Distributed by: collinspipe.com SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES Jamesbury Wafer-Sphere high-performance butterfly valves provide long-lasting tight shutoff capability, excellent flow characteristics, and long service life. The following standard sizes are available: 1W (Class Wafer-Body Design) -1/" 30" (DN 70) 1L (Class Single-Flange Design) -1/" 0" (DN 0) F1 (Class Fire-Tested Version) 3" 0" (DN 0 0) 1W (CE Marked Class Wafer-Body Design) -1/" 30" (DN 70) 1L (CE Marked Class Single Flange Design) -1/" 30" (DN 70) F1 (CE Marked Class Fire-Tested Version) 3" 30" (DN 0 70) 30W (Class 300 Wafer-Body Design) 3" 30" (DN 0 70) 30L (Class 300 Single-Flange Design) -1/" 3" (DN 900) F30 (Class 300 Fire-Tested Version) 3" 3" (DN 0 900) 3W (CE Marked Class 300 Wafer-Body Design) 3" 4" (DN 0 00) 3L (CE Marked Class 300 Single Flange Design) -1/" 4" (DN 00) F3 (CE Marked Class 300 Fire-Tested Version) 3" 4" (DN 0 00) The Wafer-Sphere high-performance butterfly valve is available in a range of materials and seat combinations suitable for service in a wide variety of applications including NACE MR03, and abrasive services. Also available are valves specifically prepared for chlorine, oxygen, and high-vacuum applications. FEATURES n Xtreme seat provides longer life, expanded performance boundaries, and greater value Field-Proven Single-Piece Flexible PTFE Seat Design n Lip-seal design compensates for temperature and pressure changes n No additional o-rings or metal parts required to maintain tightness n Tight shut-off in either direction n Longer service life with less maintenance Offset Shaft and Eccentric Disc n No seat/disc contact in the open or intermediate position n Eliminates wear points at top and bottom of seats for higher cycle life n Reduces torque requirements, allowing for smaller operators Fire-Tested Version Available n Fire-Tite Wafer-Sphere valves have been tested to API 07 and ISO-497-:004 CE Marked Versions Available n CE marked and documented valves that conform to the European Pressure Equipment Directive (PED) 97/3/EC are available in ANSI Class /300, both standard and Fire-Tite construction. Operating torques, construction options and valve dimensions are exactly the same as the standard ANSI /300 offering. The applicable sizes for CE marked values are shown in table to left. Positive Shaft Retention n -1/" 4" (DN 00) valves are equipped with a retaining ring at the top of the shaft to prevent movement of the top portion of the shaft past the compression ring if for any reason the shaft should break within the valve. Easy Seat Maintenance n Simply remove body insert and replace seat disassembly of disc and shaft is not required Excellent for both On-Off and Control Applications n Superior control characteristics n Inherent flow characteristic is modified equal percentage n Wide rangeability n Tight shut-off even in control applications n Standard lugged style valves are suitable for bidirectional dead-end service at the full pressuretemperature rating of the valve. Single-Source Responsibility n Purchase valves, actuators, and accessories, completely mounted from one source n Available with electric, manual gear, and pneumatic double acting or spring return actuators and a variety of accessories including limit switches, solenoids, and positioners n OEM service available through world-wide service centers Available in a Wide Choice of Materials for a Broad Range of Applications n Standard body materials include carbon steel, stainless steel, Alloy 0, and Monel. Other materials, such as Avesta 4SMO are available on application. W1-EN 9/01
METSO W1-EN ADDITIONAL INFORMATION Please refer to the bulletins listed below for additional information on other Jamesbury high-performance butterfly valves. Wafer-Sphere polymer (soft) seat HP Butterfly valves Cryogenic Service W130-1 Steam Service W-1 Chlorine Service W- Oxygen Service W-3 Vacuum Service W-4 Jacketed s W11-3 SPECIFICATIONS Seat Ratings Seat ratings, shown by the graph at right, are based on differential pressure with the disc in the fully closed position and refer to seats only. Maximum body working pressures are shown in the Body Ratings tables below. Body Ratings The tables below are maximum working pressure ratings of the valve body only. The seat ratings determine the practical pressure limitations according to actual service conditions. Test pressures are for hydostatic test with disc open. Series 1, Class Body Ratings psi Temp Carbon 31 F Steel* Stainless Alloy 0* Monel Steel* -0 to 0 7 30 30 00 0 3 00 00 300 30 1 190 400 00 19 1 00 170 170 170 Test Pressure 40 4 30 30 Series 1, Class Body Ratings bar Temp Carbon 31 C Steel* Stainless Steel* Alloy 0* Monel -9 to 3 19. 19.0 1.9 1.9 0 17.7 1. 13. 13.7 1. 14. 1.3 13.1 00 13. 13.7 11.3 1. 0 1.1 1.1.4 11.9 Test Pressure 30 9 4 4 Series 30, Class 300 Body Ratings psi Temp Carbon 31 F Steel* Stainless Steel* Alloy 0* Monel -0 to 0 740 70 00 00 00 0 0 0 30 300 0 4 49 400 3 1 40 40 00 0 40 390 47 Test Pressure 11 10 900 900 Series 30, Class 300 Body Ratings bar Temp Carbon 31 C Steel* Stainless Steel* Alloy 0* Monel -9 to 3 1.1 49. 41.4 41.3 0 4. 4. 3.3 3. 4.1 3. 3.0 34.1 00 43. 3.7 9.4 33.1 0 41.9 33.4 7. 3. Test Pressure 77 7 3 3 * Ratings correspond to ASME B1.34 for material grades shown in bills of material herein. TECHNICAL BULLETIN 9/1 Maximum Differential Pressure, psi 00 00 400 00 Temperature, C -0 0 0 0 00 0 300 Class Carbon Steel Body Rating Seat Ratings U Class 300 Carbon Steel Body Rating Saturated Steam Xtreme 0 0-0 0 0 00 300 400 00 00-0 Temperature, F Low temperature rating for carbon steel bodies X Xtreme T PTFE M Filled PTFE Seat A Fire-Tite U UHMW Polyethylene NOTE: 14" 0" (DN 30 0) Class valves equipped with 31 stainless, Alloy 0 or Hastelloy C shafts are rated for maximum differential pressure of psi (.3 bar). Series 1 Inches DN Cv -1/ 7 3 0 1 4 0 400 1 0 1,00 00,00 0 3,300 1 300,0 14 30,00 1 400,000 1 40,00 0 00 14,000 4 00 1,00 30 70 34,000 3 900,00 4 0,0 4 100,300 4 130 133,00 0 0 19,000 T A M 0 40 30 0 Maximum Differential Pressure, bar 3" 3" (DN 0 900) Class 300 valves equipped with 31 stainless, Alloy 0 or Hastelloy C shaft are rated for maximum differential pressure of 300 psi (0.7 bar). These ratings are a conservative guide for general service. Previous experience in a process or new developments and alternative seat materials may permit applications at ratings above those shown. Please consult our home office for specific recommendations. Flow Data The tables below provide flow coefficients for Series 1 and 30 butterfly valves covered in this bulletin. The Cv values represent the number of gallons per minute of +0 F water that flows through a fully open valve at a pressure drop of 1 psi. The metric equivalent, Kv, is the flow of water at 1 C through the valve in cubic meters per hour at a pressure drop of 1kg/cm. To convert Cv to Kv, multiply by 0.9. Cv values for partially open valves are given below. Series 30 Inches DN C v -1/ 7 3 0 1 4 0 400 1 0 1,00 00 1,00 0 3, 1 300 4,70 14 30,00 1 400,900 1 40 9,300 0 00 11,300 4 00 1,00 30 70 9,0 3 900 47,00
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES To determine Cv values for a valve in an intermediate position: (1) determine the percent of maximum Cv from the graph at right () multiply the percent of maximum Cv shown on the graph by the Cv value from the appropriate Flow Data table on the previous page. EXAMPLE: The Cv for a " (DN ) 1 that is 70% open is: (1) From the graph, a " (DN ) 1 that is 70% open has a Cv value that is 3% of the maximum Cv. () 3% of the maximum Cv = 0.3 X 0 = 0. Flow Data (Continued) % of Maximum Cv 0 90 0 70 0 0 40 30 0 Cv Factors for Series 1 and 30 s in Intermediate Positions 0 0 0 30 40 0 0 70 0 90 0 % Open Seat Tightness ANSI/FCI 70- establishes a series of six leakage classes for control valves and defines the test procedure. Class VI allows the least leakage. Wafer-Sphere High Performance Butterfly s are bubble-tight, MSS-SP1, which would exceed Class VI requirements. SEAT DESIGNS Xtreme Performance and Value Xtreme seats provide longer life, expanded performance boundaries, and the greatest possible value. Xtreme is a unique material that resulted from a technological breakthrough in our polymer research lab. The material is a fluoropolymer-based blend proprietary to Jamesbury that provides superior quarter-turn performance. Standard Seats Wafer-Sphere standard seat design, constructed of PTFE, Filled PTFE, or UHMW Polyethylene, utilizes a flexible lip, which, when distorted, will always attempt to return to its original shape and maintain a seal against the disc regardless of flow direction. Disc Disc Flow into insert side Flow into non-insert side Disc Seat SEAT Seat SEAT Seat Body Body Body Insert Insert Insert When the valve is shut, the disc slightly deflects the seat. This slight deflection energizes the seat. While energized, the sealing surface of the seat is constantly pushing against the edge of the disc. Fire-Tite Seats The Fire-Tite seat was developed for applications where effective shut-off during a fire is a concern. The primary sealing element is Xtreme with a back-up metal seat ring. In the event that the Xtreme is destroyed, the secondary metal seat provides effective shut-off. The Fire-Tite seat is also ideal for critical or severe service applications. Wafer-Sphere butterfly valves with Fire-Tite seats have been tested and approved to API 07 Edition and to ISO-497-:004. When pressure is on the insert side, pressure is applied under the seat lip. This further amplifies the sealing force between the disc and the seat. Insert Disc When pressure is on the non-insert side, the disc moves into the seat. Due to the spherical profile of the disc, the more the disc moves into the seat, the tighter the shut-off. Excessive movement of the seat is limited by the flexible lip which contacts the bottom of the groove in the insert ring. Xtreme seat insert Metal seat ring Body Insert Disc Body Before Fire During and After Fire TECHNICAL BULLETIN 9/1 3
METSO W1-EN SPECIAL SERVICES Emission-Pak Live-Loaded Packing When enhanced emissions control is needed to comply Additional options, available with or without the with evolving emissions standards, Emission-Pak liveloaded Emission-Pak live-loaded packing, include double packing packing is available. The Emission-Pak live-loaded packing assembly includes PTFE V-ring packing liveloaded or double packing with monitoring port to facilitate testing of the primary seal and allow detection of a with disc spring washers for standard potential leak problem. Refer to the How to Order section construction valves and graphite packing with Inconel at the end of this bulletin for specific ordering disc springs for Fire-Tite valves to maintain a constant instructions. The operating torque of valves with packing force without overcompression. It is available with new valves or as a retrofit kit for existing valves. Emission-Pak live-loaded packing will increase. (Refer to the torque equation in the Torque Data section). Emission-Pak Live-loaded Packing Emission-Pak Live-loaded Packing With Double Packing Note *All Emission-Pak illustrations depict a standard valve with PTFE V-ring packing. Emission-Pak Live-loaded Packing With Double Packing And Monitoring Port Steam Service Wafer-Sphere butterfly valves are well-suited for a wide range of steam applications. These range from PTFE-seated valves capable of handling lower pressure to valves with Xtreme seats. Ratings of Wafer-Sphere valves in this bulletin for on-off steam service are as follows: s may Type Seat Material Maximum Pressure Differential psi bar 1W, 1L Xtreme 00* 14* 30W, 30L Xtreme 40 31 be derated based on shaft material selection. * Max. rating of carbon steel body per ASME/ANSI B1.34 at corresponding saturated steam temperature. Cryogenic Service Using Wafer-Sphere with unique polymeric and polymeric/ metal composite seats, cryogenic Wafer-Sphere valves are rated to give tight, reliable shutoff on service extending from -30 F (-19 C) to ambient condition at pressures up to 1440 psi (99 bar). Cryogenic seats for valve sizes 3" 1" (DN 0 300) are composite. Seats for sizes 14" 4" (DN 30 100) are Kel-F material. See Bulletin W130-1. Chlorine Service Wafer-Sphere valves reliably control the flow of both liquid and gaseous chlorine. The patented seat design insures positive, leaktight shutoff of this lethal substance. A range of key materials permits selection of the Wafer-Sphere valve best suited for the moisture content of the chlorine that is to be handled. s for chlorine service are specially cleaned to preclude possible reaction of the chlorine to foreign substances. For further information see Bulletin W-. Oxygen Service Wafer-Sphere valves are available specially prepared for oxygen service, capable of filling a wide range of applications that include both on-off operation and proportional control. A rigid procedure is followed in preparing components, assembling, testing, and packaging these valves to assure cleanliness and to avoid the inherent danger of oxygen s reaction with grease, oil, or other foreign matter. Bulletin W-3 contains additional details. NACE Service ANSI Class and 300 Wafer-Sphere valves are available to comply with the NACE MR03 standard. These valves are well suited for oil and gas industry applications requiring sulfide stress cracking resistant metallic materials. Abrasive Service For applications involving slurries or gas-borne solid particles, Wafer-Sphere valves are available with the disc hard-coated with tungsten titanium carbide (TTC). Service life of the valve is increased significantly with the assurance of extended sealing capability. This hard coating is also available on application on other valve components that may be subject to wear in other unusual process conditions. Vacuum Service Standard Wafer-Sphere valves are rated for tight shut-off of vacuum to x - torr. Special high vacuum Wafer-Sphere valves can be provided for vacuums to 1x - torr. Additionally, high vacuum valves can be certified to have a leakage rate not to exceed 1x - cc/sec. of helium at 1x - torr vacuum. Refer to Bulletin W-4 for details. High-Cycle Option Testing in the Jamesbury R&D laboratories indicates that a combination of components, including Xtreme (X) seat, filled super PTFE shaft seals, 31 SS/Woven PTFE shaft bearings, PEEK -filled PTFE thrust bearings and excluder rings, yields significantly longer life than a standard configuration valve. Actual cycle performance is subject to media, pressure, and temperature conditions. Applications 4 TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES such as oxygen, nitrogen, hydrogen, water, and other clean media are ideally suited for this option. Warning: Avoid any media containing acids or chemicals such as chlorine, bromine, sulfur dioxide, or steam, or temperatures that exceed 3 F (13 C). OPERATING HANDLES AND ACTUATORS As an option, handles are available for smaller sizes of the Wafer-Sphere high-performance butterfly valve. We recommend that manual-gear, pneumatic, or electric actuators be used at differential pressures higher than the values listed below. All handles have locking capability. Handle Operated Series 1 Maximum Differential Pressure Type T, M, U or X Seats Fire-Tite Seat Handle Length Handle Handle Inches DN psi bar psi bar inches mm lb. kg -1/ 1W/1L 19.7 19.7 11 79 3 1.3 WSH-3 3 0 1W/1L 19.7 19.7 11 79 3 1.3 WSH-3 4 0 1W/1L 19.7 19.7 11 79 3 1.3 WSH-3 1 1W/1L.3 11 79 3 1.3 WSH-3 1W/1L.3 11 79 3 1.3 WSH-3 00 1W/1L.3 9 1. WSH-3 0 1W/1L 0 3.4 9 1. WSH-4 1 300 1W/1L 0 3.4 9 1. WSH- Code Handle Operated Series 30 Maximum Differential Pressure Type T, M, U or X Seats Fire-Tite Seat Handle Length Handle Handle Inches DN psi bar psi bar inches mm lb. kg -1/ 30L 300 0.7 11 79 3 1.3 WSH-3 3 0 30W/30L 300 0.7 300 0.7 11 79 3 1.3 WSH-3 4 0 30W/30L 300 0.7 300 0.7 11 79 3 1.3 WSH-3 1 30L 300 0.7 11 79 3 1.3 WSH-3 30W/30L.3 9 1. WSH-3 00 30W/30L.3 9 1. WSH-4 0 30W/30L 0 3.4 9 1. WSH- Code Materials of Construction for Handle Kits Handle Code Part Number* Part Name WSH-3 WSH-3 WSH-4 WSH-3 WSH- H1 Handle Subassembly Stainless steel Malleable iron H Ratchet Stainless steel Carbon steel H3 Cap Screw Stainless steel Carbon steel H4 Lock Washer Carbon steel H Hex Nut Carbon steel H Cap Screw Stainless steel Carbon steel H7 Lock Washer Stainless steel Carbon steel * Refer to drawing on pages 11 and 1. TECHNICAL BULLETIN 9/1
METSO W1-EN VALVE TORQUE DATA The torque required to open or close the Series 1 and Series 30 can easily be calculated using the equation on the following page. However, for your convenience, the following tables can be used as a quick guide for actuator selection. If the valve s torque is not listed in the tables, use the equation on next page to calculate the torque. Refer to other bulletins for pneumatic and electric actuators. Select an actuator that provides the same or greater torque output than the valve s torque. If in doubt, select the next larger actuator. Torque Series 1 Shaft Downstream; T, M, U, & X Seats Shut-off Differential Pressure Inches DN FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ 0 psi.9 bar 00 psi 13. bar psi 19.7 bar -1/ 1 9 3 31 4 33 3 0 34 7 37 9 39 4 0 3 47 39 3 43 1 4 7 3 7 97 3 113 93 1 00 11 14 14 193 17 0 13 0 74 34 31 1 300 14 90 7 390 30 47 14 30 3 491 0 4 49 1 400 43 4 7 0 7 1 40 0 1 44 1144 0 143 0 00 9 1140 14 141 19 4 00 134 173 17 34 00 93 30 70 170 94 940 39 39 473 3 900 330 47 40 9 990 11 4 0 70 737 00 9 000 13 4 100 9170 1433 140 17409 190 13 4 130 190 17 17900 49 1 9977 0 0 1900 790 040 33 3000 43397 Torque Series F1 Shaft Downstream or Upstream; All Fire-Tite Seats Shut-off Differential Pressure Inches DN FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ 0 psi.9 bar 00 psi 13. bar psi 19.7 bar -1/ 4 7 4 1 47 4 3 0 3 7 7 77 9 1 4 0 7 91 74 0 0 1 97 13 114 1 1 174 131 17 1 0 170 30 00 1 9 347 391 0 333 4 40 0 4 3 1 300 0 9 3 74 14 30 04 19 7 9 10 1 400 7 93 90 147 99 149 1 40 970 131 1370 17 17 31 0 00 1390 1 190 4 334 4 00 00 779 700 31 333 44 30 70 90 399 3940 34 407 17 3 900 330 47 490 7 17 373 4 0 0 70 7440 07 97 11 4 100 00 11931 10 140 1490 00 Torque Series 30 Shaft Downstream; T, M, U, & X Seats Shut-off Differential Pressure Inches DN FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ 300 psi 0.7 bar 400 psi 7. bar 00 psi 34. bar 00 psi 41.4 bar 700 psi 4.3 bar 740 psi 1 bar -1/ 34 7 3 30 41 33 4 3 47 3 49 3 0 31 4 34 4 3 1 41 44 0 4 4 0 70 79 7 97 7 1 1 1 11 9 13 11 11 1 19 13 1 143 193 119 11 13 1 1 14 17 41 197 7 0 7 00 31 313 71 3 31 4 3 477 39 3 40 4 0 34 40 4 7 490 4 7 7 4 1 300 49 7 790 73 913 74 3 4 11 90 107 14 30 4 1117 1 137 100 17 13 1 17 137 11 39 1 400 99 1340 11 143 143 194 1 4 11 0 1970 71 1 40 179 1734 1 11 14 0 1 411 39 4 34 0 00 1707 314 09 4 4 339 74 397 33 444 3419 43 4 00 309 3131 3 340 33 449 37 4401 97 4 1 30 70 4 70 00 90 07 0 947 790 4 03 9 3 900 70 979 70 1177 300 139 1140 3 1330 1141 1399 197 TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES VALVE TORQUE DATA (CONTINUED) Torque Series F30 Shaft Upstream or Downstream; All Fire-Tite Seats Shut-off Differential Pressure Inches DN FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ FT LBS @ N m @ 300 psi 0.7 bar 400 psi 7. bar 00 psi 34. bar 00 psi 41.4 bar 700 psi 4.3 bar 740 psi 1 bar 3 0 7 77 79 0 1 1 3 3 3 4 0 117 94 17 13 1 149 11 11 14 19 1 7 3 319 30 1 31 90 394 00 313 44 34 40 39 3 43 91 477 47 493 9 0 44 9 70 0 7 3 9 944 719 97 1 300 1119 90 130 9 14 130 1 13 11 1419 194 14 30 9 10 7 149 130 1 134 177 13 0 0 19 1 400 1170 1 1390 1 1 13 130 41 00 779 13 99 1 40 190 440 330 900 393 330 4 30 179 4004 49 0 00 00 379 340 491 410 470 41 440 737 704 7734 4 00 4400 9 400 731 400 77 7400 033 400 1139 00 11931 TORQUE EQUATION Use the following equation to calculate the torque required to open and close the Series 1 and Series 30 valves. Torque required (FT LBS) = (Kt multiplied by the shut-off differential pressure in psi) + Ts EXAMPLE: " (DN ) 1W-11-3HBMT at 30 psi (1.9 bar) differential pressure, installed shaft downstream = (0.11 X 30) + 0 = 7 FT LBS. To convert FT LBS to N m, multiply by 1.3. Class Class 300 Series 1 T, M, U, & X Seats Series 1 Fire-Tite Series 30 T, M, U, & X Seats Series 30 Fire-Tite Kt Kt Kt Shaft Kt Kt Kt Shaft Shaft Shaft Ts Upstream or Ts Shaft Shaft Ts Upstream or Ts Inches DN Upstream Downstream Downstream Upstream Downstream Downstream -1/ 0.017 0.014 0 0.04 40 0.07 0.0 17 3 0 0.01 0.01 3 0.033 0 0.034 0.033 1 0.01 4 0 0.04 0.04 30 0.07 0 0.0 0.0 3 0.0 1 0. 0.01 40 0.13 0.130 0.1 47 0.1 0.11 0 0.1 1 0.03 0.19 0 0.3 10 00 0.301 0.11 0 0.3 0.43 0.403 1 0.41 190 0 0.4 0.34 1 0.73 0 0.9 0.79 0. 90 1 300 0.47 0.737 140 1. 30 1. 0.90 0 1.3 40 14 30.034 1.44 0 1.4 40. 1. 0 1.4 40 1 400. 1.3 0.1 00 3.1.3 30. 1 40 3..4 30 4.0 70 3.94.3 430 4. 00 0 00 4.7 3.30 40.9 00.01 3.9 40. 0 4 00 7.34.4 7. 1400..3 740 1400 30 70 11. 7.7 1400. 1900 9.4.7 0 3 900 0.4 13.3 00 14.3 0 1.1 1.4 00 4 0 9.9. 300 1. 300 4 100 43.7 3.7 00 33 00 4 130 9. 49. 000 0 0 0.7 70. 1000 Note: The Ts value for a valve with Emission-Pak Live-Loaded Packing will increase. For valves with Live-Loaded PTFE shaft packing, use (Ts x 1.0). For valves with Live-Loaded Graphite shaft packing, use (Ts x 1.). TECHNICAL BULLETIN 9/1 7
METSO W1-EN Recommended spare part BILLS OF MATERIALS AND PARTS LIST Series 1 Type Type 1_3 Type 1_300 Part No. Part Name 1_HB 1_71 1_3HB F1_3 F1_71 F1_300 F1_HB F1_3HB 1 Body Carbon steel ASTM A1, Type WCB 31 Stainless steel ASTM A31, Type CFM Insert Carbon steel 31 Stainless steel 3 Disc 31 Stainless steel Monel 31 Stainless steel 4 Shaft 31 Stainless steel (3) or 31 Stainless steel (300) 17-4 PH Stainless steel (HB) Monel or 17-4 PH SS (3HB) Seat See page 19 for seat codes Shaft Bearing PTFE composite backed with 31 Stainless steel PTFE composite backed with Monel PTFE composite backed with 31 Stainless steel 7 Spacer Stainless steel Monel Stainless steel Shaft Seal See page 19 for seal codes 9 Compression Ring 31 Stainless steel Compression Plate Carbon steel 31 Stainless steel 13 Disc Pin Same material as shaft 14 Stud Carbon steel Stainless steel 1 Nut Carbon steel Stainless steel Lock Washer 1 (1" [DN 400] Carbon steel Stainless steel and larger only) 17 Name Plate Stainless steel 1 Drive Screw Stainless steel Cap Screw 1 (1L & 14" 0" Stainless steel [DN 30 0] 1W) Indicator Plate (4" 0" [DN 0 0] only) Stainless steel 7 Drive Screw (4" 0" [DN 0 0] only) Stainless steel Indicator Pointer 9 (1" 0" Carbon steel [DN 400 0] only) 40 Body Seal PTFE (-1/" 4" [DN 0] standard 1Ls only) or graphite (3" 1" [DN 0 300] Fire-Tite) 41 47 3 4 Top Bearing Spacer (-1/" " [DN 0]) Retaining Ring (-1/" 3" [DN 900] only) Cover Plate (14" 3" [DN 30 900]) Gasket (14" 0" [DN 30 0] only) Cap Screw (14" 0" [DN 30 0] only) Lock Washer (14" 0" [DN 30 0] only) PTFE Inconel Stainless steel or Carbon steel (Fire-Tite) PTFE or graphite (Fire-Tite) Stainless steel or Carbon steel (Fire-Tite) Carbon steel Stainless steel Stainless steel Stainless steel 4 Thrust Bearing 31 Stainless steel Monel 31 Stainless steel 77 Insert Spring (-1/" 1" [DN 300] 1Ws) Inconel TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES BILLS OF MATERIALS AND PARTS LIST Series 1 Part No. Part Name Type Type Type 1_300 1_33 1_70 F1_300 F1_33 F1_70 1 Body Alloy 0 Stainless steel 31 Stainless steel Monel ASTM A31-Type CN7M ASTM A31-Type CFM ASTM A494 Insert Alloy 0 31 Stainless steel Monel 3 Disc Alloy 0 Monel 4 Shaft Alloy 0 Monel Seat See page 19 for seat codes Shaft Bearing PTFE composite backed with Alloy 0 Stainless steel PTFE composite backed with Monel 7 Spacer Alloy 0 Monel Shaft Seal See page 19 for seal codes 9 Compression Ring 31 Stainless steel Compression Plate 31 Stainless steel 31 Stainless steel Monel 13 Disc Pin Same material as shaft 14 Stud Stainless steel Monel 1 Nut Stainless steel Monel 1 Lockwasher (1" [DN 400] and larger) Carbon steel 17 Name Plate Stainless steel 1 Drive Screw Stainless steel Cap Screw 1 (1L & 14" 0" Stainless steel Monel [DN 30 0] 1W) 7 Indicator Plate (4" 0" [DN 0 0] only) Drive Screw (4" 0" [DN 0 0] only) Stainless steel Stainless steel Indicator Pointer 9 (1" 0" Carbon steel [DN 400 0] only) 40 Body Seal PTFE (-1/" 4" [DN 0] standard 1Ls only) or graphite (3" 1" [DN 0 300]) (Fire-Tite) 41 Top Bearing Spacer (-1/" " [DN 0]) PTFE Retaining Ring 47 (-1/" 3" Inconel [DN 900]) 3 4 Cover Plate (14" 0" [DN 30 0] only) Gasket (14" 0" [DN 30 0] only) Cap Screw (14" 0" [DN 30 0] only) Lock Washer (14" 0" [DN 30 0] only) Monel Alloy 0 Stainless steel Monel Stainless steel Stainless steel PTFE or graphite (Fire-Tite) 4 Thrust Bearing Alloy 0 Monel Insert Spring 77 (-1/" 1" Inconel [DN 300] 1Ws) Recommended spare part Monel Monel TECHNICAL BULLETIN 9/1 9
METSO W1-EN Recommended spare part BILLS OF MATERIALS AND PARTS LIST Series 30 Type Type Type Type Part No. Part Name 30_HB 30_71 30_3HB 30_33 F30_HB F30_71 F30_3HB F30_33 Carbon steel 1 Body (3" 1" [DN 0 300]) ASTM A1, Type WCB [14" 4" [DN 30 00]) 31 Stainless steel ASTM A31, Type CFM Insert Carbon steel 31 Stainless steel 3 Disc 31 Stainless steel Monel 31 Stainless steel Alloy 0 4 Shaft 17-4 PH Stainless steel Monel 17-4 PH SS Alloy 0 Seat See page 19 for seat codes Shaft Bearing PTFE composite PTFE composite PTFE composite PTFE composite backed with 31 SS backed with Monel backed with 31 SS backed with Alloy 0 7 Spacer Stainless steel Monel 31 Stainless steel Alloy 0 Shaft Seal See page 19 for seal codes 9 Compression Ring 31 Stainless steel Top Compression Plate Carbon steel 31 Stainless steel 13 Disc Pin Same material as shaft 14 Stud Carbon steel Stainless steel 1 Nut Carbon steel Stainless steel 1 Lock Washer (14" 3" [DN 30 900] only) Carbon steel 17 Name Plate Stainless steel 1 Drive Screw Stainless steel Cap Screw 1 (30L & 14" 4" Stainless steel [DN 30 00] 30W) Indicator Plate (30" 3" Stainless steel [DN 70 900]) 7 9 Drive Screw (30" 3" [DN 70 900]) Indicator Pointer (14" 3" [DN 30 900]) Stainless steel Carbon steel 40 Body Seal PTFE (3" 4" [DN 0 0] standard 30L only) or graphite (3" 1" [DN 0 0] Fire-Tite) 41 Top Bearing Spacer (except 1" [DN 1]) PTFE Bottom Bearing Spacer 43 (14" 1" PTFE [DN 30 400] only) 47 Retaining Ring (3" 4" [DN 0 00] only) Inconel 3 Cover Plate Carbon steel 31 Stainless steel 4 Gasket PTFE or graphite (Fire-Tite) Cap Screw Carbon steel Stainless steel Lock Washer Carbon steel Stainless steel 4 Thrust Bearing 31 Stainless steel Monel 31 Stainless steel Alloy 0 Insert Spring 77 (-1/" 1" Inconel [DN 300] 30W only) TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES DIMENSIONS -1/" 1" (DN 300) Type 1W (Model C) s ANSI Class, Series 1 Wafer Design S X Dia. 40 Fire-Tite s C Y 47 9 7 41 4 4 77 13 E H1 See Page for handles H H3, 4, 14 1 H H7 H 1 17 K G P 3 4 1 77 A B Approximate Dimensions inches inches A B C E G H K P S Blade X Y* lbs.** -1/ 1.94 1.0 4.9.31 7.3 11.00 4.3.1 0.44 0.3 1. 11 3 1.94 1.0.19..00 11.00 4.7 1.44 0.44 0.3.90 13 4.13 1.19.19 3.7.0 11.00. 13.44 0.44 0.3 3.3 1.0 1.19 7.31 4.3. 11.00.31 14. 0.44 0.3 4.3 7. 1.31.0.9 9. 11.00.00 1.13 0.3 0.7.7.0 1.41.3 7.41.3.00 7.3 1. 0.3 0. 7.3 4.1 1.3 1.7 9. 1.1.00 9.13.0 0.1 1.13 9. 7 1 3.19 1. 1.00 11.09 14.13.00. 4. 0.94 1.3 11.37 11 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe. ** s do not include handles. See page for handle weights Approximate Dimensions mm DN A B C E G H K P S Blade X Y* kg ** 49 7 119 9 194 79 111 7 11 1 4 0 49 7 13 73 03 79 11 31 11 1 74 0 4 30 17 9 1 79 133 341 11 1 97 1 4 30 1 111 17 79 13 3 11 1 111 1 7 33 1 14 3 79 1 34 13 19 14 13 00 4 3 70 1 70 9 17 44 1 194 0 0 71 41 34 3 3 9 3 0 1 9 43 3 300 1 4 31 39 9 0 3 4 3 9 1 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe. ** s do not include handles. See page for handle weights TECHNICAL BULLETIN 9/1 11
METSO W1-EN DIMENSIONS (CONTINUED) -1/" 1" (DN 300) Type 1L (Model C) s ANSI Class, Series 1 Single-Flange Lugged Design S X Dia. 4 H H3, 4, 40 Fire-Tite s 47 9 7 41 4 13 H1 See Page for handles 14 1 H H7 H 1 17 K G P 40 C Y E 3 1 D F 3" & 4" (DN 0 & 0) s Only 4 A B L = Nominal Bolt M = Number of Holes 1 Approximate Dimensions inches inches A B C D E F G H K L M P S Blade X Y* lbs.** -1/ 1.94 1.0 4.13.0.31 7.00 7.3 11.00 4.3 /-11 4.1 0.44 0.3 1. 1 3 1.94 1.0.19.00. 7.0.00 11.00 4.7 /-11 4 1.44 0.44 0.3.90 17 4.13 1.19.19 7.0 3.7 9.00.0 11.00. /-11 13.44 0.44 0.3 3.3.0 1.19 7.31.0 4.3.3. 11.00.31 3/4-13.44 0.44 0.3 4.3 40. 1.31.0 9.0.9 11.00 9. 11.00.00 3/4-1.13 0.3 0.7.7 43.0 1.41.3 11.7 7.41 13.0.3.00 7.3 3/4-1. 0.3 0. 7.3 9.1 1.3 1.7 14. 9. 1.00 1.1.00 9.13 7/-9 1.0 0.1 1.13 9. 9 1 3.19 1. 1.00 17.00 11.09 19.00 14.13.00. 7/-9 1 4. 0.94 1.3 11.37 140 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe. ** s do not include handles. See page for handle weights Approximate Dimensions mm DN A B C D E F G H K L M P S Blade X Y* kg ** 49 7 140 9 17 194 79 111 /-11 4 7 11 1 4 7 0 49 7 13 1 73 191 03 79 11 /-11 4 31 11 1 74 0 4 30 17 191 9 9 1 79 133 /-11 341 11 1 97 1 1 4 30 1 1 111 4 17 79 13 3/4-341 11 1 111 1 7 33 1 41 14 79 3 79 1 3/4-34 13 19 14 0 00 4 3 70 9 1 343 70 9 17 3/4-44 1 194 31 0 71 41 34 3 3 40 3 9 3 7/-9 1 0 1 9 43 4 300 1 4 31 43 43 39 9 0 7/-9 1 3 4 3 9 4 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe. ** s do not include handles. See page for handle weights. 1 TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES DIMENSIONS (CONTINUED) 14" 30" (DN 30 70) 1W Wafer-Sphere s ANSI Class, Series 1 Wafer Design S S Fire-Tite s 9 7 X X 4 14 1 47 9 4 7 1 17 1 K G Minimum ID for Disc Clearance Y 4 B A 13 3 4 3 E C 14" (DN 30) 1 L/W ONLY L = Nominal Bolt M = Number of Holes D F 1 1 P Approximate Dimensions inches inches A B C D E F G K L M** P S X Y lbs. 14 3.3.0 1. 1.7 1.3 1. 1.3 1.1 1-1/* 0 7.7 1.13 1.3 1.0 11 1 4.00. 1.0 1. 14. 1.0 1. 13.0 1-1/1* 4 9. 1.3 1. 14.3 3 1 4.0.3 1.00.7 1. 1.00 17. 14.03 1-3/1* 4 31. 1.3.13 1.3 34 0.00.3 3.00.00 17.94 3.00 1.3 14. 1-1/ 4** 33.13 1.3.3 17. 43 4.0 3.00 7. 9.0 1.3 7. 3.91 19. 1-1/4 4** 4.9.00.7 1.34 73 30. 3.44 33.7 3.00 7.3 33.7 7.44.44 1-1/4 4 1.44.00 3.0.00 1309 * Clearance instead of tapped holes ** Each side ANSI B1. requires all bolts 1-1/" (. mm) and larger have an -UN thread series. 14" (DN 30) 1 L/W s have bladed shafts. Approximate Dimensions mm DN A B C D E F G K L M** P S X Y kg 30 9 413 47 314 413 394 309 1-1/* 0 70 9 41 31 400 470 40 33 470 41 33 1-1/1* 4 74 41 4 3 11 40 114 7 33 7 414 33 449 3 1-3/1* 4 0 41 4 41 1 00 17 7 4 3 4 4 47 37 1-1/ 4** 4 41 0 44 199 00 14 7 9 749 49 9 07 490 1-1/4 4** 111 1 70 4 333 70 17 7 7 914 70 7 97 70 1-1/4 4 1307 1 9 711 94 * Clearance instead of tapped holes ** Each side ANSI B1. requires all bolts 1-1/" (. mm) and larger have an -UN thread series. 14" (DN 30) 1 L/W s have bladed shafts. TECHNICAL BULLETIN 9/1 13
METSO W1-EN DIMENSIONS (CONTINUED) 14" 0" (DN 30 0) 1L Wafer-Sphere s ANSI Class, Series 1 Single-Flange Lugged Design Fire-Tite s S 9 7 4 X 14 1 47 9 4 7 X 14" (DN 30) 1 L/W ONLY S 17 1 K G Minimum ID for Disc Clearance Y 4 13 3 E C D F 1 P A B 4 3 L = Nominal Bolt M = Number of Holes 1 Approximate Dimensions inches inches A B C D E F G K L M P S X Y lbs. 14 3 3.3.0 1. 1.7 1.3 1.00 1.3 1.1 1 1 7.7 1.13 1.3 1.0 31 1 4.00. 1.0 1. 14. 3.0 1. 13.0 1 1 9. 1.3 1. 14.3 30 1 4.0.3 1.00.7 1..00 17. 14.03 1-1/ 1 1 31. 1.3.13 1.3 43 0.00.3 3.00.00 17.94 7.0 1.3 14. 1-1/ 1 0 33.13 1.3.3 17. 9 4.0 3.00 7. 9.0 1.3 3.00 3.91 19. 1-1/4 1 0 4.9.00.7 1.34 94 30. 3.44 33.7 3.00 7.3 3.7 7.44.44 1-1/4 1 1.44.00 3.0.00 134 3 7. 3.3 40. 4.7 34. 4.00 31..00 1-1/ 1 3.3.00 4.00 34.0 1 4.7 4.0 47.00 49.0 40.00 3.00 40. 9.00 1-1/ 1 3.13 4.00 Dia.00 40.3 300 4.00.13 3.0.00 4.00 9.0 44.0 33. 1-1/ 1 44 7..00 Dia.0 4.19 400 4.0. 9.0.7.31.3 49.13 37.0 1-3/4 1 44.7.00 Dia.00.0 00 0 11.00.7.00 9. 7.94 73.00 4.7 41.13 1-3/4 1 9.3.00 Dia.0 7.1 7000 Approximate Dimensions mm DN A B C D E F G K L M P S X Y kg 30 3 9 413 47 314 33 394 309 1 1 70 4 41 31 400 470 40 33 97 41 33 1 1 74 41 4 3 13 40 114 7 33 7 414 3 449 3 1-1/ 1 1 0 41 4 41 0 00 17 7 4 3 4 99 47 37 1-1/ 1 0 4 41 0 44 70 00 14 7 9 749 49 13 07 490 1-1/4 1 0 111 1 70 4 437 70 17 7 7 914 70 94 97 70 1-1/4 1 1307 1 9 711 741 900 14 9 794 0 1-1/ 1 3 143 1 7 119 0 114 1194 17 1 134 7 737 1-1/ 1 3 1731 Dia 17 174 100 4 130 139 14 11 111 1130 4 1-1/ 1 44 193 17 Dia 140 1173 177 130 7 133 111 194 139 1 14 93 1-3/4 1 44 17 1 Dia 1 13 31 0 79 14 17 179 147 14 1391 4 1-3/4 1 43 1 Dia 1 14 317 1 ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. 4" 0" (DN 0 0) 1Ls have keyed shafts 3 14" (DN 30) 1 L/W s have bladed shafts. 14 TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES DIMENSIONS (CONTINUED) 3" 1" (DN 0 300) 30W Wafer-Sphere s ANSI Class 300, Series 30 Wafer Design H H3, 4, H H1 X Dia. H7 H S See Page for handles 1 17 L = Thread Thru M = Number of Holes D E 14 1 K G 77 P 40 Fire-Tite s C Y 9 7 41 4 4 4 47 13 3 B A 1 Approximate Dimensions inches inches A B C D E G H K L M P S X Y* lbs. ** 3 1.94 1.0.19..00 11.00 4.7 1.44 0.44 0.3.90 13 4.13 1.19.19 3.7.0 11.00. 13.44 0.44 0.3 3.3 1.31 1.34.0.9.13.00. 1. 0.3 0..7 3. 1..3 7.41 1.0.00.3 19.0 0.1 1.13 7.3 0 3. 1.7 1.7 1. 9. 13..00.00 1 4 3.31 0.94 1.3 9. 1 3.3 1.97 1.00 17.7 11.09 1.31 11.13 1-1/ 4. 1.13 1.3 11.37 14 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe. ** s do not include handles. See page for handle weights ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. Approximate Dimensions mm DN A B C D E G H K L M P S X Y* kg ** 0 49 7 13 73 03 79 11 31 11 1 74 0 4 30 17 9 1 79 133 341 11 1 97 9 34 1 14 7 9 17 413 1 14 1 00 73 40 70 1 30 9 13 49 1 9 194 7 0 3 44 34 37 3 33 9 4 1 4 9 4 3 43 4 300 9 0 31 41 39 3 1-1/ 4 7 9 41 9 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe. ** s do not include handles. See page for handle weights ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. TECHNICAL BULLETIN 9/1 1
METSO W1-EN DIMENSIONS (CONTINUED) 3" 1" (DN 0 300) Type 30L Wafer-Sphere s ANSI Class 300, Series 30 Single Flange Lugged Design H H3, 4, H H7 H1 X Dia. H S See Page for handles 1 17 F E D 14 1 G K P 40 40 Fire-Tite s C 9 7 41 4 Y 4 47 13 3 L = Thread Thru M = Number of Holes 1 3" & 4" (DN 0 & 0) s Only 4 B A 1 Approximate Dimensions inches inches A B C D E F G H K L M P S X Y* lbs.** -1/ 1.94 1.0 4.13..3 7.0 7.3 11.00 4.3 3/4 11.19 0.44 0.3 1. 1 3 1.94 1.0.19.3..13.00 11.00 4.7 3/4 1.44 0.44 0.3.90 0 4.13 1.19.19 7. 3.7 9.3.0 11.00. 3/4 13.44 0.44 0.3 3.3 9.0 1.31 7.31 9. 4.3.97 9. 11.00.03 3/4 14. 0.3 0.7 4.3 41.31 1.34.0.3.9 1.13.13.00. 3/4 1 1. 0.3 0..7. 1..3 13.00 7.41 1.00 1.0.00.3 7/ 9 1 19.0 0.1 1.13 7.3 9 3. 1.7 1.7 1. 9. 17.0 13..00.00 1 1 3.31 0.94 1.3 9. 1 3.3 1.97 1.00 17.7 11.09 0. 1.31 11.13 1-1/ 1. 1.13 1.3 11.37 0 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe ** s do not include handles. See page for handle weights ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. Approximate Dimensions mm DN A B C D E F G H K L M P S X Y* kg ** 49 7 149 0 191 194 79 111 3/4 4 11 1 4 7 0 49 7 13 1 73 07 03 79 11 3/4 31 11 1 74 9 0 4 30 17 00 9 3 1 79 133 3/4 341 11 1 97 13 1 4 33 1 3 111 79 3 79 13 3/4 3 13 19 111 19 9 34 1 70 14 30 7 9 17 3/4 1 413 1 14 4 00 73 40 70 330 1 31 30 9 13 7/ 9 1 49 1 9 194 4 0 3 44 34 37 3 44 33 9 4 1 1 9 4 3 43 73 300 9 0 31 41 14 39 3 1-1/ 1 7 9 41 9 0 * Conforms to API 09 and MSS-SP requirements for minimum clearances of pipe inside diameters for Schedule 0 pipe ** s do not include handles. See page for handle weights ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. 1 TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES DIMENSIONS (CONTINUED) 14" 4" (DN 30 00) 30W Wafer-Sphere s ANSI Class 300, Series 30 Wafer Design S 9 7 4 X 17 1 K G 1 14 1 9 7 41 4 D F E 1 P C E 3 13 Minimum ID Y for Disc Clearance L = Nominal Bolt M = Number of Holes 4 3 1 43 4 3 B A 4 Approximate Dimensions inches inches A B C D E F G K L M P S X Y lbs. 14 4.3.31 1. 0. 1.3 1. 1.43 1.0 1-1/ 4.7 1.3.13 11.7 3 1..44 1.0.0 14.31 1.0 17.31 13.0 1-1/4 4 30.7 1.3.13 13.3 49 1..94 1.00 4.7 1. 1.00 1.34 1.71 1-1/4 4 37.0.00.7 1.44 71 0.3 3.19 3.00 7.00 17.91 3.00. 17. 1-1/4 4 39.9.00 3.0 17.0 9 4 7. 3.3 7. 3.00 1.3 7. 4.9 19.71 1-1/ 4 44.93.00 4.00 0.3 1,390 ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. Approximate Dimensions mm DN A B C D E F G K L M P S X Y kg 30 11 9 413 14 314 413 417 3 1-1/ 4 730 41 4 9 17 400 133 470 7 33 470 440 31 1-1/4 4 71 41 4 34 19 40 149 7 33 9 414 33 4 44 1-1/4 4 90 1 70 39 34 00 1 1 4 4 4 74 447 1-1/4 4 1 1 9 433 40 00 14 9 9 13 49 9 34 01 1-1/ 4 1141 1 4 31 ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. TECHNICAL BULLETIN 9/1 17
METSO W1-EN DIMENSIONS (CONTINUED) 14" 3" (DN 30 900) 30L Wafer-Sphere s ANSI Class 300, Series 30 Single Flange Lugged Design 7 S 9 Items & 7 on 30" to 3" (DN 70 900) valves only 4 X 17 1 K G 41 1 14 1 9 7 4 D E F P C E 3 13 Y Minimum ID for Disc Clearance 1 L = Nominal Bolt M = Number of Holes 4 3 1 43 4 3 B A 4 Approximate Dimensions inches inches A B C D E F G K L M P S X Y lbs. 14 4.3.31 1. 0. 1.3 3.00 1.43 1.0 1-1/ 0.7 1.3.13 11.7 7 1..44 1.0.0 14.31.0 17.31 13.0 1-1/4 0 30.7 1.3.13 13.3 74 1..94 1.00 4.7 1..00 1.34 1.71 1-1/4 4 37.0.00.7 1.44 1,1 0.3 3.19 3.00 7.00 17.91 30.0. 17. 1-1/4 4 39.9.00 3.0 17.0 1,4 4 7. 3.3 7. 3.00 1.3 3.00 4.9 19.71 1-1/ 4 44.93.00 4.00 0.3,170 30.7.3 33.7 39. 7.9 43.00 3.31. 1-3/4 1.00 3.0 Dia.*.0.7,00 3 11..3 40. 4.00 34. 0.00 41.44 30.1 3 71.0 4.00 Dia.*.00 3.00 3,400 ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. * 30" and 3" (DN 0 900) 30Ls have keyed shaft. Approximate Dimensions mm DN A B C D E F G K L M P S X Y kg 30 11 9 413 14 314 4 417 3 1-1/ 0 730 41 4 9 3 400 133 470 7 33 4 440 31 1-1/4 0 71 41 4 34 3 40 149 7 33 9 414 711 4 44 1-1/4 4 90 1 70 39 03 00 1 1 4 4 77 74 447 1-1/4 4 1 1 9 433 4 00 14 9 9 13 49 914 34 01 1-1/ 4 1141 1 4 94 70 73 137 7 997 703 9 9 4 1-3/4 149 9 Dia.* 140 730 170 900 143 11 170 3 73 3 14 Dia.* 1 9 14 ANSI B1. requires all bolts 1-1/" (. mm) and larger have -UN thread series. * 30" and 3" (DN 0 900) 30Ls have keyed shaft. 1 TECHNICAL BULLETIN 9/1
W1-EN SERIES 1 ANSI CLASS AND SERIES 30 ANSI CLASS 300 WAFER-SPHERE HIGH PERFORMANCE BUTTERFLY VALVES HOW TO ORDER SERIES 1 AND 30 WAFER-SPHERE VALVES These Wafer-Sphere valves are described by size and alpha-numeric code that defines body configuration, body, disc, shaft, seat, seal materials, and with options to denote special service and modifiers. Explanation of the code for valves in this bulletin is as follows: 1 3 4 7 9 " 1 L DL 11 71 XZ QY EXAMPLE: The figure designation for a " ASME/ANSI Class single-flange lug-design valve, with double packing, monitoring port, carbon steel body, Monel disc and shaft, filled Xtreme seat, Carbon-filled enhanced PTFE shaft seal, and live-loaded shaft seals, is: " 1L DL-11-71XZ-QY. 1-1/" 0" See page 1 for specific availability (DN 0) Pressure Class 1 Standard ANSI Class F1 Fire-Tite ANSI Class 1 Standard ANSI Class w/ce Marking and Documentation F1 Fire-Tite ANSI Class w/ce Marking and Documentation 30 Standard ANSI Class 300 F30 Fire-Tite ANSI Class 300 3 Standard ANSI Class 300 w/ce Marking and Documentation F3 Fire-Tite ANSI Class 300 w/ce Marking and Documentation 3 Body Style W Wafer L 4 Special Service C Chlorine O H HV HVC D DL N Single-flange lugged Oxygen Hard-coated disc High vacuum High vacuum certified Double packing Double packing with monitoring port NACE MR03 Seat Type 11 Standard (non Fire-Tite) 31 Standard (Fire-Tite) Body Material 1 Carbon steel 3 Alloy 0 3 1 31 Stainless steel 37 1 317 Stainless steel 71 1 Monel 73 Hastelloy C 7 Disc & Shaft Material 00,4 Same as body material HB 1 31 Stainless steel disc, 17-4 PH shaft 3 Alloy 0 disc and shaft 3 31 Stainless steel disc and shaft 37 317 Stainless steel 71 1 Monel disc and shaft 73 Hastelloy C disc and shaft Seat & Seal Material TT PTFE seat and seal Standard MT Filled PTFE seat, PTFE seal UU XZ AE AF AH XE XF XH UHMW polyethylene seat and seal Xtreme seat & carbon-filled enhanced PTFE seal Fire-Tite PTFE/Stainless steel seat, graphite seal PTFE/Alloy 0 seat, graphite seal PTFE/Monel seat, graphite seal Xtreme/Stainless steel seat, graphite seal Xtreme/Alloy 0 seat, graphite seal Xtreme/Monel seat, graphite seal 9 Modifier Code Standard QY MM 3 Live-loaded packing Composite shaft bearings, Filled PEEK thrust bearings and excluder rings (High Cycle Construction) For other, please describe. Factory will supply code. Hastelloy is a registered trademark of Haynes International, Inc Monel is a registered trademark of INCO Alloys International, Inc. 1 Material meets NACE MR03 requirements for sour environments. For valves to be in full compliance with NACE MR03, both the body (sign #) and trim (sign #7) must meet the NACE MR03 requirement. s with the Disc & Shaft Material Code 00 (sign #7) meet the NACE MR03 requirement for sour environments if the body code (sign #) is 71. 3 Modifier code MM requires seat & seal material XZ. 4 Not available with body material. Non-standard seat offering replaced by Xtreme Seat (XZ) offering. Consult factory regarding other materials of construction that are not listed. TECHNICAL BULLETIN 9/1 19
STANDARDS AND SPECIFICATIONS Series 1 & 30 valves covered in this bulletin are available to conform to the following industry standards and specifications. The Company ISO 9001 000 ANSI//ASQ Q9001 000 Pressure Equipment Directive 97/3/EC The Product - Standard API 07 American Petroleum Institute - Fire Test for Soft Seated s (Division of refining) BS 7 British Standard Testing of valves Part. Specification for fire type-testing requirements ANSI/ASME B1. American National Standard - Face-to-Face and End-to-End Dimensions of Ferrous s 3" 4" only, -1/" and " and not defined in ASME B1. ANSI/ASME B1. American National Standard - Steel Pipe Flanges and Flanged Fittings 3" 4" only ANSI/ASME B1.47 American National Standard - Large Diameter Steel Flanges NPS through NPS 0 ANSI/ASME B1.34 American National Standard - Steel s - Flanged and Buttwelded End ANSI/ASME B31.1 American National Standard - Power Piping ANSI/ASME B31.3 American National Standard - Chemical Plant and Petroleum Refinery Piping ANSI/ASME B31.4 American National Standard - Liquid Transportation Systems for Hydrocarbons (Liquid Petroleum Gas), Anhydrous Ammonia, and Alcohols ANSI/ASME B31. American National Standard - Gas Transmission and Distribution Piping Systems ANSI/FCI 70--1991 American National Standard - For Control Seat Leakage ISA 7.0 Sizing Coefficient C v, Piping Geometry Factor Fp and Pressure Drop Limitation XT MSS SP- Manufacturers Standardization Society - Standard Marking System for s MSS-SP-44 Steel Pipe Line Flanges MSS-SP- Manufacturers Standardization Society - Quality Standards for Steel Castings MSS-SP-1 Pressure Testing of Steel s MSS SP-9 Terminology for s and Fittings The Product - Optional API 9 American Petroleum Institute - Inspection and Testing API 09 American Petroleum Institute - Butterfly s: Double Flanged, Lug- and Wafer-Type 3" 4" only, -1/" and " and not defined in API 09. Requires API 9 testing. MSS SP- Manufacturers Standardization Society - High Pressure Butterfly s with Offset Design. Requires API 9 testing. 97 / 3 / EC Pressure Equipment Directive - See How to Order Section MSS SP-3 Quality Standard For Steel Castings and Forgings for s, Flanges and Fittings and Other Piping Components - Magnetic Particle Examination Method MSS SP-4 Quality Standard For Steel Castings for s, Flanges and Fittings and Other Piping Components - Radiographic Examination Method MSS SP-93 Quality Standard For Steel Castings and Forgings for s, Flanges and Fittings and Other Piping Components - Liquid Penetrant Method NACE Standard MR03 National Association of Corrosion Engineers - Engineers - Materials Resistant to Sulfide Stress Cracking in Corrosive Petroleum Refining Environments Subject to change without prior notice. Metso Flow Control Inc. Europe, Vanha Porvoontie 9, P.O. Box 304, FI-01301 Vantaa, Finland. Tel. +3 0 43. Fax +3 0 43 11 North America, 44 Bowditch Drive, P.O. Box 044, Shrewsbury, MA 014, USA. Tel. +1 0 000. Fax +1 0 17 South America, Av. Independéncia, 00- Iporanga, 7-1, Sorocaba-São Paulo Brazil. Tel. + 1 9700. Fax + 1 974/49 Asia Pacific, Haw Par Centre #0-01, Clemenceau Avenue, Singapore 399. Tel. + 11 11. Fax + 0 030 China, 11/F, China Youth Plaza, No.19 North Rd of East 3rd Ring Rd, Chaoyang District, Beijing 000, China. Tel. + 00. Fax + 3. Middle East, Roundabout, Unit AB-07, P.O. Box 1717, Jebel Ali Freezone, Dubai, United Arab Emirates. Tel. +971 4 3 974. Fax +971 4 3 3 www.metso.com/valves Distributed by: collinspipe.com