A in value is used to ASME, D mm value is used to DIN, and G mm value being for GB.

PUG VAVE Figure Coding System for Plug Valves A in value is used to ASME, D mm value is used to DIN, and G mm value being for GB. X Plug Valve Manual Operator; Pneumatic; S Pneumatic Spring Return; 9 Electric RF Raised Face ; FF Fully Flat Face ; MFM Male and Female ; TG Tongued and Grooved ; RJ Ring Junction ; B Butt elding; S Socket elding; NPT Threaded Connection Stuffing Airproof: straight way (flow bore); T T Type -way; Type -way; 5 -way Pressure balance type lubricated: 7 straight way (flow bore); T T Type -way; Type -way; Other type: 7 ift type; 7E Eccentric structure 7D Double flush structure 7C Double isolation structure PN class0 ; PN5 class00 PN0 class00 ; PN class00 9 class900 PN0 class00 PN0 0 PN00 5 class0 C CB C5 C5 C C C9 C9 B CB C CC CF M CFM CF M CFM M MONE F PTFE; F PCTFE; F FEP; PA PFA; Cr Series Stainless Steel; Y Stellite; R Austenitic Stainless Steel; M MONE alloy Given demonstration: A XRFCF denotes API x 0b sleeve type plug valves, worm gear actuated, RF, straight way with body material of CB and lined material of F. Technical Specifications of Plug Valve Technical Specifications Design Specifications Pressure and Temperature Class Face-to-face Type and Dimensions Butt-welding connection Socket-welded connection API Serials APID API599 BS55 ASME B. ASME B. ASME B.5 ASME B.7 ASME B.5 ASME B. GB Serials GBT97 GBT9 GBT GBT. GBT9 JBT79 GBT Threaded-welding connection ASME B..0 Inspection and Test API59 APID JBT909 GBT97 0

SUMMARIZATION OF PUG VAVE Summarization Plug valve is a circumrotating valve with its closure part as a plug, which turns 90 with its through bore connecting to or apart from the same of the body to realize opening or closing. The figure of the valve plug can be made as column or taper. Of the column plug valve, the flow bore gets rectangle in general, and that of the taper type plug valve, the flow bore is of trapezium. The figures mentioned have made the structure of plug valves legerity, however, certain loss is at the same time generated. The plug valve is mostly suitable for cutting off, turning on and distributing the flow medium. Sometime it can also be used for throttling based upon suitable medium and the erosion resistance property of the sealing surfaces. Due to the friction action between the sealing surfaces of the plug valve,whereas contact with flow medium can be completely avoided as the valve is fully opened.in this respect, the plug valve can also be used for the medium with suspend grains. One of the important characteristics of the plug valve is that it is prone to fitting multi-center structure, so that one single plug valve can be designed with two, three, and even four different flow bores. In this way, the design of the pipeline system can be simplified, and both valve quantity and piping fittings can be reduced. The plug valves are widely used in the applications of oil field exploitation, transportation, and refinery facility, while being extensively used for such general industries as petrochemical, chemistry, gas, nature gas, liquefied oil gas, and warming & traffics. ined plug valves without lubricant are used for applications of petrochemical and chemistry industries, especially being used for the medium that is not allowed to be with lubricants. Straight ay Flow Bore Patterns The straight way flow bore of plug valves manufactured by Shanghai KOFO Machinery Co., td. are of many patterns, there are venturi pattern, standard pattern with straight bore, short pattern, regular pattern and standard camber pattern with straight bore, among which the principal difference is the face-to-face dimensions, diameter and the plug figure. The face-to-face dimensions of these valves are designed according to Britain and American standards to ensure inter-replacing of valves among different standards. The plug bore of these valves are of reduced bore area, however, the center line position of the plug valves does not change, which generates in the valve body a Venturi action to increase the loss of flow velocity with big percent. The result generated by this action is a corresponding low pressure drop. In this respect, the plug valves can be used in general pipelines, especially used for big sized pipelines to reduce application cost. Venturi pattern 0

SUMMARIZATION OF PUG VAVE Straight ay Flow Bore Patterns The face-to-face dimensions of these valves are designed according to Britain and American standards to ensure farthest inter-replacing of valves among different types of valves. The figure of plug bore looks like a rectangle structure. There is an area echoing to the valve ends, which is with lowest pressure drop. The conversion from body end to the rectangle end-face is even, it will not appear the condition of sudden change of shape or part. Otherwise, the flow medium in the pipeline would generate sudden shake-up of flow velocity or direction. Standard plug valves ith straight bore The face-to-face dimensions of these plug valves equal to that of the gate valves designed according to ASME B. CASS5 0 and 00 b ( ~. In order to obtain correspondingly short face-to-face dimension, the diameter of the plug is reduced one with a small cone of rectangle.. These valves are designed according to Britain and American standards to ensure farthest inter-replacing of valves among different types of valves and different types of connection ends. There is a rectangle figure of the plug bore being with a tiny cone figure on its side face, where there is an area bigger than that of Venturi. The conversion from body end to the rectangle endface is even, it will not appear the condition of sudden change of shape or part. Otherwise, the flow medium in the pipeline would generate sudden shake-up of flow velocity or direction. The flow bore area of the regular pattern plug valves is bigger than that of Venturi ( reduced bore ).. The diameter of these valves equals to the inside diameter of pipes. The design of the plug valve is mainly for the purpose that some scraping tools or other tools can get through the valve body, and that the valve can be used for some special occasions. The face-to-face dimensions of the plug valve are longer than that of standard pattern one, however, meeting the requirement of Britain and American standards. These plug valves are especially suitable for use in the slurry occasions of sewage disposal factory and for the branches of steam tubes.. Regular Pattern Short Pattern Standard Camber Plug Valves with Straight Bore 0

Structure Drawing (Straight Bore) 9 7 7 5 5 7 9 7 Sealant Chamber Plug Sealant Duct Packing Ring Packing Cover Bolts Bolts Gland Gland Nuts Indicator Sealant Injector Check Valve Stop Cover Shim Gasket Body Sealant Grooves Material ist N o. Part Name Plug C.I. C.S. S.S. S.S. ith owest Carbon Z C P R P R A CB A5 MONEalloy A5 CF CFM CF CFM Packing Ring A F A F0F 5 Packing PTFEGraphite Cover Bolts A9 B7 A9 BM 7 Bolts A9 B7 A9 BM Packing Gland A CI5A A CB A5 CF A5 CFM A5 CF A5 CFM 9 Nuts Indicator A9 A9 A CBA5 Injector A5 A F Check Valve A5 A F Stop A5 Cover Shim A CI5A A CB A5 CF A5 CFM A5 CF A5 CFM SS 7 Gasket Body PTFENon-metal A CI5A A CB A5 CF A5 CFM A5 CF A5 CFM Note: Specific material can be selected according to requirement.

Description of Products Structure ( ) ubricated taper plug valves are suitable for use in pipelines with various kinds of working condition s with no minal pressure of CASS0-00b and working temperature of -5-5 in such industries as petroleum, chemistry, pharmacy, chemical fertilizer, and power plant etc. to cut off or turn on the flow medium in pipelines.. Grease sealed structure has been adopted for the inlet and outlet of the valve body, which is especially suitable for the pipelines with grain slurry. There is a grease chimb in the plug surface, where the grease gets in with higher pressure than that of the slurry in pipelines, thus it forms an oil film to isolate slurry with the plug of rest state from getting into the gap between valve core and valve wall, which avoids the rubbing. Under the dynamic state of the plug, it generates high speed oil flow to impact slurry and prevent it from entering the gap, ensuring normal operation of the plug valves, which has enhanced the economic function of slurry pipeline transportation engineering.. Main structure Features.The tightness function is realized by injecting grease from outside..there is no cavity in the valve for accumulation of the medium..the applicable temperature for the plug valve depends on the grease used. The selection of the grease should be managed based on the pipeline medium. It is of bi-directional flow, being more convenient for installation and usage..the valve flow bore are mainly the patterns of regular, venduri, short, and 5.Three-way etc., which can meet the requirement for various kinds of pipelines. Plug Flow Patterns of ubricated -way Plug Valves There are two flow patterns of -way plug valves, i.e. T patterns & patterns. pattern (right) T pattern (below) Three way plug valves positive direction & reverse direction as below Positive Direction Reverse Direction

Technical Specification Structure Type Actuation Methods Design Standard Face-to-face Dimensions Ends Connection Test and Inspection Straight ay Patterns, -way Patterns Manual, gear operated, pneumatic operator, electric actuator (Can be selected according to requirements) API599 APID BS55 ASME B. according to ASME B.5; Screw Thread according to ASME B.0. API59.APID Note: Valve connection flanges can be designed and manufactured according to customers' requirement. Products Performance Specification Nominal Pressure Shell Testing Pressure Tightness Testing Pressure Applicable Temperature Applicable Medium 0 00.0 7.5. 5.5 5 medium containing grain and slurry etc. Products Range Flow Bore Patterns Testing Pressure Connecting Type 0 5 0-5 - Spec. 0 0 0 00 00 Straight way Regular ANSI 0 Screw Thread ANSI 0 Short ANSI 00 ANSI 00 Screw Thread enturi ANSI 00 -ay Regular ANSI 0 ANSI 00 Approximative Flow Coefficients of Plug Valve Diameter 0 5 0 5 0 0 5 5 0 CV 7. 9.5..5 555 955 7

Straight ay CASS0 D D D D D D n- d b f n- d b RF FACE(EVER) TREAD RF FACE(GEAR) Main Outline Sizes Nominal Diameter Standard Value Reference Value 0 5 0 5 0 0 0 D D D f b Z-d G(kg) CASS0 Regular Pattern 0 95 9 0.5 5-0 0 95 9 70-0 0 79.5 5-0 5 7 9.5 7-0 5 0.5 9-9 9 7 9.5 5-9 00 0 90.5 7 9-9 00 05 9 90.5 7-9 9 79.5-00* 0 0 7 07 9 5 7 RF... 9 5 5 Th.. 5.0. 7 Nominal Diameter Standard Value Reference Value D D D f b Z-d G(kg) CASS0 Short Pattern ever Gear 7 0.5 9-9 7 5 9 7 9.5 5-9 00 07 0 0 90.5 7 9-9 00 9 5 0 9 9 90.5 7-9 5 0 7 79.5-9 00 9 5 9.5 70 9-000* 7* 0 0 05-5 70* 5* 00 00 5 5-5 597 77 Note: * being the sizes of gear operators.

Straight ay CASS00 D D D D D D n- d b f n- d b RF FACE(EVER) TREAD RF FACE(GEAR) Main Outline Sizes Nominal Diameter Standard Value Reference Value D D D f b Z- d G(kg) CASS00 Short Pattern RF Th 0 95 95.5 5-0 5.. 0 0 95 7.5-9 0 95.. 5 9 9 5-9 00 5..5 0 9.5 7-5. 5 5 7 9-9 00 0 5 9 90 9 5-00 0 7 0 0.5 7 9-7 0 05 5 00 7-00 75 Nominal Diameter Standard Value Reference Value D D D f b Z- d G(kg) CASS00 Venturi Pattern ever Gear 0 0 70 7 - * 0* 00 9 0 70-5 57 5 7.5-9 55 0 00 5 5 5-5 Note: * being the sizes of gear operators. 9

-ay type CASS0-00 D D D n- d b f RF FACE(EVER) Main Outline Sizes Nominal Diameter Standard Value Reference Value D D D f b n- d CASS0 Regular Pattern 5 9 79.5 5-0 5 0 5 7 9.5 7-5 0.5 9-9 0 0 90.5 7 9-9 00 0 00 00 9 90.5 7-9 00 Nominal Diameter Standard Value Reference Value D D D f b n- d CASS00 Regular Pattern 5 9 95 9 5-9 00 5 0.5 7-5 5 7 9-9 00 0 0 75.5 7 9-0 07 5 00 7-00 0