CCI 100 DPC DRAG Wellhead Production Choke Valve

CCI 100 DPC DRAG Wellhead Production Choke Valve

2 Severe service DRAG choke valve delivers precise wellhead pressure control with superior reliability and life. Improves well production time Enhances control at wellhead Reduces costs associated with maintenance and repair Improves ability to accommodate changes in well operating conditions Enhances the safety and reliability of production facilities DRAG Technology for Severe Service Choke Valves Today s gas field environment means higher wellhead pressures with aggressive fluids with entrained sand and other solid particles. A conventional single stage choke valve is not suitable for this kind of severe service. The need to maintain production rates means that frequent choke repair or replacement is no longer acceptable. CCI has responded to this need by developing the world s first true severe service choke valve. CCI has been solving severe service control valve problems in the oil and gas industry for over 30 years. The CCI severe service choke uses a combination of proven DRAG velocity control technology and the best grades of tungsten carbide material used in the industry to provide long trim life and precise process control. Typical Conventional Valve Problems Solved by DRAG Technology Requirement Conventional Choke Valve Root Cause(s) Figure 1: Exploded view of DRAG choke disks showing flow path Operation at high pressure differentials for extended periods of time. Improved control at wellhead. Improved resistance to erosion due to sand and other particulate matter entrained in fluids. Ability to accommodate significant changes in well operating conditions over time. Safety and reliability for increasingly demanding and challenging environments. Production time significantly reduced due to frequent repair or replacement of trims and/or bodies. Inability to precisely control pressure and/ or flow. Production time significantly reduced due to frequent repair or replacement of trims and/or bodies. Replace existing valve to address new well operating conditions. Operation of facility and health of employees compromised due to rapid erosion to pressure boundary parts, severe mechanical vibration and excessive noise. Inadequate control of fluid velocities resulting in rapid damage to trim components. Poor rangeability inherent to design. Inadequate control of fluid velocities resulting in high erosion rates and rapid damage to control surfaces of trim components. Inadequate control of fluid velocities resulting in high erosion rates and rapid damage to trim components. Poor material selection. Poor rangeability. Inability to significantly modify existing valve. Inadequate control of fluid velocities.

Highly flexible configuration allows for future depleted well conditions. 3 P1 Velocity/Energy Limit V1 Figure 2: Multi-stage letdown P Ve oc t ner t V Vvc n cce t le cce t le vc = vena contracta nacce ta e cce ta e P V P V Proven DRAG Technology for Effective Control of Fluid Velocities CCI s DRAG disk stack controls flowing velocities throughout the valve trim by forcing the process fluid to follow a tortuous path of right angle turns. The resistance to flow provided by these turns (or stages) limits the trim exit velocity to a safe level, regardless of the pressure drop. The DRAG choke valve eliminates problems resulting from excessive fluid velocities such as trim and body erosion, noise, vibration and poor process control. The fluid velocities within the trim of CCI choke valves are typically 1/3 to 1/4 that of conventional single stage chokes. Velocity control protects the trim from erosion and increases the trim life many fold. Table 1: Comparison of energy at trim exit for gases and liquids multi-stage vs. single-stage Gas - Velocity Head kpa (psi) Liquid - Velocity Head meter/sec (ft/sec) Pvc P Bar (psi) 6 Stages 1 Stage 6 Stages 1 Stage Figure 3: Single-stage letdown Figure 4: DRAG high capacity hybrid trim (cage and disk stack) Figure 5: DRAG total velocity trim (full disk stack) 400 (5800) 6400 (933) 25200 (3675) 71 (233) 280 (918) 200 (2900) 1600 (233) 2 (3135) 50 (164) 197 (646) 100 (1450) 700 (102) 10700 (1560) 35 (115) 138 (453) The rate of erosion has been shown to be proportional to the velocity of the fluid by the third to fifth power, which suggests that the erosion rate would be reduced by eight times if the fluid velocity is reduced by half based on a proportionality to the third power. Proven Materials of Construction for Superior Wear Resistance CCI chokes utilize solid tungsten carbide trim. The plug is solid tungsten carbide, not just carbide tipped. The disk stack provides for multi-stage letdown and is made from solid tungsten carbide, an industry first. The seat ring is provided with a tungsten carbide venturi, allowing for a controlled, erosion resistant expansion into the choke outlet and downstream piping. Proven Engineered Solutions for Maximum Design Flexibility The CCI 100DPC Production Choke Valve is designed to accommodate a variety of trim sizes and throttling elements (i.e. disk stacks and cages) in order to accommodate changes to well operating conditions that will occur over time. Instead of having to purchase an entirely new valve, CCI can simply re-fit the existing valve with an appropriate trim set that will properly address the new operating conditions.

4 CCI DRAG choke features ensure extended operating life. Seals, Gaskets & Stem Packing materials selected are explosive decompression resistant Bolted Bonnet Easy Maintenance Solid Tungsten Carbide Plug Dual Body Seals For high integrity toxic services Solid tungsten carbide eliminates galling Excellent erosion resistance Large balance holes will not clog Pressure Balancing Seals Reduces actuator/handwheel force Provided with dual wiper rings to keep solids out of sealing areas DRAG Disk Stack Up to six stages of velocxity control Solid Tungsten Carbide Disk Stack Solid tungsten carbide for erosion resistance Multi-step letdown to control velocity, erosion and noise Large flow passages, easily handle solids and dirty fluids Solid Tungsten Carbide Venturi Seat Solid tungsten carbide venturi seat in high turbulence zones Venturi seat transition flows smoothly into valve outlet and piping

Use this checklist to evaluate the benefits of the CCI severe service choke valve. 5 Benefits CCI 100DPC DRAG Choke Valve Competitors 1 Solid tungsten carbide plug, seat and disk stack eliminates erosion and galling and extends performance life for maximum productivity. 2 Large flow passages to easily handle solids means continued reliable performance. 3 Multi-step letdown to control velocity, erosion, noise, and vibration for minimum down time and safety. 4 Increased rangeability due to a longer stroke means superior performance and control. 5 Dual scrapers prevent solids from entering sealing areas for reduced maintenance. 6 Venturi seat transition assures smooth flow into valve outlet and piping for problems downstream. 7 Easy maintenance, quick-change trim means no trim parts are welded or screwed into the body. 8 One choke body can handle changing wellhead conditions by swapping trim for less down time. 9 Up to 6 stages of DRAG velocity control ( with total velocity control trim disk stack.) 10 All trim seals are PTFE. PTFE is explosive decompression resistant.

6 Technical specifications and materials. 6 2 8 Table 2: Materials Component Item No. Standard NACE MR0175-2002 NACE MR0103-2005 NACE MR0175-2005 /ISO 15156-2 2003 /Cor.2.2005 (see Note 4) Comments 5 3 Body 1 Bonnet 2 ASTM A958-SC4130 ASTM A352-LCB ASTM A216-WCC A995-4A (Duplex) AISI 4130 F51/S31803 A350-LF2 ASTM A958-SC4130 ASTM A352-LCB ASTM A216-WCC A995-4A (Duplex) AISI 4130 F51/S31803 A350-LF2 See Note 1 4 Disk Stack 3 Solid Tungsten Carbide Solid Tungsten Carbide 1 Seat Housing/ Insert 4 17-4/Solid Tungsten Carbide Inconel 718/Solid Tungsten Carbide Plug 5 Solid Tungsten Carbide Solid Tungsten Carbide 7 Stem 6 17-4PH Inconel 718 See Note 2 Note: Valve body material is cast as standard. Forged bodies with weld on flanges are available. Consult factory for options. Seals 7 PTFE PTFE Body to Bonnet Seal 8 17-4PH Inconel 625 Table 3: Performance Data Component Specifications/Options Available Pressure Rating ANSI -, API - Actuator Type Standard Quality Level Optional Quality Levels Standard Temperature Ratings Valve Characteristics Standard Shut-Off Class Figure 6: Pneumatic Diaphragm Optional Shut-Off Class Figure 7: Handwheel Actuator (1) ASTM A958-SC4130, A352-LCB, and A216-WCC are available with or without an Inconel 625 inlay for corrision resistance. (2) Inconel 718 is selected for stem material when API material classes FF or HH is specified. (3) Seals are Explosive Decompression Resistant. (4) Certification to NACE is dependant on fluid composition and temperature. Manual handwheel, pneumatic diaphragm or piston, pneumatic stepper, electric, hydraulic API 6A PSL1 PSL2 and 3 and NACE MR0175-50 to +250 degf (-45 to +121 degc) (API 6A temperature classifications L, P, R, S, T, U) Modified equal percent ANSI/FCI Class IV ANSI/Class V Figure 8: Pneumatic Piston Figure 9: Stepper Motor Actuator

CCI DRAG choke trim provides performance and reliability regardless of your wellhead life cycle. 7 Table 4: Cv, Stroke, and End Connections DRAG High Capacity Hybrid Trim (Cage and Disk Stack) Trim Rated Cv Body Rating ANSI Standard End Connections s for Specified Trims (See Note 1) Body Rating ANSI Body Rating API Body Rating API DRAG Total Velocity Control Trim (Full Disk Stack)) Trim Rated Cv Stroke Length (inches) 1.0 18 1 1/2, 2, 3 1 1/2, 2, 3 2 1/16, 2 9/16, 3 1/8 1 13/16, 2 1/16, 2 9/16, 3 1/16 1.0 9 1.5 1.75 50 3, 4 3, 4 2 9/16, 3 1/8, 4 1/16 2 9/16, 3 1/16, 4 1/16 1.75 24 2.5 2.5 100 4, 6 4, 6 3 1/8, 4 1/16, 5 1/8 3 1/16, 4 1/16, 5 1/8 2.5 31 2.5 3.25 160 4, 6 4, 6 4 1/16, 5 1/8, 7 1/16 4 1/16, 5 1/8, 7 1/16 3.25 50 3.5 4.0 250 6, 8 6, 8 5 1/8, 7 1/16, 9 5 1/8, 7 1/16, 9 4.0 60 3.5 5.0 335 6, 8, 10 6, 8, 10 7 1/16, 9 7 1/16, 9 5.0 105 4.5 (1) Type of end connections include through-hole flanges and hubs (2) For optional sizes and pressure ratings consult factory. Figure 10: DRAG high capacity hybrid trim (cage and disk stack) (1) Type of end connections include through-hole flanges and hubs Figure 11: DRAG total velocity control trim (full disk stack)

8 Technical specifications and materials. B INLET OUTLET A Table 5: Face to Face Dimensions Trim ANSI Class Inlet x Outlet Centerline to Inlet Face Dim A Centerline to Outlet Face Dim B RF RTJ RF RTJ 1 1.75 2.5 3.25 4 5 1.5x1.5 8.00 in (203 mm) 8.00 in (203 mm) 8.00 in (203 mm) 8.00 in (203 mm) 1.5x2 8.00 in (203 mm) 8.00 in (203 mm) 8.75 in (222 mm) 8.81 in (224 mm) 2x2 8.75 in (222 mm) 8.81 in (224 mm) 8.75 in (222 mm) 8.81 in (224 mm) 2x3 8.75 in (222 mm) 8.81 in (224 mm) 9.38 in (238 mm) 9.44 in (240 mm) 3x3 9.38 in (238 mm) 9.44 in (240 mm) 9.38 in (238 mm) 9.44 in (240 mm) 1.5x1.5 9.13 in (232 mm) 9.19 in (233 mm) 9.13 in (232 mm) 9.19 in (233 mm) 1.5x2 9.13 in (232 mm) 9.19 in (233 mm) 9.75 in (248 mm) 9.81 in (249 mm) 2x2 9.75 in (248 mm) 9.81 in (249 mm) 9.75 in (248 mm) 9.81 in (249 mm) 2x3 9.75 in (248 mm) 9.81 in (249 mm) 11.38 in (289 mm) 11.50 in (292 mm) 3x3 11.38 in (289 mm) 11.50 in (292 mm) 11.38 in (289 mm) 11.50 in (292 mm) 3 x 3 10.12 in (257 mm) 10.19 in (259 mm) 10.12 in (257 mm) 10.19 in (259 mm) 3 x 4 10.12 in (257 mm) 10.19 in (259 mm) 10.38 in (264 mm) 10.44 in (265 mm) 4 x 4 10.38 in (264 mm) 10.44 in (265 mm) 10.38 in (264 mm) 10.44 in (265 mm) 3 x 3 12.12 in (308 mm) 12.25 in (311 mm) 12.12 in (308 mm) 12.25 in (311 mm) 3 x 4 12.12 in (308 mm) 12.25 in (311 mm) 13.00in (330 mm) 13.19 in (335 mm) 4 x 4 13.00 in (330 mm) 13.19 in (335 mm) 13.00in (330 mm) 13.19 in (335 mm) 4 x 4 11.62 in (295 mm) 11.69 in (297 mm) 11.62 in (295 mm) 11.69 in (297 mm) 4 x 6 11.62 in (295 mm) 11.69 in (297 mm) 13.50 in (343 mm) 13.62 in (346 mm) 6 x 6 13.50 in (343 mm) 13.62 in (346 mm) 13.50 in (343 mm) 13.62 in (346 mm) 4 x 4 14.25 in (362 mm) 14.44 in (366 mm) 14.25 in (362 mm) 14.44 in (366 mm) 4 x 6 14.25 in (362 mm) 14.44 in (366 mm) 17.50 in (445 mm) 17.75 in (451 mm) 6 x 6 17.50 in (445 mm) 17.75 in (451 mm) 17.50 in (445 mm) 17.75 in (451 mm) 4 x 4 11.62 in (295 mm) 11.69 in (297 mm) 11.62 in (295 mm) 11.69 in (297 mm) 4 x 6 11.62 in (295 mm) 11.69 in (297 mm) 13.50 in (343 mm) 13.62 in (346 mm) 6 x 6 13.50 in (343 mm) 13.62 in (346 mm) 13.50 in (343 mm) 13.62 in (346 mm) 4 x 4 14.25 in (362 mm) 14.44 in (366 mm) 14.25 in (362 mm) 14.44 in (366 mm) 4 x 6 14.25 in (362 mm) 14.44 in (366 mm) 17.50 in (445 mm) 17.75 in (451 mm) 6 x 6 17.50 in (445 mm) 17.75 in (451 mm) 17.50 in (445 mm) 17.75 in (451 mm) 6 x 6 14.50 in (368 mm) 14.62 in (371 mm) 14.50 in (368 mm) 14.62 in (371 mm) 6 x 8 14.50 in (368 mm) 14.62 in (371 mm) 18.12 in (460 mm) 18.31 in (465 mm) 8 x 8 18.12 in (460 mm) 18.31 in (465 mm) 18.12 in (460 mm) 18.31 in (465 mm) 6 x 6 18.50 in (470 mm) 18.75 in (476 mm) 18.50 in (470 mm) 18.75 in (476 mm) 6 x 8 18.50 in (470 mm) 18.75 in (476 mm) 22.25 in (565 mm) 22.56 in (573mm) 8 x 8 22.25 in (565 mm) 22.56 in (573 mm) 22.25 in (565 mm) 22.56 in (573mm) 6 x 6 16.50 in (419 mm) 16.62 in (422 mm) 16.50 in (419 mm) 16.62 in (422 mm) 6 x 8 16.50 in (419 mm) 16.62 in (422 mm) 18.12 in (460 mm) 18.31 in (465 mm) 8 x 8 18.12 in (460 mm) 18.31 in (465 mm) 18.12 in (460 mm) 18.31 in (465 mm) 8 x 10 18.12 in (460 mm) 18.31 in (465 mm) 21.50 in (546 mm) 21.69 in (551 mm) 10 x 10 21.50 in (546 mm) 21.69 in (551 mm) 21.50 in (546 mm) 21.69 in (551 mm) 6 x 6 20.50 in (521 mm) 20.75 in (527 mm) 20.50 in (521 mm) 20.75 in (527 mm) 6 x 8 20.50 in (521 mm) 20.75 in (527 mm) 22.25 in (565 mm) 22.56 in (573mm) 8 x 8 22.25 in (565 mm) 22.56 in (573mm) 22.25 in (565 mm) 22.56 in (573mm) 8 x 10 22.25 in (565 mm) 22.56 in (573mm) 28.00 in (711 mm) 28.44 in (722 mm) 10 x 10 28.00 in (711 mm) 28.44 in (722 mm) 28.00 in (711 mm) 28.44 in (722 mm)

Technical specifications and materials. 9 Table 5: Face to Face Dimensions (continued) Trim 1 1.75 2.5 3.25 4 5 API Class Centerline to Inlet Face Centerline to Outlet Face Inlet x Outlet Dim A Dim B 6B 6BX 6B 6BX 2 1/16 x 2 1/16 8.81 in (224 mm) - 8.81 in (224 mm) - 2 1/16 x 2 9/16 8.81 in (224 mm) - 8.94 in (227 mm) - 2 9/16 x 2 9/16 8.94 in (227 mm) - 8.94 in (227 mm) - 2 9/16 x 3 1/8 8.94 in (227 mm) - 9.44 in (240 mm) - 3 1/8 x 3 1/8 9.44 in (240 mm) - 9.44 in (240 mm) - 1 13/16 x 1 13/16-8.25 in (210 mm) - 8.25 in (210 mm) 1 13/16 x 2 1/16-8.25 in (210 mm) - 8.81 in (224 mm) 2 1/16 x 2 1/16-8.81 in (224 mm) - 8.81 in (224 mm) 2 1/16 x 2 9/16-8.81 in (224 mm) - 9.38 in (238 mm) 2 9/16 x 2 9/16-9.38 in (238 mm) - 9.38 in (238 mm) 2 9/16 x 3 1/16-9.38 in (238 mm) - 10.75 in (273 mm) 3 1/16 x 3 1/16-10.75 in (273 mm) - 10.75 in (273 mm) 2 9/16 x 2 9/16 9.69 in (246 mm) - 9.69 in (246 mm) - 2 9/16 x 3 1/8 9.69 in (246 mm) - 10.19 in (259 mm) - 3 1/8 x 3 1/8 10.19 in (259 mm) - 10.19 in (259 mm) - 3 1/8 x 4 1/16 10.19 in (259 mm) - 10.44 in (265 mm) - 4 1/16 x 4 1/16 10.44 in (265 mm) - 10.44 in (265 mm) - 2 9/16 x 2 9/16-11.38 in (289 mm) - 11.38 in (289 mm) 2 9/16 x 3 1/16-11.38 in (289 mm) - 12.00 in (305 mm) 3 1/16 x 3 1/16-12.00 in (305 mm) - 12.00 in (305 mm) 3 1/16 x 4 1/16-12.00 in (305 mm) - 13.00 in (330 mm) 4 1/16 x 4 1/16-13.00 in (330 mm) - 13.00 in (330 mm) 3 1/8 x 3 1/8 10.19 in (259 mm) - 10.19 in (259 mm) - 3 1/8 x 4 1/16 10.19 in (259 mm) - 11.69 in (297 mm) - 4 1/16 x 4 1/16 11.69 in (297 mm) - 11.69 in (297 mm) - 4 1/16 x 5 1/8 11.69 in (297 mm) - 12.94 in (329 mm) - 5 1/8 x 5 1/8 12.94 in (329 mm) - 12.94 in (329 mm) - 3 1/16 x 3 1/16-12.00 in (305 mm) - 12.00 in (305 mm) 3 1/16 x 4 1/16-12.00 in (305 mm) - 13.00 in (330 mm) 4 1/16 x 4 1/16-13.00 in (330 mm) - 13.00 in (330 mm) 4 1/16 x 5 1/8-13.00 in (330 mm) - 14.81 in (376 mm) 5 1/8 x 5 1/8-14.81 in (376 mm) - 14.81 in (376 mm) 4 1/16 x 4 1/16 11.69 in (297 mm) - 11.69 in (297 mm) - 4 1/16 x 5 1/8 11.69 in (297 mm) - 12.94 in (329 mm) - 5 1/8 x 5 1/8 12.94 in (329 mm) - 12.94 in (329 mm) - 5 1/8 x 7 1/16 12.94 in (329 mm) - 13.62 in (346 mm) - 7 1/16 x 7 1/16 13.62 in (346 mm) - 13.62 in (346 mm) - 4 1/16 x 4 1/16-14.00 in (356 mm) - 14.00 in (356 mm) 4 1/16 x 5 1/8-14.00 in (356 mm) - 14.81 in (376 mm) 5 1/8 x 5 1/8-14.81 in (376 mm) - 14.81 in (376 mm) 5 1/8 x 7 1/16-14.81 in (376 mm) - 18.75 in (476 mm) 7 1/16 x 7 1/16-18.75 in (476 mm) - 18.75 in (476 mm) 5 1/8 x 5 1/8 13.94 in (354 mm) - 13.94 in (354 mm) - 5 1/8 x 7 1/16 13.94 in (354 mm) - 14.62 in (371 mm) - 7 1/16 x 7 1/16 14.62 in (371 mm) - 14.62 in (371 mm) - 7 1/16 x 9 14.62 in (371 mm) - 18.31 in (465 mm) - 9 x 9 18.31 in (465 mm) - 18.31 in (465 mm) - 5 1/8 x 5 1/8-14.74 in (374 mm) - 14.74 in (374 mm) 5 1/8 x 7 1/16-14.74 in (374 mm) - 16.18 in (411 mm) 7 1/16 x 7 1/16-16.18 in (411 mm) - 16.18 in (411 mm) 7 1/16 x 9-16.18 in (411 mm) - 20.38 in (518 mm) 9 x 9-20.38 in (518 mm) - 20.38 in (518 mm) 7 1/16 x 7 1/16 16.62 in (422 mm) - 16.62 in (422 mm) - 7 1/16 x 9 16.62 in (422 mm) - 18.31 in (465 mm) - 9 x 9 18.31 in (465 mm) - 18.31 in (465 mm) - 7 1/16 x 7 1/16-18.18 in (462 mm) - 18.18 in (462 mm) 7 1/16 x 9-18.18 in (462 mm) - 20.38 in (518 mm) 9 x 9-20.38 in (518 mm) - 20.38 in (518 mm)

10 Technical specifications and materials. Table 6: Overall Heights and Weights Trim 1 1.75 2.5 3.25 4 5 ANSI Class Inlet x Outlet * Dim D is 8 in (200 mm) Required for actuator removal Max Overall Height with Manual Override Dim C inch (mm) Max Overall Height w/out Manual Override Dim C inch (mm) Weight lbs (kg) w/ Act Weight lbs (kg) Bare Stem 126 (57) 1.5 x 1.5 1.5 x 2 347 144 (65) 2 x 2 (158) 163 (74) 2 x 3 175 (80) 3 x 3 44.3 (1125) 31.3 (795) 227 (103) 1.5 x 1.5 207 (94) 1.5 x 2 227 (103) 502 2 x 2 242 (110) (228) 2 x 3 312 (142) 3 x 3 382 (174) 3 x 3 324 (147) 634 3 x 4 68 (1727) 58 (1473) 349 (159) (288) 4 x 4 374 (170) 3 x 3 484 (220) 849 3 x 4 68 (1727) 58 (1473) 534 (243) (386) 4 x 4 589 (268) 4 x 4 444 (202) 904 4 x 6 69 (1753) 59 (1499) 544 (247) (411) 6 x 6 644 (293) 4 x 4 697 (317) 1377 4 x 6 69 (1753) 59 (1499) 907 (412) (626) 6 x 6 1117 (508) 4 x 4 626 (285) 1081 4 x 6 72 (1829) 61 (1549) 726 (330) (491) 6 x 6 821 (373) 4 x 4 994 (452) 1704 4 x 6 72 (1829) 61 (1549) 1224 (556) (775) 6 x 6 1444 (656) 6 x 6 1004 (456) 1564 6 x 8 72 (1829) 61 (1549) 1154 (525) (711) 8 x 8 1304 (593) 6 x 6 1728 (785) 2463 6 x 8 74 (1880) 61 (1549) 1968 (895) (1120) 8 x 8 2203 (1001) 6 x 6 1464 (665) 6 x 8 1599 (727) 2584 8 x 8 76 (1930) 63 (1600) 1739 (790) (1175) 8 x 10 1994 (906) 10 x 10 2249 (1022) 6 x 6 2412 (1096) 6 x 8 2607 (1185) 4499 8 x 8 76 (1930) 63 (1600) 2802 (1274) (2045) 8 x 10 3402 (1546) 10 x 10 3924 (1784)

Technical specifications and materials. 11 Table 6: Overall Heights and Weights (continued) Trim 1 1.75 2.5 3.25 API Class Inlet x Outlet Max Overall Height with Manual Override Dim C inch (mm) Max Overall Height w/out Manual Override Dim C inch (mm) Weight lbs (kg) Weight lbs (kg) Bare Stem 2 1/16 x 2 1/16 163 (74) 2 1/16 x 2 9/16 178 (81) 347 2 9/16 x 2 9/16 44.3 (1125) 31.3 (795) 192 (87) (158) 2 9/16 x 3 1/8 208 (95) 3 1/8 x 3 1/8 227 (103) 1 13/16 x 1 13/16 182 (83) 1 13/16 x 2 1/16 187 (85) 2 1/16 x 2 1/16 197 (90) 412 2 1/16 x 2 9/16 67.7 (1720) 57.4 (1458) 212 (96) (187) 2 9/16 x 2 9/16 232 (105) 2 9/16 x 3 1/16 262 (119) 3 1/16 x 3 1/16 292 (133) 2 9/16 x 2 9/16 304 (138) 2 9/16 x 3 1/8 314 (143) 634 3 1/8 x 3 1/8 68 (1727) 58 (1473) 324 (147) (288) 3 1/8 x 4 1/16 349 (159) 4 1/16 x 4 1/16 374 (170) 2 9/16 x 2 9/16 379 (172) 2 9/16 x 3 1/16 404 (184) 769 3 1/16 x 3 1/16 70 (1778) 58 (1473) 424 (193) (350) 3 1/16 x 4 1/16 469 (213) 4 1/16 x 4 1/16 509 (231) 3 1/8 x 3 1/8 384 (175) 3 1/8 x 4 1/16 414 (188) 839 4 1/16 x 4 1/16 69 (1753) 59 (1499) 444 (202) (381) 4 1/16 x 5 1/8 514 (234) 5 1/8 x 5 1/8 579 (263) 3 1/16 x 3 1/16 477 (217) 3 1/16 x 4 1/16 517 (235) 917 4 1/16 x 4 1/16 71 (1803) 59 (1499) 557 (253) (417) 4 1/16 x 5 1/8 607 (276) 5 1/8 x 5 1/8 657 (299) 4 1/16 x 4 1/16 576 (262) 4 1/16 x 5 1/8 636 (289) 1001 5 1/8 x 5 1/8 72 (1829) 61 (1549) 701 (319) (455) 5 1/8 x 7 1/16 721 (328) 7 1/16 x 7 1/16 741 (337) 4 1/16 x 4 1/16 834 (379) 4 1/16 x 5 1/8 874 (397) 1594 5 1/8 x 5 1/8 74 (1880) 61 (1549) 919 (418) (725) 5 1/8 x 7 1/16 1129 (513) 7 1/16 x 7 1/16 1334 (606)

Contact us at: info@ccivalve.com For sales and service locations worldwide, visit us online at: www.ccivalve.com Throughout the world, customers rely on CCI companies to solve their severe service control valve problems. CCI has provided custom solutions for these and other industry applications for more than 80 years. DRAG is a registered trademark of CCI. 2009 CCI 807 10/09 #K