13mm) of adjust- water in a hemispherical pattern below the sprinkler de- ment. Turn the cover clockwise until the flange is in con- flector. Any adjustment of thread engagement between tact with the ceiling. For the push-on/thread-off option, the cover plate and cup will assure that the drop-down the cover assembly is pushed onto the cup and final ad- deflector is properly located below the ceiling. The resi- justment is made by turning the cover clockwise until the dential distribution pattern contains a finer droplet size skirt flange makes full contact with the ceiling. Cover re- than a standard sprinkler, and the pattern produces sig- moval requires turning in the counter-clockwise direction. nificantly higher wall wetting. In ceilings that have a plenum space above the sprin- After a 25/8 inch diameter hole is cut in the ceiling, the kler, the plenum space may have neutral or negative sprinkler is to be installed with the Model FC Wrench. pressurization but must not be positively pressurized. When installing a sprinkler, the wrench is first positioned Inspect all sprinklers after installation to ensure that the into the sprinkler/cup assembly and around the hexago- gap between the cover plate and ceiling and the 4 slots nal body of the sprinkler frame. The Wrench must bottom in the cup are all open and free from any air flow impedi- out against the cup in order to ensure proper, safe instal- ment. lation. The sprinkler is then tightened into the pipe fitting. Thread Nominal Sprinkler CCP Assembly Max. Max. Model Temp Rat- Tem Ratin Ambient K (SIN) Size Orifice ing p' g Temp. Factor Pressure Inch (mm) Inch (mm) psi (bar) PF wC WF PC rF rC RFC 30 112"(15) 21/64(8,2) 165 74 135 57 100 38 3.0 175(12) (RA0611) RFC 43 1/2"(15) 3/a(10) 165 74 135 57 100 38 4.3 175(12) (RA0612) RFC 49 (RA0616) (15) 1/16(11) 165 74 135 57 100 38 4.9 175(12) Note: 1 bar=100 Kpa RFC 30 Ordinary Temp. Rating Max. Coverage Max. Spacing (165,'F/74?C) Minimum area Spacing Ft x Ft(m x m) Ft(m) Flow Pressure Ft(m) GPM (Umin) PSI(bar) 12 x 12(3,6 x 3,6) 12(3,6) 9(34,1) 9.0(0,62) 8(2,4) 14 x 14(4,3 x 4,3) 14(4,3) 10(37,8) 11.0(0,76) For Ceiling types refer to NFPA 13, 13R or 13D 2. RFC 43 Ordinary Temp. Rating Max. Coverage Max. Spacing (155rF/68rC) Minimum area Spacing Ft x Ft(m x m) Ft(m) Flow Pressure Ft(m) GPM(Vmin) PSI(bar) 12 x 12(3,6 x 3,6) 12(3,6) 12(4,5) 7.8(0,54) 14 x 14(4,3 x 4,3) 14(4,3) 13(49) 9.1 (0,63) 16 x 16(4,9 x 4,9) 16(4,9) 13(49) 9.1 (0,63) 8(2,4) 18 x 18(5,5 x 5,5) 18(5,5) 18(68) 17.5(1,21) 20 x 20(6,1 x 6,1) 20(6,1) 21 (79) 23.8(1,64) For Ceiling types refer to NFPA 13, 13R or 13D RFC 49 Max.Coverage Ordinary Temp. Rating Minimum Max. Spacing 155rF/68rC area Ft(m) Flow Pressure Spacing Ft x Ft(m x m) GPM Vmin PSI(bar) Ft(m) 12 x 12(3,6 x 3,6) 12(3,6) 13(49) 7.0(0,48) 14 x 14(4,3 x 4,3) 14(4,3) 13(49) 7.0(0,48) 16 x 16(4,9 x 4,9) 16(4,9) 13(49) 7.0(0,48) 8(2,4) 18 x 18(5,5 x 5,5) 18(5,5) 17(69,3) 12.0(0,83) 20 x 20(6,1 x 6,1) 20(6,1) 20(75,73) 16.7(1,14) For Ceiling types refer to NFPA 13, 13R or 13D Maintenance Model RFC30, RFC43 and RFC49 Concealed Sprin- symmetric lever mechanism, maintaining a Teflon-coated klers should be inspected quarterly and the sprinkler Belleville spring washer and machined brass cap water system maintained in accordance with NFPA 25. Do not seal assembly containing no plastic parts. Sprinkler clean sprinklers with soap and water, ammonia or any K-factor shall be nominal 3.0 (44), 4.3(62.4), and 4.91 other cleaning fluids. Remove dust by using a soft brush (70) having a 1&", 3/g" and 7/16" orifice. Temperature rating or gentle vacuuming. Remove any sprinkler cover plate shall be Ordinary 165°F(74°C); cover plate temperature assembly which has been painted(other than factory ap- rating to be 135°F(57°C). Cover plate assembly shall plied) or damaged in any way. A stock of spare sprin- consist of a brass cover plate and copper alloy retainer klers should be maintained to allow quick replacement flange allowing a 112" cover plate adjustment. Any secure of damaged or operated sprinklers. Prior to installation, engagement between the cover plate and the cup will sprinklers should be maintained in the original cartons assure that the drop-down deflector is properly located and packaging until used to minimize the potential for below the ceiling. A plastic protective cap shall be damage to sprinklers that would cause improper opera- provided and factory installed inside the sprinkler cup tion or non-operation. to protect the drop-down sprinkler deflector from dam- age, which could occur during construction before the Model RFC30, RFC43 and RFC49 Residential cover plate is installed. Standard cover finish: [Chrome] Concealed Sprinkler Specification [White] [Specialty-specify]. Residential concealed sprinklers shall be Reliable Model RFC30, SIN RA0611 Sprinklers shall be cULus Listed low flow residential con- (Bulletin 006), Model RFC43, SIN RA0612(Bulletin 006) cealed sprinklers with drop-down deflector and adjust- or Model RFC49, SIN RA0616(Bulletin 006). able flat cover plate engineered for a minimum design density of 0.05 gpm/ft2. Sprinkler frame and deflector shall be of bronze frame construction having a 1/2" NPT thread. Thermal element shall consist of an approved black-painted beryllium-nickel fusible solder link with 3. Ordering Information Cover Plate Finishes0) Specify: Standard Finishes 1. Sprinkler Model Chrome 2. Cover Plate Finish White Paint 3. Thread-On or Special Application Push-On Feature Finishes(') z - Bright Brass Finished Bronze - Black Plating Black Paint Off White Satin Chrome (') Other finishes and colors are available on special order. Consult factory for details. Coverplate custom paint is semi-gloss, unless specified otherwise. 1�1 00 (Z) For the perforated style cover- plate, consult factory for avail- ability on these and other cus- tom finishes. I x 112" REDUCING TEE OR ELBOW 258" [66.55mm 276" [58.42mm] DIA HOLE IN CEILING CUP 2" [50.8mm] MAX. FACE OF FITTING TO FACE OF CEILING DIMENSION CEILING 2" [12.70mm] MAX. 3 " COVER ADJUSTMENT 76 [4.96mm] FLAT COVER PLATE 316" [84.21mm] DIA. ASSEMBLY SPRINKLER 006FGOIB COVER PLATE: 112" [12. 7mml ADJUSTMENT The equipment presented in this bulletin is to be installed in accordance with the latest published Standards of the National Fire Protection Association,Factory Mutual Research Corporation,or other similar organizations and also with the provisions of governmental codes or ordinances whenever applicable. Products manufactured and distributed by Reliable have been protecting life and property for over 90 years,and are installed and serviced by the most highly qualified and reputable sprinkler contractors located throughout the United States,Canada and foreign countries. Manufactured by The Reliable Automatic Sprinkler Co.,Inc. ® Recycled (800)431-1588 Sales Offices Paper iable (800)848-6051 Sales Fax Revision lines indicate updated or new data. (914)829-2042 Corporate Offices www.reliablesprinkler.com Internet Address EG.Printed in U.S.A.05/13 P/N 9999970261 BERMAD RrE ProtECtion —fn-F 700 SEf IEs 700E Deluge Valve Data Description BERMAD 700E Deluge Valves are globe valves with integral unitized double chamber actuator that consists of one single moving assembly, which includes a diaphragm assembly, a flat seal disk and a stainless steel removable seat. These automatic water control valves are designed for high pressure service, in vertical or horizontal installations and are available in diameter sizes from 11/2" to 16"; DN40 to DN400. The BERMAD 700E valves are used for water flow control in Deluge, Pressure Control Deluge, Preaction or Water/ Foam systems, and are manufactured from materials suitable for freshwater or alternative for seawater, foam concentrate or other corrosive fluids. The 700E Deluge Valve is held closed by system water pressure trapped in the control chamber. When the releasing system operates, pressure is released from the control chamber, and the seal disc opens to allow water to flow into the system. The 700E valve body design includes a single, full bore seat with unobstructed flow path, free of any in-line ribs, supporting cage, or stem guides. Main FEaturEs The 700E "Y Type" design provides high flow capabilities ■ High Pressure Construction— with minimum head loss. 400 psi (28 bar) rating available The integral unitized double-chambered actuator provides • Integral unitized double chamber actuator a combination of positive, immediate response with with single moving assembly smooth hammer-free, drip-tight closing. ■ In-line serviceable, field replaceable internals The whole actuator can be easily removed for a quick ■ Obstacle free, full bore in-line inspection and servicing. ■ Available in corrosion resistant materials Valve actuation is accomplished by one moving assembly ■ Designed to be reset without opening the valve which includes a replaceable flat diaphragm, harnessed ■ Compatible with electric/hydraulic/pneumatic to the diaphragm assembly, a stainless steel stem and a release and pressure control trim systems flat seal disk assembly. The balanced seal-disk assembly with its resilient seal Approvals enables controlled actuation, high durability and perfect ■ UL Listed to UL 260 from 5 to 300 psi; 0.3 to 21 bar drip-tight sealing, even under harsh conditions. WP, 2" through 10"; DN50 through DN250 ■ ABS Approved for 300 psi; 21 bar WP, 11/2" through Accessories 12"; DN40 through DN300 ■ Lloyd's Register Type Approval for 300 psi; 21 bar WP, The BERMAD 700E Deluge Valve shall be trimmed with 11/2" through 16"; DN40 through DN400 the original components and accessories per specification ■ Fire Test Certified to ISO 6182 part 5, 11/2" through and in accordance with valve functions and applications. 16"; DN40 through DN400 Where additional specifications and/or signaling devices are required for a specific application, refer to system data Notes: for the system used, and to the BERMAD data sheet and 1.The 700E valve shall be trimmed with specific components &accessories. Installation, Operation & Maintenance for specific model 2.The 700E valve must be installed and maintained in required. compliance with the most recent BERMAD publications. A T_ ■ BERMAD RPE ProtECtion 700E MatErials - 700 SENES Construction Materials The BERMAD 700E valves are available in a variety of materials to ensure optimal suitability for a wide range of applications. For operation involving exposure to internal and/or external corrosive conditions, valves are constructed from corrosion-resistant materials making them suitable for use with seawater, brackish water, or corrosive environments such as seashore, petrochemical and other industrial facilities. Standard Configurations Item 1 Number 2 1 Cover Ductile Iron 12 2 Cover Bolt Z.C. Plated Steel 3 13 --------------------------------------------------------------------------------------------------------- 3 Cover Nut Z.C. Plated Steel_ 4 14 4 Separation Partition Ductile Iron 5 15 --------- --------- ------------------------------------------------ - -- --- ------ 5 Stud Z.C. Plated Steel ,a 6 Stud Nut Z.C. Plated Steel _ 7 16 7 Valve Body Ductile Iron 17 - - ----- ---- ----------------- - 8 ____ Sprin-g........... S.S.302... g 9 Removable Seat S.S. ---304 --------------------------------------------------------------------- Seal NBR(Buna-N) 18 11 Upper Plug(6-20") Brass 9 12 Shaft Lock Nut S.S.303 19 -------- --------- ------------------------------------------------- --------------------------- 13 Shaft Nut S.S.303 14 Diaphragm_W ash ers S.S.431 10 9 -------15---------Diaphragm----------- -------NBR(Buna-N) - 16 Bearing Screw S.S.303 ----------------------------------- 17 Bearing Bronze 18 Shaft S.S. 303 19 Seal Disk S.S.431 SpEcifications Castings • Ductile Iron to ASTM A536 65-45-12(coated) •Cast Steel ASTM A216 Grade WCB(coated) PrESsil Rating • Nickel Aluminum Bronze ASTM B148 C95800 •Stainless Steel 316 ASTM A351 Grade CF8M . . . • •Super Duplex ASTM A890 Grade 5A ., . pressure • Hastelloy C-276 - • • psi I bar Bolting: FFIanged ANSI 816.42 #150RF 250 17.4 •Standard External Bolting:Zinc Plated Steel -------------------------------------------------------------------------------- ■Optional:S.S.316 to ASTM A320 Gr.B8F nged ANSI B16.42 #300RF 400 28 ------------------------------ Internal Wetted Parts: Ductile Flanged ISO 7005-2 PN 16 235 16 -------------------------------------------------------------------------------------------------- ■Stainless Steel 303 ASTM A582 95B S30300A Iron Flanged ISO 7005-2 PN 25 365 25 -------------------------------------------------------------------------------------------------- •Stainless Steel 304 ASTM A743 Grade CF8 Grooved ANSI C606 300 400 25 •Stainless Steel 431 ASTM A743 Grade CA15M -- - - ----------- -- --- ■ Bronze ASTM B505 Grade C83600 Threaded BSP/NPT 300/PN25 400 25 ------------------------------------------------------------------------------------- ■ Internal Spring-S.S.302 Cast flanged-AN-SIB-1-6.5-B16.5 #1501RF 250 17.4 Optional Internal Wetted Parts: Steel Flanged ANSI B16.5 #300RF 400 28 -------- --------------------------------------- •Stainless Steel 316 ASTM A351 Grade CF8M & Flanged ISO 7005-2 PN16 235 16 --------------------------------------------------------------------------------------------------- ■ Nickel Aluminum Bronze ASTM B148 C95800 Stainless Flanged ISO 7005-2 PN25 365 25 • Monel 400 Steel ---------------------------------------------------------------------- ----------------------- • Hastelloy C-276 _ _Threaded BSP/NPT 300/PN25 400 25 •Internal Spring- Inconel Flanged ANSI B1-6.24 #150RF- ----250-----------17.4---- Elastomers (Diaphragm &SEals) Ni-AI Flanged ANSI B16 24 #300RF 400 28 - - - - ------- -------- - ---------------- ■ NBR, Polyamide fabric reinforced Nitrile(Buna-N), Bronze F-langed- -- ---ISO- - --7-005- - --2----PN--16- ---------------235 16 -- -------- ----- ---------- ------ --- --------------------------- Temperature Rating 80°C 1 Flanged ISO 7005-2 1 PN25 365 25 • EPDM, Polyamide fabric reinforced Ethylene-Propylene, Note: Temperature Rating 90°C 2 1. Factory pressure testing:Each valve is tested at 1.6 of pressure rating. Coating 2. Water Temperature:0.5-50°C(33-122°F) • Electrostatic Powder Coating Polyester 3. Standard flange facing:Raised Face(RF),Serrated Finish. • High Built Epoxy Fusion-Bonded with UV Protection,Anti-Corrosion Flat Face(FF)flanges available on request. •Color: Fire Red to RAL 3002 Note:Internal&External coating applied on Ductile Iron or Cast Steel Castings only. BERMAD RrE ProtECtion -fn-F 700E Flow & Hgdraulic Data 700 SEf IES Flow Chart psi bar 15.0 1.0 12.5 _ 10.0 - 1112 2112 3. 4 6. 8' 10' !, 12' 14 16 7.5 0.5 _.. U) 2" o - J m 5.0 N N i CL 2.5 1.5 0.1 10 50 100 500 1,000 5,000 m3/h 50 75 100 250 500 750 1,000 2,500 5,000 7,500 10,000 15,000 20,000 gpm Flow Properties Flow Rate DN 40-50 65 80 100 150 200 250 300 350 400 1 Inch 11/211-2" 21/211 311 411 611 811 1011 1211 1411 1611 Kv-Y 50 55 115 200 460 8115 1,250 1,850 1,990 3,310 CIL Cv-Y 58 64 133 230 530 940 1,440 2,140 2,300 3,820 K-Y 3.9 9.2 4.9 3.9 3.7 3.8 3.9 3.7 5.9 3.7 Leq-m,Y 10.3 33.4 21.6 23 37.5 53.9 70 85.6 159.9 112.7 Leq-feet,Y 33.8 109.5 70.8 75.6 123 176.9 229.5 280.8 524.5 369.6 Kv-A 55 61 127 220 506 897 1 1,375 2,035 2,189 3,641 Cv-A 64 70 146 250 580 1,040 1,590 2,350 2,530 4,210 K-A 3.2 7.6 4.0 3.2 3.1 3.1 3.2 3.1 4.9 3.0 Q Leq-m,A 8.5 27.6 17.8 19.0 37.0 44.6 57.8 70.7 132.1 93.1 Leq-feet,A 28 90.5 58.5 62.5 101.6 146.2 189.7 232 433.4 305.5 Valve flow coefficient, Kv or Cv Kv(Cv)=:Q F_Gf Equivalent Pipe Length, Leq Leq=Lk•D Where: Where: Kv = Valve flow coefficient(flow in m3/h at 1 bar Diff. Press.) Leq= Equivalent nominal pipe length(m ;feet) Cv = Valve flow coefficient(flow in gpm at 1 psi Diff. Press.) Lk = Equivalent length coefficient for turbulent Q = Flow rate(m3/h ;gpm) flow in clean commercial steel pipe(SCH 40) AP = Differential pressure(bar; psi) D = Nominal pipe diameter(m;feet) Gf = Liquid specific gravity(Water=1.0) Note: The Leq values given are for general consideration only. Cv = 1.155 Kv Actual Leq may vary somewhat with each of the valve sizes. Flow resistance or Head loss coefficient, K=AH 2g Where: 112 3 K = Flow resistance or Head loss coefficient(dimensionless) AH = Head loss (m ;feet) V = Nominal size flow velocity(m/sec ;feet/sec.) g = Acceleration of gravity(9.81 m/sect; 32.18 feet/sect) BERMAD RPE ProtECtion FP 700E DIMEnsions &WEights 700 SEf IE5 Metric Flanged L (mm) 10 205 222 250 320 415 500 605 725 733 990 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- (o LG(4) (mm) N/A N/A N/A 250 320 415 500 N/A N/A N/A N/A T ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Z W (mm) 165 165 178 200 223 320 390 480 550 550 740 --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- O -R mm 78 83 95 1-00 1-15 1-43 1-72 204 242 268 300 Ln La (mm) 124 124 149 152 190 225 265 320 396 400 450 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- L ha (inch) 85 85 109 102 127 152 203 219 273 279 369 Hy (inch) 239 244 257 305 366 492 584 724 840 866 1,108 Z Ha (inch) 227 227 241 281 342 441 545 633 777 781 1,082 Q Weight Y (kg) 10.6 10.6 13 22 37 75 125 217 370 381 846 -------------------------------------------------------------------------------------------------------------------------------------------- ------------------------------------------------------------------------------------- Weight A (kg) 10 10 12 21.5 35 71 118 205 350 370 800 L (mm) 210 210 222 264 335 433 524 637 762 767 1,024 N W (mm) 165 165 185 - 207 250 320 390 --480 550 570 740 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- 0- R (mm) 78 83 95 105 127 159 191 223 261 295 325 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- 0 La (mm) 124 124 149 159 200 234 277 336 415 419 467 ----- ---------- --------------------------------------------------------------------------------------------------------------------------------------------------------- c ha----------------------- (inch)--------85------------85---------1-09--------1-09--------127---------165----------216----------236----------294----------299----------386----- ° Hy (inch) 239 244 257 314 378 508 602 742 859 893 1,133 * --------------------------------------------------------------------------------------------------------- Fn Ha (inch) 227 227 251 287 650 454 558 649 796 801 1,099 Q Weight Y (kg) 12.2 12.2 15 25 43 85 146 245 410 434 900 ------- ---- --------------------------------------------------------------------------------------------------------------------------------------------------------- Weight A (kg) 11.5 11.5 13.5 23 41 81 138 233 390 421 855 a(1) (mm) 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 --------------------------------------------- ---------- - - -- _ _ _ -- - - - - b(1) (MM) 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- • C(1) (mm) 3/ 3/4 3/4 3/4 3/4 2 2 2 2 2 2 -------------------------------------------------- d(2)(optional) (mm) 3/4 3/4 11/2 11/2 2 2 2 2 2 2 2 Control Vol. (3)(Liter) 0.125 0.125 0.125 0.3 0.45 2.15 4.5 8.5 12.4 12.4 29.9 (1) (a), (b), (c)are NPT thread ports (2) (d)is BSPT threaded Optional drain port (3)(Control Volume)is Control Chamber Displacement Volume of liquid pushed when valve opens (4)LG for Grooved ends(see available sizes) b c b C Y Body Type Angle Body Type a a Hy Ha ha R = _ a _ - - d a L&LG = La� C c Op�O W - I � - V V O - I -- 4 �1 , O O O LI b b BERMAD FirE ProtECtion -fnoF English v r Flanged Size(inch) 11/2" 2" 21/2„ 3" 4" 6" 8" 10" 12" 1411 16„ L (inch) 81 81 8.3 9.8 12.6 16.3 19.7 23.8 28.5 28.9 39.0 co LG(4) (inch) N/A N/A N/A 9.8 12.6 16.3 19.7 B/A B/A B/A B/A - ---------------- - ------- -- ---------- ------------------------------------------------------------------------------------------------------------------------------------------------------------- Z W (inch) 6.1 6.1 7.0 7.9 8.8 12.6 15.4 18.9 21.7 21.7 29.1 a -R---------------------------(inch)------3.1-----------3.3----------3.7----------3.9----------4.5----------5.6----------6.8----------8.0----------9.5---------10.6---- 1-1--.-8 O - --------------------------- - ----------3.1--------------------------- --------------- -------------- -------------------------------------------- ------------ - ----------1------------ ---- D La (inch) 4.9 4.9 5.9 6.0 7.5 8.9 10.4 12.6 15.6 15.7 17.7 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------- °, ha (inch) 3.3 3.3 4.3 4 5 6 8 8.6 10.7 11 14.5 *k Hy (inch) 9.4 9.6 10.1 12 14.4 19.4 23 28.5 311 34.1 416 z Ha (inch) 8.9 8.9 9.9 11.1 13.5 17.4 21.5 24.9 30.6 30.7 42.6 Q Weight Y (1b) 23 23 29 49 82 165 276 478 816 840 1,865 ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Weight A (Ib) 22 22 27 47 77 157 260 452 772 216 1,764 L (inch) 8.3 8.3 8.7 10.4 13.2 17 2.0.6 25.1 30 30.2 40.3 N W (inch) 6.5 6.5- 7.3 8.1 - 9.8 12.6 - 15.4 18.9 21.7 2.2.4 - 2.9.1 -R R (inch) 3.1 3.3 3.7 4.1 5 6.3 7.5 8.8 10.3 11.6 12.8 --------------------------(--------)----------------------------------------------------------4.-------------------------------------------------.5------------------------------------------------------------------------- O La - inch 4.9 --4.9 5.9- 6.3 7.9 - 9.2 10.9- 13.2 16.3- 16.5 -18.4 (inch) ------ o ha-------------------------inch)-------3.3----------3.3----------4.3----------4.3----------5.3----------6.5----------8.5----------9.3---------11.6--------11.8--------15.2---- co Hy (inch) 9.4 9.6 10.1 12.4 14.9 20 23.7 29.2 33.8 35.2 44.6 ------ -------- --- -- ------ ------------- ------ - ---------------------- - ---- ----- -------------- Fn Ha (inch) 8.9 8.9 9.9 11.3 13.8 17.9 22 25.6 31.3 31.5 43.3 Q Weight_Y (1b) 27 27 33 55 95 187 322 540 904 957 1,984 ----- ------ ---- ----- Weight A (1b) 25 25 30 51 90 179 304 514 860 928 1,88 a (inch) 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 1/2 ----- -- --------- - - ------------------------------- ------------------------------------------------------------------------ ---------------- �, b '> (inch) 1/2 1/2 'h 1/2 1/2 1/z 1/2 1/2 1/2 1/2 1/2 - --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- O C�') (Inch) 3/4 3/4 3/ 3/ 3/4 2 2 2 2 2 2 '---------------- d(2)(optional) (inch) 3/4 3/4 11/2 11/2 2 2 2 2 2 2 2 Control Vol.(3)(Gal.) 0.04 0.04 0.04 0.08 0.12 0.57 1.19 2.25 3.28 3.28 7.88 (1) (a), (b), (c)are NPT thread ports (2) (d)is BSPT threaded Optional drain port (3)(Control Volume)is Control Chamber Displacement Volume of liquid pushed when valve opens (4)LG for Grooved ends(see available sizes) Y Body Type b c Angle Body Type b c a a Hy Ha - � � ha R = a d a L&LG -c *Ib - I � - --i 5 LI W BERMAD Rm ProtECtion FP 700E Installation, Operation - - 700 SENES Installation Proper operation of the 700E Deluge Valves depends In the SET position, the water pressure supplied through upon their trim being installed in accordance with the the priming line is trapped in the upper control chamber appropriate trim configuration. of the deluge valve by a check valve, and by the normally Notes: closed release device. • Wet pilot height should not exceed "Maximum The pressure trapped in the upper control chamber of the Elevation Above Valve" (see data for specific model). deluge valve presses the valve seal disk down, thereby • Any deviation in trim size or arrangement may sealing the valve and keeping the system piping dry. adversely affect the proper operation of the deluge Under conditions of FIRE, when the pressure is released valve. from the upper control chamber by the opening of the • All the pilot system devices, must be UL Listed and automatic releasing device or by manual release, the deluge valve opens and allows the inlet supply water to compatible with the particular deluge system. flow through the valve and into the system piping and Refer to current "UL Listed Fire Protection Equipment alarm devices. Directory". Warning: Whenever the handle of the Manual Emergency Warning: The deluge valve and trim must be installed Release is pulled, pressure is released from the upper only in areas where they will not be subject to freezing control chamber, the deluge valve will open, and water temperatures. will flow into system piping and alarm devices. Installation Instructions Electric 1. Allow enough room around the valve assembly for Pneumatic any adjustments and future maintenance. Hydraulic 2. Before the valve is installed, flush the pipeline to remove any dirt, scale, debris, etc. Not flushing the line may result in the valve's becoming inoperable. 3. Install the valve in the pipeline so that the valve flow arrow appearing on the body casting is pointing in the desired direction. Ensure that the valve is positioned so that the actuator assembly can be easily removed for future maintenance. 4. Ensure that the Control Trim is mounted properly and I all other components are positioned correctly as per Valve Closed (Set Position) illustration. Line pressure applied to the upper control chamber 5. After installation in the main line, carefully inspect/ of the valve creates a superior force that moves the correct any damaged accessories, piping, tubing, or valve to the closed position and provides drip tight fittings. Ensure that there are no leaks. sealing. 6. Install the components comprising the Deluge Trim Electric Package in their proper positions in compliance with Pneumatic all instructions, drawings, and technical specifications Hydraulic describing the BERMAD Deluge Valve, according to the relevant illustration. 7. All additional accessories, although not packed together with the BERMAD Deluge Valve, must be installed as shown in the relevant P&ID and other illustrations. Operation Principle of Operation The BERMAD 700E Deluge Valve (assembled with specific Valve Open (Operating Conditions) trim) is suitable for systems that include adequate 6 detecting and piping systems with open nozzles. The Releasing the pressure from the upper control deluge valve prevents water from entering system piping chamber to atmosphere or some other lower until required. The deluge valve is kept closed by pressure pressure zone causes the line pressure acting on the applied to the upper control chamber through a restricted seal disc to move the valve to the open position. priming line. tw BERMAD RrE ProtECtion —fn-F FP 700E Installation,Operation &Maint- 700 SEf IES Placing in Service/Resetting 5. The system should be checked weekly for "Normal The deluge valve and the control trim shall be Placed in Conditions". Service with accordance to the most recent IOM 6. Clean the priming strainer prior to any resetting of the procedures for the specific model. deluge valve. After all relevant instructions are performed, slowly open 7. The deluge valve must be activated at full flow at the supply-isolating valve and check that no water flows least annually. Take all necessary precautions to drain into the system. water and prevent damage in the area protected by The system is now operational and in stand-by mode. the system. 8. After about five years of operation, replacement of MaintEnaneE diaphragm and other elastomers is recommended. Remove the actuator and disassemble it. Clean the Bermad Deluge Valves require no lubrication, no packing seat area from sediments, clean the control tubing tightening, and require a minimum of maintenance. entry holes, and install a new diaphragm and other Removing the System from Service elastomers in place. Warning: When taking a deluge system out of service, a fire patrol should be established in the system area. If Spare Parts automatic fire alarm signaling equipment is utilized, the 1. The Diaphragm and the Seals are the only spare parts proper authority should be notified that the system is needed for the main deluge valve, see attached being removed from service. The insuring body and "Valve Disassembly and Parts Breakdown" illustration. owner's representative should also be notified when the system is being taken out of service. 2. It is not recommended to store spare rubber parts for long periods (rubber in improper storage conditions can harden and crack). Removal Instructions 3. Contact your Bermad representative and order new 1. Shut off the main supply-isolating valve. rubber parts when required. 2. Close the priming line valve to the deluge valve control chamber. 3. Open all drain valves. 4. Release the water pressure from the control chamber of the deluge valve by pulling the manual emergency release. 5. Place "Fire Protection System Out of Service" signs in the area protected by the system. Inspection and Testing 1. Warning:Do not turn off the water supply to make repairs without placing a roving fire patrol in the area covered by the system. The patrol should continue until the system is back in service. 2. Prior to turning off any valves or activating any alarms, notify local security guards and the central alarm station, if used, to avoid signaling a false alarm. 3. The deluge valve and the control trim shall be maintained with accordance to the most recent IOM procedures for the specific model. A periodic test schedule should be established also with accordance to the site conditions and owner regulations. 4. Take all additional measures as required by NFPA-25 "standard for the inspection, testing, and 7 maintenance of water-based fire protection systems". T_ BERMAD Rm ProtECtion --f-no I FP 700E Installation, Operation &M- - 700 SEMES Valve Disassembling Parts Breakdown Actuator Assembly Cover Plug _ (6"and up) O-Ring Bolt Eye i Nut Disk 0 o ° ° 0 0 Cover 0 0 Indicator Lock Nut Screw \ i Td Nut D Diaphragm Washer Removable _ Seat J Spacer Disk O � 0 o Diaphragm ® O-Ring 0 0 0 o ° Diaphragm Washer 0 ® 0 0 0 0 0 Bearing Shaft Screw F �— Nut 0 0 Disk 1 0 I Y Body Type 0 Bearing Assembly Separation i Partition o 0 c Seal Disk 0 o C) Assembly 0 0 Bolt Nut ®— O-Ring 0 0 Seal Stud Disk 0 Spring o � 0 Seal o® 0 –Seal 0 0 Disk Wash. 8 0 Nut 0 ®_ Locking Screw Angle Body Type Screw bermadfirE @bermad.com www.bErmad.com The information herein is subject to change without notice.BERMAD shall not be held liable for any errors.All rights reserved. ©Copyright by BERMAD. PT7PE04-DATA ES-F-860L SPECIFICATION SHEET FEBCO MasterSeries® 860alS� Reduced Pressure Zone Assemblies Size: 21/2" - 10" (65mm - 250mm) The FEBCO Master Series°860 Reduced Pressure Zone Assemblies are designed for health hazard applications. End connections—Flanged ANSI B16.1 Class 125 Pressure—Temperature Max.Working Pressure: 175psi(12.1 bar) HydrostaticTest Press: 350psi(24.1 bar) Temperature Range: 32°F to 140°F(0°C to 60°C) MODEL 860 REDUCED PRESSURE ASSEMBLY Materials Main Valve Body: Ductile iron Grade 65-45-12 Coating: Fusion epoxy coated internal and external Capacity AWWA C550 Shutoff Valves: NRS and OS&Y resilient wedge gate kPa si valves AWWA C509 P 21/2'&3"(65mm&80mm) 138 20 Trim: Bronze Elastomer Discs: EPDM o 103 15 Spring: Stainless steel 2'h 3" = ss 10 Clamp: AWWA C606(10"only,250mm) 34 5 Approvals—Standards 0 160 240 32 400 gpm pp 0 300 4 606 910 1211 1 15201pm • ANSI/AWWA(C511)-21/2"-10" • Approved by the Foundation for Cross-connection Control and Hydraulic kPa psi Research at the University of Southern California.-2'/2"-8"(65-200mm) 138 20 4"&6"(100mm&150mm) ��pSSIFjFo H55E CP® C ,L US FM o 103 15 Approved 1013 B64.4 21/2"-B" 21/2"-8" = 69 10 21/2"-10" 21/2"-8" 65-200mm 65-200mm 4" 65-250mm 65-200mm 34 5 0 400 800 1200 1600 2000 gpm Typical Installation 0 1520 3040 4540 6060 76001pm kPa psi g'&10"(200mm&250mm) Model 860/Typical Installation 138 20 0 103 15 101' 0 = 69 10 34 5 0 1000 2000 3000 4000 5000 gpm 0 3800 7600 11400 15140 19000 PM Job Name Contractor Job Location Approval Engineer Contractor's P.O. No. Approval Representative FEBCO product specifications in U.S.customary units and metric are approximate and are provided for reference only. For precise mea- surements,please contact FEBCO. FEBCO reserves the right to change or modify product design,construction,specifications,or materials without prior notice and without incurring any obligation to make such changes and modifications on FEBCO products previously or subse- quently sold. Series 860 / Materials of Construction ITEM DESCRIPTION MATERIAL 1 Body A536 GR 6545-12 1.1 Pipe Plug Galy.Stl. 1.2 Bushing(2112'4 Only) Brass 41 1 2.1 2 Cover A536 GR 65-45-12 40 9 2 2.1 O-Ring EPDM ASTM D2000 C10 2.2 Cap Screw Plated Steel so s2 s 2.3 Hex Nut Plated Steel a 4 4.1 15 3 Seat Ring 8584 Alloy C83600 s7 � a. s s.1 D 3.1 Gasket EPDM ASTM D2000 s z.1 3.2 Socket Head Screw 18-8-SS 3.3 Washer 304 SS 3.4 Elastic Stop Nut 18-8-SS 4 Arm B584 Alloy C83600 25 24.1 24 4.1 Bushing-Swing Pin Acetal Resin O O 29 31 31.1 4.2 Swing Pin 304 SS 5 Retaining Clip 302 SS zs 3e 5.1 Retaining Clip 302 SS F 24. 24.1 s 6 Check Disk EPDM Coated GR,45 as Ductile Iron with 11141 az z a1.z 411 3o.1 P 35.2 35.1 3.1 3 10.1 12 1 1.1 14 1a 1a.1 A276 type 304SS stem 20 341 7 Load Pin B 150 Alloy C61300 28.1 B Lwr Spring Retnr B584 Alloy C83600 20.1 211.2 34 9 Spring Stem 304 SS 37 _ 9.1 Elastic Stop Jam Nut 18-8SS 27 23 E 10 Spring A313 Type 631 SS 22 38.1 21 28 28.z 30 32 24 24.1 25 33 10.1 Spring 2nd Check A313 Type 631 SS 10.2 Spring Shim 2nd Check Acetal Resin 20.1 20.2 11 Spring Guide B130 Alloy C22000 12 Upr Spring Retnr B584 Alloy C83600 B 12.1 Bushing-Spr.Stem Acetal Resin ___________________A------------------------------------------ 13 Pivot Bearing B585 Alloy C83600 14 Flange Gasket Rubber/Fabric 15 Bearing Socket Acetal Resin 16 Hex Jam Nut 18-8 SS Top View 17 Washer 302 SS 18 Flange Nut Plated Steel 18.1 Flange Nut Plated Steel G / C. C 0 U 20 R.V.Cover 8584 Alloy C83600 011 O HD 20.1 Bleed Screw SS � I\\C, � I\\C, 20.2 Gasket V. HDPE H C, C, 21 R. Body B584 Alloy C83600 i 22 Cover Bolt 18-ass 23 Elbow A536 GR 65-45-12 24 RV Mtg Bolt Plated Steel 24.1 Washer Plated Steel 25 RV Mtg Nut Plated Steel 26 Gasket EPDM 27 Lrg.Diaphragm NitrileASTM D2000 28 Button A240 304 SS Dimensions-Weight 28.1 Flow Washer Acetal Resin 29 RV Spring A3137ype 302 SS Size:21/2"-10°(65-80mm) 30 RV Stem Acetal Resin 31 Main Guide FDA EPDM SIZEIDN) DIMENSIONS WEIGHT _ 31.1 Main Guide O-Ring FDA EPDM A B C D E F G H NRS OS&Y 32 Seat Disc EPDM AST D2000 33 Lower Guide Acetal Resin in. mm in. mm in. mm in. mm in, mm in, mm in. I mm in. I mm in. mm lbs.I kgs. lbs.I kgs. 34 Seat Ring 8584 Alloy C83600 21/2 65 403/4 1035 251/2 648 12% 321 10 254 12'/8 327 10 254 41/2 114 71/a 1 181 1219 99 223 101.2 34.1 O-ring FDA EPDM 3 80 498 1064 25% 651 127/8 327 10 254 13 330 10 254 41/2 114 73/8 187 231 105 233 105.7 35.1 O-Ring EPDM ASTM D2000 4 100 461/4 1175 28 711 143/8 365 101/8 257 151/8 384 101/8 257 51/2 140 81/8 206 317 144 334 151.5 35.2 Extension Acetal Resin 37 Sm.Diaphragm NitrileASTM D2000 6 150 56 1422 343/4 883 187/8 479 123/4 324 203/4 527 111/8 283 61/2 165 97/8 251 481 218 516 234.1 38 Retainer 8584 Alloy 083600 8 200 65 1651 413/4 1061 231/2 570 15%397 267/8 683 121/4 311 7 178 111/8 283 734 333 796 361.1 38.1 Slip Ring Acetal Resin 39 Flow Washer Acetal Resin 10 250 728/1 1845 46% 1178 271/2 699 15%397 281/4 718 123/8 314 9 229 123/8 314 946 429 1008 457.2 40 Ball Valve B584 Alloy C84400 41 Nipple Brass Note:Dimensions shown are nominal.Allowances must be made for normal manufacturing tolerances. 41.1 Nipple Brass Note:The a drain is not designed to catch the maximum discharge os- 4 Nipple Brass gap g g p 42 2 Gate Valve IN RS) AW WA 0509 sible from the relief valve.The installation of FEBCO air gap with the drain 60 Identification Plate B36 Alloy 026000 line terminating above a floor drain will handle any normal discharge or nui- 62 Drive Screw Stainless Steel sance spitting through the relief valve.However,floor drain size may need 70 Clamp AWWA 0606(10"Only) to be designed to prevent water damage caused by a catastrophic failure condition.Do not reduce the size of the drain line from the air gap fitting. FEBCO . 9001-2008 ® CERTIFIED A Watts Water Technologies Company USA: Fresno,CA Tel:(559)441-5300•Fax:(559)441-5301•www.FEBCOonline.com Canada: Burlington,ON•Tel:(905)332-4090•Fax:(905)332-7068•www.FEBCOonline.ca ES-F-860L 1119 0 2011 FEBCO www.nibco.com AHEAD OF • ODWff Water Tubecont i nued DIMENSIONAL DATA ... , ; TYFE"M° Hard Drawn Chly 20ft.(6.1m)Straight Lengths Usage: For general purpose pl umbi ng,heati ng and drainage installations. Tolerances Hard Drawn (Hard Drawn Qtly) CUtside TubingCID Nominal Wall Weight Bursting Safe Work rig Nominal Diameter Zhidmess F2r Foot FtessureA FtessureB Water Tube Min. Max 92a(In lnd)es) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Lb (kg) psi (bars) psi (bars) 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) NA NA NA N/A N/A NA NA NA 318 0.500 (1270) 0.497 (1262) 0.501 (1273) 0025 (0.64) 0.145 (0.07) RYA RYA 855 (59) 1/2 0.625 (15.88) 0.671' (15.80) 0.626 (15.90) 0028 (0.71) 0.204 (0.09) 6135 (423) 741 (51) 518 0.750 (19.05) 0.747 (18.97) 0.751 (19.08) RYA NA NA NIA NA RYA NA N/A 314 0.875 (72.23) 0.872 (22.15) 0.876 X2.25) 0032 (0.81) 0.328 (0.15) 4717 W5) 611 (42) 1 1.125 (21158) 1.122 (21150) 1.127 (28.63) 0035 (0.89) 0.465 (0.21) 3865 (266) 506 P5) 11/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.98) 0042 (1.07) 0.632 (0.31) 3875 (Z67) 507 (35) 11/2 1.625 (410) 1.621 (41.17) 1.627 (41.33) 0.049 (1.24) 0.940 (0.43) 3550 (245) 497 (34) 2 2125 (53.98) 2121 (53.87) 2127 (54.03) 0058 (1.47) 1.460 (0.66) 2935 (202) 448 (31) 21/2 2625 (66.68) 2621 (66.57) 2627 (66.73) 0065 (1.65) 2030 (0.92) 2800 (193) 411 (28) 3 3125 (79.38) 3.121 (7927) 3.127 (79.43) 0072 (1.83) 2680 (1.22) 2665 (184) 380 (26) 31/2 3.625 (92.08) 3.621 (91.97) 3.627 (92.13) 0.083 (211) 3.580 (1.62) NA RYA 378 (25) 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0095 (241) 4.660 (211) 2215 (153) 377 (Z6) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0109 (277) 6.660 (3.02) 2490 (172) 349 (24) 6 6.125 (155.58) 6.121 (155.47) 6.127 (155.63) 0122 (3.10) 8.920 (4.05) 2000 (138) 32B (23) 8 8.125 (206.38) 8.119 (206.22) 11127 (206.43) 0.170 (4.32) 16.500 (1.48) 2185 (158) 344 (24) 10 10.125 (25718) 10.119 (257.02) 10.127 (257.23) 0.212 (5.38) 25.600 (11.61) NA NA 344 (24) 12 12125 (307.98) 12119 (307.82) 12127 (308.03) 0.254 (6.45) 36.700 (16.65) NA N/A 345 (24) Note:InfarrAicn and data contained inthese drats,astalm fremASTM Specifications B88. Fbted internal pressure for copper water tube used on the strength of the tube alone and applicable to systems usirig suitable mechanical jdnts. A Based on actual laboratoy test data provided by Qnpper Deveioprrent Assedatim,Inc e Based upon 150°F(65.6°C)with an allowable stress d 9500 psi(668 Ida) U.S oustcmary units i n this document are the standard;the metric units are provided for reference only the values stated in each system are not exact equivalents. NIBMINCWCRDF64DQ14RTB;6- 1516MIDD_BBL 'SL• 1310ARf,IN46516-4740• USA- 841.800.234.0227 TM-1 SERACEB F-t 1.8BB.446.4226• FAX 1.800.234.0557• INT83VAnC NAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 wwwriboo.00m CATALOG C-CF 0404 NIBC1_0 AHEAD OF • Copper Fitti ngs NIB 9, AHEAD OF THE FLOW le mm co, N IBCO flow-control solutions are everywhere you look, including on our website. We offer a wide range of metal and plastic valves • fittings that keep reddential, • • inclusbial operations flowing smoothly throughout • • -t ,.., conneiCL. ..°+-?^9 Kr f w-44rffiercow L9 ibra lrrF1 ;rf 1161sic F f -t7 NN • •. • .. Now .staM,�rSMC'ir,IR,u,M1 aii.,.� .,. ,. ..., C MW t; jig wWr4°rrSA rirrK.y. - a .r., The New Products" page is a The"Fittings!' Homepage at continuously updated showcase www.niboo.com provides easy for new products by N IBCO. access to valuable reference tools. * Current highlights include: * Key information includes: Compact Economy Ball Malves , Prepackaged Pneumatic Ball Malves Rice sheets(FDF& Excel format) Circuit Balancing Malves —also accessible from home page - -- Ranged Butterfly Malves • Downloadable catalogs(FDF format) Bronze Ball Ualve Line Extension • Product drill-town capabilities to categories _ FD4ink® copper fittings for FIX applications W rot Copper& Cast Bronze Fttings .hst Rghte hot-water circulation device ABS& R/C Drain, Waste, &Uent Carbon/ Stainless Steel Ball Malves PVC Schedule 40 Fittings&Malves Socket Fusion Equipment CP�/C CTS Fittings I„ . Z-- TruConnec� fittings for Chem-Aired NIDOD INC WCRDF64DC].INTMS. 1516MIDMMUFNST.. RW-IARr,IN 46516-4740. LISA. R-t 1.800.234.0227 7I1}iSERACES -t1.888.446.4226. FAX1.800.336.4226. INTEFNAnCNnLCFRCEFl-t+1.574.295.3221- FAX+1.574.295.3455 www.nibm.com NIBCCY www.nibco.com AHEAD OF • 0- able of Contents Cast Copper Alloy Fared Fittings ..........................22-24 Copper Insert Fittings for FD4in k. .........................25-27 Copper Insert Fittings for Fdybutyiene .....................28-29 B-0 need rig Data.......................................41-84 Frequently-Asked C uestions.................................90 Installation Instructions..................................85-89 NurneicalIndex ..........................................92 Specifications .............................................4 Warranty................................................91 Wrot&Cast D W Fitti ngs ...............................3040 Wrot&Cast Ressure Fittings .............................5-21 s09001:2000 The n erdadairg plartsat Sa th Qens Falls,W,, aunts D-M,VA Namfix e5 TX aid Fbflao,,Meg oo rnrda3ue pDIdsuiJaraCti lity MampTu t E,Oanoxformrg tothearrat resdcnof la09001 Irtenaiari staybds NIA I NG WCRD FEADQ14RF9;S• 1516 MI DDL®lR'SL• 9J4-14 Z,IN 465164740• USA• R-t 1.800.234.0227 TBDiSERACESR-t 1.888.446.4226• FAX 1.800.234.0557• INT9:lAT1CNALSERACER-t+1.574.295.3221• FA)C+1.574.295.3455 www.rtboo.00m www.nibco.com AHEAD OF • Specifications ■ ■ ■ All of the advantages found in copper as a rretal have been capitd imd to the utmost in the manufacture of NIBCX)Rttirigs. Because of the accuracy of construction and design,copper pluming is more efficient and less expensive. NIBOD manufactures ni ne general types offittings:Wrot Ressure;Cast Ressure;Wrot Drainage;Cast Drainage; Ranges; Rared Tube;Threaded B-orm; Insert Rttirigs for FDC;Barbed Insert Fittings for Rlybutylene. Each has its particular place and use and each offers its own advantages when used for the proper service requirerrlent. ALLCNAND KNISH—NIBOD Rtti rigs are made from highest qua]ity raw matedals avai Iable—Cast Rtti rigs are made from Q-pper Alloy 084400 which consists of 81%Copper,7%Lead,31/o Tin,and 91/o 21 n per ASTM Soeafi cat ion B584.Wrot CDpper Rttirigs are made from cmT eraAIy pure copper mill products per AST1V1 Specifications B75 Alloy 012200. NIBCbfittirrgs are produced to nmet requirements of applicable standards wherever practicable. NIBOObrand wrot and cast fittings are manufactured in the U.S.A.and Mexico.The manufacturing plants at South Gens Falls, NY Stuarts Draft,VA, Nacogdoches,TX and Fbymsa, Mexico are registered to 1309002 quality standards. Following is suggested phrasing to be incorporated in your specifications or bills of material for Copper-Tube Rtti rigs. WFuTSCLDBRJQNT FITTINGS—"Wrot Solder Joint Fittings shall be produced to one of the following specifications: 1. Material and wa-laaanship shall be in accordance with ASMHANSI B16.22;Wrought Copper and Qxpper Alloy Solder Joint Ressure Fittings." 2. The dim ansional,material and woiaaaanship shall dimensions of Federal Specifications WW-F-406 or meet the requiremoatsof MSS SP-104,-Wrought ASMEStd. B16.24. Copper Solder Joint Ressure Fittings." CLASS 125—Material,walaYanship and 3. The dimEnsional,material and watt Tanship of dimensions of flanges shall be in accordance with F-12"copper fittings shall meet the requirements MSS SR106. of MSS SR109"Welded Fabricated CqW Solder Joint Ressure Fittings." CASff h-Y�AD®RTTINCtiS- "C13st Bronze Threaded Fittings shall be in accordance 4. CertifiedtoANSI/NSF61. with ANSI/ASMEB16.15." CAST C)J::RRALLCN 3C1DER J O NT FITTINGS— FCLYBUTYLENE CX3::RR INSERT TYF E VALVESS AND "Cast Copper AI I oy Solder Joint Fittings shat I be in FITTINGS—"Wrot Copper-Insert Fittings shall be accordance with ANSI Std.B16.18." manufactured per the following specifications: WFUTDRATNACURT11NGS—"Wrot Drainage MSSSR103orASTM F1380." Rttings shall be in accordance with ASMFIANSI Std. NIBOOODpper Tube Rttings are all produced to above B16.29." Standards.To simplify,write your specifications to CAST CXD:FBRALLCN SCLDER J d NT DRAT NAC£ read:"Copper Tube Fittings to be in accordance with FITTINGS—"Cast Copper Alloy Solder Joint Drainage specifications as outlined in NIBODCatalog c c#-0602." RttingsshalI be i n accordance with ASME Std. WFUfCX3zFERMEDCALMEDCAL GAS SYSTH VI B16.23." 03\AFCNEVTS—Wrot copper fittings that are to be CAST CXDTERALLCN RAFT TUBE RTTI NGS—"Cast i nstal I ed i n medi cal gas appl i cat i ons shal I be prepared Copper Alloy Rared Tube Fittings shall be in a000r- in accordance with NFPA 99, Flealth Care Facilities Chas dance with ASMHANSI Std. B16.26. and Vacuum Systems and the Compressed C?s Association, Parrphl et C-}.1. Packaging shall be CAST 0.7THRALLCN RANG AND RAN® adequately protective and include labeling that FITTINGS— identifies the preparer and states that the product has CLASS 150—Cast Qxpper AI I oy Ranges and been d eaned and bagged for oxygen or mTed gas Ranged Fittings shall meet the requirements of service. MSS SP-106 andlor the wolaTanship and Far technical infoTration and dimes-dons refer to the engi neeri rig section contained in this catalog. NIBODING WORD HEN)C ARTES• 1516MIDDL83-R(ST.• RA-PRr,IN46516-4740• USA- R-t 1.800.234.0227 TKH SERM ES R-r 1.888.446.4226• FAX 1.800.234.0557• I NTB:NAnCNAL SERACE R-t+1.574.295.3221• FAX-+1.574.295.3455 www.niboaoom NIBCCY www.nibco.com AHEAD OF • 04 Wrot and Cast Pressure Fittings 600 Seri es—Wrot 700 Seri es—Cast Adapters ...............................................6-8 Air Charrbers .............................................8 BiMead Rttings ..........................................8 Bushings .................................................8 Caps ....................................................9 C buplings..............................................9-11 Crosses .................................................11 Bbows ............................................... 11-15 Rtting Feduaers ..........................................15 Ranges .............................................. 15-16 Rugs ...................................................16 Retum Bends ............................................16 Straps ..................................................16 Tees ................................................. 16-20 Traps ...................................................20 Unions..................................................21 Venturi ..................................................21 Ys .....................................................21 4509Q 03:20 PQ Therm faduingplayset Southae ,Falls,NY, auats Dra t,VA Nxx dxhes,TX and fbj csa,McAoorraxfadue pDldsuxleraQiality Mavgamt 9�stemoafamrg tothear rWsicnof1839001 Irtendicrel Starr NIA I NG WCRD FEADQ14R19;S• 1516 MI DDL®lR'SL• 9J4-14 Z,IN 465164740• USA• R-t 1.800.234,0227 TBDiSERACESR-t 1.888.446.4226• FAX 1.800.234.0557• INTB:NAflCNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.rtboo.00m www.nibco.com AHEAD OF • ADAPTERS !i EM ` 603 703 703-2 Adapter Cx F-Wrot Adapter Cx F-Cast Fitti ng Adapter Rg x F-Cast APPROX DIM.A APPROX INCHES NCM.SIZE 1/8 0.03 13/32 1/4x1/2 0.13 27/32 1/2x1/4 0.11 17/32 1/8x1/4 0.03 1/2 1/2x1 0.30 1 3/4x1/2 0.12 19/16 1/4 0.03 5/8 3/4x11/4 0.55 11/8 1x3(4 0.38 131/32 1/4x3/8 0.05 21/32 3/4x318 0.17 3/4 1 x1/2 0.15 17/16 3/8 0.04 11/16 1x11/2 0.68 13/32 21/2 1.65 215/16 3/8x1/2 0.09 29/32 11/4x1 0.27 31/32 3 2.47 31/4 3/8x1/4 0.03 9/16 11/4x3/4 0.29 3/4 1/2 0.09 27/32 11/2x2 0.78 11/32 1/2x3/4 0.14 1 11/2x1 0.37 2/32 1/2x3/8 0.04 17/32 11/2x11/4 0.47 11/4 _ 1/2x1/4 0.05 1/2 2x11/4 0.76 27/32 5/8x3/4 0.12 29/32 21/2 1.62 13/8 5/8x1/2 0.11 3/4 3 234 11/2 3/4 0.15 29/32 4 4.05 19/16 3/4x 1 0.21 11/8 3/4x1/2 0.10 5/8 1 0.24 31/32 703-5 medal 1 x 1 1/4 0.28 17/32 11-H Drop Adapter Cx F-Cast 1 x3/4 0.19 25/32 1 x 1/2 0.24 5/8 • I -.-• �INCHES 11/4 0.33 13/32 1/2 0.16 3/4 11/4x11/2 0.40 11/4 8 3/4 0.24 31/32 11/4x1 0.27 31/32 11/2 0.44 11/8 Rttl ng Adapter Rg x F-Wrot r+ 11/2x2 0.50 11/32 APPROX I� 2 0.63 13/32 NCM.SIZE INCHES 2x11/2 0.74 13/16 1/4 0.03 13/321 21/2 1.13 - 3/8 0.06 13/16 I 3 1.94 - 1/2 0.09 17/16 { 1/2x3/8 0.05 11/4 34 0.13 111/16 " 1 0.27 2/32 703-5B 11/4 0.31 21/6 11/2 0.43 25/16 Drop Adapter Cx F-Cast 2 0.61 217/32 APPFKX DIM.A NCM.SIZE NEFWTJLBS. INCHES 1/2 0.15 3/4 C X&At price sheet for Made to Qder iten-s and for n i ni rrum order quantities. NIBMINCVVCRDF64DQ14Rf9s• 1516MICCL&1AR'ST.• aA-WUIN4651&4740• LISA- R-t1.806234.0227 TEH SERACEB R-t 1.8B8.446.4226- FAx 1.800.234.0557• U B:;tN Al1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 04 ADAPTERS continued -F �r F/ A� 604 704 704-H Adapter Cx M -Wrot Adapter Cx M -Cast Hose Adapter Cx Hose-Cast --- . INCHES 1/8x1/4 0.03 7/16 3/4x11/2 0.60 117/32 1/2 0.09 9/32 1/4 0.03 2/32 34x11/4 0.38 17/32 NMRts'/2'll9'a-d' 'cardmHm- 3/8 0.04 15/32 3/4x3(8 0.19 13/16 3/8x3/4 0.15 15/16 1x2 1.15 - 3/8 x 1/2 0.09 1 1 x 1 1/2 0.64 29/32 1/2 0.07 5/8 11/4x2 0.88 19/32 1/2x1 0.25 11/2 11/4x3/4 0.30 31/32 1/2x3/4 0.15 13/16 1 1/2x2 0.77 11/8 e �t 1/2x3/8 0.05 19/32 2x21/2 1.57 115/32 1/2x1/4 0.07 5/8 2x11/2 0.71 11/8 604-2 5/8x3/4 0.16 11/8 2x11/4 1.08 - 5/8x 1/2 0.08 3/4 21/2 1.48 121/32 Fitti ng Adapter Fig x M-Wrot 3/4 0.14 13/16 21/2x2 1.83 111/16 APPROX • 3/4x1 0.26 17/16 3 1.96 11/2 3/4x1/2 0.10 27/32 4 3.66 111/16 1/8 0.02 11/8 1 0.21 31/32 5 8.60 25/8 3/8 0.04 11/4 1 x 1 1/2 0.54 Z9/22 6 10.73 2 1/2 0.09 115/32 1 x1 1/4 0.38 11/2 1/2x3/4 0.16 113/16 1 x3(4 0.18 29/32 1/2x3(8 0.04 111/32 1 x 1/2 0.18 31/32 3/4 0.17 115/16 11/4 0.35 '5/16 1 0.25 21/4 11/4x11/2 0.51 119/32 1 1/4 x 1 0.27 151 32 11/2 0.44 31/32 11/2x2 0.81 11/8 B 1 1/2x 11/4 0.38 13/16 s 11/2x1 0.37 13/32 704E 2 0.81 13/32 Rush Adapter Cx M-Cast 2x11/2 0.64 11/8 ••-U_ • 7042 21/2 1.48 121/32 • INCHES 3 1.69 - 1/2 0.03 9/16 Fitting Adapter Rg x M-Cast 3/4 0.03 19/32 •--• •INCHES 3/4 x 1 0.27 131/32 3(4 x 1/2 0.12 123/32 1 x3(4 0.24 115/16 11/4 0.43 217/32 11/2 0.54 213/32 2 0.89 23/4 21/2 1.55 33/8 Consult pri oe sheet for Made to Order iterrs and 3 221 323/32 for n i ni rrum order quantities. NIBD)INCWCR.DFEADCLIARIH:6• 1516MIDDt.B3lWSC• al+PRrIN46516-4740• USA,- R-t1.800.234.0227 TEHSERACESFR 1.888.446.4226• FAX 1.800.234.0557• INTt33VAT1CNALSERACER-t+1.574.295.3221- FAX.+1.574.295.3455 wwwAboomm www.nibco.com AHEAD OF • ADAPTERS continued BULKHEAD BUSHI NGS Fl TTI N GS 7042-H 618 Hose Adapter Ftg x Hose-Cast 750 R ush Bushi ng Ftg x C-Wrot Bul/dead Fitti n5/Cx C-Cast . INCHES INCHES 314 Fx 1/2 H 0.16 15/8 • i • • E 1/4 x 1/8 0.01 - 1/16 NOTE Fits 1/2:'5/9'and 3/d'G31den Fbse. 1/2 0.48 11/4 1 3/8 x 1/4 0.01 1/16 3/4 0.77 19/32 11/4 1/2x3/8 0.02 3/32 1 1.30 11/2 15/6 1/2x1/4 0.04 1/4 Al R CHAM BERS 11/2 2.87 11/2 23/8 98x1/2 0.03 1/16 2 3.82 21/32 25/8 3/4x5/8 0.22 3/16 3/4x1/2 0.08 3/32 3/4x3/8 0.11 7/16 1 x3/4 0.12 1/8 1 x 1/2 0,22 15/32 �- - - " 11/4x1 0.17 3/32 L e 11/2x11/4 0.22 5/32 IL to 619 I A -A- 2x11/2 0.66 1/8 Ai r Chamber Ftg.-Wrot I� APPROX.NOM.SIZE 750-3 1/2x6 0.21 1 6 Bulkhead Fitting Cx F-Cast 1/2x12 0.41 1 12 APPROX �,- a 4 1/2x14 0.78 11/8 14 NOVI.SIZE • INCHES 3/4x12 0.40 1 12 1/2 0.48 115/16 1 3/4 0.79 21/16 11/4 618-3 1 1.43 215/32 15/8 Rush Bushi n5/ Ftg x F-Wrot APPROX. NOV.SIZE INCHES 1/2X1/8 0.03 9/16 1/2x1/4 0.03 9/16 L B 620-L _ Ai r Chamber or Stub-Qrt A Ftg-Wrot s As Ai r QuTber,j ust sol der one ja nt.When used as Stub-Q.it,sirrply pressure test systemthenout 750-4 off stub W(save Oeoe for future use)and i nstal I 718-3 valve or fixture. BUlldlead Fitting Cx M-Cast R ush Bushi ng Ftg x F-Cast APPROK DIM.L NCM.SIZE NETWT./LBS, INCHES INCHES APPR0X DIM.B NOM.SIZE • • . INCHES 1/2 0.40 131/32 1 1/2x6 0.14 6 3/4 0.79 25/32 11/4 314x3/8 0.06 131/32 1/2x8 0.19 8 1x1/2 0.13 31/32 1/2x10 0.24 10 11/4x3/4 0.18 11/32 1/2x12 0.28 12 11/2x1 0.25 15/32 3/4x12 0.46 12 Cbrsult prioe sheet for Made to C rder iterrs and for n i ni rrum order quantiti es. NIB00INCVVCR.DF64DQ14Rf96• 1516MICOL&1AR'ST.• aA-WUIN465164740• LISA- 841.806234.0227 lE H SERACE;Rt 1.8138.446.4226- FAx 1.800.234.0557• U B:;IJAl1CNAL SE ACE R-t+1.574.295.3221• FAx+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 04 CAPS COUPLI NGS APPROX. DIM.A NOM.SIZE NEFWT/LBS. INCHES -- } 3x21/2 0.98 1/2 3x2 1.06 15/16 � A� [ 3x11/2 0.92 1/ N 2 E 31/2x3 1.52 1/z 6W 4x31/2 212 19/32 617 R�dua ng C uo i ng Cx C-Wrot 4x3 1.92 21/32 Tube 03p C-Wrot _ 4x21/2 1.77 1 _ _ -- • � � 4x2 1.92 11/4 IN • . • - • _ 5x4 3.50 331/32 • � • � 1/8x3/16QD. 0.01 5/32 1/8 0.01 1/32 5/16 OD.x1/8 0.01 3/16 5x3 3.18 115/32 1/4 0.01 3/32 1/4x5/160D. 0.01 3/16 5x21/2 3.50 13/16 3/8 0.01 3/32 1/4x1/8 0.01 3/1s 5x2 3.09 21/32 1/2 0.02 3/32 3(8x1/4 0.02 3/16 6x5 5.70 11/8 518 0.03 1/8 3/8x5/160D. 0.01 1/4 6x4 5.24 11/2 3/4 0.04 1/8 3(8x1/8 0.01 1/4 6x3 5.04 2 1 0.07 5/32 1/2x3/8 0.03 3/16 6x21/2 5.13 21/4 11/4 0.10 3/32 1/2x1/4 0.02 1/4 6x2 4.89 21/2 11/2 0.16 1/8 1/2x1/8 0.03 11/- 8x6 13.06 119/32 2 0.27 5/32 5/8x1/2 0.05 3/16 8x4 1222 219/32 21/2 0.50 7/32 5/8x3/8 0.04 11/- 8x3 11.79 33/32 3 0.78 7/32 5/8x1/4 0.03 13/32 8x21/2 1264 33/8 4 1.66 1/4 3/4x5/8 0.07 3/16 3/4x1/2 0.06 9/32 3/4x3/8 0.06 3/8 3/4x1/4 0.05 11/32 1 x3/4 0.11 11/32 1 X5/8 0.09 3/8 �-A N 1 x 1/2 0.10 11/32 1 x3/8 0.10 13/32 600-M 717 1 1/4x1 0.16 5/16 Coupling With Fblled Tube Stop Tube Ca C-C'aSt 11/4 x 3(4 0.18 17/32 Cx C-Wrot Cap 11/4x5(8 0.18 5/8 ---, APPROX DIM,N 11/4x1/2 0.14 7/16 • INCHES INCHES 11/2x11/4 0.23 5/16 1/8 OD. 0.01 1116 5 5.48 7/16 11/2x1 0.22 9/16 3(16QQ 0.01 3/32 6 9.07 17/32 11/2x3/4 0.20 3/8 1/8 0.01 1/16 11/2x1/2 0.19 1/2 5(16 0D. 0.01 3/32 2x11/2 0.41 9/16 1/4 0.01 1/16 IN - 2x11/4 0.35 11/16 3/8 0.01 3/32 2x 1 0.37 7/16 1/2 0.03 3/3? n 2X3/4 0.34 17/32 5(8 0.04 3/32 2x1/2 0.35 23/32 3i4 0.06 3/32 21/2x2 0.59 9/16 7/8 0.09 3/32 717-D 21/2x11/2 0.65 11/16 1 0.11 3/32 D..al n Cap-Cast 21/2 x 1 1/4 0.65 13/16 11/4 0.16 1/8 21/2x1 0.73 29/32 11/2 023 1/8 NCM.SIZE • cbrtrues••• 2 0.41 1/8 1/2 0.06 21/32 21/2 0.65 1/8 3 0.93 1/8 31/2 1.45 5/32 4 1.93 7/32 Consult price sheet for Made to Order itam and for rri ni rrum order quantities. NIBDJINCWCR.DFEADG114RIH:6- 1516MIDDt.B3lWSC• al+ARrIN465164740• USA- R-t1.800.234.0227 TEHSERACESFR 1.888.446.4226• FAx 1.800.234.0557• INIB+Al1CNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.00m www.nibco.com AHEAD OF • COUPLINGS continued FEE] 600-DS 601 701-D Coupling with Dimpled Tube Stop Coupl i ng without Stop Drain Coupl i ng Cx C-Cast Cx C-Wrot Cx C-Wrot APPROX,APP-OX, • NICM.SIZE NErVVT./LBS. INCHES APPROX DIM.A APPROX • i • • . • - 1/2 0.08 1/4 3/160D. 0.01 3/32 1/4 0.01 11/16 3/4 0.14 1/4 1/8 0.01 1/16 3/8 0.01 27/32 1 0.71 1/4 51160D. 0.01 3/32 1/2 0.03 1 1/4 0.01 1/16 5/8 0.04 111/32 3/8 0.01 3/32 3/4 0.06 119/32 1/2 0.03 3/32 1 0.11 129/32 518 0.04 3/32 11/4 0.16 21/16 3/4 0.06 3/32 11/2 0.23 26/16 A I� 7/8 0.09 3/32 2 0.41 213/16 1 0.11 3/32 21/2 0.64 215/16 11/4 0.16 1/8 3 0.86 35/16 702 11/2 0.23 1/8 31/2 1.40 313/16 h 2 0.41 1/8 4 1.84 45/16 oentricGouplingCxC-Cast 21/2 0.65 1/8 5 3.50 55/16 O ' • . - INCHES 3 0.93 1/8 6 5.60 63/16 314x1/2 0.10 17/32 31/2 1.45 5/32 8 13.68 83/32 1 x3/4 0.18 1/4 4 1.93 7/32 11/4x1 0.25 1/4 5 3.53 7/32 11/4x3/4 0.24 9/32 6 5.63 7/32 8 14.12 15/32 A-► V T- 701 Ieduci ng Coupl i ng Cx C-Cast ---• 7245-A NCM.SIZE - 3 x 1 1/4 1.35 23/92 F-�-Set Hanger Coupl i ng 3x1 1.64 27/32 C-Cast APPROX DIM.0 DIM.. • . INCHES • 1/2 0.05 15/6 23/32 3/4 0.09 15/8 27/32 1 0.13 15/8 1 Cffwlt price sheet for Made to O-der iten-s and for n i ni rrum order quantities. m NIBOOINC VVCRD FffkDQ.1gRf9s- 1516 MICDLBl UST- BXH&RF IN 46516-4740• U54• R-t 1.800.234.0227 TKH SERACE5 R-t 1.888.446.4226- FAx 1.800.234.0557- INTB:NAnCNAL SERACE R-t+1.574.295.3221- FAX-+1.574.295.3455 www.niboaoom NIBCCY www.nibco.com AHEAD OF • 0- COUPLINGS continued CROSSES ELBOWS Y p .� 606 A 45° B bow Cx C-Wrot --.- . . B . B I A A 1/8 0.01 1/4 1/4 736 1/4 0.02 9/32 9/32 Coss-Over CiD o i rig A 3/8 0.03 3/16 3/16 CX C-Cast 735 --•- A 1/2 0.04 9/32 9/32 /� /� /� /+ 5/8 0.09 15/32 15/32 APPRCK • Cross lax lax lax C-� 3/4 0.10 11/32 11/32 • I • 0. 112 0.27 • 17/16 •••�• • 7/8 0.20 11/16 11/16 •M.SIZE NErWT./LBS. INCHIES 1 0.16 3/8 3/8 314 0.60 129/32 318 0.09 3/8 11/4 0.25 17/32 17/32 1/2 0.15 7/16 11/2 0.35 19/22 19/32 314 0.30 9/16 2 0.65 25/32 25/32 1 0.54 23132 21/2 1.07 29/32 29/32 11/4 0.78 7/8 3 1.58 11/8 11/8 11/2 1.05 1 4 3.35 17/16 17/16 2 200 11/4 5 11.05 19/16 19/16 21/2 296 11/2 6 16.95 2 2 8 23.00 29/32 29/32 0 C 606-2 45° Fitting Bbow Rg x C-Wrot . INCHES INCHES 1/4 0.02 9/16 1/4 1/2 0.04 3/4 7/32 5!8 0.08 11/8 13/32 3/4 0.10 11/16 5/16 1 0.16 17/32 15/32 11/4 0.25 119/32 17/32 11/2 0.35 125/32 19/32 2 0.65 23/16 25/32 21/2 1.07 23/16 29/32 3 1.55 219/32 15/32 Consult prioe sheet for Made to Cyder iterrs and for ni ni rrum order quantities. NIBDJINCWCR.DFEADCLARIH:6- 1516MIDDt.B3lWSr- al+PRrIN465164740• USN- R-t1.800.234.0227 m TEHSERACESFl-t 1.888.446.4226• FAX 1.800.234.0557• INTt33VAT1CNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.aom www.nibco.com AHEAD OF • ELBOWS continued C O-A 16 -C 'to P � - �D 706-2 707 607-LT 45° R tt i ng B baw Rg x C-Cast 90° B bow-0 ose R Dugh 90° 8 bow- Long Fbdi us . INCHES Cx C-Cast Cx C-Wrot INCHES --. . 4 4.31 311/3 15/16 •M.SIZE NErWT./LBS. INCHES INCHES • .E NErWT./LBS. INCHES INCHES 11/4x1 0.42 15/8 115/32 31160D. 0.01 13/3 13/3 11/4x3(4 0.34 9/16 13/16 1/8 0.01 13/3 13/3 11/4x1/2 0.28 15/32 27/32 5/160a 0.02 9/16 9/16 11/2x1 0.54 11/16 1 1/4 0.02 17/32 17/32 ' c 11/2x3(4 0.42 19/32 31/32 1/4x1/8 0.01 19/32 1/2 11/2x1/2 0.40 5/8 29/32 3/8 0.04 23/32 23/32 2x11/4 0.86 7/8 11/4 1/2 0.08 7/8 7/8 2X1 0.78 3/4 11/4 1/2x3/8 0.06 13/16 13/16 2x3/4 0.69 5/8 11/4 1/2x1/4 0.03 25/32 21/32 607 21/2x2 216 13/16 19/32 5/8 0.10 13/32 13/32 90° B bow-Gose Fbugh 3x21/2 226 111/16 11/2 5/8x1/2 0.09 11/16 11/16 Cx C-Wrot 3x2 268 13/8 19/16 314 0.16 11/8 11/8 4x3 5.18 129/32 215/32 3/4x5/8 0.13 11/4 13/32 INCHES • 3/4x1/2 0.10 11/8 11/16 1/8 0.01 13/32 13/32 7/8 0.28 119/32 119/32 1/4 0.02 9/32 9/32 1 0.28 17/16 17/16 3/8 0.03 1/2 1/2 1 x3/4 0.20 11/4 11/8 1/2 0.04 3/8 3/8 1 x5/8 0.15 113/32 13/32 1/2x3/8 0.04 9/16 21/32 11/4 0.42 17/8 17/8 3/4 0.10 17/32 17/32 0 11/4x1 0.33 1'/32 11/2 3/4x5/8 0.12 29/32 7/8 11/2 0.66 21/4 21/4 314x1/2 0.10 17/32 3/4 2 1.23 215/16 215/16 1 0.21 23/32 23/32 6071 21/2 1.96 311/16 311/16 1 x3/4 0.16 23/32 5/8 W B bow- 3 2.93 41/32 41/32 11/4 0.31 11/32 11/3 Intermediate Radius Cx C-Wrot 4 5.95 51/4 51/4 11/4x1 0.31 15/8 175/3 APPROX 11/2 0.46 17/32 17/32 • . • INCHES 11/2x11/4 0.35 15/32 13/32 1/2 0.06 19/3 19/3 2 0.84 11/2 11/2 5/8 0.09 7/8 7/8 2x11/2 0.58 17/16 11/4 3/4 0.14 13/16 3/16 21/2 1.41 127/32 127/32 1 0.24 11/16 11/16 3 207 23/32 23/32 31/2 294 23/8 23/8 4 4.23 215/32 225/32 5 7.74 27/8 27/8 6 10.95 37/16 37/16 8 29.50 423/32 423/32 Oars t prioe sheet for Made to Oder items and for rd ni rrum order quantities. ® NIBMINr-VVCRDF64DQ14Rf9s• 1516MICCL&1AR'ST.• 954-WUIN46516-4740• LISA- R-11.806.234.0227 TITH SERACEB R-11.8138.446.4226• FAX 1.800.234.0557• U B:;tN Al1CNAL S9RICE R-1+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 04 ELBOWS continued _F_ o 607-2 607-2-LT 90° Fitti ng B bow-Close Fbugh 90° Fitti ng 8 bow-Long Fbdi us 607-2-2-LT Fig x C-Wrot Rg x C-Wrot 90° Fitti ng B bow-Long Fbdi us APPIRICK DIM.B DIM.C APPRCK Rg x Rg-Wrot NCM.SIZE 1/4 0.02 - 3/4 3/8 1/8 0.01 13/32 1/2 • ..-� •• :. 3/8 0.03 15/16 1/2 1/4 0.02 11/8 3/4 1/4 0.02 27/32 1/2 0.04 31/32 3/8 3/8 0.05 11/8 7/8 3/8 0.04 11/8 5/8 0.07 17/32 17/32 1/2 0.08 19/16 13/32 1/2 0.08 119/32 3/4 0.10 111/32 17/32 1/2X3/8 0.06 15/16 13/16 5(8 0.10 111/16 1 0.20 13/4 27/32 1/2x1/4 0.03 11/4 5/8 374 0.16 115/16 11/4 0.33 21/8 11/32 5/8 0.10 125/32 13/32 1 0.31 21/2 11/2 0.46 2 13/32 17/32 3/4 0.16 115/16 11/8 11/4 0.43 211/32 2 0.84 227/32 11/2 1 0.31 21/2 121/32 11/2 0.65 37/16 21/2 1.39 315/32 129/32 11/4 0.43 229/32 17/8 2 1.25 411/32 3 210 313/16 23/32 11/2 0.66 213/32 21/4 4 4.00 43/4 225/32 11/2x11/4 0.50 33/8 23/32 2 1.27 411/32 231/32 21/2 216 57/32 311/16 3 3.10 53/4 41/32 B t- 1, 7__ 16i• E Ito C •� _ 707-2-4 607-2-1 - • 90° Fitting Bbow 90° Fitting B bow- Rg x M-Cast Intermediate ladius 607-2-2 APPPDX. DIM.B DIVE NCM.SIZE NErWT./LBS. INCHES I RNCHES g x C-Wrot 90° F tt i ng B bow-Q ose Fbugh 1/2 0.12 7/8 Z5/32 • RgxRg-Wrot . INCHES 1/2 0.06 15/32 19/32 • i ••.• •INCHES 5/8 0.09 19/16 7/8 1/2 0.04 11/16 3/4 0.14 15/8 13/16 314 0.12 115/32 1 0.24 21/32 11/16 1 0.20 123/32 11/4 0.33 21/8 11/2 0.46 2 13/32 2 0.82 2 27/32 3 212 37/8 Consult pd oe sheet for Made to Q-der iterrs and for n i ni rrum order quantities. NIBDJINCWCR.DFEADCLIARIH:6- 1516MIDDt.B3lWSC• a1+RRrIN465164740• USA- R-t1.800.234.0227 TEHSERACHiFl-t 1.888.446.4226• FAX 1.800.234.0557• INTt33VATICNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.00m www.nibco.com AHEAD OF • ELBOWS 41 c 7F E 707-3 707-3-5-A 707-46 90° B bow Cx F-Cast 90° Fy-Set 8 bow Cx F-Cast 90° Union B bow Cx M-Cast --. NCM.SIZE NErWT./LBS. INCHES INCHES NCM.SIZE NErWT./LBS. INCHES INCHES NCM.SIZE NETWT/LBS. INCHES INCHES 1/4 0.06 13/32 9/16 1/2 0.21 9/16 7/8 318 0.21 13/32 13/16 3/8 0.09 7/16 11/16 1/2 0.30 11/32 11/2 3/8x1/2 0.13 9/16 13/16 3(4 0.49 15/16 113/16 1/2 0.12 7/16 13/16 1 0.72 123/32 15/8 1/2x3/4 0.18 11/16 15/16 E 11/4 1.16 13/4 127/32 1/2X3/8 0.09 1/2 13/16 1/2x1/4 0.10 3/8 23/32 I 3/4 0.18 21/32 15/16 ° 3/4x 1 0.35 13/16 11/8 c 3/4x1/2 0.20 9/16 15/16 f 1 0.43 2/32 11/4 707-3-6 1 x314 0.35 11/16 13/16 90° Union 8bow Cx F-Cast a c 1 x1/2 0.26 9/16 11/8 ••--. 11/4 0.67 1 11/2 NCM.SIZE NEFWT./LBS. INCHES INCHES 11/4x3/4 0.47 9/16 111/16 1/2 0.31 1118 7/8 707-5 11/2 0.89 11/8 15/8 3/4 0.49 17/16 1 90° Drop 8 bow Cx C-Gast 2 1.46 13/8 115/16 1 0.79 17/8 11/4 ..FU NOR SIZE INCHES INCHES 1/2 0.13 13/32 7/16 i 3/4 0.24 17/32 9/16 46 C c 0. E G 707-3-5 707-4 90° Drop 8 bow Cx F-Cast 90° B bow Cx M-Cast ° NCM. APPFCK DIM.A DIM.0 DIM.E I APPIROC DIM.C DIM.E A SIZE NErWULBS. INCHES INCHES INCHES NCM.SIZE NErWT./LBS. INCHES INCHES 318 0.12 11/32 7/16 11/16 3(8 0.08 5/16 7/8 707-5-A / �+ lam 3(8X1/2 0.18 11/32 9/16 13/16 1/2 0.12 7/16 15/32 9V�o � la Set Bbow x -Cast 1/2 0.15 13/32 9/16 7/8 1/2x3(4 0.18 9/16 15/32 1/2X3/8 0.17 3/8 1/2 13/16 1/2X3/8 0.10 5/16 15/16 ...O ,INCHES ,• E. ,• , 3/4 0.28 17/32 21/32 15/16 3(4 0.21 9/16 111/32 3/4x1/2 0.24 17/32 9/16 15/16 3/4x1 0.33 21/32 113/32 1/2 0.13 4 0.21 1 1/5/11 7/16 1 0.49 5/8 25/32 11/4 3(4x1/2 0.18 7/16 17/32 3Js 9/1s 9/16 1 0.43 23/32 15/8 11/4 0.58 7/8 111/16 11/2 0.81 1 131/32 2 1.38 11/4 29/32 Consult pri ce sheet for Made to Oder iterrs and for rri ni n-um order quart iti es. m NIBMINC VVCRDFE4DC11ARTEM- 1516 MICCLE3-R(ST.- aA-WU IN465164740- USA- RA1.803.234.0227 TEH SERACEB R-t 1.8B8.446.4226• FAx 1.800.234.0557• U B:;tN Al1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 04 ELBOWS continued FITTI N REDUCERS . INCHES 4x31/2 2.09 25/8 t 4x3 2.00 31/22 4x21/2 1.56 31/32 4x2 1.76 313/32 A g 5x4 3.30 39/16 5x3 2.97 41/16 707-6 600-2 5x21/2 3.30 411/32 5x2 2.88 411/16 90° Union B bow C C-Cast Fitting Ibducer Rg x C-Wrot 6x5 5.56 43/16 APPR3( • • '• • 6x4 5.09 49/16 • . • • • INCHES 6x3 4.67 51/16 3/8 0.17 31/32 5/16 1/4x1/8 0.01 15/32 6x21/2 4.47 511/32 1/2 0.24 1 7/16 3(8x1/4 0.01 19/32 6x2 4.51 519/32 3(4 0.39 117/32 9/16 3/8x1/8 0.01 3/32 8x6 1233 515/32 1 0.64 121/32 23/32 1/2x3(8 0.03 11/16 8x5 10.35 515/16 11/4 1.07 119/32 23/32 1/2x1/4 0.02 25/32 8x4 11.10 67/16 5/8x1/2 0.04 7/8 8x3 10.63 615/16 5(8x3(8 0.04 31/32 8x21/2 11.41 73/16 5/8x1/4 0.03 11/22 8x2 10.86 77/16 34x5/8 0.06 31/32 F 3/4x1/2 ao6 11/6 FLANGES - fi 3(4x3(8 0.05 11/6 CLASS 125 34x1/4 0.05 12/22 A 1 x3/4 0.10 17/22 1 x5/8 0.09 13/8 708 1 x 1/2 0.09 11/4 90° Ranged Sink Bbow 1 x3(8 0.08 19/32 Cx F-Cast 1 1/4x1 0.15 15/16 11/4x3/4 a16 11/2 • --•• • • 11/4x1/2 0.13 13/8 1/2 0.20• 7/8 9/16 13/4 11/2x11/4 0.23 113/32 w 11/2x1 0.21 15/8 � ' 11/2x3/4 a20 17/8 11/2x1/2 0.16 119/62 2x11/2 0.40 131/32 F� 2x11/4 0.34 23/32 741 2 x 1 0.35 127/32 2x3/4 0.35 127/32 CorTpani on Range C-Cast 0 2x1/2 0.34 131/32 • -•-• 21/2x2 0.65 131/32 ' • • • a • 21/2x11/2 0.65 23/8 1/2 0.55• 1/8 31/2 3/16 23/s 21/2x11/4 0.60 27/32 3(4 0.71 1/8 37/8 3/16 2314 21/2x1 0.78 29/22 1 1.26 1/8 41/4 1/4 31/8 1 11/4 1.42 1/8 45/8 1/4 31/2 764 3x21/2 1.03 2/4 90° Double Bbow 3x2 0.99 29/16 11/2 1.82 1/8 5 5/16 37/8 3x11/2 0.81 219/32 2 2.76 1/8 6 3/8 43/4 Cx Cx C-Cast 3x1 1/4 1.29 31/4 2112 4.29 1/8 7 3/8 51/2 • . •• •• DIM.INCHES Dim • 31/2x3 1.48 211/22 3 5.26 1/8 71/2 7/16 6 1 x3/4x314 0.33 3/4 21/32 Q.Y$irXes.. 4 7.60 1/8 9 7/16 71/2 5 9 .04 /a 10 /16 81/2 6 1268 1/8 11 1/2 91/2 Cxnsult price sheet for Made to Q-der items and NOTE Drn B=TbeaoptoRargeFace for rri ni rrum order quantities. NIBOJING WCRDFEADCLARUS- 1516MIDD-EBL (SC• BJ4PR1;IN 46516-4740• USA• R-t 1.800.234.0227 TECISERACESFR1.888.446.4226• FAX1.800.234.0557• INIB3VAlTCNALSERACER-t+1.574.295.3221- FAX.+1.574.295.3455 wwwAboo.00m www.nibco.com AHEAD OF • FLANGES - PLUGS STRAPS CLASS 150 E: � '(__ r .. - + H 623 616 Copper' Hanger Strap Fitted Rug F#g-Wrot SIZE NErWT./LBS. t APPROX DIM.A 3/4"Wider25R.Fb1 1.93 NCM.SIZE INCHES 771 3(8 0.016 1/16 1/2 0.02 3/32 J Companion Range C-Cast 3r4 0.24 1/6 •-• • INCHES SIZE NETVVT./LBS. • E RETURN BENDS - 3/4 1.15 1/8 37/8 11/32 23/4 624 1 1.59 1/8 41/4 3/8 31/8 Tube Strap 11/4 1.91 1/8 45/8 13/32 31/2 ~E 11/2 2.59 1/8 5 7/16 37/8 NCM. , PPT• 2 4.10 1/8 6 1/2 43/4 1/8 0.01 21/2 6.22 1/8 7 9/16 51/2 4 0.01 3 8.03 1/8 71/2 5/8 6 d 13//8 0.01 4 11.85 1/8 9 11/16 T/2 1/2 0.01 5 15.69 1/8 10 3/4 81/2 5r8 0.02 6 20.32 1/8 11 13/16 91/2 638 3/4 0.02 NOTE❑m B=TubeaoptoHarWFaoe Fbturn Bend Cx C-Wrot 1 0.02 ...• DIM.E DIM.J 11/4 0.03 •M.SIZE NErVVT./LBS. INCHES INCHES 11/2 0.03 1/8 0.02 21/32 1 2 0.04 1/4 0.04 21/32 11/2 TEES 3✓8 0.08 11/32 11/2 1/2 0.13 11/2 2 w 3!4 0.26 119/32 21/2 1 1 0.44 23/32 3 11/4 0.70 23/4 4 ❑ E 11/2 1.04 35/32 41/2 - 7 2 1.92 329/32 51/2 �. F ❑ E 775 705 Threaded Companion Range -T Baseboard Tee Cx Fx C-Cast F-Cast NOM. APPROK DIM.E DIM.F DIM.W NErWT. INCHES i E NEFWT./LBS. INCHES INCHES • • i 2 4.31 1 6 43/4 1/2x1/8x3t4 0.15 7/16 9/16 11/16 21/2 6.30 11/8 7 51/2 a 1/2x1/8x1/2 0.11 7/16 7/16 9/16 3 7.13 13/16 71/2 6 739 3i4 x 1/8 x 1 0.29 5/8 3/4 13/16 4 10.20 15/16 9 71/2 Pet urn Bend-Closed 3/4x1/8x314 0.19 9/16 9/16 17/16 Cx C-Cast 1x1/8x1 0,32 23/32 23/32 3/4 APPFOC DIM.E DIMA 11/4x1/8x11/4 0.51 7/8 7/8 15/16 •R SIZE NErVVT./LBS. INCHES INCHES 3/4 0.29 15/32 15/16 Calsult price street for Made to Crder iterrs and for n i ni rrum order quartiti es. mNIB00INC VVCR.DF64DCLARf9s- 1516 MICCL&1ARt'ST.- am-wu IN46516-4740- USA- RA1.80D.234.0227 • TEICH SERACES H-t 1.8138.446.4226• FAX 1.800234.0557• U B:;tN Al1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.corn NIBCCY www.nibco.com AHEAD OF • 04 TEES continued i _ a � G D - g f C� �►�F 705-D 611 NOTE Tee sizes are read R n x Run x Cutlet. Vent 8 bow Cx C-Cast Tee Cx Cx C-Wrot INCHES APPROX INCHES INCHES 5/8 0.12 7/16 7/16 7/16 1/2 0.10 7/16 7/16 25/32 3t16aD 0.01 7/32 7/32 7/32 5(8x5(8x3i4 0.15 23/32 23/32 1/2 344 0.20 9/16 9/16 29/32 1/8 0.02 1/4 1/4 7/32 5t8X5t8X1/2 0.11 7/16 7/16 13/32 1 0.31 23/32 23/32 11/32 1/8x1/8x1/4 0.02 13/32 13/32 1/4 5t8x5t8X3t8 0.09 7/16 7/16 5/8 1/8x1/8x3t16aD 0.01 1/4 1/4 5/16 5(8x5/8x1/4 0.09 7/16 7/16 3/4 1/8x3t16nax1/8 0.01 1/4 11/32 7/32 5(8x1/2x5/8 0.10 7/16 5/8 7/16 5i16m. 0.02 3/8 3/8 5/16 5(8x1/2x1/2 0.09 7/16 19/32 13/32 Y 5i16aax5(16nax1/4 0.02 3/8 3/8 1/a 7 3 7 5t8x3/8x5(8 0.10 /16 /a /16 5t16oax5t16aax1/8 0.02 3/8 3/8 13/32 5(8 X3i8X3i8 0.09 7/16 3/4 5/8 5t16oD.x1/8x5t16aD. 0.02 3/8 13/32 5/16 1 1 1 344 0.15 /z /z /z 5i16nDx1/8x1/8 0.02 3/8 13/32 13/22 3r4x3(4x1 0.22 23/32 23/32 1/2 �I E s 1/4 0.02 5116 5/16 1/4 3i4x3i4x5i8 0.16 17/32 17/32 11/16 1/4x1/4x1/2 0.06 19/32 19/32 3/8 3t4x3t4x1/2 0.12 7/16 7/16 17/32 710-3 1/4x1/4x318 0.04 17/32 17/32 11/32 3t4x3t4x3t8 0.12 7/16 7/16 21/32 Tee Fx Fx C-Cast 1/4x1/4x5116nD 0.02 5/16 5/16 5/16 3i4X3i4x1/4 0.12 13/32 13/32 23/32 1/4x1/4x1/8 0.02 5/16 5/16 1132 3t4x3t4x1/8 0.12 7/16 7/16 13/16 - • • 1/4x1/4x3t16na 0.02 5/1s 5/16 7/1s FWT 3t4x5t8x3t4 0.15 17/32 11/16 1/2 ICI • 1/4x5t16oax1/4 0.02 5/16 3/8 1/4 3i4x5i8x5i8 0.15 17/32 23/32 11/16 1/2 0.20 9/16 7/8 7/8 1/4x1/8x1/4 0.02 5/16 13/32 1/4 3(4x1/2x3(4 0.15 17/32 25/32 112 344 0.37 11/16 1 1 1/4x1/8x1/8 0.02 5/16 13/32 3/8 3(4x1/2x1/2 0.12 13/32 19/32 1/2 3(4x3/4x1/2 0.31 11/16 31/32 31/32 348 0.04 11/32 11/32 11/22 3(4x1/2x3(8 0.12 7/16 21/32 21/32 3(4x1/2x3(4 0.29 11/16 1 15/16 3/8x3/8x1/2 0.07 17/32 17/32 3/8 3t4x3t8x3t4 0.15 17/32 17/32 1/2 3/4x1/2x1/2 0.27 11/16 31/32 7/8 3/8x3/8x1/4 0.04 11/32 11/32 15/32 3i4x3(8x1/2 0.12 7/16 23/32 17/32 3t8x3t8x5t16nn 0.04 11/32 11/32 11/M 3t4x3t8x3t8 0.12 7/16 23/32 21/32 3✓8x3i8x1/8 0.04 11/32 11/32 11/32 7/8 0.31 23/32 23/32 23/32 -i 3/8x1/4x3/8 0.04 11/32 17/32 11/32 1 0.30 11/16 11/16 21/32 loll F 318x 1/4x 1/4 0.04 11/32 17/32 15/32 1 x 1 x 11/2 0.60 111/32 111/32 31/32 3t8X1/4x1/8 0.04 11/32 17/32 9/16 1 - - 1 x 1 x 1 1/4 0.42 1 1 /32 3/8x1/8x3/8 0.04 11/32 19/32 11/32 1x1x3i4 0.27 9/16 9/16 21/32 318x1/8x1/8 0.04 11/32 19/32 19/32 1x1x5t8 0.26 9/16 9/16 7/8 1/2 0.06 11/32 11/32 11/32 1 x 1 x 1/2 0.23 15/32 15/32 23/32 n 1/2x1/2x1 0.29 1 1 21/32 1X1 X3/8 0.23 15/32 15/32 29/32 71113`4^ 1/2x1/2x3i4 0.12 17/32 17/32 11/22 1 x 1 x1/4 0.23 15/32 15/32 1 Tee M x Fx C-Cast 1/2x1/2x5t8 0.11 5/8 5/8 7/16 1 x3t4x1 0.29 11/16 7/8 21/32 APPROX DIMENSICNS 1/2x1/2x3/8 0.07 5/16 5/16 13/32 1x3t4x3t4 0.26 9/16 23/32 3/4 • • 1/2x1/2x1/4 0.06 5/16 5/16 9/16 1X3t4x1/2 0.22 15/32 21/32 23/32 3i4 0.34 11/16 111/32 1 1/2x3/8x1/2 0.07 7/16 17/32 3/8 Ctybrues.. 3/4x3/4x1/2 0.33 11/16 17/32 31/32 1/2X3i8X3i8 0.06 5/16 17/32 13/32 1/2x3i8x1/4 0.06 5/16 17/32 17/32 1/2X1/4x3t8 0.06 5/16 5/8 9/16 07rtirwes... Consult price sheet for Made to Oder iterrs and for rri ni rrum order quantities. NIBODINGWgaDFEADaAR19ZS• 1516MIDaauwST.- 9-W-Y4ff,IN46516-4740• USA- F}t1.800.234.0227 m TEIi SERACES R-t 1.888.446.4226• FAX 1.800234.0557- INTB:NA-1CNAL SERAO F}t+1.5-/4.295.3221• FAX+1.574.295.3455 www.niboa oom www.nibco.com AHEAD OF • TEES continued G C ►�-F NOM Tee sizes are read Rjn x fa n x O.Al et. 611 APPROX DIMENSICNS APPROX DIMENSICNIS Tee C C C-Wrot continued INCHES IF G APPROX DIMENSICNS • . INCHES IF G 2 1.30 19/32 19/32 11/32 3 3.15 17/8 17/8 21/32 1x1/2x1 0.29 11/16 1 21/32 2x2x21/2 2.34 2 2 121/32 3x3x21/2 3.55 129/32129/32 23/8 1x1/2x3/4 0.27 9/16 13/16 3/4 2x2x11/2 1.17 11/4 11/4 123/32 3x3x2 3.19 115/32 115/32 131/32 1x1/2x1/2 0.22 15/32 25/32 23/32 2x2x11/4 1.12 9/32 9/32 17/8 3x3x11/2 3.08 115/32 115/32 29/32 11/4 0.43 13/16 3/16 13/16 2x2x1 0.90 27/32 27/32 11/4 3x3x11/4 3.10 115/32115/32 27/16 11/4x11/4x2 1.13 130/3213D/3213/32 2x2x3/4 0.88 19/32 19/32 11/4 3x3x1 212 G7/32 Z7/32 131/32 11/4x11/4x11/2 0.60 13/16 13/16 29/32 2x2x1/2 1.17 11/4 11/4 21/4 3x3x3/4 239 27/32 Z7/32 23/16 11/4x11/4x1 0.45 25/32 25/32 29/32 2x1 1/2x2 1.16 19/32 17/8 111/32 3x3x1/2 1.82 27/32 Z7/32 23/8 11/4x11/4x3/4 0.37 21/32 21/32 3/4 2x11/2x11/2 1.15 11/4 13/4 123/32 3x21/2x3 3.08 17/8 23/8 131/32 11/4x11/4x1/2 0.30 1/2 1/2 2J/32 2x1 1/2x11/4 1.15 7/32 13/4 111/32 3x21/2x21/2 3.12 129/32211/32 26/32 11/4x11/4 x3/8 0.34 23/32 23/32 29/32 2x1 1/2x3/4 0.83 21/32 15/16 17/32 3x21/2x2 228 115/321Z7/32131/32 11/4x1 x11/4 0.43 13/16 11/32 13/16 2x1 1/2x1/2 1.12 11/4 125/32 21/4 3x2x3 3.62 129/32 217/32115/16 11/4x1 x1 0.47 25/32 7/8 29/32 2x1 1/4x2 1.58 19/32 115/32 19/32 3x2x21/2 3.56 129/32 29/16 26/16 11/4x1x3/4 0.35 21/32 25/32 7/8 2x11/4x11/2 1.16 11/4 131/32123/32 3x2x2 3.22 115/32 131/32 131/32 11/4x1x1/2 0.30 1/2 5/8 29/32 2x11/4x11/4 1.19 15/16 111/32111/32 3x1 1/2x3 3.13 129/32225/32 23/32 11/4x3/4x11/4 0.42 13/16 11/8 13/16 2x1 1/4x1 0.90 27/32 19/32111/32 3x1 1/4x3 3.63 129/32 225/32115/16 11/4x3/4x1 0.45 25/32 11/32 29/32 2x11/4x3/4 0.85 21/32 1 18/27 3x1x3 3.20 131/32219/32 23/16 11/4x3/4x314 0.37 21/32 15/16 7/8 2x1x2 1.11 11/8 125/32 11/4 3x3/4x3 3.55 131/32229/3223/16 1 1/4x3/4x 1/2 0.30 1/2 3/4 29/32 2x 1 x 1 0.89 27/32 19/32 111/32 31/2 5.20 217/32 217/32 217/32 11/4x1/2x11/4 0.41 13/16 17/32 13/16 2x3/4x2 1.15 19/32 23/16 11/4 4 8.12 213/32 213/32 217/32 11/2 0.61 31/32 31/32 2'/32 2x1/2x2 1.15 19/32 23/8 11/4 4x4x3 6.70 21/32 21/32 221/32 11/2x11/2x2 1.11 125/32 125/32 13/32 21/2 2.40 15/8 15/8 15/8 4x4x21/2 6.65 21/32 21/32 35/32 11/2x11/2x11/4 0.62 29/32 29/32 11/16 21/2x21/2x2 1.97 15/16 15/16 121/32 4x4x2 5.82 115/32115/32 27/16 11/2x11/2x1 0.55 11/16 11/16 7/8 21/2x21/2x11/2 1.53 13/32 13/32121/32 4x4x11/2 3.94 111/32 111/32217/32 11/2x11/2x3/4 0.45 11/16 11/16 11/32 21/2x21/2x11/4 1.72 13/32 13/32127/32 4x4x11/4 4.04 111/32111/32229/32 11/2x11/2x1/2 0.40 1/2 1/2 11/32 21/2x21/2x1 1.34 25/32 25/32 111/16 4x4x1 3.72 1 1 29/16 11/2x11/4x11/2 0.62 11/32 13/16 29/32 21/2x21/2x3/4 1.34 25/32 25/32 113/16 4x4x3/4 3.70 1 1 211/16 11/2x11/4x11/4 0.62 31/32 13/32 31/32 21/2x21/2x1/2 1.34 25/32 25/32 21/8 4x3x4 7.05 225/32 37/32 217/32 11/2x1 1/4x1 0.51 25/32 1 11/32 21/2x2x21/2 1.99 121/32 23/32 121/32 4x3x3 5.03 21/32 215/32 215/32 11/2x11/4x3/4 0.49 11/16 13/16 11/32 21/2x2x2 1.95 111/32 15/8 123/32 4x3x21/2 5.04 21/32 215/32 229/32 11/2x11/4x1/2 0.41 1/2 25/32 11/32 21/2x2x11/2 1.57 13/32 213/32 121/32 4x3x2 5.87 115/32131/32 27/16 11/2x1 x11/2 0.59 11/32 111/32 2x/32 21/2x2x11/4 1.57 13/32 119/32127/32 4x21/2x4 7.19 225/32 315/32227/32 11/2x1 x11/4 0.63 29/32 11/8 11/16 21/2x2x1 1.40 25/32 19/32 13/4 4x2x4 7.08 225/32319/32227/32 11/2x1 x1 0.54 25/32 11/16 11/32 21/2x2x3/4 1.35 25/32 19/32 127132 Cbdirvedonrvid 11/2x1 x3/4 0.44 11/16 31/32 15/16 21/2x11/2x11/2 1.76 13/32 113/32 13/8 11/2x1x1/2 0.39 1/2 25/32 11/32 21/2x1 1/4x21/2 2.40 121/32 27/16 121/32 11/2x3/4x11/2 0.62 11/32 17/16 11/16 21/2x1 x21/2 2.04 121/32223/32 121/32 11/2x3/4x11/4 0.58 29/32 111/3211/16 21/2x3/4x21/2 2.00 121/32 211/16121/32 11/2x3/4x1 0.54 2'/32 11/4 11/32 21/2x1/2x21/2 2.46 11/2 27/32 11/2 11/2x3/4x314 0.47 11/16 13/32 2x/32 arl/"ues•• 11/2x3/4x1/2 0.39 1/2 29/32 31/32 OymItprioe sheet for Made to Order item and 11/2x1/2x11/2 0.62 11/32 113/32 31/32 for ni ni rrum order quantities. c6tirx es... mNIBDJING WCF;DHISNX A T6S• 1516MIDaEUWST.• RM-PRr,IN46516-4740• USA- R-i 1.800.234.0227 ' 7EHSERACFSR-t 1.888.446.4226• FAX 1.800.234.0557• IWB:NAnGWALSERACER-t+1.574.295.3221• FAx+1.574.295.3455 www.niboaoom NIBCCY www.nibco.com AHEAD OF • 04 TEES continued 611-HE Heat Exchanger Tee Cx Cx C-Wrot Tube slips enti rely through fitti rig on small end of nn.Sizes sam as I i sted under 611 where tee c has one or more reductions on one end of run. F e -i 611 611-2 Tee Cx Cx C-Wrot continued Fitti ng Tee Cx R x C-Wrot • - .: E : � . . 5 8.29 227/32 227/32 313/32 _ 1/2 0.07 11/32 3/8 7/16 5 x 5x4 7.09 27/32 29/32 31/16 314 0.15 115/32 1/2 17/32 5 x 5 x 3 5.91 125/32 125/32 33/16 ---�F 5x5x21/2 5.90 15/16 15/16 33/16 711 5x5x2 5.29 11/16 11/16 33/16 Tee Cx Cx C-Cast 5x5x11/2 4.87 11/32 11/32 33/16 APPIROX • • 5x5x11/4 4.50 11/16 11/16 33/16 • - • I A 5x5x1 4.20 9/16 9/16 33/13 t --T- J, 5x4x5 1153 221/32429/32313/32 11/4x1/2x1 0.48 3/4 3/4 7/8 5x4x4 8.17 21/4 417/32 33/a 11/4x1/2x1/2 0.50 9/16 5/8 1 c c 5x2x5 9.47 23/4 51/16 31/2 11/2x1/2x11/4 0.70 7/8 31/32 1 6 13.50 39/32 39/32 41/32 2x2x3 3.11 121/32121/32 15/16 711-5 6x6x5 11.67 211/32 225/32 41/32 2x1 x1 1/2 1.23 1 11/4 11/4 Drop Tee Cx Cx C-Cast 6x6x4 10.17 29/32 21/32 311/16 2x3(4x3(4 0.84 21/32 7/8 11/4 ---• DIMENSICNS 6x6x3 8.92 125/32 125/32 311/16 21/2x21/2x3 298 13/4 13/4 117/32 NErWT. INCHEB 21/2x1 1/2x2 202 11/4 115/32 11/2 • 6x6x2 7.78 19//32 1 6x6x21/2 8.11 1132 17/32 9/32 31111/4/13 21/2x11/2x11/2 1.76 13/32113/32 13/8 1/2 0.16 3/8 7/16 6x6x11/2 6.86 1 1 311/16 21/2x1/2x21/2 246 11/2 27/32 11/2 6x6x11/4 6.66 29/32 29/32 311/16 3x3x4 6.96 211/32 211/32 123/32 6x6x1 7.19 9/16 9/16 311/13 3x21/2x11/2 253 1 13/32 13/4 6x6x3(4 7.18 9/16 9/16 49/13 3x2x11/2 262 1 11/4 13/4 6x6x1/2 7.17 9/16 9/16 411/13 4x4x6 16.47 37/32 37/32 21/32 6x4x6 16.60 33/16 51/8 41/1 4x2x2 4.64 11/4 13/4 21/4 6x4x11/2 9.62 15/16 215/16 33/4 8 36.81 41/16 41/16 51/32 8x8x6 27.86 31/16 31/16 51/8 8 x 8 x 5 24.90 225/32 22132 415/16 c 8x8x4 22.26 21/16 21/16 43/4 8x8x3 20.01 19/16 19/16 43/4 8x8x21/2 19.02 15/16 15/16 43/4 8x8x2 18.01 11/16 11/16 43/4 NOTE Tee sins are read Rn x Ran x Qatlet. 711-A Supply and Fbt urn Tee Cx Cx C-Cast APPROX DIMENSICINS INCHES • 1/2 0.17 13/16 1 Cbrak price sheet for Made to C?der iterrs and for ninimamorder quantities. NIBO)ING WCRDFEADCLARUS- 1516MIDDt.B UR(SC• BJ4PR1;IN 46516-4740• USA• R-t 1.800.234.0227 m TEHSERACHiFl-t 1.888.446.4226• FAX 1.800.234.0557• INTt33VAT1CNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.aom www.nibco.com AHEAD OF • TEES continued TRAPS 4% 1 F G F F J D 712 713 Tee Cx Cx F-Cast Tee CxCxM -Cast •-- . INCHES 3/8 0.11 11/16 7/16 7/16 1/2 0.14 13/16 7/16 7/16 1/2 0.15 13/32 7/16 3/4 0.33 1 21/32 21/32 3/4 0.29 19/32 9/16 698 1 0.54 11/4 7/8 7/8 11/2 1.08 15/e 11/8 11/6 - Sidi on Line RTrap 2 1.74 17/8 13/8 13/8 CX C-WrOt 1/2x1/2x1/4 0.16 13/16 1/2 1/2 Arno jor app icationof this fitti rig ison the sudion 1/2x1/2x3/8 0.15 13/16 1/z 1/z , line ofarefrege-ationcorrpressor The line is 1/2x1/2x3/4 0.23 15/16 11/16 11/16 looped,by use of the SUdionLine RTrap,tothe ] floor prior to being nun vertically upwards to 3/4x3/4x3/8 0.23 7/8 1/2 1/2 e ; prevent the drainage of oil backtothe 3/4x3/4x1/2 0.24 57/64 17/32 17/32 cmvessor during shut down penods.Additional 11/4x11/4x1/2 0.49 11/4 9/16 9/16 714 RTraps are used for each 20'or riser pipe.this 1 1/4x1 1/4x3/4 0.55 15/16 11/16 11/16 Tee Cx Fx C-Cast prevents high velocity build-up as the al orliquid 11/4x11/4x1 0.66 17/16 7/a 7/8 •,-• beginstoretumto the corpressor dud ngthis NErWT INCHES I• shut down period. 1x1x1/2 0.34 11/8 9/16 9/16 • -••• DIMENSICNS 1 x 1 X3/4 0.42 13/16 11/16 11/16 N ET VV T. INCHES 11/2x11/2x1/2 0.62 13/8 9/16 9/16 1/2 0.18 7/16 9/16 7/8 NCIVI. . ■ 1 1/2x 1 1/2x3t4 0.70 17/16 11/16 11/16 1/2x3(4x1/2 0.27 7/16 9/16 13/16 1/2 0.36 53/8 3 3 6 11/2x11/2x1 0.79 11/2 13/16 13/16 3(4 0.31 9/16 11/16 1 5/8 0.45 5318 27/8 3 6 2x2x1/2 0.97 15/8 17/32 17/32 3✓4x1/2x3/4 0.26 9/16 9/16 15/16 3/4 0.58 5318 23/4 3 6 2x2x3/4 1.10 111/16 11/16 11/16 1 0.52 23/32 13/16 11/4 1 0.92 51/4 221/32 3 6 2x2x1 1.23 13/4 13/16 13/16 1x3/4x1 0.43 23/32 23/32 13/16 11/4 1.16 53/8 27/8 33/4 61/8 1/4 0.08 13/16 9/32 9/32 1 x 1/2 x 1 0.42 3/4 3/4 11/8 11/2 2-32 75/8 35/8 5 9 11/4 0.76 17/16 1 1 11/4 0.70 7/8 1 113/32 2 3.93 8 35/8 6 97/16 3/8x3/8x1/4 0.12 11/16 7/16 7/16 11/4x3/4x11/4 0.62 7/8 7/8 17/32 3✓4x1/2x3/4 0.28 1 21/32 11/16 11/4x1/2x11/4 0.56 7/8 7/8 13/16 3/4x3/4x1 0.40 11/8 7/8 7/8 11/2 1.00 1 11/8 19/16 11/2x3/4x11/2 0.88 1 1 113/16 2 1.72 11/4 13/8 17/8 4A 2x3/4x2 1.57 11/4 11/4 2 2x1/2x2 1.58 11/4 11/4 2 6-11:- A A t 712-5 Drop Tee C x C x F-Cast APPROX DIMENSICNS N ET VVT INCHES • 112 0.25 3/8 9/16 7/8 Consult price sheet for Made to O-de"item and 3/4 0.38 1/2 21/32 1 for ninirrumorderquantities. NIBMINCVVCRDF64DCLARf9s• 1516MICOL&1AR'ST.• 9J4-W71N46516-4740• LISA- R41.801).234.0227 TEH SERACTB R-t 1.8B8.446.4226• FAX 1.800.234.0557• INT9'dJAl1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 0- UN I ON S VENTURI A 733-2 621 Fitting Union Rg x C-Cast Menturi Insert-Wrot 633-W DIM.B Converts any tee i nto a sped al purpose venturi or Union Cx C-Wrot NC)M.SIZE ' scoop tee APPROX DIM.A 1 1/2 0.23 19/32 _.• •M.SIZE NETWT./LBS. INCHES S4 0.35 15/8 NOM. 1/8 0.10 5/8 1 0.55 127/32 1/2 0.01 . 1/4 0.15 11/16 3/4 0.02 3/8 0.22 7/16 1 0.03 1/2 0.31 13/32 _ _ 11/4 0.04 314 0.33 3/8 1 0.54 1/2 YS A 733-3 Fitting Union Cx F-Cast APPROX DIVA A 1/4 0.14 15/32 e e 3/8 0.19 13/32 733 A 1/2 0.26 11/8 748 Union Cx C-Cast 3/4 0.37 15/16 90° Y Cx Cx C-Cast APPROX DIM.A 1 0.61 17/16 APPROX NOM.SIZE • 11/4 0.98 119/32 NCIM.SIZE • INCHES 114 0.10 11/16 11/2 1.21 113/16 1/2 0.11 7/32 7/16 3/8 0.15 7/16 2 1.90 25/32 3/4 0.25 7/16 5/8 1/2 0.22 13/32 1 0.61 1/2 13/16 518 0.31 21/32 3/4 0.31 3/8 1 0.54 1/2 11/4 0.76 1/2 11/2 1.04 23/32 733.4 A 2 1.77 /2 s 21/2 3.25 1 Union Cx M -Cast 3 4.75 15/32 APPROX DIM,A 749 • . - INCHES 1/4 0.13 11/2 45 Y Cx Cx C-Cast 3/8 0.20 15/8 APPROX DIMA • 1/2 0.28 111/16 NOM.SIZE • • a 1/2x3/4 0.35 21/16 1/2 0.15 13/32 7/8 314 0.43 129/32 3/4 0.30 117/32 17/32 1 0.68 21/8 1 0.55 113/16 115/32 11/4 0.95 25/32 11/4 0.81 21/4 17/8 11/2 1.35 213/32 11/2 1.14 26/8 21/8 2 2-17 2"/32 2 2.17 35/16 23/4 21/2 4.13 313/32 Cor>sult price sheet for Made to C rder iterm and for rrinirrumorder quarttities. NIBOJINCWCR.DFEADCLARUS- 1516MIDDt.B3lWSC• al+PRrIN46516-4740• USA,- R-t1.800.234.0227 TEHSERACESFR 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboomm www.nibco.com AHEAD OF • Copper Cast oy R ared R tti ngs 100 Series-Heavy A ared 500 Seri es-A ared Adapters ......................................................23 Cbuoirgs......................................................23 eboays ........................................................23 Nuts ..........................................................24 Tees ..........................................................24 IS00001:2000 lheneiVaduingpartset Sath Ciao Fe Is,NY, aunts Daft,VA ,TX axd R,y-csa,Madm rraxfadue plAdseideraQ.dity M-ag-ert-4demmf—rig tothea etre�sicnofIS}9001 Irtsrdiael satdads NIB0DINC WCRDFEADaPRTEl2S• 1516MIDDL®J;YST.• X14 ARr,IN46516-4740• USA- PR 1.800234.0227 1H7-I SRRACES R4 1.888.446.4226• FAX 1.800.234.0557• INlB:?,A-CNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.niboo.00r NIBCCY www.nibco.com AHEAD OF • 04 ADAPTERS COUPLI NGS ELBOWS 16 , H 104 507 Heavy Rared Adapter � � Rared 90° B bow FL x FL-Cast FLx M-Cast •-• • / • .1 • • INCHES 101 1/2 0.54 15/8 314 0.60 21/2 Heavy R ared Coupi i M 3/4 0.77 131/32 1 1.24 31/4 1 1.60 2'/16 FL x R--Cast 2 5.39 37/8 APPROX N IT CM.SIZE INCHES 3/4 0.98 313/16 7. 1 1.70 55/16 503 R ared Adapter FL x F-Cast E NCM.SIZE NErWr./LBS. INCHES 507-3 1/2 0.36 17/8 R ared 90° 8 bow FL x F-Cast 34 0.48 21/32 1 1.03 23/4 - - NOM.SIZE IN - -• •• •• 11/2 1.99 37/32 1/2 0.49 15/8 11/2 2 3.22 39/16 � 3✓4 0.69 115/16 15/8 501 B 1 1.43 29/16 21/4 R ared Goupl i M FL x FL-Cast ..-. - . INCHES 1/2 0.45 23/8 a 3/4 0.60 21/2 ' e 1 1.24 31/4 - 504 11/4 2.18 31/2 R ared Adapter FL x M-Cast 21/2 2.03 32//32 I �I • 507-4 1/2 0.29 132/32 R aced 99 8 bow FL x M-Cast 314 0.58 211/16 _APPIRCK DIM. 1 0.88 33/16 NCM. /E NErWT./LBS. INCHES INCHES 11/2 1.89 33/4 1/2 0.34 111/16 113/32 2 2.95 415/16 3/4 0.55 131/32 119/32 1 1.34 23/32 2 11/2 280 35/16 21/2 Ox&At price street for Made to Cyder iterrs and for n i ni rrum order quantities. NIBDJINCWCR.DFEADCLIARIH:6- 1516MIDIlE[3LWSC• al+PRrIN46516-4740• USA• R-t1.800.234.0227 TEHSERACHiFl-t 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboomm www.nibco.com AHEAD OF • NUTS T- L 500 Tube Nut—Cast . . � . B 314 0.20 11/16 11/2 1 0.31 13/8 V/8 TEES K 511 R aced Tee FL x FL x FL—Cast --. : ES . . 1/2 0.67 15/8 15/8 15/8 3/4 1.09 2 2 2 1 2.08 25/8 25/8 2618 031.si It prioe sheet for Made to Oder items and for rdnimamorder quantities. m NIBMINC WCRDF64DCLARf9s• 1516MICOL&1AR'ST.• aA-WU IN46516-4740• LISA- R-t 1.800.x#.0227 TIlH SERACTB R-t 1.8B8.446.4226- FAX 1.800.234.0557• INT9'dJAl1CNAL SERACE R-t+1.574.295.3221• FAX-+1.574295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 0- Copper • for PEKlinK Adapters ......................................................26 BassRug......................................................27 O xOings......................................................26 OirrpRngs ....................................................26 OirrpTod ......................................................27 ebaws ........................................................26 Fitting Rxkjm.................................................26 Tees ..........................................................26 Tube Oitter .....................................................27 W09001;20DO The nmiaduing pats at Sath Qers Fal Is,W,, StuatsDM,VA,Namgdod>es,TX and Fbyrsa,Madoo rretxfa;ttre pndids uide'a O dity MalageY SAemmf—rg tothearat re•iaanaf IS09001 Irten-diord 3atda s NIA I NG WCRD FEADQ14R19;S• 1516 MI DDLEBIR'SL• 9J4-14 Z,IN 465164740• USA• R-t 1.800.234.0717 TBDiSERACESR-t 1.888.446.4226• FAX 1.800.234.0557• INTB:NAflCNALSRRACER-t+1.574.295.3221• FAX+1.574.295.3455 www.rtboo.00m NIBCO` www.nibco.com AHEAD OF THE FLOW- FeAsion 5/14/02 off • 111 11111� � � _ APPROX DIM.A APPROX. DIM.A NCM.SIZE NELWT./LBS. INCHES NOM.SIZE NEFWT/LBS. INCHES APPROX DIM.A 1 II NCM.SIZE NEFWT./LBS. INCHES � 1 1 = • 1 li '� •1' uiii�i=i = == !.• - -D • ' .1 1V�fw1j, 111 I luiilll 1 111 APPROX DIM.A ' �'�'gpRd'�# III�I�IIII��IIII�I�III NCM.SIZE NETWT./LBS. INCHES • APPROX DIM.A • 1 NCM.SIZE NEFWT./LBS. INCHES -D • 1 •' APPROX DIMENSICNS NEF WT. INCHES NCM.SIZE LBS. A B C D Vm 111 I IIII■11111 111111 �� Ill�l�lllq■plll�lllll �� 11 • 4 1 1 Id 1.• -� -i • ���' 1 APPROX DIM.A 1106 NCM.SIZE NEf WT/LBS. INCHES -' •1 1 ICS Ih APPROX DIM.A NCM.SIZE NEFWT/LBS. INCHES 11 • ! • • -D -.1 • r _ APPROX DIM.A APPR7X DIM.A NOM.SIZE NEf WT./LBS. INCHES NOM.SIZE NETWT./LBS. INCHES APPRCK DIM.A NCM.SIZE NEf WT./LBS. INCHES NIBCO° www.nibco.com AHEAD OF THE F L O W' WAsion 5/14/02 F • FE X841 O •Tool Al�ox NOM.SIZE NET WT./LBS. 11. 11. 11. 4.000 3 E •' CLAter APPROx NCM.SIZE NET WT./LBS. 0.03 E • • Brass • APPRQX. NOM.SIZE NETWT/LBS. 0.0168 11 11 0.0801 Consult• r for .d •••- and for • •- quantities. :• r i, :0 .c4•.. • • .i wwwAboo.00rn www.nibco.com AHEAD OF • Co uoirigs......................................................29 OirrpR ngs ....................................................29 BbaNs ........................................................29 Faucet Connectors...............................................29 Tees ..........................................................29 IS09001:2000 lherraxfaduirg F1atsd SathGemFdls,NY, StLE tsCt-M,\A Naoogiodes,IX "Fty iosa Moaao rraifadue pud dsudaaCUdity Marag-st Systenosfomirg tothearretrakicn d ISD9001 Irterrdia d Staxf� m NIBMINCVVCRDFE4DCLARBS• 1516MICD-EU 'ST.• Blff rIN46516-4740• LISA- R-11.800234.0227 TEHSERACTSR-t1.8B8.446.4226. FAX1.800.234.0557• INT9'dJAnCNALSERACER-t+1.574.295.3221• FA>(+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • C.OUPLI NGS FAUCET OCN N ECTORS FB600 FB607-FA Coupl i ng— Barb x Barb 90° B bow Faucet Connector— Barb x Swi vel R FS 1/2 0.04 ••-• _ 3/4 0.06 1/2 without nut&washer 0.04 ELBOWS TEES awF 4 i FB607 90° B bow—Barb x Barb _ FB611 • "" • Tee—Barb x Barb x Barb 1/2 0.04 APPROX. 3/4 0.06 NOM.SIZE NEFW-ULBS 1/2 0.05 FAUCET 1/2 x 1/2x3/4 0.10 LT 3t4 0.10 CON N E 3/4 x 3/4 x 1/2 0.08 3/4x 1/2x3/4 0.10 3/4 x 1/2x 1/2 0.08 CRIMP RINGS FB600-FA 47 Straight Faucet Connector— Barb x Svvivel Fl FS APPROY, 1/2 without nut&washer 0.03 FE3198 Q-i n-p Rng—Copper 1/2 0.01 Oxr-A alt price sheet for Made to Oder iterrs and 3/4 0.02 for rri ni rrum order quantities. NIBMING WCR-D FEADa ARIBZ4. 1516 MIDaEBLWSL- 9-W-Wr,IN 46516-4740• USA• R t 1.800.234.0227 lH7i S9RACES R-t 1.888.446.4226• FAx 1.800234.0557- INTB:NA-1CNAL SERA E FFt+1.5-/4.295.3221• FAX+1.574295.3455 www.niboo.mm www.nibco.com AHEAD OF • Wrot and Cast DWV Fi tti ngs Adapters....................................................31-33 Bushirgs ......................................................33 aeaWs......................................................33 Closet Ranges..................................................34 Cbuoings ..................................................... 34 BbDNs .....................................................3 36 Rugs .........................................................36 Retun Bends...................................................40 Tees ..........................................................37 TestCbps&Tees .............................................37-38 Traps.......................................................39 40 T-Ys ..........................................................38 Ys............................................................38 IS05001:2000 Them3Vacturingpatsat S hGesFalls,W,, Stuats C?.1t,VP,Naoogdod k—,TX ad Rey xsa Mauoomenfa tue pod suxderaClefity Maw-al 8o—oafarrirg tothea�me sicnofM9001 Irtenlatiortiel Sta brcb NIBODINC WC3dDHE DaPRTEM- 1516MIDDL®lR'ST.• R -ARr,IN465*4740• USA• PR 1.800.234.0227 1H}I SBRACES R4 1.888.446.4226• FAX 1.800.234.0557. 190:?,F-nG4AL SERACF R-t+1.574.295.3221• FAX+1.574.295.3455 www.rtboo.00m NIBCCY www.nibco.com AHEAD OF • 04 ADAPTERS - SLI P J OI NT ADAPTERS - SOI L PI PE - 8 B 801-2-7 903.7 805 CkW Fitting Trap Adapter DW\/Trap Adapter DWG/Soi I R pe Adapter Rg x SJ-Cast Fx SJ-Wrot Cx Spigot-Cast APPROX DIM.B APPROK DIM B Jdrlsoopper tube to cast ironsd10pes. 1114 x11/4OD. 0.25 119/32 11/4x11/401). 0.32 1�7/16 NOM.SIZE INCHES 11/2x11/2OD. 0.42 17/16 11/4x2 0.93 39/32 11/2x11/4OD. 0.43 119/32 2x4 2.52 37/3 3 1.56 23/4 _ 3x4 2.78 313/16 4 2.23 3 901-2-7 RIB to D►VW Fitti ng Trap Adapter Ftg x SJ-Wrot 9047 � h DM Trap Adapter • M x SJ -Wrot 905 11/2x11/2QD. 0.29 17/16 APPROX DIM.B DMSjI Rpe Adapter 11/2 x 11/4QD. 0.24 17/16 •M.SIZE NETWT./LBS. INCHES Cx Spigot-Wrot 11/4x11/4OD. 0.41 13/4 Jdrlsoopper tube to cast ironsci10pes. 11/2x11/2QD 0.51 12'/32 ••-• • 11/2 x 11/4 OD. 0.49 129/32 • i • 11/2x2 0.60 37/16 2 0.44 29/16 901-7 DW\/Trap Adapter Cx SJ -Wrot �I NCM.SIZE NETWTABS. INCHES 805-N 11/4 x 11/4 OD. 0.21 21/32 DM No Hub Soi I R pe Adapter 11/2 x 11/2QD. 0.27 3/4 Cx No Hub-Cast 11/2x11/4 OD. 0.24 7/8 NCM.SIZE NETVVULBS. INCHES 11/2x2 0.42 17/32 2 0.40 13/16 3 0.75 13/16 Consult pri oe sheet for Made to Cyder iterm and 4 1.23 17/32 for n i ni rrum order quantities. NIBDJINCWCR.DFEADCLARIH2S• 1516MIDIl83LWSC• al+PRrIN46516-4740• USN- R-t1.800.234.0227 TEHSERACEBFH 1.888.446.4226• FAX 1.800.234.0557• INTt33VAT1CNALSERACEF3-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboomm www.nibco.com AHEAD OF • ADAPTERS - ADAPTERS - THREADED continued SPECIAL LEAD F - _ + ---------- ed 801-T 802-F 803-2 DVV\/Trap Adapter DWVThreaded Rece DM/Fitting Adapter Cx0D. Tube-Cast CxM-Cast RgxF-Cast "APPROX, DIM.C Males slipjcint oonnection when soldered tothe ...• _ • ' INCHES end of tube and sl i pjci nt nut and washer-added. NOM. . INCHES 11/4x11/4 OD, 0.21 1/8 APPROX DIM.B 11/2 0.39 115/32 11/2 x 11/2 OD. 0.22 7/32 NCM.SIZE INCHES 2 0.56 119/32 11/2x11/4 OD. 0.20 9/32 11/4 0.05 3/6 3 1.44 27/32 11/2 0.05 3/6 ADAPTERS - 2 0.05 3/8 THREADED 903-2 803 DMRttingAdapter 802 DMAdapter Rg x F-Wrot APPROX. • - DVWAda p ter Cx F-Cast Cx M-Cast APPROX. DIM.A 11/4 0.19 117/32 DIM.C APPIRCK DIM._ NCM.SIZE INCHES INCHES • 3 1.45 113/32 11/4 0.23 15/16 7/16 4 2.31 117132 11/4x11/2 0.41 1 1/2 ° 11/2 0.25 1 7/16 2 0.33 11/16 7/16 3 0.92 11/2 3/4 If (.)04 n D4WAdapter CxM-Cast 903 -• • . INCHES e CW/Adapter 11/2 0.34 - 13/64 !,- Cx F-Wrot 1 1/2x2 0.55 15/16 $OZ C NOM. "'• INCHES 1 1/2 x 1 1/4 0.31 27/32 SIZE DAM/Rush Adapter 1 1/4 0.19 NETWULBS. 27/32 2 0.43 7/6 2x 1 1/2 0.52 15/16 Cx M- St 1 1/2 0.25 2/32 � 3 1.35 125/32 ..RC DIM.B DIM.C 2 0.41 1 4 2.59 21/62 NCM.SIZE INCHES 11/4 0.16 15/16 7/16 11/2 0.20 15/16 9/16 2 0.23 11/16 5/6 Qxm1t price sheet for Made to Oder item and for ni ni rrum order quantities. ® NIB00INC WCRDFfADCLART6S• 1516MIDDLEBLR(SF• RN-RRr,IN46516-4740• U54• R-t 1.800.234.0277 TIKH SERACE5 R4 1.888.446.4226• FAX 1.800.234.0557- 19B:NAnGL AL SERACE R-t+1.574.295.3221• FAX-+1.574.295.3455 www.niboo.wm NIBCCY www.nibco.com AHEAD OF • 04 ADAPTERS — BUSHI NGS CLEANOUTS THREADED continued Er +'1 E18 A 904 801-2 816 D4M/Adapter DWExternal Bushing DV\/\/Fitt ingCleanout Cx M—Wrot Rg x C—Cast Rg x C1 eanout w/R ug—Cast NC)M,S2E NErWT./LBS. INCHES NICK SIZE NEFWT./LBS. INCHES NCIM.SIZE NErVVF./LBS. INCHES 11/4 0.30 13/32 3x2 0.61 111/32 11/4 0.49 25/32 11/4x11/2 0.37 13/16 3x11/2 0.60 15/16 11/2 0.60 21/4 4x3 1.12 121/32 2 0.87 23/8 4x2 1.16 13/4 3 2.37 39/32 4 3.99 35/8 804-T DW\/Trap Adapter '--sMk 0.D. Tube x M —Cast ° 901-2 APPROX• •INCHES DM External Bushing 816-S 11/4 OD.x 11/2 0.44 19/32 Rg x C—Wrot DWV Rush Rtti ng Cleanout . INCHES Rg x C1 eanout w/R ug—Cast 11/2x11/4 0.13 1 NC)M.SIZE INCHES 2x11/2 0.19 1/32 11/4 x 3/4 0.20 15/32 2x11/4 0.19 13/8 11/2x1 0.29 11/16 2x11/2 0.42 1/32 B 3x21/2 0.96 113/16 804-2 _________ 4x3 2.25 21/8 DAM/Rtti ng Adapter Rg x M —03st ............. APPROY, • . •. - 1 c 11/2 0.50 115/16 2 0.71 21/32 901-2-F DAN Rtti ng Rush Bushi ng Rg x C—Wrot --. . INCHES 2x11/2 0.37 13/16 1/8 Oxsult price sheet for Made to Crder iterrs and for n i ni rrum order quantities. NIBDJINC WgaDFEADG114R19ZS• 1516MIDaEBLWST.• BXFWr IN4651&4740• LISA- R-1:1.800.234.0227 TEHS9RACEER-t1.888.446.4226• FAx1.800234.0557• INTB:NAl1CNALS ERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.niboo.mm www.nibco.com AHEAD OF • CLOSET FLANGES COUPLI N GS !CIO o 801 { i Jj DWV Coup)i ng Cx C—Cast APPROX. • . INCHES 3X2 0.70 11/16 3x11/2 0.68 15/16 4x3 0.98 9/32 851-C 4 x 2 1.34 11/4 D4W Qoset Range 851 C—Cast DIMENSIONS DWVCoset Range -- • C—Cast APPROX DIMENSIONS 4x3 1.31 11/16 '/z 6'/8 6 INCHES NCIM.SIZE 4 1.45 5/6 7 6 901 4x3 2.18 111/16 7 6 DM C.Ol.lffi ng Cx C—Wrot . INCHES 11/4 0.07 3/32 11/2 0.09 3/32 11/2x11/4 0.13 5/16 2 0.14 3/32 2x11/2 0.19 15/32 -----------------A---------------------- 3 0.45 3/32 4 0.57 1/8 w 951 -+ DW V Cl oset Range C—Wrot ` DIMENSIONS 901-RP INCHES DM F"i r Cbuo i ng(No Stop) 4x3 0.84 111/16 63/4 6 Cx C—Wrot APPROX NCM.SIZE INCHES 11/2 0.09 113/32 2 0.14 117/32 3 0.42 12'/32 4 0.57 213/32 Consult price sheet for Made to C-der items and for n i ni mum order quantities. NIB00INCWCFiDFEADQ14RTEM- 1516MICOLBUR(SL• BJ4lFFIN46516-4740• USA- R-t1.800.234.0227 TEH SERACES R-t 1.8B8.446.4226- FAx 1.800.234.0557• U B:;tN AlICNAt_SBRACE R-t+1.574.295.3221• FAX-1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • ELBOWS 806 906-2 907-LT DM4518 bow DM4S Fitting Elbow DWG/90° Long Fbdi us B bow Cx C—Cast Rg x C—Wrot Cx C—Wrot INC)M.SIZE NEWULBS. INCHES NCM.SIZE NErVVT./LBS. INCHES INCHES NCM.SIZE NErWT/LES. . ES 4 247 117/32 11/4 0.13 13/16 1/2 11/2 0.41 25/16 11/2 0.21 11/4 9/16 2 0.62 23/4 2 0.39 15/8 13/16 3 0.84 17/8 13/8 ■ ! r I 906 DVW 45° 8 bow Cx C—Wrot 807 807-2 ....• D�IW 90° 8 bow DvV�/90° Fitting 8 bow • RgxC—Cast 11/4 0.13 1/2 Cx C—Cast ..•G - • 11/2 0.21 9/16 -•-• • • • , • • ES 2 0.38 13/16 NCM.SIZE • ES INCHES 4 3.84 413/16 325/32 3 0.78 016 11/2x11/4 0.43 11/4 13/16 2x11/2 0.71 111/16 17/16 3 2.30 27/8 27/8 4 3.92 325/32 325/322 r i 1 806-2 907-2 DJW45' Fitting Bbow DM90° Fitting Bbow Rg x C—Cast 907 Rg x C—Wrot -•-• DM 90° 13 bow ••-• • 4 2.81 219/62 117/62 Cx C—Wrot 11/4 0.19 17/8 13/16 •--• DIM.0 DIM.ID 11/2 0.33 23/16 17/16 NCM.SIZE • • 2 0.59 211/16 17/8 11/4 0.18 13/16 13/16 3 1.21 311/16 211/16 11/2 0.32 17/16 17/16 2 0.58 115/16 115/16 3 1.20 211/16 211/16 Consult pri ce sheet for Made to C rder items and for n i ni rrum order quantiti es. NI60JINCWCR.DFEADCLARIH2S- 1516MIDDLE3UWSr- L3l+PRrIN46516-4740• USA- R-t1.800.234.0227 TEC ISERACESFR 1.888.446.4226• FAX 1.800.234.0557• IN193VAl1CNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboomm www.nibco.com AHEAD OFTHE FLO W ReAdon 3/29/04 ELBOWS continued t 807-3 960 DEW 90° B bow LL LL DWV 60° B bow Cx F-Cast 837 Cx C-Wrot NCM.SIZE '. /D+M 90° Do'u�b-,l}e B bow � � --• • 1 1/2 0.72• 113/32 21/8 Cx Cx C—Cast 11/2 0.24 - 13/16 2 1.15 17/8 211/16 APPROX DIM.0 DIM.G 2 0.44 11/8 NOM.SIZE • a INCHES 3 0.95 17/8 11/2 0.77 113/32 113/32 2 1.31 17/8 17/8 I 2x11/2x11/2 0.97 15/8 11/2 4 T 807-4 861-LH DV\A/90° B bow , DW\/90° B bow Cx M—Cast w/Low Heel Inlet . INCHES . � Cx Cx C—Cast ,3 23/ 14//221/2 Bbow ..-• DI• •• 11/2 0.66 1 /sz 32 Cx C—Gast 3x3x2 2.43 27/8 19/32 �D - PLUGS T— 11/4 0.22 3/16 11/2 0.28 1/4 - 2 0.48 11/32 B 3 0.99 17/32 do D4\/\/R ug M-Cast 807-9 t APPROX DW\/90° B bow w/Si de I nl et INCHES Cx Cx C—Cast 809 3!4 0.08 23/32 APPROX • DM 111/4 B bow 1 0.12 29/32 • 11/4 0.19 31/32 • ' CX C—Cast 11/2 0.21 13/32 3x3x2 2.55 27/8 15/8 27/8 APPROX 2 0.34 15/16 INCIM.SIZE INCHES 1112 0.22 5/32 2 0.38 3/16 mrmlt pri oe sheet for Made to Cider items and for mi ni mum order quantities. © NIBMINC WCFiDFEADQ14Rf9s- 1516 MICCLEUWST.- aA-WU IN46516-4740- LISA- R-t 1.800.234.0277 TE[H SERACES R-t 1.8B8.446.4226• FAX 1.809.234.0557• U B:;tN Al1CNAL SBRACE R-t+1.574.295.3221- FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com A HEAD OF • 04 TEES r y 811-14 811 DWV Tee DMTE�-- Cx Cx F-Cast 835-B Cx Cx C-Cast APPROX DIMENSICNS DWV Doubl e LT Tee INCHES --. CxCxCxC-Cast NEFWT• I INCHES G 11/2 0.88 23/16 13/16 113/32 •••U DMENSICNS 3 2.84 253/64 125/64 253/64 2 1.57 21/32 11/16 17/8 • S • ■ G 3x3x2 1.82 23/8 11/8 17/8 2x2x11/2 1.17 27/16 7/8 17/16 2x11/2x11/2x11/2 1.73 26/8 3'/16 321132 3/32 3 x 3 x 1 1/2 1.58 25/32 15/16 17/16 4 4.92 313/16 2 313/16 TEST CAPS 4x4x3 3.49 311/82 119/82 27/8 4x4x2 2.91 27/8 15/32 113/32 -- wv f 811-15 DVW Tee 917-B L Cx F x F-Cast Test Caps-Copper APPROX DIMENSICNIS C-Wrot NEFWT INCHES 911 NCIM.SIZE LBS. = 11/4 0.73 125/32 11/2 15/32 -� ■ - CWVTee • Cx Cx C-Wrot 1/2 0.01 3/16 APPROX DIMENSICNS 3/4 0.01 3/16 u NETWT INCHES 1 0.01 1/8 • 1114 0.01 1/4 11/4 0.32 11/8 13/16 11/8 11/2 0.01 1/4 11/2 0.49 113/32 29/32 113/32 2 0.02 1/4 11/2x11/2x11/4 1.58 26/32 15/16 17/16 r _ 3 0.03 1/4 2 0.78 11/32 11/8 17/8 4 0.05 5/16 2x2x11/2 0.73 15/8 15/16 13/8 2x2x11/4 0.51 11/2 13/16 11/8 83 2x1 1/2x2 0.80 127/32125/322113/16 DMCoubleTee _ 2x11/2x11/2 0.73 15/8 11/4 13/8 CxCxCxC-cast NErWT APPROX ■ .INCHES• 11/4 0.65 15/32 3/4 15/32 11/2 0.85 113/32 13/16 113/16 11/2x11/2x11/4x11/4 0.72 19/32 3/4 75/32 2 1.38 17/8 11/16 17/8 2x2x11/2x11/2 0.99 121/32 7/8 17/16 2x2x11/4x1 1/4 0.93 117/32 25/32 15/32 2x11/2x11/2x11/2 0.94 121/32 2/32 17/16 Consult price sheet for Made to Oder items and 3x3x2x2 236 26/8 11/8 17/8 for ninirrum order quantities. 3x3x11/2x11/2 1.51 25/32 31/32 115/32 NIBDJINGWCR.DFEADg14RT62S• 1516MIDDt.B3lWSC• BJ4-KRrIN46516-4740• USA• R-t1.800.234.0227 TEH SERACE FH 1.888.446.4226• FAX 1.800.234.0557• INTB:NA-flCNALSERACE R-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.mm www.nibco.com OF • TEST TEES Y's continued 1 � u Y 814 c DAM/Test Tee Cx Cx aeanod w/Rug—Cast INCHES INCHES a 11/2 1.00 21/16 11/8 7` 2 1.35 211/32 13/8 3 3.78 37/16 115/16 T Y's 810 DNM/450 Y C _ CxCxC—Cast 100 L/ NETVVT INCHES APPROX DIMENSICNIS 1 , .-F-m NCM.SIZE 812 11/4 0.60 2 2 3/8 — 834 D4M/Long Turn yTY 11/2 0.94 2516 7/16 '/2 - D \/45 Doublle4�Y+} Cx Cx C—Cast 2 1.26 27/8 27/8 17/ffi Cx Cx Cx C—Cast APPROK DIMENSICNS 2x2xl1/2 1.15 2"/16 29/16 3/16 — NETWT. I NCHES 2x2xl1/4 1.01 29/16 16'/16 — APPROY . : • • , . INCHES 2xl1/2x2 1.16 217/m 26/8 "/32 — NCM. §11/4 0.93 227/82 127/32 23/4 1132 2xl1/2xl1/2 0.84 26/32 25/32 5116 — 2 1.90 21/8 21/8 11/32 — 11/2 0.87 35/16 2/8 35/32 7116 3 3.19 41/64 41/64 45/64 — 2x2xl 1/2xl 1/2 1.26 211/16 23/16 3/16 — 2 1.84 41/4 23/4 41k 1/2 3x3x2 202 317/32 35/16 1/8 — 3 4.20 413/32 413/32 21/32 — 2x2xl1/2 1.07 35/8 23/8 31/32 1/32 3x3xl1/2 1.69 3'/4 215116 — 3/16 3x3xl 1/2xl 1/2 2.09 3'/4 215/16 — 5/16 3 3.49 67/16 41/32 61/32 3/4 4 5.55 515/32 515132 11/16 — 3x3x2 278 47/8 35/16 45/32 3/32 4x4x3 3.96 4 1'/16 4'/2 5/16 — 4x4x2 290 47/32 313/16 — 18 o 1 1� K J DAM/Double Long Turn TY CxCxCxC-03st APPRCK 'INCHES NCM.SIZE 11/2 1.25 35/16 2'/8 35/32 1/32 2 0.87 35/16 2'/8 35/32 7/16 2x2xl 1/2xl 1/2 1.96 35/8 23/8 37/32 7/32 2x2xl 1/4xl 1/4 2.67 3 11h6 23/8 37/32 7/32 Caisultpdoe sheet for Madetotrderitermand for rdrlirrumorder q-ontities. NIBMINC WCRDHE DCLARTEM- 1516MICOLEBLR(ST.- RK4NRr,IN46516-4740- USA- R-t 1.800.234.0227 lH}ISBRACESR-t1.888.446.4226• FAX1.800.234.0557• IN19aJAl1CNALSERACER-t+1.574.295.3221• FAX+1.574295.3455 www.rliboo.00m NIBCCY www.nibco.com OF • 04 TRAPS t f 890 881 892 3 x 5 DkW Drum Trap CkW P-Trap DA/\/RTrap w/Uni on Joi nt w/Bottom Inlet Cx SJ—Cast Cx SJ—Cast Cx Fx Cleanout w/Rug—Cast - --• • •-. -. � '. � INCHES 13 » 11/2 1.86 11/8 35/az 25/8 31/,6 • i 1 1/2 1.50 1 /3z 2/3z 2/z 3 /3z 11/2 1.97 39/32 11/2 23/8 2 2.64 115/32 313/32 31/8 Ylm III Ka 891 884 892-3 C4M/P-Trap w/Q eanout DA/\/P-Tra w/Uni on Joi nt 3 x 6 C�M/Suvivel Drum Trap Cx Cx aeanaat w/Rug—cast Cx Cx Cleanout w/Rug—Cast Fx SJ—Cast APPRCK DIMENSONIS INCHES APPROX •IVI.SIZE LBS. A c i K N EF WT INCHES • i • 11/4 1.21 15/32 117/32 21/4 33/32 - 11/2 290 621/32 11/2 1 37/8 11/2 1.53 113/32 116/32 2'/2 317/32 2 2.89 113/32 313/32 31/8 321/32 2 226 17/8 113/32 3 43/32 3 5.74 27/8 115/16 4 521/32 J x� J x x t � r k_ 880 892-A D4\/\/RTrap w/Q eanout 885 DAM/P-Trap w/Uni on Joi nt Cx SJ x Q eanout w/R ug—Cast DW\/RTrap Fx SJ x 0eanout w/R ug—Cast APPROX :• . Cx C—Cast A---. :• . • 11/2 1.80 113/32 27/32 21/2 317/32 • . • • 1 1/2 1.88 115/16 7 , 17 2/a2 2/z 3 /3z 2 2.66 17/6 27/16 3 43/16 11/4 1.09 15/32 117/32 21/4 39/32 11/2 1.45 113/32 115/32 21/2 317/32 2 211 17/8 113/32 3 43132 3 5.17 27/8 115/16 4 321/32 Oinsult price sheet for Made to Qrder iterm and for n i ni rrum order quantities. NIBOJINCWCR.DFEADCLARIH:6- 1516MIDDt.B3lWSC• al+PRrIN46516-4740• USA,- R-t1.800.234.0227 TEHSERACHiFl-t 1.888.446.4226• FAX 1.800.234.0557• INIB3VAl1CNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.00m www.nibco.com AHEAD OF • TRAPS Cont. RETURN BENDS 13 t 875-S 878 s 879 CW/WTrap Upturn DVM/Fbturn Bend M x S—Cast Cam/F�turn Bend w/Qeanout Cx Cx aeanout w/Rug—C3st Cx C—Cast INC • NETWT. INCHES 11/2 1.20 141/64 19/64 4 • 11/4 0.81 117/62 21/4 — 11/4 0.76 117/32 21/4 — 11/2 0.98 115/62 21/2 — 11/2 0.90 115/32 21/2 — 2 1.40 113/32 3 — 11/2x11/2aa 1.00 115/32 21/2 — 3 3.34 115/16 4 — 2 1.25 113/32 3 — 2x11/2an 1.23 117/32 3 119/32 2x11/2 1.37 117/32 3 119/32 3 2-77 115/16 4 — Gymlt prioe sheet for Made to Under iterm and for rrirTirrumorder q-antities. NIBMINC WCRDHEADQ14RT9s• 1516MICOLEBLR(ST.• RK4NRF IN46516d740• U54• R-t 1.800.234.0227 TECH SBRACES R-t 1.888.446.4226• FAX 1.800.234.0557• IN1B:;I A-1CNAL SERACE R-t+1.574.295.3221• W+1.574295.3455 www.r iboo.00m NIBCCY www.nibco.com AHEAD OF • 0- Engi neeri ng Data Engineering Data continued Bras ng AI I oy Sol der Joi nt R tti ngs Car>sun-ptian ...................................................45 Dilrensians ....................................................48 FridionL.oss AlloNances..........................................56 Brazing Fittings Installation Techniques ...........................................85 Der>sians ....................................................49 Tdera-ces .....................................................48 RidlonLoss AllaNances..........................................56 Installation Techniques ........................................86-87 Specifications Td erances .....................................................49 Tderd-as Rttirgs...............................................44,4&Q Copper Tube Atti ngs Tubng...................................................50-53 Brazinglnfo-natian ..............................................45 Mdves Fitting Terns and Abbreviations....................................42 Friction Loss Allowarms ......................................56 Rurnbing9,sternFailures.........................................43 Fbted Internal WbrW rig Ressures................................46-47 Working Fressures Solder and RuxFbquiremN ts .....................................45 Jci nts...................................................46-47 Solder Joint Wfication.........................................44 Tubing ...............................................50-53,57 Td erar>ces .....................................................63 Typesof Jd nts..................................................42 Copper Water Tube OxWative Data with Iron Rpe ...................................54 Installation Instructions Dnsnsional D ata.............................................50-53 Epansicn and oxrtraction ........................................55 The R Intend Wng Ressures........................................57 ne Art of Bras 86-87 ng ....................................... aiti Selection of Tube Sms...........................................56 Td era-ices ..................................................50-53 The Fine Art of Soldering ........................................85 Types,Standards,Applications,Tenpers and LErtgths ..................84 Water Raw and RidionL9ss ...................................58-83 Polybutylene Installation ........................................89 Frequentl y Asked Questi ons.....................................90 Pol yethyl ene(PEA I nstal I ati on ..................................88 Joi nts Abbreviations...................................................42 B-aang .....................................................86-87 Soldering ......................................................85 Numerical Index Types .........................................................42 Solder and R ux Numerical Index ................................................92 Fbtings........................................................46 Fequirerr eats...................................................45 IS09001:2000 The na Valuing pants at Sath Qas F Ils,W,, Stunts Daft,\A thgdod>es,TX aid Fbyasa,MEAoD rrarx faxue fxodrds miler a Qelity Maiagmial S7stemocrfcrmng totheairet rEMsicnaf M9001 Irten-dicral Siaxhds NIXING WCRaDFEPDQI4RIBZS• 1516MIDDLEUWSL• BJ4-W ,IN465164740• USA- F}t 1.800.234,0227 m TEIiSERACESR-t 1.888.446.4226• FAX 1.800.234.0557• INTB:NAlCNALSERACEFFt+1.574.295.3221• F/)C+1.574.295.3455 www.nboo.00m www.nibco.com AHEAD OF • q_ T ff—TLUbb Ftt I ngs ■ Flared Joint—The principle of the flared joint was first developed connections,or to add copper tube to flanged pipe installations or for copper tube plumbing in 1928 by NI BCD.The flared type joint i s other purposes,NI BOO provi des flanges.The flanges are produced in whd I a nixfianical means of jci ni ng copper tubes.The tube nut is two standard types widely used i n this fi old where copper tube can pl aced over the end of t he copper tube to be j ci ned;the t ube end t hen serve—G ass 150,comp)y wi t ASM E B16.24,"Cast Copper AI I oy i s fl ared out at an approxi rrlate 45 degree angl e by a fl ari ng tool.The R pe Ranges and Ranged Rtt i ngs G ass 150,300,400,600,900, 1500 flared end is then drawn up by the tube nut so the inside surface is and 250a'; and Class 125, which conform to MSS SP 106, "Cast tightly secured against the ball seat of the fitting.Thisjant can be Copper Alloy Ranges and Ranged Fittings Gass 125, 150 and 300." readily dismantled at any time and is, in effect, a type of union connection. Its use is generally restricted to soft(annealed)copper Barbed Insert Fitti ngs for Polybutylene(PB)—NIBOOoffers a tubes since hard drawn tubes would be subject to splitting when ete Iineof copper barbed insert fittingsforjdning R3tube.The flared(if the ends were not previously annealed).The flared ends of insert fittings are produced to the requirements of ASTM F 1380. N I BCD R ared Fi tt i ngs are produced to t he requi rennent s of ASM E A ong wi t h t he i nsert f i t i ngs are copper cri rnp ri ngs,whi ch,when B16.26, "Cast Copper AI I oy Fittings for Flared Copper Tube." properly installed, provide a leak-tight mechanical joint.Transition fittings are avai I abl e for adapting to new or existing threaded or Solder Joint — NIBC0 pioneered the development of sol der jantends. the solderjolnt and its application to the field of copper tube piping. Today the solder joint is widely adopted, as evidenced by the Barbed Insert Fittingsfor PEX—NI1300offersa complete line of majority of cities and states that have written codes to include copper barbed insert fittingsforjdning RD(tube.The insert fittings copper tube and solder joints as desirable for general plumbing, are produced to the requirements of ASTM F1807.Along with the water I i nes,vent,stack,waste and drain I i nes,as wel I as other uses insert fittings are copper cri rrp rings,which,when proper)y i nstal I ed, in industry.Testing has shown that often the sdderjanthasgreater providea leak-tight mechanicarl joint.Transition fittings are available strength than the tubes being joined, depending upon the soldering for adapting to new or existing threaded or solder joint ends. al I cy sel ected. Whi I e t he rret hod of prepari ng a sol der j d nt i s an exacting art to insureafulI strengthjant,it can be readily rrastered by skilled tradesn- m. It is for this reason—to insure the public of R tti ng Terms - • Abbrevi ati ons the protection afforded by properly prepared joints— that NIBOD. C Ferrate solder cup products are marketed through the reputable sources of supply to the piping trades, Important procedures for preparing a solder joint are Ftg Malesdderend graphically illustrated in this catalog on page 95. F Ferrate NFF thread M Male NPTthread Brazed J of nt—This type of joint has long been used wherever and HDse Standard hose thread wherever critical situations have been encountered in copper piping. Hub Female end for sal pipe Thejoint itself is completed much in the same manner as the solder joint; however,considerably more heat and several refinements of -0 m got Maleend for soil pipe technique require separate procedures that are descri bed further in No Hub Used with mechanical coupling this catalog on pages 96-97. CID.Tube Actual tube outside diameter S Straight thread Threaded Ends — To adapt copper tube to equipment having SJ Slipjant National Standard Rpe Taper(NFI]threads or to add copper tube to R Flared existing iron pipe installations or other threaded connections,NIBO) provides fittings having both external and internal NFT threads. These threaded ends are produced to the requirements of ASME 131.20.1,"R pe Threads,General Rarpose(Inch)." Ranges — To adapt copper tube to equipment having flanged ® NIBODING WC DHEN)C ARTES• 1516MIDDL83-R ST.• RA-PRr,IN46516-4740• USA- R-t 1.800.234.0227 TKHSERMCFSR-11.888.446.4226• FAX1.800.234.0557• INTB:NAnCNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.nibo.wm NIBCCY www.nibco.com AHEAD OF • MAKES WHAT PLUM BI NG SYSTEM FAI L? Rd I ure i n a copper pl umbi rig system i s rare,but may occur due to a vari ety ABBMMATED EM F SER ES of reasons.The rrost oomn-on causes of fai l ure are: (Bectrarntive Fierce Series,GwTnon R ng Materials i n Sea Water) CATHCDE(+)Passive 1. Excessive fIuid velocity causes erosion-colrosionorirrpingerrent(to std ke � ures,Faucets Rating or hit against)attack in the tube ardor fitting.Fbr this reason,the copper SILVER—Brazing alloys,Slver-bearing solders pl uribi ng industry has establish design velocity I i mits for copper pl urrbi ng 7ITANI LA4—Condenser tubes systems to the following: MCNR-(67%Ni-33%CL)—Specialty piping&equi prrent Hot Water>140°F(60°C) 2to3feet per second GJT;GNIG<EL—Condensers,Marine,Nuclear (0.6 to 0.9 maters per second) 031�RR—R-essure,ENW,Csses,Air,Refrigeration,etc. (85 15-Rot)—Cost fitti ngs,\/alves Hot Water 140°F(60°C) 4 to 5 feet per second B9kSS(70130-Yel I an)—Gas-cocks,Fitti ngs,Connectors (1.2 to 1.5 meters per second) LEAD—Solder,Rpe,Sieet,Coating,Lining Cold Water 5 to 8 feet per second T1 N—Sdders,Coating,Lining (1.5 to 2.4 craters per second) C4ST IFUN—Ressure,DW WRC K3-IT I RCN—Ressure 2. Localized high velocities ardor turbulence.The presence of a dent,tube MILDSIEEL—FireRrotection ends which are riot reamed or deburred before soldering, and sudden ALUVIINUv1—Ffrigeration,Irrigation,scrre Solar changes in direction can all cause localized high velocity conditions. GALVANIZED STEEL—Ressure,D✓W ZINC—Coatings,Linings,sore Fittings 3. Aux Corrosion is typified by On hole leaks,generally in the bottom of a MACNE51UNI—Water Heater Anodes,Cothodicprotection for pipelires horimIal line. fluxes are rrildly corrosive liquid or petrdeurn-based A,NCDE(-)A,ctive;Sacrificial Material pastes containing chlorides of anc and an-monia. Unless the flux is flushed from the system,it will lay in the bottom of the tube and remain 5. Dee rlcification is a type of corrosion in which brass dissolves as an al loy active.ASTM B 813,"Liquid and Paste Ruxes for Soldering Applications and the copper constituent redeposits fromsdutionontothe surfaced the of O-VW and Copper--Alloy Tube," limits the oorrosivity of soldering brass as a metal, but i n the porous form The anc constituent may be fluxes and ensures that these fluxes are flushable in cold water,which carried awayfromthe brass asa soluble salt,ornaybedepositedinplace facilitates easy removal of flux residue following installation. as an insoluble compound.Deancification is normallyassociated with 4. C�Ivanic Corrosion may be depicted as the destruction of a material by brass valves where the anccontent exceeds 15%.Generally,areasof high electrodhemcal interaction between the environment and the material. stress,such as valvesterrsandgatevalvebodies,are primary targets of attack Generally,it is slaw but persistent in dharacter and requires the presence of di ssi n i I ar metals. CSI vani c corrosion requires the flow of an electric 6. a rare occasi on probl errs of corrosi on by aggressi ve water, possi bl y current between certai n areas of di ssi mi I ar metal surfaces.To compl ete aggravated by poor-desi gn or wollaTarshi p,do eta st.Aggressive,hard wel I the el ectri cci rcuit,there must be two elect rodes,an anode and a cat hode, waters that cause pitti rig can beidentifiedbydheri cal anal ysis and treated and they mast be connected by an electrolyte media (water)through tobringtheircorrpositionwithinacceptablelinits.Typicallythesehard which the current can pass.The amount of metal which dissolves at the waters are found to have high total dissolved solids(t.d.s.)including anode is proportional to the nurnber of electrons flowing,which in turn is sulfates and chlorides,a pH i n the range of 7.2 to 7.8,a high content of dependent upon the potential and resistance of the two metals.The use carbon dioaade(OM)gas(over 10 parts per mil lion,ppm),and the presence of dissimilar metals in a plumbing system may or may not create a of dissolved oxygen(D.Q)gas.Soft acidic waters can cause the annoying problem For instance, copper and steel are perhaps the most cxmTOn problem of green staining of fixtures or"green water".praising the pH of di ssi n i I ar metals found together in a pl umhi rig system I n d osed systems, such waters to a\rA ue of about 7.2 or mole usual I y salves the probl a R but such as a chilled or heating water pipi rig,the use ofdissiniIar metals may a qualified water treatment specialist should be consulted. not create a serious problem,;this is because there is virtually no oxygen 7 Aggressive sal conditions can be a causefor external corrosion of copper in the water and corrosion relations tend to be stifled.Where dissimilar piping systems Non-uniform sal characteristics, such as different soil metals mast be used,some codes require that they should be separated aeration,resistivity,or rrdsture properties,between adjacent sections of by dielectric union or a similar type of fitting.The effectiveness depends tube can create galvanic corrosion calls. Soils contaminated with high upon; distance between the metals on the electromotive-force series concentrations of road salts or fertilimrs containing amrnonia,chlorides, (EMF)diart,ratio of cathode to anode area,degree of aeration,amount of and nitrogen are known to combine with water to form adds.Any metal agitation,temperature,presence of dissolved salts,and other factors. pipe laid in ash or cinders is subject to attack bythe add generated when sulfur compounds corrbi ne with water to form sulfuric acid. U.S aastarery units in this door rTent are the standard;the netri c units are provided for reference only The values stated in each systemare riot exact equivalents. NIBODINCwCR_DFEADaARr9ZS• 1516MIDDLB3-R(SL• B-W-YV�r,IN46516-4740• LISA- F}t1.800.234.0227 lH}i SBRv10ES R-t 1.888.446.4226• FAx 1.800234.0557• INlEdVAh1CNAL SBRAO=FFt+1.5-/4.295.3221• FAX+1.574295.3455 www.niboo.mm www.nibco.com AHEAD OF • ODppff Tube Fittil UZ) oort i nued SOLDER J•NT SPEO ON 1. Sol deri ng Clearance(between the outside of the tube and the inside diameter of the solder cup)and the Depth of the Solder Cup(into whi ch the tube is inserted). Norrinal Mabmrn Minimm mwdrr m Depth of 92B I.D.of QD.of Clearance SolderQap �0/x► of Ftting Fitting Tube forSddering r 7 (Indies) Inch rrrn Inch rrrn Inds rm Indi rrm 1/4 0.381 (9.66) 0.374 (9.50) 0.007 (0.18) 0.31 (7.9) S8 0.506 (1285) 0.499 (1267) 0.007 (0.18) 0.38 (9.7) rr of 1/2 0.631 (16.03) 0.672 (15.85) 0.009 (0.18) 0.50 (127) 5/8 0.756 (19.20) 0.749 (19.02) 0.007 (0.18) 0.62 (15.7) [tatay WmvW 3/4 0.881 (2238) 0.872 (2220) 0.009 (0.18) 0.75 (19.1) MOT P€8€ 2.1794 f CAiI` Ra4:L{MP 1 . 1 1.132 (28.75) 1.123 (28.54) 0.008 (0.216) 0.91 (23.1) i9G7► 11/4 1.382 (35.10) 1.373 (34.88) 0.008 (0.216) 0.97 (24.6) u 11/2 1.633 (41.48) 1.623 (41.22) 0.010 (0.25) 1.09 (27.7) . 2. 3 3.9 0.00 .3 ° a� n.e as a 1.11 a 2 2133 5418 ( ) 12 52( ) 1 0.� 14( (34.0) s�{51 IISI ts tai 12% W. 21/2 2.633 (66.88) 2623 (66.62) 0.010 (0.25) 1.47 (37.3) DEPTH GF BORE.INCHES(mm) 3 3.133 (79.58) 3.123 (79.32) 0.010 (0.25) 1.66 (422) 31/2 3.633 (9228) 3.623 (9202) 0.010 (0.25) 1.91 (48.5) 4 4.133 (104.96) 4123 (104.72) 0.010 (0.25) 216 (54.9) 5 5.133 (130.38) 5.123 (130.12) 0.010 (025) 266 (67.6) 6 16.133 (155.78) 6.123 (155.52) 0.010 (0.25) 1 3.09 (78.5) • TO BE + OF PROPER TOLERANCES TheNational B.reauof RarxiadsR port BMS58,"arerghof Solt-SdderedJdnts ink It is apparent that all of the scientific apparatus used to test tube Tiding,"reporting on tests oarkrfedwith3/4-inch tubing aid fitting,says"Whenthe andfittirx�s,a000rdingtothedimensionsindicatedinChart1,would deerarxeisgreaterthan0.010 inch(0.25rrm),there isdffiaJtyinfillingthejar properly beinpractical tousecnthejob.It is therefore essential that you install tube and fitti ngs manufactured by corrpanies krKwn to be 2. Depth of Solder Penetration drastically affects the breaWng dedicatedtothe highest qualityoontrol standards.Should you load ofthejoint.VVhDnthereistoogreata soldering clearance, � �aoorTditionwherethereisdifficultyinfillingthejoint thereisnocapillary flotivto assure oaTpletesdderperietration. properly,NlBODwillanalym the trouble without charge.Just send As shown i n the chart below,the holding power of the 3/4-inch six i nches of the tube,along with the fitting and our technicians wil I joint is directly proportional tothe depth of solder penetration. pro\Ade you with an authoritative report. For example:If you get onlyorlethird penetration,you get approA rrately one-third the strength needed to assure conplete satisfaction. Chart 2-Type K 3/4'Tubing Solder penetration ofow-third Solder penetration of the entire the cup depth-bre*rig load, cup depth-breaid rig Ioad appradrrately2,1001b.(955kg) apprudnatdy7,00011o.(3175kg) U.Sastcrmaryunitsinthisdoarne tarethestandard;then-dricunitsareprasdedfor refererm orf y.the\d ues stated i n each system are not exact equ\rA ents NIBMINC VVCRDF64DQ14Rf9s- 1516 MICD_E3_R'ST.- 9J4 YV T IN46516-4740- USA- 1`1141.80D.234.0227 TITH SERACTB Rt 1.8138.446.4226- FAX 1.800.234.0557- INT9aJAl1C>UAL DICE R-t+1.574.295.3221- FAx+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • BRAZING •' ' • Copper Water For Estirrating Furposes Tube Sm Brazing'Filler PegJred Torch T Acetylene(bnsun-ption Qcygen Ressure(Approx.) Acetylene Ressure(Apiorm) (In Indies) Indies (mm) Dil Sze Na CFH (CM.H) FS (kPa) PS (kj%) 1/4 0.258 (64) 54 15.9 (0.5) 4 (27) 4 (27) 3/8 0.386 (9.7) 54 15.9 (0.5) 4 (27) 4 (27) 1/2 0.50 12. 51 24.8 0. 5 34 5 34 518 0.62 (15.7) 51 24.8 (0.7) 5 (34) 5 (34) 3/4 1.00 (25.0) 51 24.8 (0.7) 5 (34) 5 (34) 1 1.60 (41.0) 48 31.6 0.9 6 (41) 6 41 11/4 2.00 (51.0) 48 31.6 (0.9) 6 (41) 6 (41) 11/2 2.60 (66.0) 44 38.7 (1.1) 7 (48) 7 (48) 2 4.40 112.0 40 60.0 1.7) 7 (48) 7 48 21/2 5.90 (150.0) 40 60.0 (1.7) 7 (48) 7 (48) 3 7.90 (200.0) 35 70.0 (2.0) 71/2 (52) 71/2 (52) 31/2 10.50 207.0) 35 70.0 2.0 71/2 52 71/2 52 4 13.50 (343.0) 30 88.5 (2.5) 9 (62) 9 (62) 5 20.50 (521.0) 30 88.5 (25) 9 (62) 9 (62) 6 28.50 1 P4.0) 30 88.5 2.5 9 (62) 9 (62 "Approdmde corsurptionwhen brazing one zip of the fittirig.Actual cosmoion depends on warlvrenship. For filler sizes shave,one pound of filler alloypnwides 1,068 ind�es(27.13 rrrn)of 1/16-inch wire or 475 inches(12,065 mn)of 3/3.Anch wire. s 1/1&inch(1.59 rrm)darrsterwlre;all other is 3/mAnch(2.38 n n)danmter. SOLDER AND • Nan Sze Art Solder Fbqui red,LB(kg) (In Indies) Gmeral Use Drainage Use 1/4 0.097 - 318 0.159 - 1/2 0.261 - 58 0.389 - 314 0.548 - 1 0.856 11/4 1.115 1.2 (0.5) 11/2 1.480 14 (0.6) 2 2380 1.5 (0.7) 21/2 3.225 - 3 4.335 28 (1.3) 31/2 5.786 - 4 7.446 4.2 (1.9) 5 11.392 - 6 15.815 - 8 26.955 - Solder recLi cements in this table are based on estimate of weight of solder used to prepare 100 sdderjcirts of sizes shown. Two(2)a noes(0.06 kg)d solder flux will be regJred for each pa rd(0.45 kg)of solder. U.S.customary utits in this doarrent are the sta-lord;the metri c ubts are provided far- reference only The values stated in each system are riot exact eclu\rAents. NI60J INC WCR.D FEADCLlARIH2S• 1516 MIDDLES- i'SC• a1+lA RI;IN 46516.4740• USA,• FFt 1.800.234.0227 TEH SERACE FIR 1.888.446.4226• FAX 1.800.234.0557• IN193VAl1CNALSERACEFFt+1.574.295.3221• FAX.+1.574.295.3455 wwwniboo.00m www.nibco.com AHEAD OF • 0DWff Tube Fittilcontinued M ADE W1 TH COPPER WATER TUB E AN D SOLDER TYPE R TTI N GS, PSI (BAR) Maid mum Gauge Worla ng Ressure for Standard Water Tube 92es[Note(1)] Saturated Steam Woridng Temperature 1/8"though V 11/4"through 2' 21/2"through 4' T through 9' 10'to 12' LB(kg) Joining Material °F °C P3 BAR F9 BAR FS BAR PSI BAR P3 BAR All32es AlloySn50 100 38 200 (14) 175 (12) 150 (10) 135 (9) 100 (6) 50-50TrrLeadsol der 150 66 150 (10) 125 (9) 100 (7) 90 (6) 70 (5) 15 [Notes(2),(3)] 200 93 100 (7) 90 (6) 75 (5) 70 (5) 50 (3) 250 121 85 6 75 5 50 3 45 3 40 3 AI Icy Sb5 100 38 1090(9) (75) 850)8) (59) 705)9) (49) 660(8) (46) 340 (23) 150 66 62500' (43) 48500) (34) 40510) (28) 37510) (26) 280 (19) 95-5 Tin-Antimonysdder 15 [Note(4)] 200 93 50511) (35) 39500) (27) 32510) (32) 3050°) (21) 230 (16) 250 121 270 19 210 15 175 12 165 11 120 8 100 38 71010) (`9) 555 10) (38) 46010) (32) 43000) (30) 320 (22) AlloyE 150 66 4751) (33) 37000) (26) 30510) (21) 25)11) (20) 215 (15) 15 200 93 375 (26) 290 (20) 240") (17) 22501) (16) 170 (12) 250 121 320 (22) 250 (17) 205 (14) 195 (13) 145 (9) A lcy I-B 100 38 1035 0) (71) 805)8) (56) 670(8) (46) 625(9) (43) 340 (23) [Note(6)] 150 66 71010, (49) 55500) (38) 46010) (32) 4W10) (30) 320 (22) 15 200 93 44011j (30) 34501' (24) 285 111 (20) 265(I1) (18) 200 (14) 250 121 43011) (30) 335(11) (23) 27511) (19) 26011) (18) 195 (13) Joining materials at or above 593°C Ressure-temperature ratings cordstentt with the materi als and procedures employed. [Note(7)] CENMALNOT For extremely low waridng temperatures in the CWFto 200°Frange,it is recomnw)ded that ajolrrt rratedal melting at or above 1000°Fbe employed[see Note(5)]. NOTES (1) Standard water tube sizes per AS'TMB88 (2) ASTMB32AloyGadeSiM (3) The Safe Dn nld ng Water Act Arrerd ent of 1986 prohibits the use of arty sol der havi rig a lead content 1n excess of 0.21/.in potable water systems. (4) ASRAB32AloyGadeSb5 (5) ASTMB32AlloyGadeE (6) ASTMB32A11oyaadeFB m Thesejci ni ng meted Js are defi ned as br�ngdlqs by the American Weld ng Sod ety. (8) Tie sdderjcint exceeds the strength of Types K L&M tube in drawn and annealed tempers. (9) TiesdderjdntexceedsthestrengthofTjpesL&MtubeindrawnterrperadTypeKtubeinavealedtenper. (10) Tie solderjcirt exceeds the strength of Type M tube i n drawn temper ard Types L&K i n annealed temper. (11) Tie sd der jci nt exceeds t lie strength of Type L tube in anneal edterrper MADE WITH FLARED RTI1 NGS AND COPPER WATER TUBE PaYBUTYLENE TUBE AND COPPER BARBED I NSB:TF FITfl NGS Nominal SzeJoint Nominal Sze Joint (In Indies) Temperature,°FCQI Ressure,PSI(1341;�' (In Indies) Temperature,'FCC) Ressure,PSI Wl� N8,1/2,3/4,1, 3/8,1/2,3/4,1 73 (23) 200 (14) 11/4,11/2,2 100 (38) 175 (12) 140 (60) 160 (11) "ASMEB16.26 180 (82) 100 (7) 200 (93) 1 80 (5) U.S.astemary units in thi s docun ent are the startdard;the rrdric units are provided for reference only The values stated in each system are not exact equ\rAents © NIB0DING WCRDH15 DaPRTEM- 1516MIDDL83J;YSL• 8J0ARF,IN465164740- L64• PR 1.800.234.0227 ■ TECH SERACES Rt 1.888.446.4226- FAX 1.800.234.0557- INTB3JATTC NALSERAC ER-t+1.574.295.3221- FAX+1.574.295.3455 www.riboo.00m NIBCCY www.nibco.com AHEAD OF • RATED I NTUNALWORINGPFESSURE FOR COPPER FITTINGS, PSI (BAR) Water Tenperature Rle Nomnal Water Tube Sze -20'to100'F 150'F 200'F 250'F 300'F 350'F 400'F (Inlrxhes) (29'toMC) (wc) (95'G) (120'() (149'C) (177°C) (204°C) 1/4 912 (62) 775 (53) 729 (50) 729 (50) 714 (49) 608 (42) 456 (31) 3/8 779 (54) 662 (46) 623 (43) 623 (43) 610 (42) 519 (36) 389 (27) 1/2 722 50 613 42 577 40 577 40 565 39 481 33 361 (25 5/8 631 (43) 537 (37) 505 (35) 505 (35) 495 (34) 421 (29) 316 (21) 314 582 (40) 495 (34) 466 (32) 466 (32) 456 (31) 388 (27) 291 (20) 1 494 34 420 29 395 395 397 25 330 23 247 1 11/4 439 (30) 373 (26) 351 (24) 351 (24) 344 (23) 293 (2)) 219 (15) 11/2 408 (28) 347 (24) 327 (23) 327 (23) 320 (22) 272 (19) 204 (14) 2 364 ( 309 (21) 291 20 291 20 285 20 242 1 182 13 21/2 336 (23) 285 (20) 259 (19) 269 (19) 263 (18) 224 (15) 168 (12) 3 317 (22) 270 (19) 254 (17) 254 (17) 248 (17) 211 (15) 159 (11) 31/2 304 21 258 18 243 (1 243 (17) 238 16 202 14 152 10 4 293 (20) 249 (17) 235 (16) 235 (16) 230 (16) 196 (13) 147 (10) 5 269 (19) 229 (16) 215 (15) 215 (15) 211 (15) 179 (12) 135 (9) 6 251 1 213 15 201 14 201 14 196 14 167 12 125 8 8 270 (19) 230 (16) 216 (15) 216 (15) 212 (15) 180 12) 135 (9) Thefitting pressure rating appliestothe largest opening of thefitting. CAST COPPER ALLOY FLANGES AND FLANGED R TT1 NGS Ftessure(FS) Norrinal SmJoint Terrperatu'e (In Indies) 'FCC)" Class 125" Class 150' (]ass 150g0 1/2,3/4,1,11/4, 0-150(0-66) 105 (7) 210 (14) 225 (15) 1 1/2, 2,21/2, 175 100 205 14 220 15 3,4,5,6,8 200 (93) 95 (7) 195 (13) 210 (15) (also V'for 225 (107) 90 (6) 190 (13) 205 (14) Class 125) 250 121 90 6 180 12 195 13 275 (135) 85 (6) 175 (12) 190 (13) 300 (149) 85 (6) 170 (12) 180 (12) 350 (177) 75 (5) 150 (10) 165 (11) 406 (208) 70 (5) 140 (9) 150 (10) ^MSSSP-106 IASTM 8684,LNS083800and LNSaA400 -ASTM 862,UVSC83600andASTM 8684,UVSC83 m U.S.customary units in this doarnent are the standard;the n-etri c units are prov ded for reference only The values stated in each system are not exact egtuvcients. NIBOJINC WCR.DFEADCLARIH2S- 1516MIDDL83J i'SC• BJ4lAR1;IN465164740• US4• R-t 1.800.234.0227 m T137-I SERACE FR 1.888.446.4226• FAX 1.800.234.0557• INTt33VATICNALSERACEF3-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.00m www.nibco.com AHEAD OF • 0 -4 W_ Wder TLube The rnechanicsof making both the solderjoint and the braangjant are conWativelysirrilar.Gooete instructions on proper techniques of both of t here j oi ni rig Irethods are outlined in this catalog on pages 85-97. Avery i rrportant consi derati on i n Copper R pi ng is the selection of the proper bondi ng rredi um Asa general rule,the world ng temperature of the installation is a more important consideration than the world ng pressures.If the working temperature is not over 250°F(121°G),either 50-501/o*or 95-5 1/osolder can be used successfully I Dwever,if the temperatureexoeeds250°F(121°G),alow temperature braang al loy should be used,with a rrdti ng temperature sonmhat in excess of 1000°F(538°C). According to BMS report No.58,joi nts made with tin or tin-alloy solders should not be subject continuously to temperatures above 250°F(121°G�. A number of bras ng alloys are avai I abl a and a careful study should be made in every case to deterrri ne the proper ad Ioyfor the particular application. 'The Safe Dn nN rig Water Act Amendment of 1986 prohi bits the use i n potabl e water systems of any sd der ham ng a I ead content i n excess of 0.21/o. DIMENSIONAL DATA-SOLDER JOINT SdderJant Fttirxgs-Tolerances SdderJant Fittings SdderJant Fittings Copper Alloy-Ressure,2 Copper Alloy-Drainage- Made End(Fitting Connector) Ferrule End(Solder Cup) Nominal ❑ameter Darreter Fitting End Length Solder Cup Length Fitting End Length Solder Cup Length Water Tube Min. Max Min. Max Min. Min. Min. Min. 9zE)(In Indies) Inch (rrm) Inch (mm) Inch (rrm) Inch (mm) Inch (mrn) Inch (mm) Ind, (mm) Ind, (mm) 1/8 0.248 (6.30) 0.251 (638) 0.252 (6.40) 0.256 (6.50) 0.31 (7.9) 0.25 (6.4) NYA NYA NYA NYA 1/4 0.373 (9.47) 0.376 (9.55) 0.377 (9.58) 0.381 (9.68) 0.38 (9.7) 0.31 (7.9) NYA NVA NYA NYA 318 0.497 (1262) 0.501 (1273) 052 (1275) 0.506 (1285) 0.44 (112) 0.38 (9.7) NA NVA NYA NYA 1/2 0.622 (15.80) 0.626 (15.90) 0.627 (15.93) 0.631 (16.03) 0.56 (14.2) 0.50 (127) NVA NYA NYA "A 518 0.747 (18.97) 0.751 (19.08) 0.752 (19.10) 0.756 (19.20) 0.69 (17.5) 0.62 (15.7) NVA NYA NYA NYA 314 0.872 (22.15) 0.876 (22.25) 0.877 (22.28) 0.881 (22.38) 0.81 (20.6) 0.75 (19.1) NYA NYA NYA NYA 1 1.122 (18.50) 1.127 (2863) 1.128 (28.65) 1.132 (28.75) 0.97 (24.6) 0.91 C&1) NVA NYA NVA NYA 11/4 1.372 (34.85) 1.377 (34.98) 1.378 (35.00) 1.382 (35.10) 1.03 (26.2) 0.97 (24.6) 0.56 (142) 0.50 (127) 11/2 1.621 (41.17) 1.527 (41.33) 1.628 (41.35) 1.633 (41.48) 1.16 (29.5) 1.09 (27.7) 0.62 (15.7) 0.56 (14.2) 2 2121 (53.87) 2127 (54.03) 2128 (54.05) 2133 (54.18) 1.41 ( 5.8) 1.34 (34.0) 0.69 (175) 0.62 (15.7) 21/2 2621 (66.57) 2527 (66.73) 26M (66.75) 2633 (66.88) 1.53 (3119) 1.47 (37.3) NYA NVA NYA NYA 3 3.121 (7927) 3.127 (79.43) 3128 (79.45) 3.133 (79.58) 1.72 (43.7) 1.66 (422) 0.81 (20.6) 0.75 (19.1) 31/2 3 621 (91.97) 3.627 (92.13) 3.628 (92.15) 3633 (9228) 1.97 (50.0) 1.91 (48.5) NA NYA NYA NYA 4 4.121 (104.67) 4.127 (104.83) 4.128 (101.85) 4.133 (104.98) 222 (56.4) 216 (54.9) 1.06 (26.9) 1.00 (254) 5 5.121 (130.07) 5127 (130.23) 5.125 (13025) 5.133 (130.38) 272 (69.1) 266 (67.6) 1.31 (33.3) 1.25 (31.8) 6 6.121 (155.47) 6.127 (155.63) 6.128 (155.65) 3133 (79.58) 322 (81.8) 309 (18.5) 1.62 (41.1) 1.50 (38.1) 8 8119 (206.22) 8.127 (206.43) 8.128 (206.45) 8.133 (206.58) 4.09 (1039) aw (100.8) 212 (538) 200 (50.8) 10 10.119 (257.02) 10.127 (257.23) 10.128 (257.25) 10.133 (27.38) 4.12 (104.6) 4.00 (101.6) NA NA NYA NYA 12 12119 (307.82) 12127 (308.03) 12.128 (30805) 12.133 (308.18) 4.62 (117.3) 4.50 (1143) "A NYA NA NYA 'As shown Standard A5v1EB16.18 As shaven Stallard A%AEB16.22 'As 4wm Stallard ASIv1EB16.23 As Shawn Stallard A5v1EB16.29 U.S.a rstamnry units in this document are the standard;the metric units are provided for reference only The values stated in each system are not exact equvalehts. NIBO0INCVVCRDF64DCUARRTB- 15161VIICD_E3_R(Sr• 1310 TIN46516-4740. USA- FIA1.80D.234.0227 TB}I SERACTB R-11.888.446.4226• FAC 1.800.234.0557• INTER4AnCN1AL SLICE R-t+1.574.295.3221• FAX+1.574.295.3455 wwww.riboo.com NIBCCY www.nibco.com AHEAD OF • DIMENSIONAL DATA-BRAZING Male Sid(Fitting Cpnnector)Diarneter Ferrale End(B-aang Qap)Diarreter Fitting bid Solder Qap Length Length Nom nal Min. Max Min. Max. Min. Min. Water Tube S ze(In I nches) Inds (mm) Inch (mm) Inch (mnm Inch (rrm) Inch (mm) Inch (nm) 1/4 0.373 (9.47) 0.376 (9.55) 0.377 (9.58) 0.381 (9.63) 0.23 (5.8) 0.17 (4.3) 318 0.497 (1262) 0.501 (1273) 0.502 (1275) 0.506 (1285) 0.26 (6.6) 020 (5.1) 1/2 0622 (15.80) 0626 (15.90) 0.627 (15.93) 0.631 (16.03) 0.28 (7.1) 022 (5.6) 58 0.747 (18.97) 0751 (19.08) 0.752 (19.10) 0.756 (1920) RYA RYA VA NA 3/4 0.872 (2215) 0.876 (71.25) 0877 (22.28) 0.881 (22.38) 0.31 (7.9) 025 (6.4) 1 1.122 (28:50) 1.127 (28.63) 1.128 (2165) 1.132 (28.75) 0.34 (8.6) 028 (71) 11/4 1.372 (34.85) 1.377 (34.98) 1.378 (35-OD) 1.382 (3.5.10) 0.37 (9.4) 031 (79) 11/2 110 (41.17) 1.627 (41.33) 1.628 (41.35) 1.633 (41.48) 0.40 (102) 0.34 (8.6) 2 2121 (53.87) 2127 (54.03) 2128 (54.05) 2133 (54.18) 0.47 (11.9) 040 (10.2) 21/2 2621 ((6.57) 2627 (66.73) 2628 (66.75) 2633 (66.88) 0.53 (135) 047 (11.9) 3 3121 (79.27) 3.127 (79.43) 3128 (79.45) 3.133 (79.58) 059 (15.0) 053 (13.5) 31/2 3621 (91.97) 3627 (92.13) 3.628 (x.15) 3633 (x.28) 0.65 (165) 0.59 (15.0) 4 4.121 (104.67) 4.127 (104.83) 4.128 (104.85) 4.133 (104.98) 0.72 (18.3) 064 (16.3) 5 5.121 (130.07) 5127 (130.23) 5.128 (13D.25) 5133 (130.38) 0.81 (20.6) 073 (18.5) 6 6.121 (155.47) 6.127 (155.63) 6.128 (155.65) 3.133 (79.58) 0.94 (2ag) 0.83 (21.1) 8 8.119 (206.22) 8.127 (206.43) 8.12B (206.45) 8.133 (206.58) 1.28 (32.5) 1.17 (29.7) 10 10.119 (257.02) 10.127 (257.23) 10.128 (257.25) 10.133 (257.38) 14A NiA RYA RYA 12 12119 (307.82) 12.127 (308.03) 12.128 (306.05) 12133 (308.18) N/A VA VA VA In a000rdarxe with MS SR73 U.S.custarray utits i n this doamant are the starxlard;the rretri c ubts are provided for reference arty the values stated in each system are riot exact egctvalents. NIB00INCWCR.DFEADCLARI82S• 1516MIDDt.LB-WSC• L3l+PRrIN46516.4740• USA,- R-t1.800.234.0227 TEHSERACESFR 1.888.446.4226• FAX 1.800.234.0557• IN193VAl1CNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 www.niboo.00m www.nibco.com AHEAD OF • ODWff Water Tubeoont i nued DIMENSIONAL DATA ... , ; TYFE"K' Ffard Drawn: 2O•ft.(6.1m)Straight Lengths Soft Annealed: 20-ft.(6.1m)Straght Lengths,or40-ft.(12.2m)and 60-ft.(18.3m)Length Coils(to and including size 11/2) Usage: Far underground sewn ce and general purpose pl mb ng and heating installations under sere corx6tions. Tolerances Hard Drawn Soft Annealed (Hard Drawn Chly) CLtsi de Tubi ng CD Nom red WJ I Weight Bursting Safe World ng Bursting Safe World ng Nord nal Diareter Thidmess F2r Foot RessureA Fressureg RessureA Ressure� Water Tube Min. Max 92a(In lndles) Irich (rum) Inch (nm) Inch (nm) Irich (rrm) Lb (kg) psi (bars) psi (bars) psi (bars) psi (bars) 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) 0.035 (0.89) 0.145 (0.07) NA N/A 1612 (111) N/A N/A 913 (63) 318 0.500 (1270) 0.497 (1252) 0.501 (1273) 0.049 (1.24) 0.269 (0.12) N/A N/A 1675 (115) RYA INVA 96D (66) 1/2 0.625 (15.88) 0.622 (15.80) 0.626 (15.90) 0.049 (1.24) 0.344 (0.16) 9640 (678) 1337 (92) 4535 (313) 758 (52) 518 0.750 (19.05) 0.747 (18.97) 0.751 (19.08) 0.049 (1.24) 0.418 (0.19) N/A NA 1104 (76) RYA NA 626 (43) 314 0.875 (72.23) 0.872 (22.15) 0.876 X2.25) 0.065 (1.65) 0.641 (0.29) 9300 (641) 1278 (88) 4200 (290) 724 (50) 1 1.125 (28.58) 1.122 (21150) 1.127 (28.63) 0.065 (1.65) 0.839 (0.38) 7200 (496) 982 (68) 3415 M 557 (38) 11/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.98) 0.065 (1.65) 1.040 (0.47) 5525 (381) 797 (56) 2800 (193) 452 (31) 11/2 1.625 (410) 1.621 (41.17) 1.627 (41.33) 0.072 (1.83) 1.360 (0.62) 5000 (345) 742 (51) 2600 (179) 420 (29) 2 2125 (53.98) 2121 (53.87) 2127 (54.03) 0.083 (211) 2060 (0.93) 3915 (270) 652 (45) 2235 (154) 370 (26) 21/2 2625 (66.63) 2621 (66.57) 2627 (66.73) 0.095 (241) 2930 (1.33) 3575 (246) 597 (41) RYA INVA 338 (23) 3 3125 (79.38) 3.121 (79.27) 3.127 (79.43) 0.109 (277) 4.000 (1.81) 3450 (7313) 578 (40) RYA RYA 328 (23) 31/2 3.625 (92713) 3.621 (91.97) 3.627 (9213) 0.120 pm) 5.120 (232) NA NA 549 (38) NA NA 311 (21) 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0.134 (3.40) 6,510 (295) 3415 M 540 R RYA NA 306 (21) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0.160 (4.06) 9.670 (4.39) 3686 (247) 517 (36) RYA RYA 293 (20) 6 6.125 (155.58) 6.121 (155.47) 6.127 (155.63) 0.192 (4.88) 13.900 (6.30) 3425 (236) 520 (36) RYA RYA 295 (20) 8 8.125 (206.38) 8.119 (206.22) 8.127 (206.43) 0.271 (688) 25.900 (11.75) 3635 (251) 553 (38) RYA NA 314 (22) 10 10.125 (257.18) 10.119 (257.02) 10.127 (257.23) 0.338 (8.59) 40.300 (18.28) WA WA 553 (38) "A RYA 314 (22) 12 12125 (307.98) 12119 (307.82) 12127 (308.03) 0.405 (10.29) 57.800 (26.22) NA N/A 555 (38) N/A N/A 314 (22) Note:Infometion and data oortai red i n these duats,as taken from ASIM W fi cations B 88. Rated irterrral pressure for copper water tube used on the strength of the tube alone and applicableto systerrs using suitable mechmcat joi nts. A Based on actual laboratory test data prodded by Copper Dmdoprrent Assodation,Inc 6 Based upon 150°F(65.6°C)with an allowable stress of 9500 psi(668ld:b) °Based upon IWF(65.6°C)with an allowade stress of 5100 psi(359Id:b) U.S customary units in this doamnant are the standard;the r etri c units are provided for reference on y.The\d ues stated i n each system are not exact equ\rA ents NIBMINCVC'RAFE4DCLARTBS• 15161VIICD_E3_R(ST- B.A-PUIN46516-4740• LISA- R41.80O.234.0227 TE H SE ACS Rt 1.8B8.446.4226• FAX 1.800.234.(05!• INTEF;NAl1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • DI M ENSI• COPPER TYFE"L" FlardDawn: 2D-ft.(6.1m)Straight Lengths Soft Annealed: 2D-ft.(6.1m)Straight Lengths,or40-ft.(12.2m)and 60-ft.(18.3m)Length(oils(to and irid udi ng si2e 1 1/2) Lbage: Fbr generad puposephmibing and heating oonditiais. Tderanoes Hard Drawn Soft Annealed (Hard Drawn Cnly) Qrtside Tubing CD Norninal Wall Weight f1Busting SafeWaidng Eiarsting -We Woidng Nominal Diameter 7hidmess �r Foot r essureA RessureB RessureA R-essurel Water Tube Min. Max 5ze(In Inxhes) Inch (rum) Inch (rmi) Inch (rum) Inch (mm) Lb (kg) psi (bars) psi (bars) psi (bars) psi (bars) 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) 0.030 (0.76) 0.126 (0.06) N/A N A 1367 (94) NA NA 775 (53) 3r8 0.500 (1270) 0.497 (1262) 0.501 (1273) 0.035 (0.89) 0.198 (0.09) N/A N/A 1168 (81) NA N/A 6E2 (46) 1/2 0.625 (15.88) 0.622 (15.80) 0.625 (15.90) 0.040 (1.02) 0.285 (a 13) 7765 (535) 1082 (75) 3885 (268) 613 (42) 68 0.750 (19.05) 0.747 (18.97) 0.751 (19.08) 0.042 (1.07) 0.362 (0.16) RYA RYA 947 (65) WA MA 537 (37) 3(4 0.875 (2223) 0.872 (2215) 0.876 X2.25) 0.045 (1.14) 0455 (0.21) 5900 (407) 873 (60) 2935 (202) 495 (34) 1 1.125 (28.53) 1.122 (28.50) 1.127 (28.63) 0.050 (1.27) 0.655 (0.30) 5115 (353) 741 (51) 26M (183) 420 (29) 11/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.96) 0.055 (1.40) 0.884 (0.40) 4560 (314) 658 (45) 2400 (165) 373 (26) 11/2 1.625 (41.28) 1.621 (41.17) 1.627 (41.33) 0.060 (1.52) 1.140 (0.52) 4100 (283) 613 (42) 2200 (152) 347 (24) 2 2125 (53.98) 2121 (53.87) 2127 (54.03) 0.070 (1.78) 1.750 (079) 3365 (232) 545 (38) 1910 (132) 309 (21) 21/2 2625 (6668) 2621 (66.57) 2627 (66.73) 0.080 (203) 2480 (1.12) 3215 (222) 504 (35) N/A N/A 285 (20) 3 3.125 (79.38) 3.121 (79.27) 3.127 (79.43) 0.090 (229) 3.330 (1.51) 2865 (196) 476 (33) NrA "A 270 (19) 31/2 3.625 (92.08) 3.621 (91.97) 3.627 (92.13) 0.100 (254) 4:290 (1.95) RYA RYA 455 (31) NA MA 258 (18) 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0.110 (279) 5.380 (244) 2865 (198) 440 (30) NA "A 249 (17) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0.125 (3.18) 7.610 (3.45) 2985 (206) 404 (28) N/A N/A 713 (16) 6 6.125 (15559) 6.121 (15647) 11127 (155.63) 0.140 (3.56) 10200 (4.63) 269D (185) 376 (25) NrA NIA 213 (15) 8 8.125 (206.38) 8.119 (206.22) 8.127 (20643) 0200 (5.08) 19290 (8.75) 2650 (183) 406 (28) MA NA 230 (16) 10 10.125 (257.18) 10.119 (257.02) 10.127 (257.23) 0.250 (635) 30100 (13.65) N/A RYA 407 (28) NA "A 231 (16) 12 12125 (307.98) 12119 (307.82) 12127 (308.03) 0280 (1.11) 40.400 (11133) NA N/A 380 (26) QUA NrA 215 (15) Note:Irforretioi and data contai ned in these diarts,as t*m fromASTM q3edficatiars B 88. Iited intend pressrrefor oopper water tube bared on the strength of the tube alone and applicabletosysterrs Li§rg suitable rr ado icad jdnts. A Based on actual laboratory test data prrwided by Copper De\A9IgxTBt Assodatior,Ina e upon150°F(65.6°C)withanallovablestressof9500psi(668k Based Lpon 150°F(656°C)with an allowable stress of 5100 psi(359 kPa} U.S.custa Teary units i n this doarnant are the standard;the rretri c u its are provided fo- refereroe o iy.the val Lies stated in each system are riot exact ecp\rAerts. NIBO)INCWCR.DFEADG114RT82S• 1516MIDDLE3- i'SC• al+PRrIN46516.4740• USA,- R-t1.800.234.0227 TEH SERACE FR 1.888.446.4226• FAX 1.800.234.0557• IN193VA-lCNALSERACE F3-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.00m www.nibco.com AHEAD OF • ODWff Water Tubeiciont i nued DIMENSIONAL DATA ... , ; TYFE"M° Hard Drawn Only 20ft.(6.1m)Straight Lengths Usage: For genered purpose pl un bi ng,heati ng and drainage instedlations. Tolerances Hard Drawn (Hard Drawn Qtly) CUtsi de Tubi ng CD Novi nal Wed I Weight Qarsti ng Safe World ng Nordnal Diarreter Zhidmess F2r Foot FtessureA FtessureB Water Tube Min. Max 92a(In Inches) Inch (rrm) Inch (rrm) Inch (nm) Inch (rrm) Lb (kg) psi (bars) psi (bars) 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) NA NA NA NA N/A NA NA NA 318 0.500 0270) 0.497 (1262) 0.501 0273) 0025 (0.64) 0.145 (0.07) RYA RYA 855 (59) 1/2 0.625 (15.88) 0.622 (15.80) 0.626 (15.90) 0028 (0.71) 0.204 (0.09) 6135 (423) 741 (51) 518 0.750 (19.05) 0.747 (18.97) 0.751 (19.08) RYA IVA NA NIA NA RYA NA N/A 314 0.875 X2.23) 0.872 (22.15) 0.876 (22.25) 0032 (0.81) 0.328 (0.15) 4717 W5) 611 (42) 1 1.125 (28.58) 1.122 (28.50) 1.127 018.63) 0035 (0.89) 0.465 (0.21) 3865 (266) 506 P5) 11/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.98) 0042 (1.07) 0.682 (0.31) 3875 (Z67) 507 (35) 11/2 1.625 (410) 1.621 (41.17) 1.627 (41.33) 0049 (1.24) 0.940 (0.43) 3560 (245) 497 (34) 2 2125 (53.98) 2121 (53.87) 2127 (54.03) 0058 (1.47) 1.460 (0.66) 2935 (202) 448 (31) 21/2 2625 (66.68) 2621 (66.57) 2627 (66.73) 0065 (1.65) 2030 (0.92) 2800 (193) 411 (28) 3 3125 (79.38) 3121 (79.27) 3127 (79.43) 0072 (1.83) 2680 (1.22) 2665 (184) 380 (26) 31/2 3625 (92.08) 3621 (91.97) 3.627 (9213) 0083 (211) 3.580 (1.62) NA RYA 378 (25) 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0095 (241) 4.660 (211) 2215 (153) 377 (Z6) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0109 (277) 6.660 (3.02) 2490 (172) 349 94) 6 6.125 (155.58) 6.121 (155.47) 6.127 (155.63) 0122 (310) 8.920 (4.05) 2000 (138) 328 (23) 8 8.125 (206.38) 8.119 (206.22) 8.127 (206.43) 0.170 (4.32) 16.500 (1.48) 2285 (158) 344 (24) 10 10.125 (257.18) 10.119 (257.02) 10.127 (257.23) 0.212 (5.38) 25600 (11.61) N/A NA 344 (24) 12 12125 (307.98) 12119 (307.82) 12127 (308.03) 0.254 (6.45) 36.700 (16.65) NA N/A 345 (24) Note:Infametim and datacontainedinthesechats,a5talenfromA51N1 Wfications1388. Rated irtand pressure for copper water tube used cn the strength of the tube alone and applicableto systems using suitable mechanical jcints. ^Based on actual Iaboratorytest data prodded by QbW DeveJoprrent Associaticn,Inc- 'Based upon 150°F(65.6 Qwith an allowable stress of 9500 psi(6681d:b) U.S o rstorr ay units in tfi s docurrent are the standard;the metric units are provided for reference oriy.the values stated in each systemare not exact equvalents. NIBMINCVVCRDF64DQ14Rf9s• 1516MICOLBMWSL• 1310ARf,IN46516-4740• USA- R-t1.800.234.0227 TEH SERACTB R-t 1.8B8.446.4226• FAX 1.800.234.0557• INT9aJAl1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • DI M ENSI• COPPER TYFF_'DJVV' Hard Drawnaly 20-ft.(6.1m)StraightLengths Usage: For drain,waste,vent and other non-pressure applications. Tderanoes Hard Drawn (Hard Drawn Cnly) D W Tube is for sanitary drai nage Qatside Tubing CD NorrinalWalI Weight Bursting applications.Thetubingwadlisthinnerthan Nominal Diameter Thic1mess Far Foot Ressure" Type"M"-rrddng it both lighter and less Water Tube Min. Max a nsive.R3search inicatesthatDNVtube 5ze(In Inches) Inch (rum) Inch (mm) Inch (mm) Inch (rrm) Lb (kg) psi (bars) has aserviceIifeofappradmately100 years- 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) N/A NiA WA WA N/A N/A oo nsi derabl y I onger than any bui I di ng i n whi ch 3r8 0.500 (1270) 0.497 (1262) 0.501 (1273) WA WA WA WA WA NyA it might be installed. 1/2 0.625 (15.88) 0.671 (15.80) 0.625 (15.90) WA WA WA WA WA WA The advantages of copper systems are 5'8 0.750 19. 0.747 18 0.751 19.08 WA MA WA WA NA NyA wei g�trn*nl7JWirgandtioas.lortatit ( � ( � ( ) weightmalcesharidlingandtrar>spo�tation 3(4 0.875 (2223) 0.872 (2215) 0.876 (22.25) NA NA NA NA NA NA easier-only 0.34 lb.(0.15kg)fora20ft.(6.1 1 1.125 (28.53) 1.122 (28.50) 1.127 (28.63) NA WA NA NA NA NA m)Ier soldesim3.Itstfrnnerwall allays faster sddering. 11/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.96) 0.040 (1.02) 11650 (0.29) NA NA 11/2 1.625 41.28 1.621 41.1 1.627 41.33 0.042 1. 0.809 0. 440 TF� � �l eoorrorncal �� ( ) ( 7) ( ) ( � ( �) �) without saaifid rig stability orlongevityfor 2 2125 (53.98) 2121 (53.87) 2127 (54.03) 0.042 (1.07) 1.070 (0.49) 326 (22) both contractor and the home owner.Firther 21/2 2625 6668 2621 66 2627 6&73 NA WA NA NA NA WA information IBO sionwill be arvi .Depa Department, ar ( ) ( '`� ( ) NIBC%7sTectrical Services Departmerrt,at 3 3.125 (79.38) 3.121 (79.27) 3.127 (79.43) 0.045 (1.14) 1.690 (0.77) 239 (16) 1-888-446.4226 31/2 3.625 (92.06) 3.621 (91.97) 3.627 (92.13) WA MA WA WA WA WA 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0.058 (1.47) 2870 (1.30) 225 (16) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0.072 (1.83) 4.430 (201) 227 (16) 6 6,125 (15658) 6.121 (155.47) 6127 (155.63) 0.083 (211) 6100 (277) 713 (15) 8 8.125 (20638) 8.119 (20622) 8.127 (20643) 0.109 MA 10.600 (4.81) 219 (15) 10 10.125 W.18)1 10.119 (257.02) 10.127 (257.23)1 WA WA WA WA WA WA 12 12125 W7.98)1 12119 (307.82) 12127 OM03)1 WA WA WA WA WA WA Note:Irfonretion and data contained in these d-arts,as taken franASTM 53ecificatiors 1388. R ted inte rd pressure for oopper water tube bared on the strength of the t be alone and applicabletosy a-musingsuitablerrecfranicaijdrts. A Based on actual laboratory test data pn Aded by Capper Develcprrerrt Association,Inc. e Based upon 150°F(65.6°C)with an al lovable stress of 9500 psi(668 nP Based upon 150T(656°C)with an allowable stress of 5100 psi(359 kPa} U.S astorrary units in this doament are the staiclard;the metricurits are presided for referenoeoly.The valLies stated in each system are riot exad ecp\derts NIBMINCWCR.DFEADCLARTB2S• 1516MIDDt.B3JWSC• a1+ARrIN46516.4740• USA• R-t1.800.234.0227 T67-I SERACES FH 1.888.446.4226• FAX 1.800.234.0557• IN193VA-lCNALSERACE F3-t+1.574.295.3221• FAX.+1.574.295.3455 wwwriboo.ocm www.nibco.com AHEAD OF • CoMer Water Tubeoclint i nued Under nwTd conditions,the physical properties of copper tubes,when produced by responsible n-anufacturers are perfectly adapted for the conveyance of hot and ool d water,steam,a I,gas,and air.Copper tubes will stand up under ordi nary conditions,but the user is specificallycautioned against laying underground tube in cinderfiII,especially if the ground is apt to be wet. Due to the sulphur compounds i n the cinders,a condition of this land may corrode the outside of the tubes.This maybe overcome either by wrappi rig the tube with canvas and asphaltum or by surrounding the tube with abed of dean sand mixed with Iirre,or with limestone or broken Paster.When conditions are doubtful, it is advisable to consult the Copper Development Association,or the tube manufacturer. Annealed copper tubes are general I y recommended for underground use.'/2"annealed copper tubes have been frozen as many as six times before finally bursti ng,eight times for 1"size,and eleven times for 2'size.Hard drawn copper tubes,however,burst during the f i rst f reea ng the same as i ron pi pe.(Condensed from Copper Tube Handbook) BTUs to Fbse 100'F7 38'C Noninal "A' "B' "C "d' "E' "F' "G' "H' 1" Water New Rpe Inside Q.itsde Weight Wluma Water Rpe Heat Loss Raw Tube gm Darrister Demeter ter pin Inches) Inch (7)m) Inch (7)m) Lb (Kg) GA/loft. uao5m BTU M BTU M BTU M GM LFM 378 0:1- .430 (10.92) 0.500 (1270) (1196 (0.090) 0.0754 (0.2854) 6289 (664) 1861 (19.6) MDEta WDEta 1.873 (7.089) Iran .496 (1252) 0,675 (17.15) 0.567 (0.257) 0.0922 (0.3756 8266 (87.2) 6237 (85.8) N Dda %Na 2461 (9.325) 1/2 04- .545 (1384) ae25 (1586) a285 (0.129) 0.1212 (0.4587) 10120 (106.8) 25.70 (182) 0.34 (0.36) 3565 (13.494) Iran .672 (1580) 0.840 (21.34) 0.850 (0.386) 0.1578 (0.5973) 131.60 (1388) 93.50 (9116) 5.91 (827) 4.585 (17.354) 3l4 04- .785 (1994). 0.875 (1223) 0.455 (0.207) 02514 (0.9515) 209.60 (221.1) 4267 (450) 0.41 (.44) 9.589 (36332) Iran .824 (20.93) 1.050 x.67) 1.130 (0.513) O.Z170 (1.0184) 230.10 (2428) 124.3D (131.1) 7.16 (7.517 9720 (36.790) 1 QW 1.025 (16.04) 1.125 (2853) (1655 (0.297) (14257 (1.6226) 357.3D (377.0) 61.38 (64.8) 0.50 (0.53) 19.80 (74.94) Iran 1.019 (26.64) 1.315 (33.40) 1.678 (0.762) 0.4490 (1.6995) 374.30 (394.9) 184.58 (191.7) 862 (8.09) 1853 (70.14) 11/4 Ow 105 (3213) 1.375 (34.93) 0.894 (0.401) (16M9 (24712) 544.30 (574.3) 8291 (87.5) 0.62 (0.651 36.05 (13266) Iran 1.38D (85.05) 1.680 (4216) 2270 (1.031) 0.7770 (29109) 647.70 (68;1.4) 24970 (261.4) 10.65 (11.24) 3856 (145.95) 11/2 Qw 1.505 (38.23) 1.625 (41.28) 1.140 (0.518) G9241 (3.4977) 770.40 (8128) 107.16 (1131) 1185 (0.73) 5616 (21257) Iran 1.610 (40.85) 1.900 (4826) 2729 (1.235) 1.0580 (4.0046) 881.60 (930.1) 29810 (314.5) 11.97 (1263) %m X2a29) 2 Ow 1.985 (50.42) 2125 (53.98) 1.750 (0.795) 1.6080 (6.0863) 134GOD (14138) 164.50 (173.6) 1184 (0.89) 11910 (451179) Iran 2067 (5250) 2375 (60.33) 3650 (1.657) 1.7430 (65973) 1453.OD (15330) 401.50 (423.6) 14.61 (1541) 11350 (429.60) 21/2 C4- 2465 (6261) 2625 (66.68) 2480 (1.126) 24790 (9.3830) 2066.00 (2179.7) 23300 (2458) 1.01 (1.07) 21430 (811.13) Iran 2469 6271) 2875 (7306) 5.790 (2629) 24870 (9.4133) 2073.00 (2187.1) 63690 (6720) 17.42 (1838) 18250 (850.76) 3 OW 2945 (74.a0) 3125 (79.38) 3330 (1.512) 35390 (133951) 29450D (31(J7.1) 31325 (330.4) 1.13 (1.19) 347.40 (1314.91) Iran 3068 (77.96) 35 (889D) 7.55 (3441) 38400 (14.5344) 3201.00 (3377.2) 83270 (878.5) 2x63 (21.77) 32500 (1233.91 4 aw 3.905 (99.19) 4.125 (10478) 5380 (2443) 6.2220 (2;1.5603) 518600 (5471.5) 5M72 (5336) 1.50 (1.59) 747.10 (282777) Iran 4.026 (1M26) 45 (114.30) 10.79 (4.899) 66130 pa.00D2) 551300 (58165) 118690 (1252.2) MOD (27.43) 67a80 (2550.33) CCILJMN A The copper tube is Type L 3andard,meeting the recu.irerr uhts of ASTM G LWN H Thisodu nshaystheheat errissionfrom 1Ofeet(3.05 adres)of the jven Specification B88.The iron pipe is standard weight,sdheduie 40,bare pipe,ecept as tube and pipe paced horimrtally.The column in tears of BTLb lost per hour(lalgorles to OJurrn I where new galvanized pipe is referred to lost per hour)for each degree of difference in tenperatue between the pipe and the OlaWN R Rom nanufadtuers'specifications Sight variations can be noted between suranring air.The fi far iron are tarn from erperirrnental data obtained at the specificatiazsofclifferertmrariufacturers,but thesefigrres are representative. Mellon Institute.Figiresfor copper hew been calculated with reference tothose for iron on the basis of the lvnor\nn ratio of heat errissicn between the two materials OCLLMN C Rom m anufacurers'spedficetions with the same considerations as noted for Oil umn B OaWN I:This oolurn shays the number ber of gallons(litres)of water which will flaw OCLliV1N Q Rom rr>3rxafaduers'spedfigtions through 100 feet(30.48 metres)of the gven tube and pipe with a pres%ze loss of 10 pounds per square inch(70 141opascals). Raw is based on diareters in(blurm B OC UJ\AN E Cubic contents of 10 linear feet/aO5 linear err tres of tube and have been woording to Rnfessor CDa✓wson's formlae for NBN galvanized iron pipe and NEW calaJatedfromdirretersgveninOdurrrnB,bythefamlafor the contents ofacylinder. capper tube.Due to the oaros ionof iron and its tenderxytoacaxnlateseciirrentsand OQ UMN F.This column has been calculated from alum Eand shams the n nicer of other foreign natter,Rof.Dwmm suggests that 15%be deducted from the figues for ffU(Idlgoutes)required to heat the water content erly of 10 feet(3.05 rn:tres)of the iron pipe in order to arrive at a reasonable performance e)Wahcy for such pipe in j\en tube and pipe 100°F(38°(x.It requires 833.6 Bilk(879.5 kJ)to heat 1 gallon swAoa use copper resists rust and is inherently more smooth,Rofessor Damson (a975 d water 100°F(38°(a sins a deduction of only 51/o from the figures jven for copper tube. CM MN G These figues are calculated from Cc umn D anti showy the nur ber of 9U (kJ)required to raise the tenper-ature of 10 feet(3.05 metres)of empty tube and pipe 100°F(38'q Due to difference in the specific had of the materials,it requires 9.4 BTLJs (9.9 kJ)to raise 1 pound(0.4541alogarrs)of copper 100°F(38°Q and 11.0 BTLb(11.6 M)toraise 1 pound(0.45414logam)of iron 100'F(38°C) U.S.customary units i n this doanrent are the standard;the metric units are prowl ded for reference only The values stated in each system are not exact equivalents. NIBMINGMIRDF64DQ14Rf9s• 1516MICOL&1AR'ST.• 1310ARTIN46516-4740• LISA- R41.80D.234.0277 TEHSERAGBR-11.888.446.4226• FAX1.800.234.0557• INTB:?\AT1CNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • B(PANSION AND CONTRACTION In the nAorityof low-pressure heating systems errploying copper tube and installed in srrall houses or private dwellings,provision for e)q3ansion and oontraction is relativelysirrple.Mains,risers,and Q j branches to radiators should be free or floating at one end of the line.Holes should be large enough to perm t free ni verrsnt of the cc tube,and care shoal d be exercised so that pi pe hangers and G e ;l on supports permt unrestricted rnovaTfft and do not anchor the tube. _ � n - -r1.2r.5ry Is.73r�mI Wrought copper tube hangers that are both practicable and neat in X 15 appearance are avai I abl e. 0.13 �3•a9 Lhusual I long runs of copper tubing should be provided with an W �° expansi on bend or I oop.By bendi ng soft temper copper tube,a o as si e form of on I can be made.Wrth the addition of rrpl e�arlsi cop p oornbi nati on f I ared-tube toscl der jantfitti rigs,asiIIustratedin a 9 Figure 1,these types of loops can be used when space or other 1-11r-m a•A 07.14 1Mm fAM u21 1) rr" r"671 Iimi tat ionse7 ast.The correct propotionsof such e 7par>sionI cop to as zs 125 175 225 M � meet vanouscohditionsareshowninthea000rrpenyingtable. ��• �• _,; Rj `Iuz rin• nzj iEMPERATURL F f`Ci The above chart i s cal cul aced usi ng 1 Oft(3.05m)of copper-tubi ng as R GURE 1 the reference pant.You may use it as fol lows: 1 00f(30.5m)of ^ P copper tube,with a200°F(93.3°O)tenWature charge.Werence f+ i nt.2256 i ndhes for 10ft, 5.73rrm for 3.05m,multi 10 for I po ( ) PY by a.U Bend P 1 00f(30.5m),resul t i ng i n an answer of 2.256 i nc hes(57.3rrm)of _ t e)pansion or oontract ion. NOTE CSI cull at i ons for expansi on and contract i on shoul d be based ry on the average coefficient of expansion of copper which is i 0.0000094 per'F(0.00001692 per'q between 77°Fand 212'F ° (25°Card 100°C).Fbrexarrple,the expansi on for each 1Oft(3.05m) b.Coi I ed Loop �", of any size of tube hued from room terrperature of 70'F(21.V C)to 170 F(76.Tq,that is, 100 F(55.6 q rise,is: Rse Coeffident 100'F 1 Oft 12 inches 0.000094 0.1128 i n. c.Offset and ^ (55.6'C) X (3.05m) X (100a m) X (0.00001692) (2.87rrm) Return RADI I OF COI LED EXPANSION LOOPS AND DBaOPED LENGTHS OF EXPANSION CFFSEFS E)Wed Fparnsion Nominal 1/2 1 11/2 2 21/2 3 31/2 4 Tube R L L R L R L R L R L R L R L 9m Irrh (mn) Irxh (nn> I on) Inch (mn) inch on) Irxh (mn) Irxh (n n) Inh (mn) Irrh (mn) Ir& (rrm) Ind1 (rm1) Ind1 (-I Ind1 (mm) Ind1 (mn) Ind1 (mn) Inch (-I 1/4 6 (1524) 3B W 9 M6) 54(1371.6) 11 P94) 66(16764) 12 (038) 77(1955.8) 14 (3E6) 85(2184.4) 15 (381.0) 93 X76) 16 (406.4) 1C2 PM) 17 (431.8) 109(EM6) 378 7 (177.8) 44(1117.6) 10 (254.0) 63(1600.2) 12 (U.8) 77(1958) 14 (355.6) 89 PH) 16 (4064) 99(2514.6) 17 (431.8) 109(276867 19 (4826) 117(L971.8) 29 (5080) 1M(a)m) 1/2 8 PM4 5D(1270.0) 11 P94) 70(17780) 14 (M6) 89 pm) 16 (4084) 99(2514.6) 18 (4572) 111 X994) 19 (4826) 122(30938) 21 (5334) 131(M..4) 22 (555.8) 140(556.0) 3(4 9 (718.6) 59(14986) 13 (339 83(2106.2) 16 (4064) 101 055.4) 19 (4626) 117 071.8) 21 (533.4) 131(M.4) 23 04.E 143 @53P 25 P50) 155(M..0) 25 (13814) 165(42164) 1 11 (7794) 67(1701.8) 15 (361.0) 94(238767 18 (4572) 115 PK0) 21 (MM) 133(33782) 24 (@Mb) 149(378467 26 (69a4) 163(4140.2) 28 (7112) 176(4470.4) 3D (M0) 18B(47752) 11/2 13 @W 8D X620) 18 W.2) 113 08704 72 088) 138 @BM4 25 �M0) 160(40640) 29 (7366) 179(45466) 31 (1874) 195(4978.4) 34 @5a6)212 P848) 35 (914.4)a(57404) 2 15 (381.0) 91(1311.4) 21 (5334) 129(327667 25 ff50) 158(40132) 29 (/366) 183(46482) 33 (q 295 P7..0) 35 (914.4)224 0896) 39 (99D.6)242(61468) 41(1031.4)255(15578.6) 21/2 16 (4(6.4) 102 p9a8) 23 (584.2) 144 W.6) 26 (111.2) 176(4470.4) 32 (8128)273(51564 36 (914.4)227 pffi8) 40(10160)249(6324.6) 43(109P 299 @Mb) 46(11634)23B(73152) 3 18 (467.4 111 0194) 25 @x0) 157(3387.8) 3D (7620) 191(4851.4) 35 (88:3.0)7711038.8) 40(10160)248(fi R4 43(10922)272 0088) 47(1193.8)293(/442.2) 5D(12700)314(79756) 31/2 19 (4826) 129(30180) 27 (6858) 169(42926) 33 (q 276 M24) 38 WA 239(6070.6) 43(1084 2.71 P81.8) 47(1193.8)298 Q4422) a)(1270.0)316(t3M4) 54(1371.6)33B @M4 4 29 (5030) 128(3251.2) 29 (7366) 180(4520) 35 @SO)7d7 0880) 41 (MA)256(£4770) 45(11430)25 VMO) 50(MO)312(1714.8) 54(1371.6)337(8M8) 57(14478)361(9168.4) 5 23 P42)1142 @M8)1 32 @128)1 V(51054) 39 (M6) 215 X3.0) 51 (12 318(80772) 55(13W.0)l 348 RWI 6D(1524.0)376(P.4) 64(16256)402(102108) U.S arstarery Units in this doamerlt are the staxiard;the n-dricu its are presided for referernoeaiy.The valLies stated in each soemare riot exad ecp\derts. NIBCJINC WCR.DFEADCuARIH2S• 1516MIDDt. BJWSr• a1+AR1;IN46516.4740• USA- R-t 1.800.234.0227 T67-ISERACESFH 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACEF3-t+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.00m www.nibco.com AHEAD OF • CqW Water Tubeoont i nued SELECTION . The smooth interior of copper-tube,and the design of both solder joint and flared-tube-type fittings,which have no shoulders projecting into the flow of water,decrease friction lass.With the use of copper tube,noel Iawanoe is necessary for the accumulation of rust deposits in supply and service Iines. Consequently,copper tube lines are usually figured one sim smaller than iron pipe for the same service.This rule does not apply to lines from a wel Ito a pump where the non final diameters specified by the pump rnanufacturer must be adhered to strictly. Water passing through any pipe line encounters resistance by friction.The resistance is increased by bends and turns in the line,which should be taken into account in oompl ex piping systems. For example, a one-i nch W el bow will cause friction loss equivalent to that of one foot (0.305m)of straight one-inch tube.(See below for allowance to be made for fittings and valves in equivalent lengths of tube.)Fiction loss in temu of head loss must be taken into consideration in calculating tube suns to be used for various types of installations. For most average-sim-house installations with water pressures 40 M (275.&Pa)and higher, 3/4"copper-tube will be ample for main supply lines,and'/2"copper-tube can be used for risers and brandies to all fixtures.The srraller 3/4'tube is adequate to supply brandies, but with pressures at 40 FS(275.&Pa)and higher,water hamnier becomes a oxcem when the flaw is suddenly stopped. APPROXI MATE FRICTI ON h ALLOkNANCES FOR FITTI NGS AND `LVES I N FEET OF •` t Wrought-Copper Fitti rgs Cast CDpper AI loy Fittings and Valves Nominal 90° 45° Tee Tee 90° 180° 90° 45° Tee Tee Cbrrp. C3obe Cate TubeSSze Bbow 6bwv Flan SdeQatlet Fend Bend Bbow 6bwv Flan Sde(l.itlet Stop Valve Valve (In Ind)es) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) 3r8 0.5 (0.15) 0.5 (0.15) 0.5 (0.15) 1 (0.31) 0.5 (0.15) 0.5 (0.15) 1 (0.31) 0.5 (0.15) 0.5 (0.15) 2 (0.61) 9 (275) - - - - 112 0.5 (0.15) 0.5 (0.15) 0.5 (0.15) 1 (0.31) 0.5 (0.15) 1 (0.31) 1 (0.31) 0.5 (0.15) 0.5 (0.15) 2 (0.61) 13 (3.97) - - - - 5r8 0.5 (0.15) 0.5 (0.15) 0.5 (0.15) 2 (0.61) 1 (0.31) 1 (0.31) 2 (0.61) 1 (0.31) 0.5 (0.15) 3 (0.92) 17 (5.19) - - - - 314 1 (0.31) 0.5 (0.15) 0.5 (0.15) 2 (0.61) 1 (0.31) 2 (0.61) 2 (0.61) 1 (0.31) 0.5 (0.15) 3 (0.92) 21 (6.41) - - - - 1 1 (0.31) 1 (0.31) 0.5 (0.15) 3 (M) 2 (0.61) 2 (0.61) 4 (1.22) 2 (D.61) 0.5 (0.15) 5 (1.53) 30 (9.15) - - 1 (0.31) 11/4 2 (0.61) 1 (0.31) 0.5 (0.15) 4 (1.22) 2 (0.61) 3 (0.92) 5 (1.53) 2 ((161) 1 (0.31) 7 (214) - - 53 (16.17) 1 (0.31) 11/2 2 (0.61) 2 (0.61) 1 (0.31) 5 (1.53) 2 (0.61) 4 (1.22) 8 (Z44) 3 (0.92) 1 (0.31) 9 (275) - - 66 (20.13) 2 (0.61) 2 2 (0.61) 2 (0.61) 1 (0.31) 7 (214) 3 (0.92) 8 (244) 11 (3.A 5 (1.53) 2 (0.61) 12 (366) - - 90 (27.45) 2 (0.61) 21/2 2 (0.61) 3 (0.912) 2 (0.61) 9 (275) 4 (1.22) 16 (4.88) 14 (4.27) 8 (244) 2 (0.61) 16 (4.86) - - - - 2 (0.61) 3 3 (M) 4 (122) - - - - 5 (1.53) 20 (6.10) 18 (549) 11 (336) 2 (0.61) 20 (6.10) - - - 2 (0.61) 31/2 4 (1.22) - - - - - - 7 (214) 24 (7.32) 24 (7.32) 14 (427) 2 (0.61) 31 (9.46) - - - - 2 (0.61) 4 - - - - - - - - 8 (244) 28 (8.54) 26 (8.54) 17 (519) 2 (0.61) 37 (11.29) - - - - 2 (0.61) 5 - - - - - - - - 10 (305) 37 (11.29) 41 (1251) 22 (671) 2 (0.61) 48 (14.64) - - - - - - 6 - - - - - - - - 13 (397) 47 (14.34) 52 (1586) 28 (8.54) 2 (0.61) 61 (18.61) - - - - - - Notes.This table is based on tests conducted at Ffrwd University(19481 If the type of fitting is not Ivrown-i.e.,whether wrought copper or cast al Icy-use cast copper at I oy values for design. U.S.a stcrrary twits in this doa.urant are the staindard;the metric units are provided for reference only the values stated i n each system are not ead egt ivd ents. ® NIBMINCwCRDF64DQ14RTEM- 1516MICD-E3-R'Sr- B10ARTIN46516-4740• USA- RA1.800.234.0227 TITHSERAGEBFi1:1.8138.446.4226• FiAX1.800.234.0557• INTEF;NAl1CNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • OOPPERWATER TUBE-INTERNAL WOWING PRESSURES* Service Terrperattre°FCC) 100°F(37.8°C) 200°F(93.TC) 300°F(148.9'q 400°F(204.4°C) Nord rd S=6000psi(414 bats) S=4800psi(331 bars) S--4700 psi(324 bars) S--3000 psi(207 bars) Tube 5m (In Inches) Type K Type L Type M Type K Type L Type M Type K I Type L Type K I Type L Formulas 1/4 1210(83.43) 1025(70.67) - - 850(58.61) 700(4827) - - 830(57.23) 690(47.59) 530(36.54) 450(31.03) FD 318 1275(87.91) 890(61.37) 625(43.09) 9130(64.12) 630(43.44) 460(31.72) 910(6274) 610(4206) 590(40.68) 400(21.58) tm= 2S+0.81D +C 1/2 1005(69.29) 810(55.85) 560(3861) 730(50.33) 580(39.99) 415(28.61) 720(49.64) 570(x.30) 46D(31.72) 370(25.51) 5/8 830(57.23) 705(4861) - - 600(41.37) 500(34.48) - - 580(9.99) 500(34.48) 380(2620) 330(1275) or 314 950(6550) 645(44.47) 450(31.03) 700(4827) 470(3241) 325(2241) 69D(47.58) 460(31.72) 440(30.34) 300(20.69) 2 S ton when Cis O 1 725(49.99) 550(37.92) 380(26.20) 540(3723) 400(27.59) 270(1862) 530(36.54) 400(275B) 340(2344) 260(17.93) P= D-0.8tm 11/4 590(40.68) 495(34.13) 375(258s) 440(30.34) 370(2551) 270(1862) 430(29.66) 360(24.82) 280(19.31) 230(15.86) 11/2 550(37.92) 455(31.37) 370 75.51) 410 X1821) 340(2344) 270(1862) 400(7.58) 330(2275) 260(17.93) 229(15.17) tm MirimmtLbewallthida ess 2 485(33.44) 405(27.92) 33,5(2310) 350(24.13) 310 71.37) 240(16.56) 345(23.79) 305 71.03) 23D(15.86) 190(13.10) p Mai-ratedirtergl 21/2 450(31.03) 375(25.86) 305(21.03) 330(22.75) 275(1896) 710(1517) 320 7206) 270(1862) 210(14.48) 180(1241) wu°n3pressure D QAsdedarreterdkbe 3 430(29.65) 355(24.48) 280(19.31) 320(&06) 260(17.93) 205(14.13) 315 71.72) 255(17.58) 210(14.48) 170(11.71) S Alwaable stress inrreterial 31/2 410(2B 27) 340 7344) 280(19.31) 3D0(20.69) 250(17.24) 200(1379) 300(20.69) 245(16.89) 190(1310) 160(11.03) duetointemslpressreat 4 400(2758) 325(22.41) 280(19.31) 295(20.34) 240(1656) 200(1379) 290(20.00) 285(16.20) 190(1310) 150(1034) `�umforthratue 5 38.5(265 300 70.69) 260(17.93) 290 paw) 220(1517) 190(1310) 280(19.31) 215(14.82) 180(1241) 140 (9.65) c stre"hThadatoa�rodcn 6 385(28.56) 280(19.31) 240(1656) 280(19.31) 2o5(14.13) 180(1241) 29D(19.31) 200(1379) 190(1310) 130 (8.96) 8 410(28.27) 300(20.68) 255(17.53) 300(2D.69) 229(1517) 190(1310) 300(20.68) 215(14.82) 200(1379) 140 (9.65) 10 410(28.27) 300(20.68) 255(17.58) 310(21.37) 225(15.51) 190(1310) 305(11.03) 220(1517) 200(1379) 150(10.34) 12 410(28.27) 280(19.31) 225(15.51) 310(21.37) 210(14.48) 190(13.10) 305 p1.03) 2o5(14.13) 200(13.79) 140 (9.65) *R ed irtennd pressrres for Copper Waiter Time based on the strength of the tLbe alone aid applicable to systems using stetablemadtar odjoints. The vices are based on thefomnia in the American garxW Code, Rover Rping ANSI/ASMEB31.1 1992. U.S atstarrety trits i n this doarnar t are the sta-idard;the rr etri c[ruts are provided far referertoe oriy the values stated in each system are not exact ecp\rAents. NIBOJINC WCR.DFEADCLARIH2S• 1516MIDDt.B3-WSC• BJ4PR1;IN4651Cr4740• USA,- R-t 1.800.234.0227 TEH SE Rv10EB FH 1.888.446.4226• FAX 1.800.234.0557• IN193VA-lCNALSERACE R3+1.574.295.3221• FAX.+1.574.295.3455 wwwAboo.ocm www.nibco.com AHEAD OF • COPPER" C E-WATER FLOW AND FRCTION A PER 100 FEET Maparrm OD. = 0.37Windies(9.550rrm) NomreIQQ = 0.3750imhes(9.525mn) MdrimmQD = 0.3740imh%(9.499rrm) Nordrall.D. = 0.3050irdm(7.747rrm) mrral NoV\dI Thddvss re = 0.0350irdhes(0.089rrm) RavArea = 0.0731sq.ir&es(47.14sq.rrm) Hm3n V\A I I i arm Fcm-ul a CFador = 150 RDN,Q Resare Loss Fiend Loss malocity RD/V,Q Ressure Loss F bad Loss \Ajocity (G-M) (psi/1o0ft) (ft/1o0ft) (ft./sec.) (cu.an'sec) WN100m) (m100m) (rry-) 0.50 3.77 8.81 220 32 0.85 8.81 0.67 1.00 13.62 31.77 4.39 63 3.08 31.77 1.34 1.50 2&86 67.27 6.59 95 6.53 67.27 201 200 49.17 114.54 8.78 126 11.12 114.54 268 250 74.33 173.08 10.98 158 16.81 173.08 3.35 3.00 104.18 242.51 13.17 189 23.57 24251 4.02 3.50 131160 322.54 15.37 221 31.35 32254 4.68 4.00 177.49 41292 17.57 252 40.15 41292 5.35 4.50 220.75 513.46 19.76 284 49.94 513.46 R02 5.00 1 268.32 1 623.96 1 21.96 1 315 1 60.70 1 623.96 6.69 1/4"TYPE L" COPPER TUBE WATER FLOW AND FR CTI ON LOSS PER 100 FEET Madnunoa = 0.3760irchm(95Mn-rn) NomrelQD. = 0.3750imhm(9.525nm) MirimmQa = 0.3740irdhes(9.499mn) Ncrrird La = 0.3150irdhes(8.001 mn) Norrird Wall Thdd rxw = 0.0300 i m hes(0.076 mn) Row Area = 0.0779 sq.irdhes(50.28 sq.rrm) Hazen WiIIiarrsFwmla CFador = 150 RDN,Q Reswm Loss Head Lots \,dodty RON,Q Ressffe Loss Head Lacs \kiodty (MA) (psi/1o0ft) (ft/100ft) (ft./sec.) (cu.aTysec.) "lo0m) (rr100m) (cosec.) 0.50 3.22 7.53 206 32 0.73 7.53 0.63 1.00 11.64 27.16 4.12 63 263 27.16 1.25 1.50 24.67 57.50 6.18 95 5.58 57.50 1.88 200 4202 97.90 8.23 126 9.51 97.90 251 250 63.53 147.94 10.29 158 14.37 147.94 3.14 3.00 89.05 20728 1235 189 20.14 207.28 3.76 3.50 118.47 275.69 14.41 221 26.80 275.69 4.39 4.00 151.71 35294 16.47 252 34.32 35294 5.02 4.50 181168 438.87 18.53 284 4268 43887 5.65 5.00 1 229.34 1 533.32 1 20.58 1 315 1 51.88 1 533.32 1 6.27 ' COPPER" C E WATER FLOW AND FR CTI ON •► 11 FEET MadmmOD. = 0.5010irches(12.725rrm) NoMnalQQ = 0.5000imhes(12.700mn) MinirrumOD. = 0.4990irdhes(12.674rrm) Norrinall.D. = 0.4020imhes(10.210rrm) Nominal WallThddvress = 0.0490imhes(1.244mn) Row Area = 0.1289sq.ir&es(81.89sgrrm) Hawn WiddiarrsFarula CFacfor = 150 RDAN,Q Resare Loss Head Loss \kiodty RDN,Q Re�Loss Hl ed Loss \Modty (MM) (psi/1o0ft) (ft/100 ft) (ft./sec.) (cu.cnYsec) (1d-W100m) (nY100m) (m'sec) 1.00 3.55 8.29 253 63 0.80 8.29 0.77 1.50 7.53 17.55 3.79 95 1.70 17.55 1.16 200 1283 29.89 5.06 126 290 29.89 1.54 250 19.39 45.16 6.32 158 4.39 45.16 1.93 3.00 27.18 63.28 7.58 189 6.15 63.28 231 3.50 36.16 84.16 885 221 8.18 84.16 270 4.00 46.31 107.74 10.11 252 10.48 107.74 3.08 4.50 57.60 133.97 11.37 284 13.03 133.97 3.47 5.00 70.01 16280 1264 315 15.84 16280 3.85 5.50 83.52 194.19 13.90 347 1889 194.19 4.24 800 91113 228.11 1517 379 2220 228.11 4.62 850 113.81 264.51 16.43 410 25.74 254.51 5.01 7.00 130.55 303.38 17.69 442 29.53 303.38 5.39 7.50 14834 344.68 1898 473 33.56 344.68 5.78 800 167.18 388.40 20.22 505 37.82 3ER40 616 850 187.04 434.49 21.49 536 4231 434.49 6.55 9.00 207.93 48296 2275 568 47.03 48296 6.93 9.50 229.83 533.76 24.01 599 51.99 533.76 7.32 10.00 1 25273 1 586.89 1 25.28 1 631 1 57.17 1 586.89 1 7.70 U.S.aastorr ry chits i n t s dcaarrerlt are the sta clard;the metric units are provi ded for reference oriy.The values stated in each system are not exact egtivalents. NlBMlNCVVCRDF64DQ14RF96• 1516MICD_E3_R'SL• 1310ARTIN46516-4740• LISA- R41.800.234.0277 ' TITH SERACTB IR-t 1.8138.446.4226• FAX 1.800.234.0557• INT9aJAnCNAL STR ACE R-t+1.574.295.8221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • ' COPPER" TUBE-WATER FLOW AND FRICTI ON • 11 FEE MadnunQD. = 0.5010indres(12725rrm) NorrinaQD = 0.5000imhes(12700n7n) MirrnunQD = 0.4990imhes(12675mn) Narind I.D. = 0.4500imhes(10.211 rrm) Nominal Wall Thiclo em = 0.0350 inches(0.889 mn) RoN Area = 0.1590 sq.indies(10261 sq.mn) FmnWilliarrsFomnla CFactor = 150 FLAN,Q Ressure Loss I-frad Loss \kilocity FLO.N,Q Res Loss Fwd Lass \Mocity (am) (p®/100ft) (ft/100ft) (ftJsec) (cu.crosec.) (Ipd100m) (0100m) (cosec) 1.00 256 5.97 221 63 0.58 5.97 0.67 1.50 5.43 1265 3.31 95 1.23 1265 1.01 200 9.24 21.54 4.42 126 209 21.54 1.35 250 13.98 3254 5.52 158 3.16 3254 1.68 3.00 19.59 45.60 6.63 189 4.43 45.60 202 3.50 26.06 60.65 7.73 221 5.90 60.65 2.36 4.00 33.37 77.64 8.84 252 7.55 77.64 2.69 4.50 41.51 96.54 9.94 284 9.39 96.54 3.03 500 50.45 117.32 11.05 315 11.41 117.32 3.37 5.50 60.19 139.94 1215 347 13.62 139.94 3.70 6.00 70.72 164.38 1326 379 16.00 164:38 4.04 6.50 8201 190.62 14.36 410 18.55 190.62 4.36 7.00 94.08 218.63 15.46 442 21.28 218.63 4.71 7.50 106.90 248.40 16.57 473 24.18 248.40 5.05 8.00 120.48 279.90 17.67 505 27.25 279.90 5.39 8.50 134.79 313.12 18.78 536 30.49 313.12 5.72 9.00 149.84 348.04 19.88 56B 33.90 348.04 6.06 9.50 165.62 384.65 20.99 599 37.47 384.65 6.40 10.00 1 18213 1 422944 1 2209 1 631 1 41.20 42294 6.73 3/9'TYPE"M" COPPER TUBE-WATER FLONN AND FRICTI ON LOSS PER 100FEET Ma)durnOD. = 0.5010indies(12.725rrm) NorrindOD. = 0.5000imhes(12700rrm) MirinurnQD. = 0.4990indies(12675mn) Norrird I.D. = 0.4020imhes(10.211 con) Nominal Wall THdmem = 0.0250 imhes(0.635 mn) Flow Area = 0.1269 sq.indies(81.89 sq.rrm) HamWillimsFixmla CFactor = 150 FLAN,Q Rescue Lass HLad Loss Mdodty FLOJV,Q Rescue Loss Hand Loss Udocity (am) (pei/100ft) (ft/100ft) (ft✓sec) (cu.ar✓sea) opd100m) (0100m) (cosec) 1.00 205 4.79 2.02 63 0.46 4.79 0.61 1.50 4.35 10.14 3.03 95 0.96 10.14 0.92 200 7.41 1726 4.03 126 1.66 17.26 1.23 250 11.20 26.09 5.04 158 253 2&09 1.54 3.00 15.70 35.55 6.05 189 3.55 36.55 1.84 3.50 20.89 48.61 7.06 221 4.73 48.61 215 4.00 26.75 6223 8.07 252 6.05 6223 246 4.50 33.27 77.39 9.06 284 7.53 77.39 2.77 5.00 40.44 94.04 10.09 315 9.15 94.04 3.07 5.50 48.25 11217 11.09 347 10.91 11217 3.38 6.00 56.66 131.76 1210 379 12.82 131.76 3.6g 6.50 65.74 15279 13.11 410 14.87 15279 4.00 7.00 75.41 175.25 14.12 442 17.06 175.25 4.30 7.50 85.69 199.10 15.13 473 19.38 199.10 4.61 8.00 96.57 224.35 16.14 505 21.84 224.35 4.92 8.50 106.04 250.98 17.15 536 24.44 250.98 5.23 9.00 120.11 27&97 18.16 568 27.17 278.97 5.53 9.50 13276 308.32 19.16 599 30.03 301132 5.84 10.00 1 145.99 1 339.01 1 20.17 631 33.02 339.01 6.15 US.a istaray units in this doa melt are the standard;the metric units are praaided fa- refermoe only The values stated in each system are not exact equ\rJents. NIBDJINC WCR.DFEADCLARIH2S• 1516MIDDt.B3-WSC• l3J04N:Z;IN4&516.4740• USA,- R-t 1.800.234.0227 TEH SERACES FR 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACEF Ft+1.574.295.3221• FAX.+1.574.295.3455 www.riboo.com www.nibco.com AHEAD OF • TYPE" •••• C E-WATER FLOVV AND FRCTICN •► •E' 100 FEET MaprrunQQ = 0.626indies(15.900rrm) NarirelQQ = 0.6250imhes(15.875rrm) MdrimmQD = 0.624imh%(15.850rrm) Norrinall.D. = 0.527imhes(13.3858rrm) Narin dVVadlltrdvre% = 0.049indies(1.245rrm) RavArea = 0.2181sq.ir&,es(140.73sq.rrm) HtmnWilli arm Formala CFactor = 150 RDN,Q Resare Loss Egad Loss malocity RD/V,Q Rmwre Loss Fbad Loss \Ajocity ((TM) (psi/100ft) (ft/1o0ft) (ft./sec.) (cu.an'sec) WN100m) (m100m) (m'seo.) 1.00 0.95 222 1.47 63 0.22 222 0.45 1.50 202 4.70 221 95 0.46 4.70 0.67 200 3.44 8.00 294 126 0.78 8.00 0.90 250 5.19 1210 3.68 158 1.18 1210 1.12 3.00 7.28 16.95 4.41 189 1.65 16.95 1.34 3.50 9.69 2254 5.15 221 219 2254 1.57 4.00 1240 2&86 5.88 252 281 28.86 1.79 4.50 15.43 35.88 6.62 284 3.49 3588 202 5.00 18.75 43.61 7.35 315 4.24 4361 224 5.50 2237 5201 8109 347 506 5201 247 6.00 2528 61.10 8.83 379 5.95 61.10 269 6.50 30.48 70.85 9.56 410 6.90 70.85 291 7.00 34.97 81.26 10.30 442 7.91 81.25 314 7.50 39.73 9232 11.03 473 8.99 9232 3.36 &00 44.78 104.03 11.77 505 10.13 104.03 3.59 8,50 50.10 116.38 12.50 536 11.33 116.38 381 9.00 55.69 129.36 13.24 568 1260 129.36 4.03 9.50 61.56 14297 13.97 599 1393 14297 4.26 10.00 67.69 157.20 14.71 631 15.31 157.20 4.48 10.50 74.10 17205 15.44 662 16.76 17205 4.71 11.00 80.76 187.51 16.18 694 1&27 187.51 4.93 11.50 87.69 203.58 16.91 725 19.84 203.58 5.16 12.00 94.88 220.26 17.65 757 21.46 22026 5.38 12.50 10234 237,54 1&39 789 23.15 237.54 5.60 13.00 110.05 255.41 19.12 820 24.89 255.41 5.83 13.50 118.01 273.89 19.86 852 26.70 273.89 6.05 14.00 126.23 29295 20.59 1 883 21156 29295 &28 ••" C E-WATER FLOW AND •N LOSS PER 100 FEET MadmmQQ = 0.626indies(15.900rrm) Narirral QQ = 0.6250imh%(15.875rrm) MdrimmQD = 0.624indies(15.850rrm) Narinall.D. = 0.5450indies(13.843rrm) Narinal Wall lhdTxns = 0.049indies(1.245mn) RavArea = 0.23339q.ir&es(150.50sq.rrm) HtmWAIliarmFormla CFactor = 150 FLAN,Q Ressare Loss Head Loss mdocity RDN,Q Rnmre Loss F3ad Loss Mdocity (CTM) (psi/100ft) (ft/1o0ft) (ft./sec.) (cu.arlsec.) wdlo0m) (m100m) (cosec) 1.00 0.81 1.89 1.38 63 0.18 1.89 0.42 1.50 1.71 3.99 206 95 0.39 3.99 0.63 200 292 6.80 275 126 0.66 6.80 0.84 250 4.41 10.27 344 158 1.00 10.27 1.05 300 6.18 14.39 4.13 189 1.40 14.39 1.26 350 &23 19.14 4.81 221 1.86 19.14 1.47 4.00 10.53 24.51 5.50 252 238 24.51 1.68 4.50 13.10 30.47 6.19 284 296 30.47 1.89 5.00 15.92 37.03 6.88 315 3.60 37.03 210 5.50 19.00 44.17 7.56 347 4.30 44.17 231 6.00 2232 51.89 8.25 379 505 51.89 252 6.50 25.89 60.17 &94 410 5.86 60.17 272 7.00 29.70 69.01 9.63 442 6.72 69.01 293 7.50 3374 78.41 10.31 473 7.63 78.41 3.14 &00 38.03 88.35 11.00 505 8.60 8&35 335 &50 4255 98,83 11.69 536 9.62 91183 3.56 9.00 47.30 109.86 1238 569 10.70 109.86 377 9.50 5228 121.41 13.07 599 11.83 121.41 3.98 10.00 57.49 133.50 13.75 631 1300 133.50 4.19 10.50 6292 146.11 14.44 662 14.23 146.11 4.40 11.00 68.59 159.24 15.13 694 15.51 159.24 4.61 11.50 74.47 172.89 15.82 725 16.85 17289 4.82 12.00 80.58 187.05 16.50 757 1823 187.05 5.03 12.50 86.91 201.73 17.19 789 19.66 201.73 5.24 13.00 90.46 216.91 17.88 820 21.14 216.91 5.45 13.50 100.22 23260 18.57 852 2267 23260 5.66 14.00 107.20 1 248.78 1 19.25 1 883 1 24.25 1 248.78 1 5.87 U.S.a stcrrmy units in this down-at are the standard;the m=tric units are pravi ded for referenoe only.the values stated in each systemare not exact equivalents. �1 NIBMlNCVVCRDF64DQ14Rf96• 1516MICCUBLR'SL• 1310ARf,IN46516-4740• LISA- 1341.800.234.0227 TITH SERACEB R-t 1.8138.446.4226• FAX 1.800.234.0557• INTEF;NAl1C NAL STR ACE R-t+1.574.295.3221• FA>(+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 1/2"TYPE"M" COPPER TUBE-WATERFLOW AND FRICTION LOSS PER 100 FEET MEDdnmQD. = 0.626indies(15.900urn) NorrinaQD = 0.6250imhes(15.875rrm) MinimanQD = 0.624imhes(15.850rrm) Norrinall.D. = 0.5690indies(14.4526nTn) tid Norrinal Wall Tvhess = 0.028 inches(0.711 mn) RaN Area = 0.2543 sq.incthes(164.05 sq.rrm) Ham William Fom-da Mictor = 150 FLAN,Q Res Loss I-tgad Loss \kilocty RQN,Q Ressure Loss Haad Lass Mdocity (am) (psi/100ft) (ft/100ft) (ftJsea) (cu.ahVsea) OIFw100m) (rT100m) (rd-) 1.00 0.66 1.53 1.25 63 0.15 1.53 0.38 1.50 1.39 3.24 1.89 95 0.31 3.24 0.58 200 237 5.51 2.52 125 0.54 E51 0.77 250 3.59 8.33 3.15 158 0.81 8.33 0.96 no 5.01 11.67 3.79 189 1.13 11.67 1.15 3.50 6.67 15.52 4.42 221 1.51 15.52 1.35 4.00 854 19.87 5.05 252 1.93 19.87 1.54 4.50 10.62 24.71 5.613 284 240 24.71 1.73 5.00 1291 30.03 6.31 315 292 30.03 1.92 5.50 15.41 35.82 6.94 347 3.48 35.82 2.12 6.00 1810 4207 7.57 379 4.09 4207 231 6.50 20.99 48.79 8.20 410 4.75 4879 250 7.00 24.08 55.96 8.83 442 5.45 55.96 269 7.50 27.36 63.57 9.46 473 6.19 63.57 288 8.00 3033 71.64 10.09 505 6.96 71.64 3.08 8.50 34.50 80.14 10.72 536 7.80 80.14 3.27 9.00 3835 89.08 11.36 568 866 89.08 3.46 9.50 4239 98.45 11.99 599 9.59 9845 3.65 10.00 46.61 10825 1262 631 10.54 108.25 3.85 10.50 51.02 11847 13.25 662 11.54 11847 4.04 11.00 55.61 129.12 13.88 694 12.58 129.12 4.23 11.50 60.39 140.19 14.51 725 13.66 140.19 4.42 1200 65.34 151.67 15.14 757 14.78 151.67 4.61 1250 70.47 163.57 15.77 789 15.94 163.57 4.81 13.00 75.78 175.88 16.40 820 17.14 175.88 5.00 13.50 81.26 18860 17.03 852 18.38 18860 5.19 14.00 86.93 201.72 1 17.66 1 883 1 19.66 1 201.72 1 5.38 S COPPER" :E-WATER FLOW AND ON •• 11 FEET Ma)dmrnQD. = 0.751indhes(19.075rrm) NorrirdQD. = 0.7500indhes(19.050rrm) MinimmM.. = 0.749indhes(19.025rrm) Norrird I.D. = 0.6520indhes(16.5608rrrn) Norrird Wall ThidTem = 0.049 inches(1.245 rrm) Raw Area = 0.3339 sq.indhes(215.40 sq.rrm) FtmnWlliaml`ormda CFador = 150 FLQ.N,Q Ress<re Loss Hmd Loss Mdocity RDN,,Q Res Lass Heed Loss Velocity ((TM) (ps/100ft) (ft/100ft) (Usea) (cu.an'sea) (I0ar100m) (m'100m) (rry-) 1:00 0.34 0.79 0.96 63 0.08 0.79 0.29 200 1.22 284 1.92 125 0.28 284 0.59 3.00 258 6.02 288 189 0.58 6.02 0.88 4.00 4.40 10.24 3.84 252 1.00 10.24 1.17 5.00 6.66 15.48 4.80 315 1.51 15.48 1.46 6.00 9.33 21.69 5.77 379 211 21.69 1.76 7.00 1241 28.85 6.73 442 281 28.85 205 8.00 15.90 36.93 7.69 505 3.60 36.93 234 9.00 1977 45.92 8.65 568 4.47 45.92 2.64 10.00 24.03 55.81 9.61 631 5.44 55.81 293 11.00 2867 65.57 10.57 694 6.49 65.57 3.22 1200 33.69 78.20 11.53 757 7.62 78.20 3.51 13.00 39.07 9D.68 1249 820 884 90.68 3.81 14.00 44.82 104.00 13.45 883 10.14 104.00 4.10 15.00 50.92 11816 14.41 946 11.52 11816 4.39 16.00 57.39 133.14 15.37 1009 12.98 133.14 4.69 17.00 64.21 14895 16.34 1072 14.52 14895 4.98 18.00 71.38 165.56 17.30 1136 16.15 165.56 5.27 19.00 7889 18298 1826 1199 17.85 18298 5.56 20.00 8876 201.19 19.22 1262 19.63 201.19 5.86 21.00 94.96 220.19 20.18 1325 21.48 220.19 6.15 2200 103.51 1 239.98 1 21.14 1 1388 1 23.41 1 239.98 1 6.44 U.Sadcn ywhitsinthisdoes nantarethestandard;thernstricurtsarepresidedfor referenoeorily.-ft\dues stated in each systemare not exad ecp\der is NIBMlNCWCR.DFEADCLART62S• 1516MIDDLE3- i'SC• aI+ARrIN46516-4740• USA• R-t1.800.234.0227 m TE1HSERACESFH 1.888.446.4226• FAX 1.800.234.0557• IN193VAT1CNALSERACER3+1.574.295.3221• FAX.+1.574.295.3455 • www.niboo.aom www.nibco.com AHEAD OF • TYPE" COPPER" C E-WATER FLOW AND •N LOSS PER 100FEET MaparrunQa = 0.751indhes(19.075rrm) Narirdan = 0.7500imhes(19.050rrm) MirimmQD. = 0.749imhes(19.025rrm) Narirrall.D. = 0.6660indm(16.9164rrm) mr�al NoVVaII_hidre% = 0.042ir&es(1.067rrm) RavArea = 0.3484sq.ir&es(224.75sq.rrm) HmnWilli arm Fcm-ula CFador = 150 RDN,Q Ressire Loss Head Loss malocity RD/V,Q Ressure Loss FOCI Loss \Ajocity (am) (psi/100ft) (ft/1o0ft) (ft./sec.) (cu.an'sec) war10om) (m100m) (m'seo.) 1.00 0.30 0.71 0.92 63 ON 0.71 0.28 200 1.10 2.56 1.84 126 0.25 256 0.56 3.00 233 543 276 189 0.53 5.43 0.84 4.00 3.97 9.24 3.68 252 0.90 9.24 1.12 5.00 6.00 13.96 4.60 315 1.36 13:96 1.40 6.00 8.41 19.56 5.53 379 1.90 19.56 1.68 7.00 11.20 202 6.45 442 253 26.02 1.96 8.00 14.34 33.31 7.37 505 3.24 33.31 225 9.00 17.83 41.41 8.29 568 4.03 41.41 253 10.00 21.67 50.33 9.21 631 4.90 50.33 281 11.00 25.86 60.03 10.13 694 5.85 60.03 3.09 12.00 30.38 70.51 11.05 757 6.87 70.52 3.37 13.00 35.23 81.77 11.97 820 7.97 81.77 3.65 14.00 40.41 93.79 1289 883 9.14 93.79 3.93 15.00 45.92 105.56 13.81 946 10.39 106.56 4.21 16.00 51.75 120.07 14.74 1009 11.71 120.07 4.49 17.00 57.90 134.32 15.66 1072 13.10 134.32 4.77 18.00 64.37 149.30 16.58 1136 14.56 149.30 5.05 19.00 71.15 165.01 17.50 1199 16.09 165.01 5.33 20.00 78.24 181.43 18.42 1262 17.70 181.43 5.61 21.00 85.64 198.57 19.34 1325 19.37 198.57 5.89 22.00 93.34 1 216.42 1 20.26 1 1388 1 21.11 1 216.42 1 6.18 3/4"TYPE"K' COPPER TUBE-WATER FLOW AND FRICTI ON LOSS PER 100 FEET MaamanQa = 0.876indies(22250mn) NorrinAQD. = 0.8750ir&ffi(22.225rrm) MinirrumQD. = 0.874indies(22.200rrm) Norrind i.a = 0.7450imhes(18.923rrm) Nom nal WaI I Thidahess = 0.065 indres(1.651 rrm) Row Area = 0.4359 sq.indres(281.24 sq.rrm) HazenWIliarrsFamila CFacior = 150 RDN,Q %ss re Loss Hmd Loss \kiodty RON,Q Reswm Loss Head Lass Mbiodty (am) (psi/10oft) (ft/100ft) (ft./sec.) (cu.aTYsec.) KW100m) (m'1ODm) (rTY-) 200 0.64 1.49 1.47 126 0.14 1.49 0.45 4.00 230 5.35 294 252 0.52 5.35 0.90 6.00 4.88 11.34 4.42 379 1.10 11.34 1.35 8.00 8.31 19.30 5.89 505 1.88 19.30 1.79 10.00 1256 29.17 7.36 631 2.84 29.17 224 12.00 1761 40.87 8.83 757 3.98 40.87 269 14.00 23.42 54.36 10.30 883 5.30 54.36 3.14 16.00 30.00 69.59 11.78 1009 6.79 69.59 3.59 18.00 37.31 86.54 13.25 1136 8.44 86.54 4.04 20.00 45.35 105.16 14.72 1252 10.26 105.16 4.49 22.00 54.10 125.44 16.19 1388 1224 125.44 4.94 24.00 63.56 147.34 17.66 1514 14.38 147.34 E38 25.00 73.72 170.86 19.14 1640 16.68 170.86 5.83 28.00 84.56 195.97 20.61 1766 19.13 195.97 6.28 MOD 1 96.09 1 22265 1 22.08 1893 1 21.74 1 22265 1 6.73 U.S.astahhary chits i n t s doaarrsrlt are the standard;the metric units are p uA ded for reference ahly.The values stated in each system are not exact equAents. ® NIBMINCVVCRDFE4DQIARTBS• 1516MICOL&1AR'ST.• BIOA7f,IN46516-4740• LISA- Rt1.80D.234.0227 • TEH SERACTB Rt 1.8B8.446.4226• FAX 1.800.234.0557• INT9aJAnCNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboc).com NIBCCY www.nibco.com AHEAD OF • TYPE" ••"T TUBE-WATER FLOW AND FRICTI ON •► 11 FEET MEDdnmQD. = 0.876indm(M250rrm) NorrirelQD. = 0.87Wimhes(=rT7n) MininunQD. = 0.874imh%(22200mn) Norrirell.D. = 0.7850imhes(19.939mn) Nominal Wall Thidvhcs e = 0.045 inches(1.143 mn) RoN Area = 0.4840 sq.inches(31225 sq.mn) H@mnWlliamsFbmnAa CRdor = 150 FLAN,Q Ressae Loss Farad Loss \kiodty R-ON,Q Res Loss Hsad Loss Mblocity (am) (psi/100ft) (ft/100ft) (ftJsec) (cu.crlsea) war100m) (m100m) (rry-) 200 0.4944 1.1517 1.3258 125.17 0.1118 1.1517 0.4041 4.00 1.7846 4.1519 26516 25235 0.4037 4.1519 0.8082 6.00 3.7815 8.7905 3.9774 378.52 0.8554 8.7905 1.2123 8.00 6.4425 14.9675 5.3032 504.69 1.4573 14.9575 1.6164 10.00 9.7393 226169 6.6290 630.87 22031 226169 20205 1200 13.6513 31.6896 7.9548 757.04 3.0880 31.6396 24246 14.00 18.1618 421472 9.2806 883.21 4.1083 421472 28287 1600 23.2573 53.9578 10.6064 1009.39 5.2610 53.9578 3.2328 1800 2892554 67.0944 11.9322 1135.56 6.5434 67.0944 3.6369 20.00 35.1590 81.5338 13.2580 1261.73 7.9532 81.5338 4.0411 2200 41.9465 97.2555 14.5838 1387.91 9.4886 97.2555 4.4452 24.00 49.2811 114.2412 15.9096 1514.08 11.1477 114.2412 4.8493 26.00 57.1557 1324747 17.2354 1640.25 129290 1324747 5.2534 28.00 65.5641 151.9408 185613 176643 14.8311 151.9408 5.6575 30.00 1 74.5002 1 1726261 1 19.8871 1 189260 1 16.8525 1 1726261 1 6.0616 3/4"TYPE"M" 00PPER TUBE-WATER FLOW AND FRICTI ON LOSS PER 100FEET MwdamQD. = 0.876indhes(22250mn) NomrelQD. = 0.8750imhes(22.225rrm) MininunQD. = 0.874indhes(22200mn) Nomird l.D. = 0.8110ind-m(20.5994mn) Nominal Wall Thidvhem = 0.032 irxihes(0.813 mn) RoN Area = 0.5156 sq.inches(333.27 sq.mn) HamnWlliamsFomula CFactor = 150 FLON,Q Ressrae Loss Egad Lass Mdocity FLON,Q Ressre Lass Ftad Loss Mblocity ((TM) (ps/100ft) (ft/100ft) (ftJsec.) (cu.cnYsea) QIFW`!00m) (0100m) (m'sea) 200 0.42 0.98 1.24 126 0.10 0.98 0.38 4.00 1.52 3.54 248 252 0.34 3.54 0.76 6.00 3.23 7.50 3.73 379 0.73 7.50 1.14 8.00 5.50 1277 4.97 505 1.24 1277 1.51 10.00 831 19.30 6.21 631 1.88 19.30 1.89 1200 11.65 27.04 7.45 757 264 27.04 227 14.00 15.50 35.97 8.70 883 3.51 35.97 265 16.00 19.85 46.05 9.94 1009 4.49 4605 3.03 1800 24.69 57.25 11.18 1136 5.58 57.26 3.41 20.00 30.00 69.58 1242 1262 6.79 69.58 3.79 2200 35.80 83.00 13.66 1388 810 83.00 4.16 24.00 4206 97.49 14.91 1514 9.51 97.49 4.54 26.00 4878 113.05 16.15 1640 11.03 113.05 4.92 28.00 55.95 129.66 17.39 1766 12.66 129.66 5.30 30.00 1 63.58 1 147.32 1 1863 1 1893 1 14.38 1 147.32 1 5.68 U.S aista,ay units in this doa rrent are the standard;the metric ubts are provided fa- reference only The\d ues stated in each system are not exact equ\rJents. NIBDJINC WCR.DFEADCLARUS• 1516MIDDt.B3-WSC• BJ04N:Z;IN465164740• USA,- R-t 1.800.234.0227 TEHSERACESFR 1.888.446.4226• FAX 1.800.234.0557• INTt33VATICNALSERACEFl•t+1.574.295.3221• FAX.+1.574.295.3455 • www.rlboo.00m www.nibco.com AHEAD OF • 1"TYPE"K' COPPER TUBE-WATER FLOW AND FRICTION LOSS PER 100FEET MaparrunQD. = 1.1265indhes(28.613rrm) Narird QQ = 1.1250irdes(28.575rrm) MirimmQD = 1.1235imhes(28.537rrm) Narird l.D. = 0.9850irdhes(25.273rrm) mr�al No VVaI I-h cl rlem = 0.0660 i r&es(1.651 rrm) Rav Area = 0.7776 sq.ir&es(501.65 sq.rrm) HamnV\AIIi arm Fcnrula CFador = 150 R.D✓V,Q Resare Loss Head Loss \Ajocity RD/V,Q Rare Loss FOCI Loss Mdocity ((h=M) (psi/1CIOft) (ft/1CIOft) (ft./sec.) (cu.an'sec) wdlo0m) (m1C10m) (m'sea) 250 024 0.55 1.03 158 0.05 0.55 0.31 5.00 0.85 1.98 206 315 0.19 1.98 0.63 7.50 1.80 4.19 3.09 473 0.41 4.19 0.94 10.00 3.07 7.14 4.13 631 0.70 7.14 1.26 12.50 4.65 10.78 5.16 789 1.05 10.78 1.57 15.00 6.51 15.11 6.19 946 1.47 15.11 1.89 17.50 8.66 20.10 TM 1104 1.96 20.10 221 20.00 11.09 25.73 8.25 1262 251 25.73 252 22.50 13.80 31.99 9.28 1419 3.12 31.99 283 25.00 16.77 38.88 10.32 1577 3.79 38.88 3.14 27.50 2).01 46.37 11.35 1735 4.53 46.37 3.46 30.00 23.51 54.47 12.38 1893 5.32 54.47 3.77 32.50 27.27 63.17 13.41 2150 6.17 6317 4.09 35.00 31.28 7245 14.44 2208 7.08 7245 4.40 37.50 35.54 8231 15.47 2366 8.04 8231 4.72 40.00 40.05 9275 16.50 2523 9.06 9275 5.03 42.50 44.81 103.76 17.54 2681 10.14 103.76 5.34 45.00 49.81 115.33 18.57 2B39 11.27 115.33 5.66 47.50 55.06 127.47 19.60 2997 1246 127.47 5.97 50.00 60.55 140.15 20.63 3154 13.70 140.15 6.29 52.50 66.27 153.39 21.66 3312 14.99 153.39 6.60 55.00 1 7224 1 167.18 1 22.69 1 3470 1 16.34 1 167.18 1 6.92 •"ER TUBE-WATER FLOVV AND FMC71 ON •S100FEET MaammQD. = 1.1265ird-es(28.613rr7n) NoninaiQD. = 1.1250ird>es(28.575rrm) MinimamQD. = 1.1235irches(28.537mn) Ncnirei i.D. = 1.0250in&m(26.036mm) Nom nal VVal l ThidT e% = 0.0500 i mhes(1.270 rrm) Raw Area = 0.8252 s4 irdres(53236 sq.rrm) HazenWIliarrsFamila CFacior = 150 R_ON,Q Ressue Loss H3ad Loss \dodty RON,Q %ss re Loss Head Lass Mdodty (am) (psi/100ft) (ft/100ft) (ft./sec.) (cu.aTYsec) KW100m) (m'10Dm) (rTY-) 250 0.20 0.48 0.97 158 0.05 0.48 0.30 5.00 0.74 1.71 1.94 315 0.17 1.71 0.59 7.50 1.56 3.63 292 473 0.35 363 0.89 10.00 266 6.18 3.89 631 0.60 6.18 1.19 12.50 4.02 9.33 4.86 789 0.91 9.33 1.48 15.00 5.64 1308 5.83 946 1.27 1308 1.78 17.50 7.50 17.39 6.80 1104 1.70 17.39 207 2).00 9.60 2227 7.78 1262 2.17 2227 237 22.50 11.94 27.69 8.75 1419 2.70 27.65 267 25.00 14.52 3365 9.72 1577 3.28 3365 296 27.50 17.32 40.13 10.69 1735 3.92 40.13 3.26 30.00 2).35 47.14 11.66 1893 4.60 47.14 356 32.50 2360 54.67 1264 2150 5.34 54.67 3.85 35.00 27.07 6270 1361 2208 6.12 6270 4.15 37.50 30.76 71.24 1458 2366 6.96 71.24 4.44 40.00 34.66 80.27 15.55 2523 7.84 80.27 4.74 42.50 3878 89.80 16.51 2581 8.77 89.80 SO4 45.00 43.11 99.81 17.50 2839 9.75 99.81 5.33 47.50 47.65 110.31 18.47 2997 10.78 110.31 5.63 50.00 5240 121.29 19.44 3154 11.85 121.29 E93 51.50 57.36 132.75 20.41 3312 1297 13275 6.22 55.OD 6252 1 144.68 1 21.38 1 3470 1 14.14 1 144.68 1 6.52 U.S.astorrsry chits i n t s dcaarrsrlt are the standard;the metric units are prov ded for reference oriy.The values stated in each system are not exact equAents. © NIB00INCVVCRDF64DCLARf9s• 1516MICOL&1AR'ST.• BIOA7f,IN46516-4740• LISA- R41.80D.234.0277 • TEHSERACEBRt1.8B8.446.4226• FAX1.800.234.0557• INTEF;NAnCNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.riboc).com NIBCCY www.nibco.com AHEAD OF • COPPER" TUBE-WATER FLOW AN ON •• PER 100 FEE Ma>arrwnQD. = 1.1265indies(2&613rrm) NorrinaQD. = 1.1250imhes(2&575n7n) MirimmQD. = 1.1235imhes(2&537rrm) Norrind I.D. = 1.0558imhes(26.797rrm) Norrind Wall Th C10.19 s = 0.0350 indies(0.889 mn) Flow Area = 0.8742 sq.inches(563.98 sq.rrm) FamiWlliarrsFatnda CFador = 150 FLAN,Q Ressure Loss Hgad Loss \kiodty FLCGN,Q Resstre Loss Fwd Loss \Mocity (am) (p®/10oft) (ft/100ft) (ftJser-) (ai.an'sew) war100m) (m10om) (cosec) 250 0.18 0.41 0.92 158 0.04 0.41 0.28 5.00 0.64 1.49 1.84 315 0.14 1.49 0.56 7.50 1.36 3:15 275 473 0.31 315 a84 10.00 231 5.37 3.67 631 0.52 5.37 1.12 1250 3.49 all 4.59 789 0.79 all 1.40 15.00 4.90 11.36 5.51 946 1.11 11.36 1.68 17.50 6.52 15.11 6.42 1104 1.47 15.11 1.96 20.00 8.34 19.35 7.34 1262 1.89 19.35 224 2250 10.38 24.06 8.25 1419 235 24.06 252 25.00 1261 29.24 9.18 1577 285 29.24 2.80 27.50 15.05 34.88 10.09 1735 3.40 34.88 3.08 30.00 17.68 40.97 11.01 1893 4.00 40.97 3.36 3250 20.51 47.51 11.93 2050 4.64 47.51 3.64 35.00 2352 54.49 1285 2208 5.32 54.49 3.92 37.50 26.73 61.91 13.76 2366 6.05 61.91 4.19 40.00 30.12 69.76 14.68 2523 6.81 69.76 4.47 4250 3370 78.04 15.60 2681 7.62 78.04 4.75 45.00 37.47 86.74 16.52 2839 8.47 86.74 5.03 47.50 41.41 95.87 17.43 2997 9.37 95.87 5.31 50.00 45.54 105.41 18.35 3154 10.30 105.41 5.59 5250 49.84 115.37 19.27 3312 11.28 11537 5.87 55.00 1 54.33 1 125.74 1 20.19 1 3470 1 12.29 1 125.74 1 6.15 1 114!'TYPE K' COPPER TUBE-WATER FLON AN D FRI CTI ON LOSS PER 100 FEET MadnunQD. = 1.3765indies(34.963mn) NomnalQD = 1.3750irches(34.925mn) MirimanQD. = 1.3735indies(34.887rrm) Norrinall.D. = 1.2450indies(31.623rrm) Nordrral Wall Thidmess = 0.0650imhes(1.651 con) Row Area = 1.2174sq.indres(785.41 sq.con) Hamn WIIionB Famla CFador = 150 FLCN,,Q Res&m Lass Faad Loss Wodty R-ON,,Q Ressrre Lass Fpad Loss Wocity (GM) (psi/100ft) (ft/10oft) (ftJsec.) (ai.an'sea) (I 4100m) (m10om) (cosec.) 5.00 0.29 0.67 1.32 315 0.06 0.67 0.40 10.00 1.03 240 264 631 023 240 0.80 15.00 219 5.08 3.95 946 0.49 5.08 1.20 20.00 3.73 &65 527 1262 0.84 8.65 1.61 25.00 5.64 13.06 6.59 1577 1.27 1306 2.01 30.00 7.90 18.30 7.91 1893 1.79 18.30 241 35.00 10.51 24.34 9.22 2208 238 24.34 281 40.00 1346 31.17 10.54 2523 304 31.17 3.21 45.00 16.74 38.75 11.86 2839 379 38,75 3.61 50.00 20.35 47.09 13.18 3154 4.60 47.09 4.02 55.00 2427 56.18 14.49 3470 5.49 56.18 4.42 60.00 2&52 65.99 15.81 3785 6.45 65.99 4.82 65.00 33.07 76.52 17.13 4101 7.48 1 76.52 5.22 70.00 37.94 87.76 1&45 4416 &58 87.76 5.62 75.00 43.11 99.71 19.77 4732 9.75 99.71 6.02 80.00 48.58 1 11235 1 21.08 1 5047 1 10.99 11235 1 6.43 U.S.aistomay wits i n this doa rrent are the standard;the me4d c uyts are provided for reference oriy.The vd Lies stated i n each system are not exact equi\rcierts. NIBDJINCWCR.DFEADCLARUS• 1516MIDDt.B3-WSC• aI+PRrIN465164740• USA,- R-t1.800.234.0227 TEHSERACESFFt 1.888.446.4226• RX 1.800.234.0557• INTB3VATICNALSERACEFFt+1.574.295.3221• FAX.+1.574.295.3455 • www.riboo.com www.nibco.com AHEAD OF • 11/4"TYPE"U' OOPPER TUBE-WATER FLOW AND FRICTICN LCSS PER 100 FEET Ma>amm OD. = 1.3765indies(34.963rrm) NominalQD. = 1.375imhes(34.925rrm) MirimmQD. = 1.3735imhes(34.887rrm) Noninall.D. = 1.265indies(32.131rrm) Nomina VM-hclrlem = 0.0550ir&es(1.397rrm) RwArea = 1.2568sq.indm(810.85sq.rrm) HamnV\AIIi arm Formula CFactor = 150 R DvV,Q Resare Loss Had Loss malocity RD/V,Q Rmwre Loss Flead Loss \Ajocity ((TM) (psi/100ft) (ft/100ft) (ft./sec.) (cu.an'sec) war100m) (rr100m) (nY-) 5.00 026 0.62 1.28 315 0.06 0.62 0.39 10.00 a96 2.22 255 631 0.22 222 0.78 15.00 202 4.70 3.83 946 0.46 4.70 1.17 20.00 3.45 8.00 5.11 1262 0.78 8.00 1.56 25.00 E22 1209 6.38 1577 1.18 1209 1.95 30.00 7.31 16.94 7.66 1893 1.65 16.94 233 35.00 9.73 2253 8.93 2208 220 2253 272 40.00 1245 28.84 10.21 2523 282 28.84 3.11 45.00 15.49 35.86 11.49 2839 3.50 35.85 3.50 50.00 18.83 43.58 1276 3154 4.26 43.58 3.89 55.00 2246 51.98 14.04 3470 5.08 51.96 4.28 60.00 26.39 61.06 15.32 1 3785 5.97 61.06 4.67 65.00 30.61 70.81 16.59 4101 6.92 70.81 5.06 70.00 35.11 81.21 17.87 4416 7.94 81.21 5.45 75.00 39.89 9227 19.15 4732 9.02 9227 5.84 80.00 1 44.96 1 103.97 1 20.42 1 5047 1 10.17 1 103.97 1 6.22 11/4"TYPE"M" COPPER TUBE-WATER FLOW AND FRICTI ON LOSS PER 100 FEET MadmmQa = 1.3765irrhes(34.963mn) Nominal QD. = 1.3750imhes(34.925mn) MinimrrnM = 1.3735indies(34.887mn) Noninall.D. = 1.2910indm(32.7914mn) Norri nal Wall Thidvsss = 0.0420 i ndies(1.067 rrm) Row Area = 1.3090 sq.indres(844.52 sq.rrm) HamnVAIIiamsFamila CFador = 150 RDN,Q Resare Loss H3od Loss \kiocity FLON,Q Ressure Loss Head Lass Udodty (CAM) (psi/100ft) (ft/100ft) (ft./sec.) (cu.crTY sec.) (IFa/100m) (0100m) (cosec) 5.00 0.24 0.56 1.23 315 0.05 0.56 0.37 10.00 0.87 201 245 631 0.20 201 0.75 15.00 1.83 4.26 3.69 946 0.41 4.26 1.12 20.00 3.12 7.25 4.90 1252 0.71 7.25 1.49 25.00 4.72 10.95 6.13 1577 1.07 10.95 1.87 30.00 6.62 15.34 7.35 1893 1.50 15.34 224 35.00 8.81 20.40 8.58 2208 1.99 20.40 261 40.00 11.28 26.12 9.80 2523 255 26.12 299 45.00 14.03 3248 11.03 2839 3.17 3248 3.36 50.00 17.05 39.47 1225 3154 3.86 39.47 3.74 55.00 20.34 47.08 13.48 3470 4.60 47.08 4.11 60.00 23.90 55.31 14.71 3785 5.41 55.31 4.48 65.00 27.72 64.14 15.93 4101 6.27 64.14 4.86 70.00 31.80 73.56 17.16 4416 7.19 73.56 5.23 75.00 36.13 83.57 18.38 4732 8.17 83.57 5.60 80.00 1 40.72 1 94.17 1 19.61 1 5047 1 9.21 1 94.17 1 5.98 U.S astcmay units i n thi s doamient are the standard;the metric units are prod ded for refermw arty.the\d Lies stated i n eadi system are not exact egr\Talents NIBMINCVVCRDFE4DCLARTBS• 1516MICOL&1AR'ST.• EIMN7f,IN46516-4740• LISA- Fl41.800.234.0277 •• TEH SERACEB H-t 1.8B8.446.4226• FAX 1.800.234.0557• INTffdJAl1CNAL SERACE R-t+1.574.295.3221• FA>(+1.574.295.3455 www.riboo.com MIBCCY www.nibco.com AHEAD OF • 1 1/2"TYPE"K' CCPPER TUBE-WATER FLOW AN D FRI CTI CIN LOSS PER 100 FEET MadnmQD. = 1.6270indies(41.326mn) NorrinaQD = 1.6250imhes(41.275rrm) MinirrunQD = 1.6230imhes(41.224mn) Norrind l.D. = 1.4810imhes(38.227rrm) Norrind Wall I idviess = 0.0720 inches(1.829 mn) flow Area = 1.7227 sq.irches(1111.39 sq.mn) Hawn William FomrAa CRdor = 150 FLAN,Q Ressure Loss Fwd Loss \k1 odty RDN,Q Ressure Loss Haad Loss \Mocity (am) (ps/100ft) (ft/100ft) (ftJser-) (a.anysea) (I�Fa/100m) (rrV100m) (cosec) 5.00 0.12 0.29 0.93 315 0.03 0.29 028 10.00 0.44 1.03 1.85 631 0.10 1.03 0.57 15.00 0.94 218 279 946 0.21 218 0.85 20.00 1.60 3.72 3.72 1262 0.36 3.72 1.14 25.00 242 5.61 4.66 1577 0.55 5.61 1.42 30.00 339 7.87 5.59 1893 0.77 7.87 1.70 35.00 4.52 10.46 6.52 2208 1.02 10.46 1.99 40.00 5.78 13.39 7.45 2523 1.31 13.39 227 45.00 7.19 16.65 8.38 2839 1.63 16.65 255 50.00 8.74 20.24 9.31 3154 1.98 20.24 2.84 55.00 10.43 24.14 1024 3470 236 24.14 3.12 60.00 1226 28.36 11.17 3785 277 28.36 3.41 65.00 14.21 3288 1211 4101 3.22 3288 3.69 70.00 16.30 37.72 13.04 4416 369 37.72 3.97 75.00 18.53 4285 13.97 4732 4.19 4285 4.26 80.00 20.88 48.28 14.90 5047 4.72 48.28 4.54 85.00 23.36 54.01 15.83 5362 5.28 54.01 4.83 90.00 25.97 60.04 16.76 5678 5.87 60.04 5.11 95.00 28.70 66.35 17.69 5993 6.49 66.35 5.39 100.00 31.56 7296 18.52 6309 7.14 7296 5.68 105.00 34.55 79.85 19.56 6624 7.82 79.85 5.96 110.00 37.66 87.03 20.49 6940 8.52 87.03 6.24 115.00 1 40.89 1 94.49 1 21.42 1 7255 1 925 1 94.49 1 6.53 1 1/2"TYPE L" OCIPPER TUBE-WATER FLCW AN D FRI CTI CIN LOSS PER 100 F= Mad m QD. = 1.6270 ind)es(41.326 con) Norrird QD. = 1.6250 imhes(41.275 rrm) MirinunQD = 1.6230indies(41.224mn) Nonird I.D. = 1.5050ir&es(37.6174mn) NorrinaMbIlTliciTem = 0.0600indies(1.524mn) RavArea = 1.7789sq.indies(1147.71sq.mn) HmBnWilliarmFormla CFador = 150 FLAN,Q Ressae Lass I-fyad Loss Mdocity RDN,,Q Ressrae Loss F bw Loss mdocity (MM) (psi/100ft) (ft/100ft) (ftJsec) (cu.cnYsea) od:b/100m) (0100m) (rd ) 5.00 0.11 0.26 0.90 315 0.03 0.26 0.27 10.00 0.41 0.95 1.80 631 0.09 0.95 0.55 15.00 0.87 202 271 946 0.20 202 0.82 20.00 1.48 3.44 3.61 1282 0.34 3.44 1.10 25.00 224 5.19 4.51 1577 0.51 5.19 1.37 30.00 3.14 7.27 5.41 1893 0.71 727 1.65 35.00 4.18 9.67 6.31 2208 0.94 9.67 1.92 40.00 5.35 1239 7.21 2523 1.21 1239 220 45.00 6.65 15.40 8.12 2839 1.50 15.40 247 50.00 8.09 18.72 9.02 3154 1.83 1872 275 55.00 9.65 2232 9.92 3470 218 2232 3.02 60.00 11.33 26.22 10.82 3785 256 26.22 3.30 65.00 13.14 30.41 11.72 4101 297 30.41 357 70.00 15.08 34.88 1262 4416 3.41 34.88 3.85 75.00 17.13 39.63 13.53 4732 3.88 39.63 4.12 80.00 19.31 44.65 14.43 5047 4.37 44.65 4.40 85.00 21.60 49.95 15.33 5362 4.89 49.95 4.67 90.00 24.01 55.52 16.23 5678 5.43 55.52 4.95 95.00 26.54 61.36 17.13 5993 6.00 61.36 5.22 100.00 29.19 67.47 1803 6309 &60 67.47 5.50 105.00 31.95 73.84 18.94 6624 723 73.84 5.77 110.00 34.82 80.48 19.84 6940 7.88 80.48 6.05 115.00 37.81 87.36 20.74 1 7255 1 855 1 87.38 1 6.32 U.S.custcrray writs in this doan-ent are the starxlard;the metric units are provided for referenice arty the values stated in eati system are not exad egdvalerds. NIBDJINCWCR.DFEADCLARI82S• 1516MIDD.B3-WSC• aI+ARrIN46516-4740• USA• R-t1.800.234.0227 m TEHSERACESFR 1.888.446.4226• RX 1.800.234.0557• INIB3VAl1CNALSERACEFFt+1.574.295.3221• FAX.+1.574.295.3455 • www.riboo.com www.nibco.com AHEAD OF • 11/2"TYPE"M" COPPER TUBE-WATER FLOW AND MCTION LOSS PER 100 FEET McpdnunOD. = 1.6270irches(41.326rrm) NomnalQD. = 1.6250imhes(41.275rrm) MirinmQD. = 1.6230imhes(41.224rrm) Norrinall.D. = 1.5270irdies(38.7858rrm) NomrdV\dl-hclrlem = 0.0490ir&es(1.2446rrm) RwArea = 1.83139q.ir&es(1181.509q.rrm) HamnV\AIIi arm Fcnrula CFador = 150 RO✓V,Q Ressure Loss Had Loss \AAocity RD/V,Q Rare Loss hfead Loss Mblocity ((TM) (psi/1ooft) (ft/100ft) (ft./sec.) (cu.an'sec) wdlo0m) (m100m) (m'seo.) 5.00 0.11 0.25 0.88 315 0.02 025 0.27 10.00 a38 0.69 1.75 631 0.09 0.89 0.53 15.00 0.81 1.88 263 946 0.18 1.88 0.69 20.00 1.38 3.20 3.50 1262 0.31 3.20 1.07 25.00 209 4.84 4.38 1577 0.47 4.84 1.33 30.00 293 6.78 5.26 1893 0.66 6.78 1.60 35.00 3.89 9.02 6.13 2208 0.88 9.02 1.87 40.00 4.98 11.54 7.01 2523 1.13 11.54 214 45.00 6.20 14.35 7.88 2839 1.40 14.35 240 50.00 7.53 17.44 8.76 3154 1.70 17.44 267 55.00 8.99 2D.8D 9.64 3470 203 20.80 294 60.00 10.56 24.44 10.51 3785 2.39 24.44 3.20 65.00 1225 28.34 11.39 4101 2.77 21134 3.47 70.00 14.05 3250 1226 4416 3.18 3250 3.74 75.00 15.96 36.92 13.14 4732 3.61 36.92 4.00 80.00 17.99 41.61 14.02 5047 4.07 41.61 4.27 85.00 20:13 46.55 14.89 5362 4.55 46.55 4.54 90.00 2238 51.74 15.77 5678 5.06 51.74 4.81 95.00 24.73 57.18 16.64 5996 5.59 57.18 5.07 100.00 27.20 6287 17.52 6309 6.15 52-87 5.34 105.00 29.77 68.81 18.40 6524 6.73 61181 5.61 110.00 3245 74.99 19.27 6940 7.34 74.99 5.87 115.00 1 35.23 1 81.42 1 20.15 1 7255 1 7.97 1 81.42 1 6.14 COPPER" TUBE-WATER FLOW AND •N LOSS PER 100 E Ma>ammOD. = 2.1270indi%(54.026rrm) NomrralQQ = 2.1250irdes(53.975rrm) Mirim nQD = 2.1230irdes(53.924rrm) Norrirral l.D. = 1.9590irdies(49.7586rrm) NoMrd Wall'ihidTe% = 0.0830ird-ffi(2.1082rrm) RavArea = 3.0141sq.irdies(1944.58sq.rrm) Haa-nWiIIiarrsFuTrula CFactor = 150 FLON,Q Ressure Loss Head Loss mdocity RDN,Q Ressrge Loss Head Loss Mdodty (CAM) (psi/100ft) (ft/100ft) (ft./sec.) (cu.cm'sec.) OFwlo0m) (rr100m) (m'sea) 10 0.11 0.25 1.06 631 0.03 0.25 0.32 20 0.41 0.95 213 1262 0.09 0.95 0.65 30 0.87 202 3.19 1893 0.20 202 0.97 40 1.48 3.43 4.26 257.1 0.34 3.43 1.30 50 224 5.19 5.32 3154 0.51 5.19 1.52 60 3.14 7.27 6,39 3785 0.71 7.27 1.95 70 4.18 9.67 7.45 4416 0.95 9.67 227 80 5.35 1238 8.52 5047 1.21 1238 260 9D 6.66 15.39 9.58 5678 1.51 15.39 292 100 8.09 18.71 10.64 6309 1.83 18.71 3.24 110 9.66 2232 11.71 6940 218 2232 3.57 120 11.34 26.21 1277 7570 257 26.21 3.89 130 13.16 30.40 13.84 8201 298 30.40 4.22 140 15.09 34.86 14.90 8832 3.41 34.86 4.54 150 17.15 39.61 15.97 9463 3.88 69.61 4.87 160 19.33 44.63 17.03 10094 4.37 44.63 5.19 170 21.62 49.93 18.10 10725 4.89 49.93 5.52 180 24.04 55.50 19.16 11356 5.44 55.50 5.84 190 25.57 61.34 20.22 11986 6.01 61.34 6.16 200 29.22 67.44 1 21.29 1 12617 1 6.61 1 67.44 1 6.49 U.S astorrary units in this doamrent are the standard;the n-ddc units are prodded for refermw orily.the\d Lies stated i n each system are not exact equ\rA ents NIBMlNCVVCRD E4DCLARTBS• 1516MICD-ED-R(SL• 1310ARTIN46516-4740• LISA- 1341.80D.234.0227 •i TITH SE RACEB R-t 1.8138.446.4226• FrAX 1.800.234.0557• INTffdJAl1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • COPPER" C E-WATER FLOW AND FRICTI ON •► 11 FEET MadnmQD. = 21270indies(54.026rm) NorrinalQD. = 21250imhes(53.975rrm) MinirrunQD. = 21230imhes(53.924mn) Norrinall.D. = 1.9B50indm(50.419rrm) Nominal Wail Thidvress = 0.0700 irches(1.778 mn) Raw Area = 3.0946 sq.indres(1996.54 sq.mn) Hazen WilliamFomula CFador = 150 FLAN,Q Ressure Loss Fwd Loss \k1 odty R_Q,N,Q Ressure Loss Head Loss Mdocity (am) 0/100ft) (ft/100ft) (ftJsec) (cu.an'sea) ij�Fw100m) (m100m) (cosec) 10 0.11 0.25 1.04 631 0.02 0.25 0.32 20 0.39 0.89 Z07 1262 0.09 0.89 0.63 30 0.82 1.89 3.11 1893 0.18 1.89 a95 40 1.39 3.22 4.15 2523 0.31 3.22 1.26 50 210 4.87 5.18 3154 0.48 4.87 1.58 60 295 6.82 6.22 3785 0.67 682 1.90 70 3.92 9.07 7.25 4416 0.89 9.07 2.21 80 5.02 11.61 8.29 5047 1.14 11.61 253 90 6.24 14.44 9.33 5678 1.41 14.44 284 100 7.59 17.55 10.37 6309 1.72 17.55 3.16 110 9.06 20.93 11.40 6940 205 20.93 3.48 120 10.64 24.58 1244 7570 241 24.58 3.79 130 1234 28.51 13.48 8201 279 28.51 4.11 140 14.15 3270 14.51 8832 3.20 3270 4.42 150 16.06 37.15 15.55 9463 3.64 37.15 4.74 160 18.13 41.86 16.59 10094 4.10 41.86 5.06 170 20.28 46.83 17.62 10725 4.59 46.83 5.37 180 2254 5205 18.66 11356 5.10 5205 5.69 19D 24.92 57.53 19.70 119% 5.64 57.53 6.03 200 1 27.40 1 63.25 1 20.73 1 12617 1 6.20 63.25 6.32 COPPER" TUBE WATEFFLOW ON •► 11 FEET MadnunQD. = 21270indies(54.026mn) NorninaMD. = 21250irches(53.975mn) MirimrnQD. = 21230irches(53.924nTn) Noninall.D. = 20090irdlm(51.0286mn) NorrirdWallThidmess = 0.0580imhes(1.4732rrm) Row Area = 3.1699sq.indres(2045.11sq.rrm) Hazen WlliarrsFomda CFador = 150 FLAN,Q Res re Loss Head Loss \klodty FLAN,Q %ssreLoss Head Loss Mdocity (am) (psi/10Dft) (ft/100ft) (ftJseo.) (cu.crdsec) KW100m) (m10om) (m'sea) 10 0.10 0.23 1.01 631 0.02 0.23 0.31 20 0.36 0.84 202 1252 0.08 Q84 0.62 30 0.77 1.78 3.04 1893 0.17 1.78 0.93 40 1.31 3.04 4.05 2523 0.30 3.04 1.23 50 1.98 4.59 5.06 3154 0.45 4.59 1.54 60 278 6.43 6.07 3785 0.63 6.43 1.85 70 3.70 8.55 7.08 4416 0.84 8.55 2.16 80 4.74 10.95 MID 5047 1.07 10.95 247 90 5.89 13.62 9.11 5678 1.33 1362 278 100 7.16 16.55 10.12 6309 1.62 16.55 3.08 110 8.54 19.74 11.13 6940 1.93 19.74 3.39 120 10.03 23.19 1215 7570 227 23.19 3.70 130 11.64 26.89 13.16 8201 263 25.89 4.01 140 13.35 30.84 14.17 8832 3.02 30.84 4.32 150 15.17 35.04 15.18 9463 3.43 35.04 4.63 160 17.10 39.48 16.19 10094 3.87 39.48 4.94 170 19.13 44.17 17.21 10725 4.33 44.17 5.24 180 21.25 49.09 18.22 11356 4.81 49.09 5.55 190 23.50 54.26 19.23 11986 5.32 54.26 5.86 2D0 1 25.84 1 59.66 1 2024 1 12517 1 5.85 59.66 1 6.17 U.S.aistarray utits i n this doarnar t are the sla-idard;the rr etri c uuiits are provided for referenm ody.the values stated in each system are riot exad ecp\rAerts. NIBDJINC WCR.DFEADCLARIH2S• 1516MIDDt.B3-WSC• BJ4AR1;IN46516-4740• USA• R-t 1.800.234.0227 TEHSERACESFR 1.888.446.4226• RX 1.800.234.0557• INIB3VAl1CNALSERACEF1•t+1.574.295.3221• FAX.+1.574.295.3455 • www.niboo.ocm www.nibco.com AHEAD OF • TYPE" OOP PER E-WATER FLOW AND •N LCISS PER 100 FEET Ma>anunQQ = 26270indies(66.7258rrrn) NomreI QD. = 26250im es(66.675nm) MirimmQD = 26230imh%(66.6242rrm) Nordrrall.D. = 2.4350irdies(61.849rrm) Nonir� V\dl-hclrlem = 0.0950ir&es(2.413rrm) RavArea = 4.65689q.ir&es(3004.380sq.mn) HmnV\AIIi arm Formala CFador = 150 RDN,Q Ressure Loss Had Loss malocity RD/V,Q Ressure Loss FOCI Loss \Ajodty (MO) 0/100ft) (ft/100ft) (ft./sec.) (cu.cm'sec) wdlo0m) (m100m) (rry-) 20 0.14 0.33 1.38 1262 0.03 0.33 0.42 40 0.51 1.19 276 2523 0.12 1.19 0.84 60 1.09 252 4.13 3785 0.25 252 126 80 1.86 4.30 5.51 5047 0.42 4.30 1.68 100 281 6.49 6.89 6309 0.64 6.49 210 120 3.94 9.10 8.27 7570 0.89 9.10 252 140 5.24 1210 9.65 8832 1.18 1210 294 160 6.71 15.49 11.02 10094 1.52 15.49 3.36 180 8.34 19.26 1240 11356 1.89 19.25 3.78 200 10.14 23.41 13.78 12617 229 23.41 4.20 22D 1210 27.92 15.16 13879 274 27.92 4.62 240 14.21 3279 16.53 1 15141 3.21 3279 5.04 260 16.48 38.03 17.91 16403 an 31103 5.46 280 18.91 43.62 19.29 17664 4.28 43.62 5.88 300 21.48 49.55 20.67 18926 4.86 49.55 6.30 320 1 24.21 1 55.84 1 22.05 20188 1 5.48 1 55.84 1 6.72 COPPER" C E-WATER FLOW AND FRICTICN • 11 FEET Ma)ammQa = 2.6270irches(66.7258mn) NorrinalQD. = 2.6250imhes(66.675nm) MlnlnrdnQQ = 2.6230irxtm(66.6242mn) Norrirdl.Q = 24650imhes(62.611rrm) Norri r al Wall = 0.0800 i ndies(2.032 rrm) Rav Area = 4.7723 sq.irdies(3078.87 sq.rrm) HamnVMIIiansFaTyula CFador = 150 R D✓V,Q Resare Loss H3od Loss malocity FLON,Q Ressure Loss Head Lass Udocity (CAM) od/1ooft) (ft/100ft) (ft./sec.) (cu.crrsec.) (k�100m) (m'100m) (rTY-) 20 0.13 0.31 1.34 1262 0.03 0.31 0.41 40 0.48 1.12 269 2523 0.11 1.12 0.82 60 1.03 238 4.03 3785 0.23 238 1.23 80 1.75 4.05 5.38 5047 0.40 4.05 1.64 100 265 6.12 6.72 6309 0.60 6.12 205 12D 3.71 8.57 8.07 7570 0.84 8.57 246 140 4.913 11.40 9.41 8832 1.12 11.40 287 160 6.32 14.59 10.76 10094 1.43 14.59 3.28 180 7.86 18.15 1210 11356 1.78 18.15 3.69 200 9.55 2205 13.45 12617 2.16 2205 4.10 220 11.40 26.30 14.79 13879 2.58 26.30 4.51 240 13.39 30.90 16.13 15141 3.03 30.90 4.92 260 15.53 35.83 17.48 16403 3.51 35.83 5.33 280 17.81 41.09 18.82 17664 4.03 41.09 5.74 300 20.24 46.69 20.17 18926 4.58 46.69 6.15 32D 2281 1 5261 1 21.51 1 20188 1 5.16 1 5261 1 6.56 U.S astcrrary units in this doamient are the standard;the n-ddc units are prodded for refermw or1y.the\d Lies stated i n each system are not exact egr\rA ents m NIBMlNCVVCRDFE4DQIARTBS• 1516MICOL&1AR'ST.• 9104V7f,IN46516-4740• LISA- R41.800.234.0277 TITH SERACEB Rt 1.8138.446.4226• FAX 1.800.234.0557• INTEF;NAl1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com MIBCCY www.nibco.com AHEAD OF • 2 1/2"TYPE"M" OOPPER TUBE-WATER FLOW AND FRICTI ON LOSS PER 100F= MadnmC)D. = 26270indies(66.7258rrm) NornnaiQD. = 26250imhes(66.675rrm) MinirrlrnQD. = 26230imhes(66.6242nm) Norrinall.D. = 24950imhes(63.373rrm) Norrinal Wall I idviess = 0.0650irches(1.651 nm) Raw Area = 4.8891 sq.irches(3154.27sq.rrm) Hazen William FonTula CFador = 150 FLAN,Q Ressure Loss Head Loss btlodty FLON,Q Ressure Loss Head Loss \Mocity (am) (p®/1o0ft) (ft/100ft) (ftJser-) (cu.crrYsea) (I�Fai100m) (m100m) (m'sec) 20 0.13 0.29 1.31 1262 0.03 0.29 0.40 40 0.46 1.06 262 2523 0.10 1.06 0.80 60 0.97 224 3.94 3785 0.22 224 1.2D 80 1.65 3.82 5.25 5047 0.37 3.82 1.60 100 250 5.77 6.55 6309 0.56 577 200 120 3.50 8.08 7.87 7570 0.79 &OB 2.40 140 4.65 10.75 9.19 8832 1.05 10.75 2.80 160 5.96 13.76 10.50 10094 1.35 13.76 3.20 180 7.41 17.11 11.81 11356 1.68 17.11 3.60 200 9.01 20.79 13.12 12617 204 20.79 4.00 220 10.75 24.80 14.44 13879 243 24.80 4.40 240 1262 29.13 15.75 15141 286 29.13 4.80 250 14.64 33.78 17.06 16403 3.31 33.78 520 280 16.80 38.75 18.37 17664 3.80 3875 5.60 300 19.09 44.02 19.65 18925 4.32 44.02 6.00 320 1 21.51 1 49.60 1 21.00 1 20188 1 4.87 1 49.60 1 6.40 OOP PER E-WATER R_0W AND FRCTI ON • PER 11 Ma)dnunQD. = 3.1270indres(79.4258mn) Noninal QD. = a1250inches(79.375rrrn) MlrimmQD. = 3.1230indres(79.3242nm) Noninall.D. = 29070indm(73.8378nm) Nomnal Wall Thidmess = 0.1090 imhes(27686 rrrn) How Area = 6.6371 sq.irdm(428201 sq.rrm) Hazen WlliarmFamAa CFador = 150 FLAN,Q Ressure Loss Head Loss \klodty RAZW Q Ressure Lms Head Loss \kiodty (am) (0/100ft) (ft/100ft) MAec.) (ai.crdsec) (IPai100m) (rr100m) (m'sec) 25 0.09 0.21 1.21 1577 0.02 0.21 0.37 50 0.33 0.76 242 3154 0.07 0.76 0.74 75 0.70 1.61 3.63 4732 0.16 1.61 1.11 100 1.19 274 4.83 6309 0.27 274 1.47 125 1.79 4.14 6.04 7886 0.41 4.14 1.84 150 251 5.80 7.25 9463 0.57 5.80 221 175 3.34 7.72 8.46 11040 0.76 7.72 2.58 200 4.28 9.88 9.67 12517 0.97 9.88 2.95 225 5.33 12.29 10.88 14195 1.20 1229 3.32 250 6.47 14.94 1208 15772 1.46 14.94 3.68 275 7.72 17.82 13.29 17349 1.75 17.82 4.05 300 9.07 20.93 14.50 18925 205 20.93 4.42 325 10.52 24.27 15.71 20503 238 24.27 4.79 350 1207 27.83 16.92 22080 273 27.83 516 375 1372 31.62 1&13 23658 3.10 31.62 5.53 400 15.46 35.63 19.34 25235 3.50 35.63 5.89 425 1 17.29 1 39.86 1 20.54 1 26812 3.91 39.86 6.26 U5 astorray units in this doaxrent are the standard;the met I units are provided for reference on]y The A ues stated i n each system are not exact equivalents. NIBOJINCWCR.DHEADCLARIHS• 1516MIDD.E3-WSC• 9J04N:ZrIN46516.4740• USA,- R-t1.800.234.0227 m TEHSERACESFR 1.888.446.4226• FAX 1.800.234.0557• INT93VATICNALSERACEFFt+1.574.295.3221• FAX.+1.574.295.3455 www.riiboo.com www.nibco.com AHEAD OF • 3'TYPE"U' COPPER TUBE-WATER FLOW AND FRI CTI ON LOSS PER 100 FEET MaanunQD. = 3.1270indies(79.4258rrm) NomreloQ = 3.1250inches(79.375rrm) MirimmQD = 3.1230imhes(79.3242rrm) Norrind i.D. = 29450imhes(74.803rrm) mr�al NoVVa -Nclvrem = 0.090Dir&es(2.286rrm) RavArea = 6.81189q.ir&m(4394.69sq.nm) HamnWilli arm Fcm-ula CFador = 150 RDN,Q Resare Loss Head Loss mdocity RD/V,Q Rmwre Loss FOCI Loss \bodty (MA) (psi/1o0ft) (ft/1o0ft) (ft./sec.) (cu.an'sec) wdlo0m) (m'1o0m) (rry-) 25 0.09 0.20 1.18 1577 0.02 020 0.36 50 a31 0.71 235 3154 ON 0.71 0.72 75 0.65 1.51 3.53 4732 0.15 1.51 1.08 100 1.11 257 4.71 6309 0.25 257 1.44 125 1.68 3.89 5.89 7886 0.38 3.89 1.79 150 236 5.45 7.06 9463 0.53 5.45 215 175 3.14 7.25 824 11040 0.71 725 251 200 4.02 9.28 9.42 12617 0.91 9.28 287 225 5.00 11.54 10.60 14195 1.13 11.54 3.23 250 6.08 14.02 11.77 15772 1.37 14.02 3.59 275 725 16.72 1295 17349 1.64 16.72 3.95 300 8.52 19.65 14.13 18M 1.93 19.65 4.31 325 9.88 2278 15.31 20503 223 2278 4.67 350 11.33 26.13 16.48 22080 256 26.13 5.02 375 1288 29.69 17.66 23658 291 29.69 5.38 400 14.51 33.45 18.84 25715 3.28 33.45 5.74 425 1 1624 1 37.42 1 20.02 26812 1 3.67 1 37.42 1 6.10 •N' C E-WATER FLOW AND FRICTION LOSS 'T 11 MaanunQD. = 3.1270indies(79.4258rrm) Nomneim = 3.1250inches(79.375rrm) MirimmQD = 3.1230indies(79.3242rrm) Nomrd I.D. = 29810indres(75.7174rrm) NmirdWalIThidviem = 0.0720ind-ffi(1.8288rrm) RavArea = 6.97939q.ir&es(450.79sq.rrm) HEo3nWilliarrsFcmula CFador = 150 FLON,Q Ressure Loss Head Loss mdocity RAN,Q Rare Loss Hied Lass Wocity (GM) (psi/1ooft) (ft/100ft) (ft./sec.) (cu.crosec) wdlo0m) (m1o0m) (m'sea) 25 0.08 0.19 1.15 1577 0.02 0.19 0.35 50 a29 0.67 230 3154 0.07 0.67 0.70 75 0.52 1.42 3.45 4732 0.14 1.42 1.05 100 1.05 243 4.60 6309 0.24 243 1.40 125 1.59 3.67 5.75 7886 0.36 3.67 1.75 150 222 5.14 6.90 9463 0.50 5.14 210 175 296 6.83 8.04 11040 0.67 6.83 245 200 3.79 8.75 9.19 12617 0.86 8.75 280 225 4.71 10.88 10.34 14195 1.07 10.88 3.15 250 5.73 13.22 11.49 15772 1.30 13.22 3.50 275 6.83 15.76 1264 17349 1.55 15.76 3.85 300 8.03 18.52 13.79 18M 1.82 18.52 4.20 325 9.31 21.47 14.94 20503 2.11 21.47 4.55 350 10.63 24.63 16.09 22080 242 24.63 4.90 375 1214 27.98 17.24 23658 275 27.98 5.25 400 13.69 31.53 18.39 25235 3.09 31.53 5.60 425 1 15.30 1 3527 1 19.54 1 26812 1 3.46 1 35.27 1 5.95 U.S a rstwejy units in thi s dowrrent are the standard;the metric units are provided for reference ody.the values stated in each systemare not exact equvalents. ® NIBMINCWCRDFE4DCLARRT6- 1516MICOLB3_R(SL• EI N7f,IN465164740• LISA- R41.80D.234.0227 TEH SERACEB Rt 1.8B8.446.4226• FAX 1.800.234.0557• INT9aJAnCNAL STR ACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 3 1/2"TYPE"K' COPPER TUBE-WATER FLOW AND FRICTION LOSS PER 100 FEET Ma dnmQD. = 3.6270 indies(921258 rrm) Nominal QD. = 36250 imhes(92075 mn) MinimmQD. = 3.6230irxhes(920242mn) Narinall.D. = 3.3850indm(85.979mn) NoMind Wall Thidviess = 0.1200 irdies(3.048 mn) FIoN Area = 6.9993 sq.indies(5805.97 sq.mn) Hawn WilliamFomula CFador = 150 RAN,Q Ressure Loss Head Loss \k1 odty FLAN,Q Ressure Loss Head Lass Mdocity (C-FM) (psi/100ft) (ft/100ft) (ftJser-) (cu.an'sea) (I�Fai100m) (m100m) (cosec) 25 0.04 0.10 0.89 1577 0.01 0.10 0.27 50 0.16 0.36 1.78 3154 0.04 0.36 0.54 75 0.33 0.77 267 4732 0.06 0.77 a81 100 0.57 1.31 357 6309 0.13 1.31 1.09 125 0.85 1.98 4.46 7886 0.19 1.98 1.36 150 1.20 277 5.35 9463 0.27 277 1.63 175 1.59 368 6.24 11040 0.36 368 1.90 200 204 4.71 7.13 12617 0.46 4.71 217 225 254 5.86 8.02 14195 0.57 586 244 250 309 7.12 8.91 15772 0.70 7.12 2.72 275 3.68 &49 9.80 17349 0.83 8.49 299 300 4.33 9.96 10.70 18925 0.98 9.98 3.26 325 5.02 11.57 11.59 2003 1.13 11.57 3.53 350 5.76 1327 1248 22080 1.30 1327 3.80 375 6.54 1508 13.37 236% 1.48 15.08 4.07 400 7.37 16.99 14.26 25235 1.67 16.99 4.35 425 &25 19.01 15.15 25812 1.87 19.01 4.62 450 9.17 21.12 16.04 28389 207 21.12 4.89 475 10.13 23.35 16.93 29966 229 23.35 5.16 500 11.14 25.67 17.83 31543 252 25.67 5.43 525 1220 28.10 1&72 33121 276 28.10 5.70 550 13.29 30.62 19.61 34698 301 30.62 5.98 575 14.43 33.25 20.50 36275 326 33.25 6.25 600 15.62 1 35.97 1 21.39 1 37852 1 353 35.97 6.52 3 1/2"TYPE U' COPPER TUBE-WATER FLOW AN D FR CTI ON LOSS PER 100 FEET MadnunOD. = 36270indies(921258mn) Nornnal QD. = a6250indies(92075mn) MirinunQD. = 3.6230indies(920242mn) Norrinall.D. = 3.4250imhes(86.995rrm) Wrind Wall Thidm% = 0.1000imhes(2540mn) Row Area = 9.2132sq.ind1es(5944.00sq.mn) HamnWllianuFornda CFador = 150 FLON,Q FressireLoss HBed Loss \klodty FLAN,Q Ressue Loss Head Lass Wocity (CAM) (psi/100ft) (ft/100ft) (ftJsea) (cu.aTysec) OFW100m) (m100m) (m'sec) 25 0.04 0.09 0.87 1577 0.01 0.09 0.27 50 0.15 0.34 1.74 3154 0.03 0.34 0.53 75 0.31 0.73 2.61 4732 0.07 0.73 0.80 100 0.53 1.23 3.48 6309 0.12 1.23 1.06 125 0.81 1.87 4.35 7886 0.18 1.87 1.33 150 1.13 261 5.22 9463 0.26 261 1.59 175 1.51 348 6.09 11040 0.34 3.48 1.86 200 1.93 4.45 6.96 12517 0.44 4.45 212 225 240 553 7.84 14195 0.54 5.53 239 250 291 6.73 8.71 15772 0.66 6.73 265 275 348 8.02 9.58 17349 0.79 &02 292 300 4.09 9.42 10.45 18928 0.92 9.42 318 325 4.74 10.93 11.32 20503 1.07 10.93 3.45 350 5.44 1253 1219 22080 1.23 1253 3.71 375 6.18 14.24 1306 23656 1.40 14.24 3.98 400 6.96 16.05 13.93 25235 1.57 16.05 4.25 425 7.79 17.95 14.80 25812 1.76 17.95 4.51 450 8.66 19.95 15.67 28389 1.96 19.95 4.78 475 9.57 22.05 16.54 29966 216 2205 504 500 10.52 24.25 17.41 31543 238 24.25 5.31 515 11.52 25.54 %28 33121 261 25.54 557 550 1255 28.92 19.15 34698 284 M92 5.84 575 13.63 31.40 20.02 36275 308 31.40 6.10 600 1 14.75 1 33.97 1 20.89 1 37852 1 334 1 33.97 1 6.37 U.S.aistway r units in this doa rrfnt are the standard;the rretri c units are provided far reference orgy.The vd ues stated in each system are not exact equi\rcierd5 NIBDJINCWCR.DFEADCLARI82S• 1516MIDDt.B3-WSC• aI+ARrIN46516.4740• USA• R-t1.800.234.0227 TEHSERACESFR 1.888.446.4226• F71X 1.800.234.0557• INTB3VATICNALSERACEFFt+1.574.295.3221• FAX.+1.574.295.3455 www.riboo.com www.nibco.com AHEAD OF • COPPER" C E-WATER FLOW AND •N LOSS PER 100 FEET Ma>amu oD. = 3.6270irches(92.1258mn) NomreIQQ = 3.6250imhes(92.075mn) MirimmQD = 3.6230imhes(92.0242nTn) Nordrrall.D. = 3.4590imhes(87.8586mn) Narind Wall-h cl rlem = 0.083D i relies(2.1082 mn) Rav Area = 9.397 sq.it&%(6062.59 sq.mn) Hazen Willi arm Farmula CFador = 150 RDN,Q Ressure Loss Head Loss malocity RD/V,Q Rmwre Loss H3ad Loss \Ajodty (GRA) 0/100ft) (ft/100ft) (ft./sec.) (cu.an'sec.) war100m) (m100m) (rry-) 25 0.04 0.09 0.85 1577 0.01 0.09 0.26 50 a14 0.33 1.71 3154 0.03 0.33 0.51 75 0.30 0.69 256 4732 0.07 0.69 0.78 100 0.51 1.18 3.41 6309 0.12 1.18 1.04 125 0.77 1.78 4.27 7886 0.17 1.78 1.30 150 1.08 249 5.12 9463 0.24 249 1.56 175 1.44 3.31 5.97 11040 0.32 3.31 1.82 200 1.84 4.24 6.83 12617 0.42 4.24 208 225 229 5.27 7.68 14195 0.52 5.27 234 250 278 6.41 &54 15772 0.63 6.41 260 275 331 7.65 9.39 17349 0.75 7.65 286 300 389 8.96 10.24 1892x" 0.88 &98 3.12 325 4.52 10.41 11.10 20503 1.02 10.41 338 350 5.18 11.94 11.95 22080 1.17 11.94 364 375 589 1357 1280 23658 1.33 1357 390 400 6.63 15.29 13.66 25715 1.50 15.29 4.16 425 7.42 17.11 14.51 26812 1.68 17.11 4.42 450 &25 19.02 15.36 2M 1.87 19.02 4.68 475 9.12 21.02 1 6.22 29966 206 21.02 4.94 500 10.03 23.11 17.07 31543 2.27 2311 5.20 525 10.98 25.29 17.92 33121 248 25.29 5.46 550 11.96 27.56 18.78 34698 271 27.56 5.72 575 1299 29.93 19.63 36275 294 29.93 5.98 600 1 14.06 1 3238 1 20.49 1 37852 318 3238 6.24 4!'TYPE"K' COPPER TUBE-WATER FLOW AND FRICTI ON LOSS PER 100FEET Maammoa = 4.1270irdies(104.8258mm) Nominal QD. = 4.1250irdies(104.775mn) Mir9mmQa = 4.1230ird-m(104.7242mn) Nomird I.D. = 3.8570ird-m(97.9678mn) Nominal Wall ThidTess = 0.1340irelies(3.4036mn) Row Area = 11.6839s4irdies(7538.01sq.mm) Ha2en WilliarrsFarmula CFi dor = 150 RDN,Q Pressure Loss Head Loss \kiodty RON,Q Pressure Loss Head Lass Udacity (CAM) (Fsi/100ft) (fU100ft) (ft./sec.) (cu.aryseo) "loom) (010Dm) Of-) 50 0.08 0.19 1.37 3154 0.02 0.19 0.42 100 0.30 0.69 275 6309 ON 0.69 0.84 150 0.63 1.47 4.12 9463 0.14 1.47 1.26 200 1.08 250 5.49 12617 0.24 250 1.67 250 1.64 3.77 686 15772 0.37 3.77 209 300 229 529 8.24 18926 0.52 5.29 251 350 305 7.03 9.61 22080 0.69 7.03 293 400 391 9.00 10.98 25215 0.88 9.00 335 450 4.86 11.19 12.36 28389 1.10 11.19 3.71 500 5.9D 1360 13.73 31543 1.34 1360 4.18 550 7.04 16.23 15.10 34696 1.59 16.23 4.60 600 8.27 19.06 1 6.48 37852 1.87 19.06 5.02 650 9.60 2210 17.85 41006 217 2210 5.44 700 11.01 25.35 19.22 44161 249 25.35 5.86 750 1251 2&80 20.59 47315 283 28.80 6.28 800 14.10 3245 21.97 50469 3.19 3245 6.70 850 15.77 36.30 2334 53624 3.57 36.30 7.11 900 17.53 40.35 24.71 56778 3.97 40.35 7.53 950 19.38 44.60 26.09 59932 4.38 44.60 7.95 1000 1 21.31 1 49.04 1 27.46 1 63087 1 4.82 49.04 &37 U.S.o stcrrary twits in this doaalrent are the standard;the metric units are prasded for reference ody.the values stated in each system are not exad eq ivd eats. m NIBMINGMR.DF64DQ14Rf9s• 1516MICOL®lAR'SL• 13104N17f,IN46516-4740• LISA- R41.80D.234.0227 TITHSERACEBR-11.8138.446.4226• FAX1.800.234.0557• INTEF;NAnCNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • TYPE" COPPER" C E-WATER FLOW AND FRICTI ON •► 11 FEE MaxinunQD. = 4.1270indies(101.8258rrm) NorrinalQD. = 4.1250imhes(104.775rrm) MinimmQD. = 4.1230imhes(104.7242rrm) Norrinall.D. = 3.9050inches(99.187rrm) Norrinal Wall Thidvhcs e = 0.1100 inc ies(2794 mn) RoN Area = 11.9766 sq.inches(7726.80 sq.rrm) Hazen William ForrnAa CFador = 150 FLAN,Q Res Loss Head Loss hklodty R_Q,N,Q Ressure Loss Head Loss Mdocity (am) (psi/100ft) (ft/lo0ft) (ftJsec) (ai.arlsea) (I�Fai100m) (m1o0m) (cosec) 50 0.08 0.18 1.34 3154 0.02 0.18 0.41 100 0.28 0.65 268 6309 0.06 0.65 0.82 150 0.60 1.38 4.02 9463 0.14 1.38 1.22 200 1.02 235 5.36 12617 0.23 235 1.63 250 1.54 3.55 6.70 15772 0.35 3.55 204 300 216 4.98 8.04 18926 0.49 4.98 2.45 350 287 1162 9.38 22080 0.65 6.62 2.86 400 3.68 8.48 10.72 25235 0.83 8.48 3.27 450 4.57 10.54 1205 28389 1.03 10.54 3.67 500 5.56 12.81 13.39 31543 1.26 1281 4.08 560 6.63 15.28 14.73 34698 1.50 15.28 4.49 600 7.79 17.95 16.07 37852 1.76 17.95 4.90 650 9.04 20.81 17.41 41006 204 20.81 531 700 10.37 23.87 1&75 44161 234 23.87 5.72 750 11.78 27.12 20.09 47315 266 27.12 6.12 800 13.27 30.56 21.43 50469 3.00 30.56 6.53 850 14.85 34.18 2277 53624 3.36 34.18 6.94 900 16.51 38.00 24.11 56778 3.73 3&00 7.35 950 1&25 41.99 25.45 59932 4.13 41.99 7.76 1000 1 20.07 1 46.17 1 26.79 1 63087 1 4.54 46.17 1 8.17 4 COPPER" TUBE WATERFLOW ON •► 11 FEET Ma>amrnQD. = 4.1270indhes(104.8258mn) NorrinaMD. = 4.1250irches(104.775mhh) MirimmQD. = 4.1230indhes(104.7242mn) Nomnall.D. = a9350indhes(99.949mn) Norrinal MAI Thidvhess = 0.0950 im hes(2413 rrrn) Raw Area = 121613 sq.inches(7845.87 sq.con) Hazen WlliarrsFomda CFador = 150 R-ON,Q Res re Loss Head Loss \klodty R-ON,Q %ssreLoss Head Loss Mdocity (G-M) (psi/100ft) (ft/10oft) (User) (cu.crdsm) (I4'ar100m) (m100m) (m'sea) 50 0.08 0.17 1.32 3154 0.02 0.17 0.40 100 0.27 0.63 264 6309 0.06 Q63 0.80 150 0.58 1.33 3.96 9463 0.13 1.33 1.21 200 0.98 227 5.28 12517 022 227 1.61 250 1.48 3.42 6.60 15772 0.34 3.42 201 300 208 4.80 7.91 18925 0.47 4.80 241 350 277 6.38 9.23 22080 0.63 6.38 2.81 400 3.54 &17 10.55 25235 0.80 &17 3.22 450 4.41 10.15 11.87 28389 1.00 10.15 3.62 500 5.36 1234 13.19 31543 1.21 1234 4.02 550 6.39 14.72 14.51 34698 1.45 14.72 4.42 600 7.51 17.29 15.83 37852 1.70 17Z 4.82 650 8,71 20.05 17.15 41006 1.97 20.05 5.23 700 9.99 23.00 1&47 44161 226 23.00 5.63 750 11.35 26.13 19.79 47315 257 25.13 6.03 800 1279 29.44 21.11 50469 289 29.44 6.43 850 14.31 3293 2242 53524 3.24 3293 6.83 900 15.91 35.61 23.74 56778 3.60 36.61 7.24 950 17.58 40.46 25.06 59932 3.98 40.46 7.64 1000 1 19.33 1 44.49 1 25.38 1 63087 1 4.37 44.49 1 8.04 U.S a tstarary tats i n this doa rr ent are the standard;the nmtdc tats are provided fa- reference only The A ues stated i in each system are not exact ecp\rJerts. NIBDJINC WCR.DFEADCLARIHS• 1516MIDDt.B3-WSC• BJ4lAR1;IN46516-4740• USA- R-t 1.800.234.0227 m TEHSERACESFR 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACER3+1.574.295.3221• FAX.+1.574.295.3455 www.riboo.com www.nibco.com AHEAD OF • S'TYPE"K' COPPER TUBE-WATER FLOW AND FRICTI ON LOSS PER 100 FEET MaparrunQD. = 5.1270indies(130.2258rrm) Nomr-dQD = 5.1250imhes(130.175rrm) MirimmQD = 5.1230imhes(130.1242mn) Norrirell.D = 4.8050imhes(122047rrm) NarinalWalllhclrlem = 0.1600ir&es(4.064rrm) RavArea = 18.1333sq.ind-es(1169&87sq.rrm) HamnWilli arm Fcnrula CFador = 150 RDN,Q Resare Loss Head Loss \Ajocity RDN,Q Rare Loss FOCI Loss Mblocity ((TM) (psi/100ft) (ft/100ft) (ft./sec.) (cu.crosec) wd100m) (m100m) (m'seo.) 50 0.03 ON 0.88 3154 0.01 ON 0.27 100 0.10 0.24 1.77 6309 0.02 0.24 0.54 150 0.22 0.50 265 9463 0.05 0.50 0.81 200 0.37 0.86 3.54 12617 0.06 0.86 1.08 250 0.55 1.30 4.42 15772 0.13 1.30 1.35 300 0.79 1.81 5.31 18M 0.18 1.81 1.62 350 1.05 241 6.19 22080 0.24 241 1.89 400 1.34 3.09 7.08 25215 0.30 3.09 216 450 1.67 3.84 7.96 28389 0.38 3.84 243 500 2013 4.67 &85 31543 0.46 4.67 270 550 242 5.57 9.73 34698 0.55 5.57 297 600 284 6.54 10.62 37852 0.64 6.54 3.24 650 3.29 7.59 11.50 41006 0.75 7.59 3.51 700 3.78 8.70 1239 44161 0.85 8,70 3.77 750 4.29 9.89 13.27 47315 0.97 9.89 4.04 800 4.84 11.14 14.15 50469 1.09 11.14 4.31 850 5.41 1246 15.04 53624 1.22 1246 4.58 900 6.02 13.85 15.92 56778 1.36 13.85 4.85 950 6.65 15.31 16.81 59932 1.50 15.31 5.12 1000 7.32 16.83 17.69 63087 1.65 16.83 5.39 1050 &01 1&42 1&58 66241 1.81 1&42 5.66 110D &73 20.08 19.46 69395 1.97 20.08 5.93 1150 1 9.48 1 21.80 1 20.35 1 72550 1 214 1 21.80 6.20 ••"E'TUBE-WATER FLOW AND FRCTION •► 11 ME Ma>ammQD. = 5.1270indies(130.2258rrm) NorrindOl. = 5.1250imhes(130.175rrm) MirimrnQD = 5.1230indies(130.1242mn) NomreII.D. = 4.8750indies(123.825rrm) Nomr d Wall ThidT ess = 0.1250 i mhes(3.175 mn) Rav Area = 18.6655 sq.i rxfies(1204222 sq.rrm) Hawn WilliairsFamila CFactor = 150 RDN,Q Resare Loss Fbad Loss mdocity RDN,Q Ressrre Loss Fiat Loss Mblodty (am) (psi/10M) (ft/100ft) (ft./sec.) (cu.cm'sec.) (1Fwlo0m) (m100m) (m'sea) 50 0.03 0.06 0.86 3154 0.01 0.06 0.26 100 0.10 0.22 1.72 6309 0.02 0.22 0.52 150 0.20 0.47 258 9463 0.05 0.47 G79 200 0.35 0.80 3.44 12617 0.08 0.80 1.05 250 0.52 1.21 4.30 15772 0.12 121 1.31 300 0.73 1.69 5.16 18M 0.17 1.69 1.57 350 0.96 225 6.02 22080 0.22 225 1.83 400 1.25 288 6.88 25235 0.28 288 210 450 1.55 3.58 7.73 28389 0.35 3.58 236 500 1.89 4.35 &59 31543 0.43 4.35 262 550 225 5.19 9.45 34698 0.51 5.19 288 600 265 6.10 10.31 37852 0.60 6.10 3.14 650 3.07 7.07 11.17 41006 0.69 7.07 3.41 700 3.52 all 12.03 44161 0.80 8,11 3.67 750 4.00 9.21 1289 47315 0.91 9.21 3.93 800 4.51 10.38 13.75 50469 1.02 10.38 4.19 850 5.05 11.61 14.61 53624 1.14 11.61 4.45 900 5.61 1291 15.47 56778 1.27 1291 4.72 950 6.20 14.27 16.33 599M 1.40 14.27 4.98 1000 682 15.69 17.19 63087 1.54 15.69 5.24 1050 7.46 17.17 1&05 66241 1.69 17.17 5.50 1100 &13 1&71 1&91 69395 1.84 1&71 i---5.76 1150 &83 2D.32 19.77 71550 2.00 20.32 1 6.02 U.S.a crrary twitsinthsdoa.urentarethestandard;themetdcLiltsarep-aAdedfor reference only lie values stated in each system are not ead ecl ival ents. m NIBMlNCWCRDF64DQ14Rf96• 1516MIMEEII-RSr- 1310ARTIN46516-4740• LISA- Rt1.80D.234.0227 TITH SERACEB Rt 1.8138.446.4226• FAX 1.800.234.0557• INTEF;NAl1CNAL SERACE R-t+1.574.295.3221• FA>(+1.574.295.3455 www.riboo.com MIBCCY www.nibco.com AHEAD OF • • ••••ER TUBE-WATER FLOW AN CIN LOSS 11 MadnunQD. = 5.1270indies(130.2258rrrn) NorrinalQD. = 5.1250imhes(130.175rrm) MininunQD. = 5.1230imhes(130.1242rrm) Norrirdl.D. = 4.9070imhes(124.6378rrm) Norrind Wall Thiclo em = 0.1090 indres(27696 rrm) flow Area = 18.9113 sq.indies(12200.83 sq.rrm) Hawn William Fomula CFador = 150 FLAN,Q Ftessure Loss Fwd Loss \k1 odty RDN,Q Ressure Loss Hgad Loss \Mocity (am) (psi/100ft) (ft/100ft) (ftJsec) (a.an'sea.) (I�Fa/100m) (m100m) (cosec) 50 0.03 0.06 0.85 3154 0.01 0.06 0.25 100 0.09 0.21 1.70 6309 0.02 0.21 0.52 150 0.20 0.45 254 9463 0.04 0.45 Q78 200 0.34 0.77 3.39 12617 0.08 0.77 1.03 250 0.51 1.17 4.24 15772 0.11 1.17 1.29 300 0.71 1.64 5.09 18926 0.16 1.64 1.55 350 0.95 218 5.94 22080 021 218 1.81 400 1.21 279 6.79 25235 0.27 279 207 450 1.51 3.47 7.63 28389 0.34 3.47 233 500 1.83 4.22 8.48 31543 0.41 422 2.59 550 218 5.03 9.33 34698 0.49 5.03 284 600 256 5.91 10.18 37852 0.58 5.91 3.10 650 297 6.85 11.03 41006 0.67 6.85 3.36 700 3.41 7.86 11.88 44161 0.77 7.86 3.62 750 3.88 &93 1272 47315 0.88 &93 3.88 800 4.37 10.06 13.57 50469 0.99 10.06 4.14 850 4.89 11.25 14.42 53524 1.11 11.25 4.40 900 5.43 1251 15.27 56778 1.23 1251 4.65 950 6.01 13.82 16.12 59962 1.36 13.82 4.91 1000 6.60 15.20 16.97 63067 1.49 15.20 5.17 1050 7.23 16.63 17.81 66241 1.64 16.63 5.43 1100 7.88 18.13 1&66 69695 1.78 1&13 5.69 1150 1 &56 1 19.68 1 19.51 1 72550 1 1.94 1 19.68 1 5.95 •"TYPE"K' OOPPER TUB E WATER FLOW ON A PER 100 FEET Ma)dnunQD. = 6.1270indies(155.6258rrm) Nomnal QD. = 6,1250imhes(155.575rTm) MininumQD. = 6.1230indies(155.5242rrm) Norrinall.D. = 57410imhes(145.8214rrm) Norrinal Wall Thiftess = 0.1920 inches(4.8768 rrm) Flaw Area = 25.8860 sq.indres(16700.61 sq.rrm) FfamWilliarrsFamla CFador = 150 FLAN,Q Resare Lass I-fyad Loss Mdocity RJM,,Q Ressure Lots Haad Loss \Modty (MM) (psi/100ft) (ft/100ft) (ftJsec) (cu.cnYsea) od:b/100m) (0100m) (rd ) 100 0.04 0.10 1.24 6309 0.01 0.10 0.38 200 0.16 0.36 2.48 12617 0.04 0.36 0.76 300 0.33 0.76 3.72 18925 0.07 0.76 1.13 400 0.56 1.30 4.96 25235 0.13 1.30 1.51 500 0.85 1.96 6.20 31543 0.19 1.96 1.89 600 1.19 275 7.44 37852 0.27 275 227 700 1.59 3.66 8.66 44161 0.36 3.66 264 800 204 4.69 9.92 50469 0.46 4.69 3.02 900 253 5.83 11.15 56778 0.57 583 3.40 1000 3.0B 7.08 1239 63087 0.70 7.08 3.78 1100 3.67 &45 13.63 69395 0.83 &45 4.16 1200 4.31 9.92 14.87 75704 0.98 9.92 4.53 1300 5.00 11.50 16.11 82013 1.13 11.50 4.91 1400 5.74 13.19 17.35 86321 1.30 13.19 5.29 1500 6.52 14.99 1&59 94630 1.47 14.99 5157 1600 7.35 16.89 19.83 100939 1.66 16.89 6.04 1700 &22 18.90 21.07 107247 1.86 18.90 6.42 1800 1 9.14 1 21.00 1 2231 113556 207 21.00 6.80 U.S.custcrray writs in this doarr ent are the sta-idard;the metric units are provided for referer»arty the values stated in eati system are not exad ecp\rAerds. NIBDJINCWCR.DFEADG114FJ82S• 1516MIDDt.B3-WSC• aI+ARrIN46516.4740• USA• FFt1.800.234.0227 TEH SERACES FR 1.888.446.4226• FAX 1.800.234.0557• INIB3VAl1CNALSERACEF Ft+1.574.295.3221• FAX.+1.574.295.3455 www.riboo.com www.nibco.com AHEAD OF • • COPPER" C E-WATER FLOW AND ON • 11 FEET MaparrunQD. = 6.1270indies(155.6258rrm) Nomnal QQ = 6.1250im es(155.575rrm) MirimmQD = 6.1230imhes(155.5242rrm) Narinall.D. = 5.8450imhes(148.463rrm) NarinalWall-hclrlem = 0.1400ir&es(3.556rrm) RaN Area = 26.8324sq.irdres(17311.17sT.mn) Hamn V\A I I i arm Fcm-ul a CFador = 150 FLON,Q Resare Loss Head Loss mdocity RD/V,Q Ressure Loss FOCI Loss Mblocity (C3={vl) (psi/100ft) (ft/100ft) (ft./sec.) (cu.an'sec) 04-d 100m) (m100m) (m'sea) 100 0.04 0.09 120 6309 0.01 0.09 0.36 200 a14 0.33 239 12617 0.03 0.33 0.73 300 030 0.70 3.59 189M ON 0.70 1.09 400 0.52 1.19 4.78 25235 0.12 1.19 1.46 500 0.78 1.80 5.98 31543 0.18 1.80 1.82 600 1.09 252 7.17 37852 0.25 252 219 700 1.46 3.35 8.37 44161 0.33 3.35 255 800 1.87 4.29 9.57 50469 0.42 4.29 282 900 232 5.34 10.76 56778 0.52 5.34 3.28 1000 282 6.49 11.96 63087 0.64 6.49 3.64 1100 3.36 7.74 13.15 69395 0.76 7.74 4.01 120D 3.95 9.09 14.35 75704 0.89 9.09 4.37 130D 4.58 10.54 15.54 82013 1.04 10.54 4.74 1400 526 1209 16.74 88321 1.19 1209 5.10 150D 598 13.74 17.94 94630 1.35 13.74 5.47 1600 6.73 15.48 19.13 100939 1.52 15.48 5.83 170D 7.53 17.32 20.33 107247 1.70 17.32 620 1800 1 8.38 1 19.25 1 21.52 1 113556 1 1.89 1 19.25 1 6.56 ' COPPER TUBE-WATER R-ON AND FRCTI ON • 'T 11 FEET MarammQD. = 6.1270indies(155.8258rrm) NorrinalQD. = 6.125Dindies(155.575rrm) MinlmrnQD. = 6.1230ird-es(155.5242rrm) Nomnall.Q = 5.8810imhes(149.3774rrm) NomnalVVAIThidTess = 0.1220irelies(3.0988rrm) Raw Area = 27.1639sq.irdies(17525.07sq.nm) HEmnWIliarrsFcmla CFactor = 150 RDN,Q Reswe Loss Head Loss malocity RDN,Q Ressre Loss Head Lass Mdocity (GM) (psi/100ft) (fu 100ft) (ft./sec.) (cu.orrrrsec.) KW100m) (0100m) (nY-) 100 0.04 0.09 1.18 6309 0.01 0.09 0.36 200 0.14 0.32 236 12617 0.03 0.32 0.72 300 0.29 0.68 3.54 189M ON 0.68 1.08 400 0.50 1.16 4.72 25235 0.11 1.16 1.44 500 0.76 1.75 5.91 31543 0.17 1.75 1.80 600 1.06 245 7.09 37&52 0.24 245 216 700 1.41 3.26 8.27 44161 0.32 3.26 252 800 1.81 4.17 9.45 50469 0.41 4.17 288 900 225 5.18 10.63 56778 0.51 5.18 3.24 1000 274 6.30 11.81 63087 0.62 6.30 3.60 1100 3.27 7.51 12.99 69395 0.74 7.51 3.96 120D 3.84 8.82 14.17 75704 0.87 8.82 4.32 1300 4.45 10.23 15.35 82013 1.01 10.23 4.68 1400 510 11.74 16.54 88321 1.15 11.74 E04 1500 5.80 13.33 17.72 94630 1.31 13.33 5.40 160D 6.54 15.02 18.90 100939 1.48 15.02 5.76 1700 7.31 16.81 20.08 107247 1.65 16.81 6.12 1800 8.13 18.68 1 21.26 1 113556 1 1.84 18.68 6.48 U.Sastcmay units inthisdoarne tarethestandard;thenLAdcunitsareproddedfor referenm ody.the\d ues stated in each system are not exact eqr\rA ents mNIBMlNCVVCRDF64DQ14Rf96• 1516MICOL&1AR'ST.• 1310ARTIN46516-4740• LISA- R41.80D.234.0277 ' TITH SERACEB Rt 1.8138.446.4226• FAX 1.800.234.0557• INT9aJAl1CNAL STR ACE R-t+1.574.295.8221• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • TYPE" ••"ERTUBE-WATER FLOW AND FRICTION LOSS PER 100 FEE Ma>anunQD. = 8.1270indhes(206.4258rrm) NorrinalQD. = 8.1240imhes(2D6.3496rrm) MirinunQD = 8,1210indhes(206.2734rrm) Norrinall.D. = 7.5820inches(1925828mn) Norrinal Wall Thid0.1ess = 0.2710 inches(6.8834 rrm) Raw Area = 45.1500 sq.ind-es(29128.95 sq.rrm) HamnWlliarrsFomrAa CFador = 150 FLAN,Q Resa re Loss Fwd Loss \k1 odty Ft_Q,N,Q Ressure Loss Head Loss Mblocity (am) (psi/100 ft) (ft/100 ft) (ftJser-) (cu.crrr'sea) OI Fw 100 m) (m 100 m) (co sec) 2DD 0.04 0.09 1.42 12517 0.01 0.09 0.43 400 0.15 0.34 284 25235 0.03 0.34 0.87 600 0.31 0.71 4.25 37852 0.07 0.71 1.30 800 0.53 1.21 5.68 50469 0.12 1.21 1.73 1000 0.80 1.83 7.11 63067 0.18 1.83 217 1200 1.11 256 8.53 75704 0.25 256 2.60 1400 1.48 3.41 9.95 88321 0.34 3.41 3.03 1600 1.90 4.36 11.37 100939 0.43 4.36 3.47 1800 236 5.43 1279 113556 0.53 543 3.90 2000 287 6.60 14.21 126173 0.65 6.60 4.33 22DO 3.42 7.87 15.63 138791 0.77 7.87 4.76 2400 4.02 9.24 17.05 151408 0.91 9.24 5.20 2600 4.67 10.72 18.48 164025 1.06 10.72 5.63 2800 5.35 1229 19.90 176643 1.21 1229 6.06 3000 6.08 13.96 21.32 188260 1.38 13.96 6.50 3200 6.85 15.73 2274 201877 1.55 1573 6.93 3400 7.67 17.60 24.16 214495 1.73 17.60 7.36 3600 8.53 19.57 25.58 227112 1.93 19.57 7.80 3800 9.42 21.62 27.00 239729 213 21.62 8.23 4000 1 10.36 1 23.78 1 28.42 1 252347 1 234 23.78 1 8.66 8"TYPE"L" OOPPE TUBE-WATER FLOW AND FRCTI ON LOSS PER 100 FEET MabmrnQD. = &1270indies(206.4258mn) NorrinalQD. = 8.1240irches(206.3496rrm) MirimrnQD. = 8.1210irches(206.2734mn) Norrind l.D. = 7.7240indhes(196.1896nm) Nomnal Wall Th clq e = 0.2000 imhes(5.080 rrm) Raw Area = 46.8570 sq.indres(30230.26 sq.rrrn) Hazen W lliarrs Forn la CFador = 150 FLAN,Q Ressrre Lass Head Lass \kiodty FLQN,Q Rla s Lass Head Lass Mdocity (G-M) (psi/10Dft) (ft/100ft) (User) (cu.cnIsec.) (I4'ar100m) (m 100 m) (m'sea) 200 0.04 0.09 1.37 12617 0.01 0.09 0.42 400 0.13 0.31 274 25235 0.03 0.31 0.83 600 0.28 0.65 4.11 37852 0.06 0.65 1.25 80D 0.48 1.11 5.48 50469 0.11 1.11 1.67 1000 0.73 1.67 6.85 63087 0.16 1.67 209 1200 1.02 234 8.22 75704 0.23 234 250 1400 1.35 3.12 9.59 86321 0.31 3.12 2.92 1600 1.73 3.99 10.96 100939 0.39 3.99 3.34 1800 216 4.96 1232 113556 0.49 4.96 3.76 2000 262 6.03 13.69 126173 0.59 6.03 4.17 2200 3.13 7.19 15.06 138791 0.71 7.19 4.59 2400 3.68 &44 16.43 151408 0.83 8.44 5.01 2600 4.26 9.79 17.80 164025 0.96 9.79 5.43 2800 4.89 11.23 19.17 176643 1.11 11.23 5.84 3000 5.56 1276 20.54 189260 1.26 1276 6.26 3200 6.26 14.38 21.91 201877 1.42 14.38 6.68 3400 7.01 16.08 23.28 214495 1.59 16.08 7.10 3600 7.79 1788 24.65 227112 1.76 17.88 7.51 3800 8,61 19.76 2&02 239729 1.95 19.76 7.93 4000 9.47 1 21.72 1 27.39 1 252347 1 214 21.72 1 8.35 U5 astorray units in this doanrert are the standard;the met r c units are provided for reference od y The A ues stated i n each system are not exact equivalents. NIBOJINC WCR.DFEADCLARIHS• 1516MIDDt.B3-WSC• BJ4lAR1;IN46516.4740• USA- R-t 1.800.234.0227 m TEHSERACESFR 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACEFFt+1.574.295.3221• FAX.+1.574.295.3455 www.riboo.00m www.nibco.com AHEAD OF • ' COPPER" C E-WATER FLOW AND FRICTI ON A PER100FEET Mapanu oD. = 8.1270indies(206.425Brrm) Nomrsl QQ = 8.1240inches(206.3496nm) Mir9mmQD Wal = 8.1210imhes(206.2734mn) Norrind I.D. = 7.7840imhes(197.7136rrm) mal Norl-h cl rlem = 0.1700 i n&es(4.3180 rrm) Rav Area = 47.5878 sg i ndies(3(J701.74 sq.mn) HamnV\AIIi arm Fcnrula CFador = 150 FLON,Q Resare Loss Head Loss malocity RJ M,Q Rare Loss Hied Loss Mdocity (C3={v1) (psi/100ft) (ft/100ft) (ft./sec.) (cu.an'sec) wd100m) (rrYlMar) (m'seo.) 200 0.04 0.08 1.35 12617 0.01 0.08 0.41 400 a13 0.30 270 25235 0.03 0.30 0.82 600 0.27 0.63 4.05 37852 0.06 0.63 123 800 0.46 1.07 5.39 50469 0.10 1.07 1.64 1000 0.70 1.61 6.74 63067 0.16 1.61 205 12D0 0.98 226 8.09 75704 0.22 226 247 1400 1.30 3.00 9.44 88321 0.30 3.00 288 1600 1.67 3.84 10.79 100939 0.3B 3.84 3.29 1800 20B 4.78 1214 113556 0.47 4.78 3.70 2000 253 5.80 13.48 126173 0.57 5.80 4.11 220D 3.01 6.92 14.83 138791 0.68 6.92 4.52 2400 3.54 8.13 16.18 151408 0.80 8.13 4.93 29DD 4.11 9.43 17.53 164025 0.93 9.43 5.34 2800 4.71 10.81 18.86 176643 1.07 10.81 5.75 3000 535 1229 20.23 18M60 1.21 1229 6.16 32DD 6.03 13.85 21.57 201877 1.36 13.85 6.58 340D 6.75 15.49 2292 214495 1.53 15.49 6.99 3600 7.50 17.22 24.27 227112 1.70 17.22 7.40 3800 8.29 19.03 25.62 239729 1.88 19.03 7.81 4000 9.12 20.92 1 26.97 1 252347 1 2.06 1 20.92 1 8.22 10"TYPE"K' COPPER TUBE-WATER FLON AND FRICTION LOSS PER 100 FEET Ma)dnunOD. = 10.1270irrhes(257.2258mn) Nomad QD. = 10.1230ind-m(257.1242mn) MinimxnQD. = 10.1190indies(257.0226mn) Noainall.Q = 9.4470imhes(239.9536mn) m No nd Wall lhidvress = 0.3380 i r&es(8.5852 mn) Raw Area = 70.0935 sq.i r>d,es(4921.52 sq.mn) HmEnWilliarrsRxrrila CFactor = 150 R17N,Q R ess re Loss Head Loss \kiodty R ON,Q %ssure Loss Head Lass W odty (GM) (psi/100ft) (fu 100ft) (ft./sec.) (cu.aTYsec.) "loom) (m'10Dm) (cosec) 200 0.01 0.03 0.92 12617 0.00 0.03 0.28 400 0.05 0.12 1.83 25235 0.01 0.12 0.56 600 0.11 0.24 275 37852 0.9 0.24 0.84 800 0.18 0.42 3.66 50469 0.04 0.42 1.12 1000 027 0.63 4.58 63087 0.06 0.63 1.40 1200 0.38 0.88 5.49 75704 0.09 0.88 1.67 1400 0.51 1.17 6.41 88321 0.12 1.17 1.95 1600 0.65 1.50 7.32 100939 0.15 1.50 223 1800 0.81 1.86 8.24 113556 0.18 1.86 251 2000 0.98 225 9.15 126173 0.22 226 279 2200 1.17 270 10.07 138791 0.27 270 3.07 2400 1.38 3.17 10.99 151408 0.31 3.17 3.35 260D 1.60 3.68 11.90 164025 0.36 3.63 3.63 280D 1.84 4.22 1282 176643 0.42 4.22 3.91 3000 209 4.79 13.73 189260 0.47 4.79 4.19 3200 235 5.40 14.65 2D1877 0.53 5.40 4.46 3400 263 6.04 15.56 214495 0.60 6.04 4.74 3600 292 6.71 16.48 227112 0.66 6.71 5.9 3800 3.23 7.42 17.39 239729 0.73 7.42 5.30 4000 3.55 8.16 18.31 252347 0.80 &16 5.58 420D 3189 8.93 19.22 264964 0.88 8.93 5.86 4400 1 4.24 1 9.73 1 20.14 1 277581 1 0.96 1 9.73 1 6.14 U.Sastcmay units inthisdoa nantarethestandard;themdricunitsareproddedfor referenm ody.the\dues stated in each system are not exact egr\rA ents LI NIBMINCVVCRDF64DQ14Rf9s• 1516MICOL&1AR'ST.• BIOA7f,IN46516-4740• LISA- R41.80D.234.0277 TEH SERACEB Rt 1.8B8.446.4226• FAX 1.800.234.0557• INT9aJAl1CNAL SERACE R-t+1.574.295.921• FAX+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • 1 COPPER" C E-WATER FLOW AND ON •► 11 FEET MadnmQD. = 10.1270indies(257.2258rrm) NorrinaQD. = 10.1230imhes(257.1242rrm) MinimmQD. = 10.1190imhes(257.0226rrm) Norrinall.D. = 9.6230imhes(244.4242rrm) Norrind Wall IM0.19ss = 0.2500 inches(6.3500 rrm) Fans Area = 727295 sq.irxihm(46922.19 sq.rrm) Hawn William Fxrrula CFactor = 150 R-ON,Q R)essure Loss I-tgad Loss \k1 odty RDN,Q Ressure Loss tad Lass Mdocity (am) (psi/100ft) (ft/100ft) (ftJsec) (cu.arYsew) (I�Fai100m) (0100m) (m'sec) 200 0.01 0.03 0.88 12517.33 0.00 0.03 0.27 400 0.05 0.11 1.76 25234.67 0.01 0.11 0.54 600 0.10 0.22 265 37852.00 0.02 0.22 0.81 800 0.16 0.38 3.53 50169.33 0.04 0.38 1.08 1000 0.25 0.57 4.41 63086.67 0.06 0.57 1.34 1200 0.35 0.80 5.29 75704.00 0.08 0.80 1.61 1400 0.46 1.07 6.18 88321.33 0.11 1.07 1.88 1600 0.60 1.37 7.06 100938.67 0.13 1.37 215 1800 0.74 1.70 7.94 113556.00 0.17 1.70 242 2000 0.90 207 8.82 126173.33 0.20 207 2.69 22D0 IN 247 9.70 138790.67 024 247 296 2400 1.26 290 10.59 151408.00 0.29 290 3.23 2600 1.46 3.36 11.47 164025.33 0.33 3.36 3.50 2800 1.63 3.85 1235 17664267 0.38 3.85 3.76 3000 1.91 4.38 13.23 189260.00 0.43 4.38 4.03 3200 215 4.93 14.12 201877.33 0.49 4.93 4.30 3400 240 5.52 15.00 214494.67 0.54 5.52 4.57 3600 267 6.13 15.88 22711200 0.60 613 4.84 3800 295 678 16.76 239729.33 0.67 678 5.11 4000 3.25 7.45 17.65 252346.67 0.73 7.45 5.38 4200 3.56 &16 18.53 264964.00 0.80 8.16 5.65 4400 3.88 &89 1 19.41 1 277581.33 1 0.88 1 &89 5.92 10"TYPE"M" COPPER TUBE-WATER FLOW AND FRICTI ON LOSS PER 100FEEF MaamanOD. = 10.1270indhes(257.2258nTn) NoninalQD. = 10.1230ir&os(257.1242mn) MirimanQD. = 10.1190indhes(257.0225rrm) N Anall.D. = 9.6990inches(247.3546rrm) NorrirralWallThidmess = 0.2120inctm(5.3848rrm) Raw Area = 73.8829sq.inctres(47666.28sq.rrm) HamnWlliarsFxnula CFador = 150 R-ON,Q Ressrue Lass Haad Loss \klodty R-ON,Q R ess<re Lass Fpad Lass Mdocity (MA) (psi/100ft) (ft/100ft) (ftJseo) (cu.orr'sec) 04W100m) (m100m) (meet.) 200 0.01 0.03 0.87 12617 0.00 0.03 0.25 40D 0.04 0.10 1.74 25735 0.01 0.10 0.53 600 0.09 0.21 261 37852 0.02 0.21 0.79 800 0.16 0.37 3.47 50469 0.04 Q37 1.06 1000 0.24 0.55 4.34 63087 0.05 0.55 1.32 1200 0.34 0.77 5.21 75704 0.08 0.77 1.59 1400 0.45 1.03 6.08 88321 0.10 1.03 1.85 1600 0.57 1.32 6.95 100939 0.13 1.32 212 1800 0.71 1.64 7.82 113556 0.16 1.64 238 2000 0.87 1.99 8.68 126173 0.20 1.99 265 2200 1.03 237 9.55 138791 0.23 237 291 2400 1.21 279 10.42 151408 0.27 279 3.18 2600 1.41 3.23 11.29 164025 0.32 3.23 3.44 2800 1.62 3.71 1216 176643 0.37 3.71 371 3000 1.84 4.21 13.03 189260 0.42 4.21 3.97 3200 207 4.75 13.90 271877 0.47 4.75 424 3400 231 5.31 14.76 214495 0.52 5.31 4.50 3600 257 E90 15.63 227112 0.58 5.90 4.76 3800 284 6.53 16.50 239729 0.64 653 5.03 4000 3.13 7.17 17.37 252347 0.71 7.17 5.29 4200 3.42 7.85 1&24 264964 0.77 7.85 5.56 4400 1 3.73 1 &56 1 19.11 1 277591 1 0.84 1 &56 5.82 U.S.aistcmary t chits in this doa rrt?nt are the standard;the meM c units are p-Wded for reference arty.The vd ues stated in each system are not exact equi\rcierds. NIBDJINCWCR.DFEADCLARI82S• 1516MIDDt.B3-WSC• aI+ARrIN46516.4740• USA• R-t1.800.234.0227 m TEHSERACESFT 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACER3+1.574.295.3221• FAX.+1.574.295.3455 • www.riboo.00m www.nibco.com AHEAD OF • TYPE" COPPER TUBE-W` • AND ON •► PER 100FEET mcpdff nQD. = 121270indies(308.0258rrm) Nominal QD. = 12.1230imhes(307.9242rrm) MdrimmQD = 12.1190imhes(307.8226mn) Nomrd l.D. = 11.3130indies(287.3502nTn) NomrdWadI-hclrlem = 0.4050indies(10.2870rrm) Row Area = 100.5184sq.ir&es(64850.43sq.mn) HamnWilli arm Fcn-rula CFactor = 150 RDN,Q Ressure Loss Had Loss malocity RD/V,Q Ressure Loss I-fead Loss Mblocity ((TM) (psi/100ft) (ft/100ft) (ft./sec.) (cu.an'sec) (I N100m) (m100m) (m'seo.) 10D0 0.11 0.25 3.19 63087 0.03 0.26 0.97 1200 a16 0.37 3.83 75704 0.04 0.37 1.17 1400 0.21 0.49 4.47 88321 0.05 0.49 1.36 1600 027 0.62 5.11 100939 0.06 0.62 1.56 1800 0.34 0.77 5.75 113556 0.08 0.77 1.75 2011D 0.41 0.94 6,38 125173 0.09 0.94 1.95 2200 0.49 1.12 7.02 138791 0.11 1.12 214 240D 0.57 1.32 7.66 151408 0.13 1.32 233 2600 0.67 1.53 8.30 164025 0.15 1.53 253 2800 0.76 1.75 &94 176643 0.17 1.75 272 3000 0.87 1.99 9.58 189255D 020 1.99 292 3200 0.98 225 10.21 201877 0.22 225 3.11 340D 1.09 251 10.85 214495 0.25 251 3.31 3600 1.22 279 11.49 227112 0.28 279 3.50 38DD 1.34 3.09 1213 239729 0.30 3.09 3.70 400D 1.48 3.39 12.77 25247 0.33 3.39 3.89 42DD 1.62 3.71 13.41 254964 0.37 3.71 4.09 4400 1.76 4.05 14.04 277561 0.40 4.05 4.28 4600 1.92 4.39 14.68 290199 0.43 4.39 4.48 4800 207 4.75 15.32 302816 0.47 4.75 4.67 5000 224 513 15.96 315433 0.51 5.13 4.86 5200 240 5.51 16.60 328051 0.54 5.51 S06 5400 258 5.91 17.24 340668 0.58 5.91 5.25 5600 276 6.32 17.87 353285 0.62 6.32 5.45 5800 294 6.75 18.51 365903 0.67 6.75 5.64 6000 3.13 7.18 19.15 378520 0.71 7.18 5.84 6200 3.33 7.63 1 19.79 1 391137 1 0.75 1 7.63 6.03 12"TYPE"L" COPPER TUBE-WATER FLOVV AND FRICTION LOSS PER 100 FEET Maid mQD. = 12.1270indies(308,0258rrm) Nominal QD. = 12.1230imhes(307.9242rrm) MdrimmQD = 12.1190indies(307.8226mn) Nonird l.D. = 11.5630indies(293.7002rrm) Nari real Wall IMME ss = 0.28DD i nches(7.1120 rrm) Row Area = 105.0101 sq.i ndies(67748.29 sq.mn) HtmnV\rilliarrsFormala CFador = 150 FLAN,Q Ressure Loss Head Loss mdocity RDN,Q Ressure Loss I-12erl Loss Mdocity ((FM) (psi/100ft) (ft/100ft) (ft./sec.) (cu.caysec) odw100m) (0100m) (nY-) 1000 0.10 0.23 3.06 63087 0.02 0.23 0.93 1200 0.14 0.33 3.67 75704 0.03 0.33 1.12 1400 0.19 0.44 4.28 88321 0.04 0.44 1.30 1600 0.24 0.56 4.89 100939 0.06 0.56 1.49 1800 0.30 0.70 5.50 113556 0.07 0.70 1.68 290D 0.37 0.85 6.11 125173 0.08 0.85 1.86 2200 0.44 1.01 6.72 138791 0.10 1.01 205 2400 a52 1.19 7.33 151406 0.12 1.19 223 2600 0.60 1.37 7.94 164025 0.14 1.37 242 2800 0.69 1.58 8,55 176643 0.16 1.58 261 3000 0.78 1.79 9.17 189260 0.18 1.79 279 3200 0.86 202 9.78 201871 0.20 202 298 3400 0.98 225 10.39 214495 0.22 226 3.17 3600 1.09 251 11.00 227112 0.25 251 3.35 3800 1.21 277 11.61 239729 0.27 277 3.54 4000 1.33 3.05 1222 25247 0.30 3.05 3.72 420D 1.46 3.34 1283 254964 0.33 3.34 3.91 440D 1.59 3.64 13.44 277581 0.36 3.64 4.10 46DD 1.72 3.95 14.05 290199 0.39 3.95 4.28 4800 1.86 4.27 14.67 302816 0.42 4.27 4.47 5000 201 4.61 15.28 315433 0.45 4.61 4.66 5200 216 4.96 15.89 328051 0.49 4.96 4.84 540D 232 5.31 16.50 340668 0.52 5.31 5.03 5600 248 5.68 17.11 353285 0.56 5.68 5.21 5800 265 6.07 17.72 365903 0.60 6.07 5.40 6000 282 6.46 18.33 378520 0.64 6.46 5.59 6200 1 299 1 6.86 1 1&94 1 391137 1 0.68 1 6.86 1 5.77 U.S.aistcraryurbtsinthisdown-at are the standard;the netdcunits are pua ded for referenoe only.the values stated in each system are not exact egrivalents. NIBMlNCVVCRD E4DCLARTBS• 1516MICCUBLR'SL• 1310ARTIN46516-4740• LISA- 1341.80D.24.0227 ' TITH SERACEB R-t 1.8138.446.4226• FiAX 1.800.234.0557• INTffdJAl1CNAL STR ACE R-t+1.574.295.3221• FA>(+1.574.295.3455 www.riboo.com NIBCCY www.nibco.com AHEAD OF • TYPE" •••• C E-WATER FLOW AND FRICTION •► PER 100FEET MadnmQD. = 121270indies(308.0258rrm) NorrinalQD. = 121230imhes(307.9242rTm) Minirr mQD. = 121190imhes(307.8226rrm) Norrind I.D. = 11.6150indies(295.021 rrm) Nominal Wail IM0.19ss = 0.2540irches(6.4516rrm) Raw Area = 105.9567sq.irdies(68359.01sq.rrm) Ftamn W ll iams Fomrula M dor = 150 FLAN,Q Ressure Loss Fwd Loss \k1 odty RQN,Q Ressure Loss Fwd Lass \Mocity (am) (p®/10oft) (ft/10oft) (ftJsec) (cu.crdsea) O4Fw100m) (0100m) (miser) 1000 0.10 0.23 3.03 63087 0.02 0.23 0.92 1200 0.14 0.32 3.63 75704 0.03 0.32 1.11 1400 0.19 0.43 4.24 88321 0.04 0.43 1.29 1600 0.24 0.55 4.84 100939 0.05 0.55 1.48 1800 0.30 0.68 5.45 113556 0.07 Q68 1.66 2000 0.36 0.83 6.06 126173 0.08 0.83 1.85 2200 0.43 0.99 6.66 138791 0.10 0.99 2.03 2400 0.51 1.16 7.27 151408 0.11 1.16 222 2600 0.59 1.35 7.87 164025 0.13 1.35 240 2800 0.67 1.54 8.48 176643 0.15 1.54 2.58 3000 0.76 1.75 9.08 189260 0.17 1.75 277 3200 0.86 1.98 9.69 201877 0.19 1.98 295 3400 0.96 221 10.30 214495 0.22 221 3.14 3600 1.07 246 10.90 277112 0.24 246 3.32 3800 1.18 271 11.51 239729 0.27 271 3.51 4000 1.30 298 1211 252347 0.29 298 3.69 4200 1.42 3.27 1272 264964 0.32 3.27 3.88 4400 1.55 3.56 13.32 277581 0.35 3.56 4.06 4600 1.68 3.87 13.93 290199 0.38 3.87 4.25 4800 1.82 4.18 14.53 302816 0.41 4.18 4.43 5000 1.97 4.51 15.14 315433 0.44 4.51 4.61 5200 211 4.85 15.75 328051 0.48 4.85 4.80 5400 227 EX 16.35 340668 0.51 5.20 4.98 5600 243 5.56 16.96 353285 0.55 5.56 5.17 5800 259 5.93 17.56 365903 0.59 5:93 5.35 6000 276 02 18.17 378520 0.62 6.32 5.54 6200 293 R71 1 18.77 1 391137 1 0.66 1 6.71 1 5.72 U.S mdorrury uits in this dminant are the standard;the rnetricurts are presided for referenmonly.lto\dues stated in each systemare not exad ecp\derrts NIBMlNCWCR..DFEADCLART62S• 1516MIDDL83JWSC• aI+A rIN46516.4740• USA• FFt1.800.234.0227 TE1HSERACESFH 1.888.446.4226• FAX 1.800.234.0557• IN193VAT1CNALSERACEFFt+1.574.295.3221• FAX.+1.574.295.3455 • www.riiboo.00m www.nibco.com AHEAD OF • 0DWff Water Tube continued COPPER TUBE-TYPES,STANDARDS,APPLICATIONS,TBMPERS AND LENGTHS CommerdellyAvailable Lengths Tube Type CblorCbde Standard Application Noninalor Standard 52es Drawn Aided Type Green ASTMB88 Domestic WaterSenAceDstri bution Straight Lengths: 1/4-inchto8-inch 20 ft.(6.1m) 20 ft.(6.1m) Fire Rotection 10-inch 18 ft.(5.5m) 18 ft.(5.5m) Scar 12-inch 12 ft.(3.7m) 12 ft.(3.7m) Fuel/Fuel al Coils: 1/4-inch to 1-inch — 60 ft.(18.3m) I-IM/AC — 100 ft.(30.5m) Snow Melting 11/4-inch&11/2--inch — 60 ft.(18.3m) 2-i rich — 40 ft.(12.2m) — 45 ft.(13.7m) Type Bue ASTMB88 Domestic Water Service Distribution Straight Lengths: 1/4-inchto10-inch 20 ft.(6.1m) 20 ft.(6.1m) Fire Rotection 12-inch 18 ft.(5.5m) 18 ft.(5.5m) Scar Fuel/Find 01 Natual Gas Coils: 1/4-inchto1-inch — 60 ft.(18.3m) LiquifiedR-trdeum(LP/Cas — 100ft.(30.5m) WAC 11/4-inch&11/2--inch — 60 ft.(18.3m) Snow Melting 2-i rich — 40 ft.(12.2m) — 45 ft.(13.7m) Type Fbd ASTMB88 DorresticWater Service Distribution Straight Lengths 1/4-inchto12-inch 20 ft.(6.1m) N/A Fire Rotection Scar Rd/Rd 01 H,./AC Srx)w Melting DJVV Yellow ASTM B306 Drain Straight Lengths: 11/4-i rich to 8-i rich 20 ft.(6.1m) N/A Waste H\/AC Scar ACR Bue AS1M B280 Air Corxiticning Straight Lengths: 1/4-inch to 41/8-inch 20 ft.(6.1m) 20 ft.(6.1 my Fbfrigeration Natural Cris Coils: 1/8-inchtoV/Anch — 50 ft.(15.3m)' Liquified Fbtrdeum(L)Gas CKY Type AS1M 8819 Medical Gas Straight Lengths 1/4-i rich to8-irich 20 ft.(6.1m) N/A M® Green CKY/M® CKY/ACR Type L ACRM® Bue Type Yellow ASTM B837 Natural Gas Straight Lengths: 3/8-i rich to 11/8-inch 12 ft.(3.7m) 12 ft.(3.7mp Liquified FLtrdeum(LF)C3s 20 ft.(6.1m) 20 ft.(6.1 my Coils: 3/84 rich to7/8-irich — 60 ft.(18.3m)' — 100 ft.(30.5mp 'Available as spedal order only US astorrary uhits in this doarrerrt are the standard;the metric uhits are prosded for referenoe only the\d Lies stated in each system are not exact equ\rAents N180DINC WCRDHE DC1.14RTEM- 1516MIDDL®J;YST.• B ARr,IN46516-4740• U64• PR 1.800.234.0227 1137-I SRRACFS Rt 1.888.446.4226• FAX 1.800.234.0557• INi&3JAl1CNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.niboaoom NIBCCY www.nibco.com AHEAD OF • Tin, F m M ■ of Sd When adj a ni rig surfaces of copper and copper al I oys meet under proper conditions of cleanliness and temperature, solder wi I I make a perfect adhesion.The strength of joint i s equal to or even greater than the strength of tube done. -Surface tensi on seal s t he j a nt.Capi I I ary attraction draws solder into,around,and al I about the j oi nt.It's easy to learn to n-eke a perfect sdderjoint when you use NIBODFittings. 1. Cut tube end square,ream,burr and size. 2. Use sand cloth or steel wire bush to dean tube and cup to a bright metal finish. r'- 3. Apply solder fluxto outside of tube and inside of cup 4. Applyflan-etothefittingto heat tube and solder cup offitting off itti rig carefully so that surfaces tobeja red are con-0etely until solder melts when placed at joint of tube and fitting. covered.Use fl ux spari ngl y. 5. Fbmove fl ame and feed sol der i nto t he j oi nt at one or 6. eve excess solder with a sn-d l brush or wiping cloth whi l e two pantsuntiIaringofsd der appears atthe end ofthefitting. the solder is plastic. The correct amount of solder isapprommetelyequal to 11/2 the diameter of the fitti ng... 3/4'(20rrm)solder for 1/2"fitting,etc. f NIBM1NG WCR-D FEADa ARIBZ4. 1516 MIDDUBAW ST.• 9-9-Wr,IN 46516-4740• USA• R t 1.800.234.0227 lH7i S9RACES R-t 1.888.446.4226• FAx 1.800234.0557• INTB:NA-1CNAL S9RACE R-t+1.5-/4.295.3221• FAX+1.574295.3455 www.niboaoom www.nibco.com AHEAD OF • Tin4wo R M M (I BrC9 ■ Best results wi I I be obtai red by a std I I ed operator errpl oyi ng the step-by-step brazing technique that fol lows: 1. the tube should be curt to desired length with a square cut, result in an unsatisfactoryjant.Braanga]IoyswiII riot flow a"or preferably in a square-end sawi ng vise.The artti ng wheel of the bond to o)a des-,and a I y or greasy surfaces tend to repel f I uxes, type spedficallydesigred for cutting aWertubewill alsodoa leaving bare spots which wilI o)adize,resulting in voids and satisfactoryjob.The tube should be the exact lengthneecled,sothat i rid usions. thetubewill enterthecupofthefittingall thewaytotheshoulder " of the cup.FbTn e a1I slivers and burrs left from cutting the tube,by 5. R ux should be appl i ed to ream rig and f i I i rig,both i nsi de and outsi de. the tube and solder lap sparingly and inafaidy '- 2. To make a proper branngjant,the clearance between the solder thin cord sterlcy.Avad cup and the tube should be approxi n-kel y 0.001"to 0.010" f I ux on areas not d eared. (0.0254rrmto0.254rrm).Maintaininga good fiton parts tobe Part iculadyavoidgetting brazed i nsures: excess fl ux i nto the i rsi de Easeof Application—Excessively wide tolerances tend to break of the tube itself.Flux has _ " -•.► capillaryforoe;and,asa result the alloywill eitherfail toflow threeprirxipal functions throughout thejant or nayflush out of thejoint. to perform Corrosion Fbsistanoe—There is also a direct relation between the A It prevents the oxidation of the metal surfaces during the heati ng oomosion resi stance of a ja nt and the dearance between members. operation by exd udi ng oxygen. Eoonorry—If bran ng al toys are to be used eoononical I they,of B. It absorbs and dissol ves resi dual oxides that are on the surface neoessity,must be appl i ed i n thej a nt proper and i n rri ni mum and t hose wb des whi ch may form dud rig the heat i ng operati on. quantiti es,usingmerely enough aIoytofiIIthe area between the C: ItassistsintheflowofthealIoybypresentingadeannascent rnen-bers. surface for the meltedallcytoflow a".In addition,it is an excellent temperature i ndi cat or,espedalIy if an i ndi cat irig flux is 3. The surfaces to be j a ned mast be d ean and free from of 1, used. grease and heavy oxides.The end of the tube need be cleaned cnl yfor a di stance 6. Imradiately after fl uxd ng,the parts to be brazed should be slightly mole than it is to assembled.If fl uxed parts are al owed to stand,the water i n enter the cup.pedal thefluxwill wire brushes evaporate,and designed to dean dried flux is l iable to �y tube ends may be ;i flake off,e)posi ng used,but they should the metal surfaces be careful Iy used so to oAclation from that an excessive an-cunt the heat.Assemble f of metal will not be thejant byiraerting 4 removed fromthe tube.Fine sand cloth or emery cloth thetubeintothe rray also be used with the sacra precautions.The d eani ng should cup,hard agai nst not be done with steel wool,because of the I i kel i hood of I eavi ng the stop.lie small slivers of the steel or dI in thejant. assembly should be firmly supported so that it will rerrain in al ignmar t dud ng the bras rig operation. 4. The cup of the fitti ng should be - d earned by methods si rri I ar to those used for the tube end,and care should be observed in remom ng � r resi dues of the d eani ng mTedi um AttenVi rig to braze a contarn nated or an i mpropedy deaned surface wi 11 NIB00ING WC}3D FFADCLARTE S• 1516 MIDDL®lR'ST.• RA-PRr,IN 46516-4740• USA- R-t 1.800.234.0227 • TT37-ISERMCFSR-t1.888.4464226• FAX 1.800.234.0557• INTB:NAnCNALSERACER-t+1.574.295.3221• FAx+1.574.295.3455 www.niboaoom NIBCCY www.nibco.com AHEAD OF • 7. Brad rig is started byapplyi rig heat tothe parts tobeja red.The NOTE For tubing one inch and Iarger,itis preferred rret hod i s by t he oxyacetyl ene f I ame.Ropane and ot her difficulttobri ngthewhdejointuptoheat gases are someti mes used on srrul I er sizes.A c i ghtI y redud ng at one ti me.It frequently wi I I be found fl arre shout d be used,wi th a sl i ght feather on t he i nner d ue Cone; desi rabl e to use a doubl e-ti p torch to the outer portionof the flarre,pal e green.Heat the tubefirst, rraintain the proper temperature over the beginning at about one inch fromthe edge of the fitting.Snreepthe Iarger area.ArriId pre-heat ingofthe flames around the tube in short strokes up and down at ri ght angles whol e fitting is recomma-ded.The to the run of the tube.It i s very i mport ant that the flame be i n heat ng then can proceed as i n steps 7,8, Cortirxlais mot ion and sho.11d not bedI owed toremainonartyone 9,and 10.If difficulty is encountered in poi nttoavoidbumingthrou ghthetube.General Iy,theflux may be gettingthewhdejantupto heat atone used as aguideasto how Iongto heat thetube,cont inui rig heat ing time,then when thejantisnearlyupto after It he f I ux starts to bubbl e or work,and unt i I the fl ux becomes It he dec red temperature It he al I cy i s quiet and transparent,I i ke d ear water.The fl ux wi I I pass through oonoent rat ed i n a I i mited area.Al the four stages: bras ng temperature the al Icy is fed i nto A At21ZF(100°G)the water balsoff. thejant and the torch is then moved toan E At 600°F(315.6°G)the fl ux becomes white and sl i ghtl y puffy and adj anent area and t he operat i or cam ed starts to work on progressively al l around thejol nt. C At 800°F(426.T G)it I ays agai nst the surface and has a rri I ky HCR IZCMAL JQ NTS—When making appearance. horizontal joi nts,it i s preferable to D. At 1100°F(593.3°G)it is completelyd ear and active and has the start applyi rig the braangal Icy at the ! appearance of water. 5 d d ock positi on,then move around to the 7 ddock position and then 8. Now switch the fIaTeto the fitti ngatthe move up the sides to the top of the base of the cup.Heat uniforrly, joi nt,maW rig sure that the sweepi ng the fl arre from the operations overlap. fitti ng to the tube unti l the fl ux on the fitting becomes quiet. �iICALJCiNTS—a vertical Avoid excess ve heat irig joints,itis in-material wherethe of cast fittings. start is made.If the opening of the cup is panted down,care should be taken to avoid ove-heati ng the 9. When the flux appears liquid tube,as this may cause the al Icy to run down the tube.If this condition and transparent on both the is encountered,take the heat avvay and allow the olloyto set.Then tube and the fitting,start sweeping reheat the solder cup of the fitting to draw up the alloy. the flame back and forth along the a� s of thejoint to maintain heat on the parts to beja ned,especially toward the base of the cup of After the brad ng alloy has set, thefitting.T heflarremustbekeptm3Angto avoid burning the tube remove redclualfluxfromthejant orthefitting. area as it isoorosi\ne and presents s an and can appearance and 10.Apo y the bras ng wi re or rod at a pa nt condition.Hot water or steam and a where the tube enters the socket of the soft dot h should be used.Wrot fitti ng.The temperature of thejoi nt fitti ngs may be chi I led;however it is should be hot enough ton-dtthe advisabletoal low cast fitti ngsto braangallcy.Keeptheflameaway -:1X 3r Cod nat ural I y to some extent before from the rod or wi re as it i s fed appl yi ng a swab.Al l fl ux mast be removed before i nspedi or and intothejant.K epboththe Ii pressure testi ng. fitti ng and the tube hued by - , mravi ng the flame back and forth from one to the other as the al lay is drawn i nto the joi nt.When the proper TFCLJBLESFOTS temperature i s readied,the al Icy wi I I flaw readi ly i nto the space lfthealloyfailstofl between the tube outer wal I and the f itti ng socket,drawn i n by the avorhasaterxlelxytoballup,itindicates natural force of capi I lary attraction.When thejant isfiIIed,a o)adationon the metal surfaces,oriraffident heat on the parts to Continuousfillet ofbraangalloywillbevisible coo etelyaround bejaned.If work starts tooxadiza duri rig heating,itindicatestoo thejant.Stop feeding as soon asthejdntisfilled,usingtableon littleflux,orafluxoftoothin consistency If the braangalloy page 54 as a guide for the J l cry Consumption. refuses to enter theja nt and tends to fl av over the outside of either merriaer of theja nt,it indicates this member is overheated,or the other is underheated,or both.In both cases,operations should be stopped and the jantsdisassen-ded,recleaned and fluxed. NIBMINO VVCR-DFEADaARr8ZS• 1516MIDDUB-R(ST.• 9-W-Wr,IN46516-4740• USA- Rt 1.800.234.0227 m Tait SERACES R-t 1.888.446.4226• FAX 1.800234.0557• INTB:NA-rCNAL SERACE FFt+1.5-/4.295.3221• FAX+1.574.295.3455 www.niboaoom www.nibco.com AHEAD OF • RN TLUbi SYSTEM RTTING >R •R Mab ng a Gonnecdi on 1. Using a tube cutter,cut tubing squarely and rerrove burrs. 2. Side copper cri ap d ng on tubing. 3. 1nseltdbbedfitti rig intotubinguntiI tub rigcontacts thefitti rig shoulder 4. Center the crirr ping tool jawsexactly over the ringwhilerr>aintainingits (tube stop).Position the cri rrp ring on the tubing so position rel alive to the fitting.Cti rnp the d rig by dosing the handles that the edge of the ring is 1/8"to 1/4'(3 to 6nTn)fromthe together to the positive stop on the tool.Check the after-cringed end of the tube. diameter of each ring with the crimp gauge.If the small flats on the gauge do not fit over the cri aped d ng,t he d ng i s under-cri aped.CIt out any under-cri need ri ngs and fitti rigs and corrpl etel y repl aoe.DO NOT fF--CRMP r;o, 1T .NIt3ODrecomends the use of copper cn rrp n rgs ONLYand a properly calibrated full drde crirrpi rig tool forja ni ng FD(tub rig and copper barbed fittings. NIBOJING WCHDHEN)C ARTES• 1516MIDDL®lR'ST.• RA-PRr,IN46516-4740• USA- R-t 1.800.234.0227 TKHSERACESR-11.888.446.4226• FAX1.800.234.0557• INTB:NAnCNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.niboaoom Mill www.nibco.com AHEAD OF • Fd ybLt ffin, TLUIj ng IFITTING SYSTEM -I NSERT/MMP TYPE MADE BY NI BOO Mab ng a Gonne%rA* 1. Using a tube cutter, 2. 9 i de copper c i rip ring on tubi ng.Only copper cri rrp ri rigs should be cut tubing squarely i used to ensure the highest quality connection. and remove buns. 3. Insert fitting intotubing,then position cri rrpd rig squarely 4. Center the cri rr pi rig tool jaws exactly over the ri rig,andbring over barbs.Roper al ignment i s i mportant for rraki ng the the tool handles together unti I totally dosed to the stop indicator.Check best oonnecti on. each cri rip ri ng with the cal i per gauge after completion. If the small flats on the gauge do not fit over the cirrped ring, the ri ng i s undercri roped.Oat out any underai roped rings and fittings, and oorrpletely replace. - i TOaS AND RNGS • Use tools reomTronded byfitti ng and tubing manufacturers. Ai I tool s mast make a ful I-d rd e cri rrp. • Check tool adjustment at least dai I y and readjust as necessary. • Use cri rrp d ngs of copper as reoomrranded by NI BOD I NO NIBMING wGaD FEADa ARIBZ4. 1516 MIDDLB3-R(SL• 9_W-Wr,IN 46516-4740• USA• R t 1.800.234.0227 lH7iS9RACES R-t 1.888.446.4226• FAX 1.800234.0557• INTB:NA-1CNALSERACER-t+1.5-/4.295.3221• FAX+1.574.295.3455 www.niboaoom www.nibco.com AHEAD OF • ReqwftlyAsked QEi4ions ■ Q What is the pressure rating of agivenfitting? Q Can dissimlarrretals(.e.,copper andiron)bejoi red together A Rtti rigs are rated per Table 1 of ASMEB16.22.The system rated without use ofdiel edricir isulatorsto prevent oorrosion? pressure shall betheIovvestofthefitti ng,tubeorjoi nt. A In most sitLAionsdissirriIarmetals(copper/iron/steel)can be joinedsuooessfullywithout usingdielectricinsulators.Factorsto consider: Q When copper fai Is in a system,what is the probl em? 1. The composition of the two nstal s. A: MCSTCCMMCN: 2. Therateofliquidflo✓v past thetworretals. 1. Velocity—fluid i s rrW rag too fast.Fxoorrn-endati on: 3. Chem cal s in the water which could enhance or destroy 2-3 fps(0.0508.0.0762 m s)hot water 140°F 5-8 f ps(0.127- protective fi l ms. 0.2032 m s)eel d water.Fbffer to pages 68-93. 4. The relative areas of the two natal s-unless the surface area 2. Turbulence—burrs left on the cut tubing causes a tumbl i ng of the less noble(steel)material is less that 51/o of the more effect causi ng local izgd erosion and eventual fai lure. noble(copper)materiel,the need for a dielectric separator is 3. Aggressive Waters—tend to cause pi tti rigor green staff ni ng of not needed.(Fai I ures due to gal vani c oorrosi on are very unusual fixtures.Aggressive,hard wel I waters that cause 0tti rig and only occur under very stri ct conditions.) typically are found to have total dissolved solids including 5.Local code requi rements. suflates and chlorides,a pH i n the range of 7.2 to 7.8,a high oontent of carbon dioxide gas and the pressence of dissolved oxygen gas.Soft acidic waters that cause green staff ni ng Q What should the i rstal I er of copper unions knovv and do in order to typi cal I y tend to be more oorrosive.Low alkalinity law assure a proper leak free installation? m neral izati on,pH I evel s of 7 or I aver shoul d be avoi ded. A The fol I owi ng shoul d be done: LESSCCMMCN: 1. Make sure the ground-joint(nating area of unionistail and 1. A ux Cbrrosi on—usi ng too m clh fl ux when naW ng thread pi eves)are free of ni cks and scratches. j ci nts can potent i al I y I eave resi due and cause i sol ated 2. Spray the ground-j a nt area with a food grade si I i cone spray or corrosion.Flux should be used sparingly and system adequately apply bees wax to enhance seati rig. flushed. 3. Make sure alignment of I i ne does not put lateral stress on the 2. Electrolysis—stray(D.C)current;inadequate grounding for the ground-joi nt sea]. pi li n9• 4. Make sure that excess solder(drop)ets)do not reach the 3. Sand or other solid particulates—erosiorVoorrosionproblem ground-jcintarea. can oocur.Laver vel octies mast be nrai ntai ned if solids are present inflow media. 4. GalvanicCbrrosion—destrudionofan-terial by electrodhemcal interaction between the envircriment and the nuterial. Q Copper tubing wall thickness is designated"K""L'or"M."What are the copper fitti rigs appl icabl e to? A Copperfittings wall thidaiessisdeterninedbystandards(ASME B-16:22 and MSS-SP-104).These standards address rri ni mum wed I t hi cahess(per si m)for the ful I range of copper fi tti rigs and are riot i ntencled to match tub ng wed l thidahesses. NIB0DINC WCHDHE DCUART6S• 1516MIDDL®lR'ST.• RA-PRr IN46516-4740• USA- R-t 1.800.234.0227 TKH SERM E5 R-t 1.888.446.4226• FAx 1.800.234.0557• I NTB:NAnCNAL SERACE R-t+1.574.295.3221• FAX-+1.574.295.3455 www.niboaoom NIBCCY www.nibco.com AHEAD OF • R�( RE)d i d 50 YE R u- b ng Roducts i �in��r,�cr�aaEa's 1 ■� `ed WaTanty T` What the warranty terms mean What is not covered:Disclaimer of I i abi I i ty for consequential In this warranty"Manufacturer" refers to the oompanyIistedbelow and other damages which manufactured the Product and any person or company that The Manufacturer does NUTwarrant against failure: assumes its obligations under this warranty."Homeowner" means 1. of any product,parts,or systems that it has not manufactured; you as the owner of the residential building in the United States in 2. if the Product is used for purposes other than residential whi ch t he Product has been i nstal led and also means any suoceedi ng owner-dud rig the od gi nal warranty term°Product" means t he copper p1 umt�i ng appl i cat i ons; water tube and/or copper or brass fittings manufactured by the 3. caused by,contributed inwholeor in part by,or resulting from Manufacturer for the residential buildingnp*et in the United States. any of the fol lowi ng: Each Manufacturer listed below separately and i ndi vi dual ly warrants (a) improper installation; only R-oducts it has manufactured and does not warrant Products of (b) abuse such as,without limitation,vandalism any other oompany,whether or not listed below. (c) natural disasters,such as,without limitation,flooding, Date the warranty begi ns windstormand lightning; The warranty begins on the date of the new home purchase, (d) attachments or modifications to the Product that the or in the case of home additions or renovations, on the date the Manufacturer did riot authorim; installation isoompleted.The warranty is transferable toaxmeding (e) external causes, where external, physical or chemical Homeowners for the remainder of the original warranty term, in qualities produce damage to the Roduct,such as,without which case the date the warranty begins shall continue without limitation,aggressive water or an unsuitable or hostile change. environment;or (f) any other cause beyond the Manufacturer's control. What is covered The Manufacturer warrants to the Homeowner for a period The Manufacturer shall NOT be liable under any circumstanoes for of 50 years from the date the warranty begins that its properly any other director any indirect,incidental oroonsequential damages installed Product will be free of failure as a result of defects in of any ld nd. material orwakTwishipinn-anufact ud rig the R-oduct. This is the only warranty What the manufacturer wi I I do for you This warranty is the only warranty for the Product provided by the As long as(1)such a failure oocurs within 50 ears from the date the Manufacturer, and is and shall be in lieu of any and all other warranty begins and (2) the Homeowner promptly notifies the warranties,epress or i mpl i ed,i nd udi ng but not I i mi ted to an i mpl i ed ManufactureroftheRroductof that fed Iurebyoo ntactingit through its warrantyof merchantability andof JI other obligations or liabilities 800 phone nurrber listed below,the Manufacturer will correct that on the part of the Manufacturer. None of the Manufacturer's fai I ure by repairing or replacing the Roduct within a reasark-bl e t i me, errpl oyees,and no of her person or business,i s aut hori and to make without charge.Thiswarrantyislimitedtotheoostofrepairingor any other warranty on the Manufacturer's behalf oovering the replacingthe Roduct,induding installation. product. N�� -N��'� � This warranty gives you specific legal rights,and you may also have other d ghts which vary from state to state.Some states do not al I ow 1-888446-4226 the exclusion orIirritationof incidental or consequential damages,so the above limitation or exclusion may not applyto you. NIBCOING wCR-D FEADa ARr8;S• 1516 MIDDLB3-R(SL• 9-W-Wr,IN 46516-4740• USA• R t 1.800.234.0227 lH7i S9RACES R-t 1.888.446.4226• FAX 1.800234.0557• INTB:NA-1CNAL S9RAC FFt+1.5-/4.295.3221• FAX+1.574.295.3455 www.niboaoom www.nibco.com AHEAD OF • Numen Cd I rdex ■ Rgure Rgure Rgure Rgure Rgure Nunter Fbge Number Page Nunter Page Nurrber Page Nunter Page 100 Series 735.............................. 11 837..............................36 C--pper Insert Rttingsfor Cast Heavy Rared 736 ............................. 11 851..............................34 FblYe Nene iFE� 101...............................23 739.............................. 16 851-C...........................34 FD(198.........................26 104...............................23 741............................... 15 861-LH.........................36 FDG00.........................26 748 .............................21 875-S...........................40 MEW.........................26 700 Series 749 .............................21 878..............................40 FDGM2......................26 500 Series Cast Rared Cast Ressure 750................................8 879..............................40 FFA...................26 500..............................24 701..............................10 750-3.............................8 880..............................39 FD600-T......................26 503..............................23 701-D...........................10 750-4.............................8 881..............................39 FD(603.........................26 504..............................23 702 .............................10 764.............................. 15 884..............................39 FD604.........................26 507..............................23 703................................6 771.............................. 16 885..............................39 F1*07.........................26 507-3...........................23 703-2.............................6 775.............................. 16 890..............................39 FD(607-FA...................26 507-4...........................23 703-5............................6 891..............................39 FEY,611.........................26 511...............................24 703-513..........................6 892..............................39 FD707-3-5..................26 704................................7 800 Series Cast DAN 892-3...........................39 FDX341.........................27 7042.............................7 801..............................34 892-A..........................39 FD(100.........................27 600 Series 7042-H.........................8 801-2...........................33 FD616..........................27 Wrot Resstxe 704-F.............................7 801-2-7........................31 600................................9 704H............................7 801-T...........................32 900 Series Wrot D\/\/ 600-2........................... 15 705..............................16 802..............................32 901..............................34 600-DS........................ 10 705-D...........................17 802-C..........................32 901-2...........................33 600-FMS .........................9 706-2...........................12 802-F...........................32 901-2-7........................31 601.............................. 10 707..............................12 803..............................32 901-2-F........................33 603................................6 707-2-4........................13 803-2...........................32 901-7............................31 603-2.............................6 707-3...........................14 804..............................32 901-FP.........................34 604................................7 707-3-5........................14 8042...........................33 903..............................32 6042.............................7 707-3-5-A....................14 804-T...........................33 903-2...........................32 606.............................. 11 707-3-6........................14 805..............................31 903-7...........................31 606-2........................... 11 707-4...........................14 805-N..........................31 904..............................33 607.............................. 12 70746........................14 806..............................35 9047...........................31 607-2........................... 13 707-5...........................14 806-2...........................35 905..............................31 607-2-2........................ 13 707-5-A........................14 807..............................35 906..............................35 607-2-2-LT.................... 13 707-6...........................15 807-2...........................35 906-2...........................35 607-2-1......................... 13 708..............................15 807-3...........................36 907..............................35 607-2-LT....................... 13 710-3...........................17 807-4...........................36 907-2...........................35 607-1............................ 12 710-3-4........................17 807-9...........................36 907-LT..........................35 607-LT.......................... 12 711..............................19 808..............................36 911..............................37 611.........................17-19 711-5...........................19 809..............................36 917-B...........................37 611-2............................ 19 711-A...........................19 810..............................38 951..............................34 616.............................. 16 712..............................20 811..............................37 960..............................36 617................................9 712-5...........................20 811-14..........................37 618................................8 713 .............................20 811-15..........................37 618-3.............................8 714..............................20 812..............................38 Camper Insert Rttingsfor 619 ...............................8 717................................9 814..............................38 Fbly"ene 620-L............................8 717-D.............................9 816..............................33 FB198..........................29 621..............................21 718-3.............................8 816-S...........................33 F B600..........................29 623.............................. 16 7245-A ......................10 818ASA...................36 FB600-FiA....................29 624.............................. 16 733..............................21 834..............................38 FB607..........................29 633-W.........................21 733-2...........................21 835..............................37 F B607-FA.....................29 638.............................. 16 733-3...........................21 835-B...........................37 FB611..........................29 698..............................20 733-4...........................21 836..............................38 NI80D HNC WCRD FEADaPRTEFiS• 1516 MI DDL®J;YST.• RA-ARr,IN 46516-4740• USA• PR I.800.234.0227 TECH SRRACES Rt 1.888.446.4226• FAX 1.800.234.0557• INiB:?,A-CNALSERACER-t+1.574.295.3221• FAX+1.574.295.3455 www.r iboo.00m MIBCCY www.nibco.com AHEAD OF • NOTES NIBOJINCWCRDFEADCLARUS• 1516MIDDt.ElWSC• al+PRrIN46516-4740• USA,- R-t1.800.234.0227 TEHSERACEFI-t 1.888.446.4226• FAX 1.800.234.0557• INTB3VATICNALSERACER-t+1.574.295.3221• FAX.+1.574.295.3455 www.riiboo.00m www.nibco.com AHEAD OF • NOTES NIBMINCVVCRDF64DC11ARTB- 1516MICCL&1AR'ST.• aA-WUIN465164740• LISA- R-t1.806234.0227 TEH SERACEB R-t 1.8B8.446.4226• FAX 1.800.234.0557• U B:;tN Al1CNAL SERACE R-t+1.574.295.3221• FAX+1.574.295.3455 www.riboo.com globally connecti n ou at all level It's a new age of business, and a new way at NIBCO. From Elkhart, Indiana to Lodz, Poland, and points beyond, our company has integrated manufacturing, distribu- tion, and networked communica- tions to provide a seamless source of information and service, 24 hours a day, 7 days a week. But this integration hasn't hap- world pened overnight. It's been part Headquarters •of a long-term strategic process Elkhart, that has pushed us to reconsid- Indiana er every aspect of our business. The result?We're a vertically Metal Valves Plastic Pipe, Industrial Pipe Hangers International U.S.& International Global Offices and Fittings Valves, Plastics &Support Distribution Centers integrated manufacturer with and Fittings systems the products and systems in Le place to deliver low cost and high quality. NIBCO's products are manufactured under a Quality Management System conforming to the current revi- sion of ISO-9001 International Standards. We know the flow control industry is only going to get more demanding, and we are more than ready. We will continue to lead. That's what NIBCO is all about. NIBODIND WCRD RI • 1516 Ml�k�t'ST.• 9J4-Aff,IN 46516-4740• U54• F}t 1.800.234.0227 TECH�AaB FH 1.888.446.4226• FAX 1.800.336.4226• INTB+AT1CNAL CPrTCE 9-t+1.574.295.3221• FAX+1.574.295.3455 www.nibcaoorn FITTINGS W rot and cast copper pressure fittings • W rot and cast copper drainage fittings• W rot copper P74i*' fittings• Cast copper alloy flared fittings• Cast copper alloy flanges• ABS and WC DW V fittings• Schedule 40 PVC pressure fittings• CWC CTS fittings• CWC CTSb4T-etal'transition fittings• Schedule 80 PVC and CWC systems• CWC metric piping systems. VALVES & A CTUATI O N R-e�rerated bronze, iron and alloymiron gate, globe and check valves• Ressure- rated bronze ball valves • Boiler specialty valves • Commercial and indushial butterfly valves• Circuit balancing valves• Carbon and stainless steel ball valves AN SI flanged steel ball valves • Rheumatic and electric actuators and controls • Grooved ball and butterfly valves• High performance butterfly valves• UL/ FM fire protection valves• MSS specification valves• Bronze specialty valves• Low- pressure gate, globe, check and ball valves • Frostproof sillcocks • Quarter-turn supply stops• PVC ball valves• CWC CTS ball valves• Jd RgW recirculating valves C H EM TRO L® Thermoplastic pipe, valves and fittings in WC, Corzan' CWC, polypropylene and WDF Kynar" • Chem ire" thermoplastic compressed air piping systems • Pneumatic and electric actuation systems. Cormnw is a registered trademark of N oveon,IP Holdings Corp. Kynar`is registered trademarK of ATORNA Chemcala Inc. TO LCO TM N IBCO' now offers complete support with its newest addition of TO LCO" brand piping solutions including: Rpe attachments• Structural attachments• Rpe rollers• Threaded products and accessories• Seismic components Vibration isolation • Standard and specialty supports• T01,19RAr, channel and components. eN I BCO A suite of services designed to make customers more efficient• More cost-effective • More informed • EOI—Electronic Data Interchange • VMI—\kndor Managed Inventory • N IBCO.com • N IBCOpariner.com • eN IBCO will continuously develop new products to deliver the competitive advantage. NlBr! AHEAD OF THE FLOW " N IBCO IN C. 1516 MIDDLEBURY STREET DOMESTIC CUSTOMER SERVICE TECHNICAL SERVICE INTERNATIONAL OFFICE W ORLD HEADQUARTERS ELKHART, IN 46516-4740 PHONE: 800.234.0227 PHONE: 888.446.4226 PHONE: +11574.295.3221 WEB: www.nibco.com USA FAX: 8 0 0.2 3 4.0 5 5 7 FAX: 888.336.4226 FAX: +11 5 7 4.2 9 5.3 4 5 5 C-CF-0404 ©2004, NIBCO INC. Printed in USA tTOLCO" www.tolco.com ■ 00 Fig. 200 - "Trimline" Adjustable Band Hanger C&US o Size Range — 1/2" thru 8" pipe F Material — Carbon Steel, Mil. Galvanized to G90 , specifications Function — For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features • (1/2" thru 2") Flared edges ease installation for all pipe types and protect CPVC plastic pipe from abrasion. Captured design keeps adjusting nut a � from separating with hanger. Hanger is easily B f installed around pipe. • (21/2" thru 8" Spring tension on nut holds it A A securely in hanger before installation. Adjusting nut is easily removed. Approvals — Underwriters' Laboratories listed (1/2" thru 8") in the USA (UL) and Canada (cUL) for steel and CPVC plastic pipe and Factory Mutual Engineering Approved (3/4" thru 8"). Conforms to Federal v2 THRU 2 INCH PIPE 2 112 THRU 8 INCH PIPE Specifications WW-H-171 E, Type 10 and Manufacturers Standardization Society SP-69, Type 10. Maximum Temperature—650°F Finish — Mil. Galvanized. For Stainless Steel materi- als, order TOLCOTm Fig. 200WON. Order By— Figure number and pipe size Dimensions •Weights Pipe Rod Size Max. Rec. Approx. Size Inch Metric A B Load Lbs. Length 1/2 3/8 8mm or 10mm 31/8 25/8 400 11 3/4 3/8 8mm or 10mm 31/8 21/2 400 11 1 3/8 8mm or 10mm 33/8 25/8 400 12 11/4 3/8 8mm or 10mm 33/4 27/8 400 13 11/2 3/8 8mm or 10mm 37/8 27/8 400 14 2 3/8 8mm or 10mm 41/2 3 400 15 21/2 3/8 10mm 55/8 41/8 600 27 3 3/8 10mm 57/8 4 600 29 31/2 3/8 10mm 73/8 51/4 600 34 4 3/8 10mm 73/8 5 1000 35 5 1/2 12mm 91/8 61/4 1250 66 6 1/2 12mm 101/8 63/4 1250 73 8 1/2 12mm 131/8 83/4 1250 136 ORRCFJMANUFACTURING FACUTY•1375 SWIPSM A/E•OJUA CA 92879•R-t 951.737.5599•FAX 951.737.0330 CUSTOM ER SERA CE-800.786.5266 www.tolco.com SAMMYS° FOR WOOD • - WOOD - Vertical Application Application Product Features Not less than Wood Flooring 2"nominal width •No pre-drilling required. •Quick to install using the Sammy Not less than Nut Driver with an 18V cordless 3"nominal drill/driver. thickness(2-1/2") (depth or side Wood Joist of vertical member) _ _ _ •Saves time from traditional methods. Double Sheetrock Ceiling •Reduces installation costs. •Made in the U.S.A. Composite Consult truss manufacturer for recommended installation point. c *Pre-dfilfing may be required for GST Approvals Rod Part Model Screw Ultimate UL Test FM Test Box Case I Size Number Watch a video demonstration at .. www.itwbuildexcom D• City Qty MOUNT VERTICAL 1/4" 8002957 GST 100 1/4 x 1" 210 (7/16"OSB) 25 125 670 (3/4"Ply) 1/4" 8003957 GST 200 1/4 x 2" 1760 (Fir) 25 125 1/4" 8004957 GST 300 1/4 x 3" 2060 (Fir) 25 125 Qn 3/8" 8007957 GST 10 1/4 x 1" 210 (7/16"OSB)670 (3/4"Ply) 300 25 125 fit,• 318" 8008957 GST 20 1/4 x 2" 1760 (Fir) 850 1475 25 125 3/8" 8068925 GST 20-SS 114 x 2" 1760 (Fir) 850 25 125 °to 3/8" 8009925 GST 25-380 3/8 x 2-1/2" 2113 (Fir) 1500 25 125 #14 Black v O 3/8" 8010957 GST 30 1/4 x 3" 2060 (Fir) 1500 1475 25 125 Nut Driver 3/8" 8069925 GST 30-SS 1/4 x 3" 2060 (Fir) 25 125 Part#8113910 3/8" 8011925 GST 40 1/4 x 4" 2180 (Fir) 25 125 1/2" 8013925 GST 2 1/4 x 2" 1760 (Fir) 25 125 1/2" 8014925 GST 2.5-380 3/8 x 2-1/2" 2113 (Fir) 25 125 1/2" 8015925 GST 3 1/4 x 3" 2275 (Fir) 25 125 #14 SW Red Nut Driver Part#8114910 S MADE IN U.SA V ( C' SPECIAL NUT DRIVER SYSTEM:The nut drivers were designed with a unique spin-off feature which provides a fast and safe installation each time.When the face of the driver comes into contact with the material you are installing into,continue drilling until nut driver spins free.Installation is then complete.Warranty requires the use of the appropriate nut driver for installations. • . • • •. - 1 . • • •-