SINCE95 MC SERIES Choke Valves Unique. Precise. Quality. Reliable.
MOV Valve Principle of Operation Taylor Valve Technology Multi-Orifice Valve Design Principle Provides Precision Control. The two adjacent internal discs each contain two precision orifices. Full Open Throttling Full Closed When the holes on both discs are aligned the valve is in the Full Open Position. When the front disc is rotated, changing the alignment and relationship to the fixed back disc, the flow area and orifice size are affected, the result is either increase or decrease in flow. When the front disc is rotated a full 90 o (one quarter turn), the valve is in the Full Closed Position. The discs are lapped to within two light bands of flatness (+/-.0000 ) to achieve positive shut off and maintain precise control. The fixed back disc is held perpendicular to the flow. The front disc floats against the back disc and seeks a mating surface promoting a positive seal. The differential pressure across the upstream disc and the downsteam disc stabilizes the control surfaces. Vibration, noise or fatigues normally associated with loose or unsupported parts are eliminated. No control surfaces are introduced into the orifice, providing a clear center line for the flow. The valves are rated for shut-off at ANSI Class III or IV depending on the style of valve and trim used. The orifices of the standard disc expose a small control surface profile to the fluid steam reducing wear. The multi-orifice design produces near linear flow characteristics. The low torque and quarter-turn design of Taylor Valve Technology s Multi-orifice valves allows for a variety of actuation options: manual, pneumatic, hydraulic, or electric.
MC Specifications and Cutaway View BODY STANDARD DIMENSIONS AND WEIGHTS CONNECTIONS DIM. END-to-END IN. WEIGHT INLET OUTLET (MM.) +/-. LB. KG. FNPT BUTT WELD 50 RFF 50 RTJ 0 RFF 0 RTJ 0 RFF 0 RTJ 900 RFF 900 RTJ 500 RFF 500 RTJ FNPT BUTT WELD 50 RFF 50 RTJ 0 RFF 0 RTJ 0 RFF 0 RTJ 900 RFF 900 RTJ 500 RFF 500 RTJ.9.9..5.9.5.. 5.5 5.5 5.5 5.5 9.99 9.99.7.7.... BODY STANDARD DIMENSIONS AND WEIGHTS CONNECTIONS DIM. END-to-END IN. WEIGHT INLET OUTLET (MM.) +/-. LB. KG. FNPT BUTT WELD 50 RFF 50 RTJ 0 RFF 0 RTJ 0 RFF 0 RTJ 900 RFF 900 RTJ 500 RFF 500 RTJ FNPT BUTT WELD 50 RFF 50 RTJ 0 RFF 0 RTJ 0 RFF 0 RTJ 900 RFF 900 RTJ 500 RFF 500 RTJ.0 9..9 5.5 5. 5.9...... 7 7 7 7. 9.99 5. 5....9.9.9.9 MC Inline Choke & Configuration SS ¼ Turn Actuated Body Rating =,0 PSI CV Range = 0.70 -.57 End-to-End FLOW No. Description Qty Hub O Ring O Ring Disc 5 O Ring Backup Ring 7 Rotator Cap Screw 9 Handle Retaining Ring Body * Flow Tube ** Dowel Pins 5 ** Drive Screw 5** Index Label ** Data Plate 7** Screw *Item optional ** Items not shown in section view 9 5 7 5 The information contained in these drawings is the sole property of Taylor Valve Technology Inc. and any reproduction in part or whole without the written permission of Taylor Valve Technology Inc. is prohibited. NOTE: Taylor Valve reserves the right to change product designs and specifications without notice.
MC SERIES CHOKE VALVES FEATURES Benefits Accurate Control - 90 degree rotation from Full Off to Full On Bolted Body - Body is constructed with two bolted segments, avoiding the risk of corrosion, cross threading, galling of threaded type valve assemblies. Extended Mean Time Between Service - Robust design and liberal application of hardened materials, efficient flow-geometry means the valves offer maximum production potential and minimum service requirements. Easy Maintenance - Choke valves are designed to provide simple straightforward disassembly with no special tooling or fixtures. Optional Features - Choke valves can have trims and actuators custom designed for specific requirements, such as, special trims for noise reduction and sand control, several trims are available to accommodate high pressure flows or minimum pressure loss applications. Applications: Well Site Automation Water Injection Control Valve CO Injection Control Valve Pump Bypass Pump Startup Gas Lift Injection Control Blow Down and Dump Valve Steam Injection Throttling Valve High DP Valve Motor Operated Valve WWW.TAYLORVALVE.COM
The MC Series of Inline MOV Chokes Offer: ~ ANSI Class III Shut Off ~ Linear flow characteristics ~ Downstream Wear Resistant Flow Tube ~ Simple Design for easy field maintenance ~ Choice of materials for body standard is SS ~ Threaded, Flanged, Butt Weld, and Victaulic End ~ Sizes from and Threaded to Flanged MC Control Element Disc Ceramic disc recommended up to 500 PSI Pressure Drops Tungsten Carbide above 500 psi up to maximum operating pressure of valve. The information contained in these drawings is the sole property of Taylor Valve Technology Inc. and any reproduction in part or whole without the written permission of Taylor Valve Technology Inc. is prohibited. 5
NOMOGRAPHS For WATER PRESSURE DROP (DP) ACROSS CHOKE (PSI) 000 00 00 5000 00 00 00 00 0 0 500 0 0 0 0 50 5 EXAMPLE: PRESSURE DROP DP 00 PSI, WATER FLOW RATE 0 BARRELS PER DAY OR B/D DOUBLE ORIFICE CHOKE READ BEAN SIZE 9 FLOW RATE BBL/DAY GAL/MIN 0000 000 000 000 000 000 000 00 00 00 00 00 00 0 0 0 0 0 0 00 00 0 0 0 0 0 0.......0.0.0.0 ORIFICE SIZE Bean Size = /th Dia 75 50 90 75 5 55 5 9 7 5 0 0 70 50 5 5 9 7 5 NOTE: P-P = DP WHEN P = UPSTREAM PRESSURE P = DOWNSTREAM PRESSURE DP = PRESSURE DROP ACROSS THE CHOKE PRESSURE DROP (DP) ACROSS CHOKE (PSI) FLOW RATE BBL/DAY GAL/MIN For GAS 00 00 00 00 0 0 0 0 0 0 0000 000 000 000 000 000 00 00 00 00 00 0 0 0 0 0 ORIFICE SIZE Bean Size = /th Dia 5 9 7 5 50 5 5 9 7 5 * GAS FLOW AT.5 SPECIFIC GRAVITY AND TEMPERATURE AT F ** STEAM QUALITY = % NOTE: LBS/HR of STEAM = LB/D *.5 EXAMPLE: UPSTREAM PRESSURE IS 00 PSI AND THE SETTING IS, GAS FLOW RATE WILL BE 00 SCFD
Sizing Information Flow Equations Liquid Solve for C V C V = Q/. Solve for Flow (Q) Q =. x C V P P Where: = Inlet Pressure (psia) = Outlet Pressure (psia) P = - Q = Flow Rate (BPD) = Specific Gravity - Water =.00 C V = Valve coefficient of Flow MC Sizing Data for Liquids - Inlet Pressure (psia, psig, Bara, kpaa) - Outlet Pressure (psia, psig, Bara, kpaa) Q L - Flow (bbl/d, gal/min, lbs/hr, kg/hr, m/d) - Specific Gravity of Liquid T - Temperature ( F o, C o, R o, K o ) Gas Phase Flow - Inlet Pressure (psia, psig, Bara, kpaa) - Outlet Pressure (psia, psig, Bara, kpaa) Q G - Flow (scf/d, m /hr, kg/hr ) Q L - Flow (bbl/d, gal/min, lbs/hr, kg/hr, m/d ) - Specific Gravity of Gas - Specific Gravity of Liquid T - Temperature ( F o, C o, R o, K o ) Solve for C V C V = Q /.0 Solve for Flow (Q) Q = C V X.0 P ( + ) P ( + ) Where: = Inlet Pressure (psia) = Outlet Pressure (psia) P = - Q = Flow Rate (MMSCFD) = Specific Gravity - Air =.00 C V = Valve coefficient of Flow Sizing Data for Gas Service - Inlet Pressure (psia, psig, Bara, kpaa) - Outlet Pressure (psia, psig, Bara, kpaa) Q G - Flow (scf/d, m /hr, kg/hr) - Specific Gravity T - Temperature ( F o, C o, R o, K o ) Co (Gaseous) - Inlet Pressure (psia, psig, Bara, kpaa) - Outlet Pressure (psia, psig, Bara, kpaa) Q G - Flow (scf/d, m /hr, kg/hr ) P V - Vapor Pressure (Function of Temperature) V - Specific Volume (Function of Temperature and Pressure) S - Specific Gravity of Gas T - Temperature ( F o, C o, R o, K o ) 7
Choke Nomenclature Choke Series CA CI MC MCX MDA MDAS MDI MDIS RB R Size Service Type 0 Standard NACE Steam/High Temp. Actuation Type 0 Manual Handle Manual Gear Electric Pneumatic Hydraulic 7 Positive Bean Style 0 Non-flanged RFF RTJ RFF X RTJ RTJ X RFF Schedule 0 Non-flanged XS 5 XXS SLIP-ON 7 API Trim Material 0 CARBIDE DISC - STELLITE WR SLV 0 CERAMIC DISC - STELLITE WR SLV 05 CARBIDE DISC - CARBIDE WR SLV 5 CERAMIC DISC - NO WR SLV CARBIDE DISC - NO WR SLV CERAMIC DISC/CARBIDE FLOW TUBE R/RB-SERIES 7 BEAN 7- SS Body Material 00 DUPLEX SS 0 CARBON STEEL 0 LOW ALLOY ( LACS) 05 SS (CFM) 0 SS "L" (CFM) 07 ALUMINUM BRONZE 0 A50 LF 09 LCC SUPER DUPLEX SS MC 0 0 7 7 0 05 0 0 = MC-07750 Choke part number has to be 7 digits. EXAMPLE ONLY* Inlet Connection Outlet Connection 0 " FNPT 0 " BUTT WELD 0 " SOCKET WELD 0 " VICTAULIC 05 " 50 0 " 0 07 " 0 0 " 900/500 09 " 500 " FNPT " BUTT WELD " SOCKET WELD " VICTAULIC 5 " 50 " 0 7 " 0 " 900/500 9 " 500 " FNPT " BUTT WELD " SOCKET WELD " 50 " 0 5 " 0 " 900 7 " 500 " 500 9 " FNPT " BUTT WELD " SOCKET WELD " VICTAULIC " 50 " 0 5 " 0 " 900 7 " 500 " 500 9 " 50 " 0 " 0 " 900 " 500 " 500 5 " 50 " 0 7 " 0 " 900 9 " 500 50 " 500 5 -/" 00 5 -/" 5000 5 -/" 000 5-9/" 00 55-9/" 5000 5-9/" 000 57 -/" 00 5 -/" 5000 59 -/" 000 -/" 00 -/" 5000 -/" 000 -/" 5000 /" 0# 5.5" 900/500 -/" 000 7 7-/" 5000 -/" 5000 9 -/" 5000 75 " UNION 7 " M x " F Union " 0 " 900 " 500 " 500-9/" 5000 5 " Butt Weld Orifice Size 0 () /" RND PORTS 0 () /" RND PORTS 0 () /" RND PORTS 0 () /" RND PORTS 05 () /" RND PORTS 0 () 5/" PIE PORTS 07 () /" RND PORTS 0 () 7/" RND PORTS () -/" RND PORTS () -/" RND PORTS () -/" RND PORTS () /" PIE PORTS 5 () " ROUND PORTS () " PIE PORTS () -/" PIE PORTS () -/" PIE PORTS () -/" RND PORTS 7 () -/ PIE PORTS 9 () 5/" RND PORTS 5 ().9 PIE HOLES 55 CV 5 CV 57 CV 5 CV 59 CV 5 CV 7/ BEAN / BEAN / BEAN 5 / BEAN / BEAN 7 / BEAN / BEAN *For more options, contact Taylor Valve. 9 / BEAN / BEAN / BEAN / BEAN 5 / BEAN / BEAN 5 / BEAN / BEAN / BEAN 5 5/ BEAN / BEAN 7 9/ BEAN / BEAN 9 / BEAN 70 / BEAN 7 / BEAN 7 / BEAN 7 7/ BEAN 7 9/ BEAN 75 5/ BEAN 7 /7" RND PORTS 77 7/ BEAN 7 5/ BEAN 79 / BEAN 5/ BEAN 7/ BEAN 5/ BEAN 5/ BEAN 7/ BEAN 5 CV 7 / BEAN 7 CV Seal Material 00 HNBR/HSN 0 NBR 0 EPDM 0 FKM (VITON) 05 NEOPRENE 0 NBR (PEROXIDE CURED) 07 STEAM SEALS 09 AFLAS KALREZ PINS I INCONEL (Optional) Butt weld connections MUST specify a schedule. All API connections are RTJ style by default. API flange bore (SCHEDULE) is specified by API. REVISED: -05-7 Taylor Valve Technology S.W. th Street Oklahoma City, Oklahoma 7 TEL FAX 5.77.05 0.5. WEB EMAIL www.taylorvalve.com info@taylorvalve.com