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Fugitive Emission Ball Valve

Fugitive Emission Ball Valve

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1.Specification
Size: 2"-56"
Pressure: 150LB-2500LB
Body Material: WCB, WC6, WC9, CF8, CF8M, CF3, CF3M, CN7M, LC1, LC2, LC3, LCB, LCC, Monel, 20# Alloys, 4A, 5A, C95800, C95500, A105, F304, F304L, F316, F316L, LF1, LF2, LF3, LF9, F51, F53, F11, F22, etc.
Seal Material: PEEK, RPTFE, PTFE, DEVLON, HNBR, NYLON, AFLAS, STELLITE,etc.
Connection Type: Flanged, Butt Welded, Socket Welded, NPT
Operation: Hand lever, gear operated, pneumatic, motorized
Face to Face Dimension: ASME B16.10
Flange End Dimension: ASME B16.5
Butt Welded Dimension: ASME B16.25
Design and Manufacture: API 6D
Test Standard: API 598, API 607, API 6FA, ISO 15848-1-2
2.Features

Zero leakage by metal to metal sealing or soft sealing

Certified to industrial fugitive emission standards API 624 and ISO 15848-1

Special stem processing treatment and fugitive emission sealing parts

Fire-safe and anti-static design, blow-out proof stem

Locking device can be added as to avoid misoperation.

Using fugitive emission packing that are certified by industrial fugitive emission standard

3.FAQ
What is Fire Safe Ball Valve?

A fire-safe ball valve is a type of ball valve designed to resist fire and prevent leakage of flammable fluids in the event of a fire. Fire-safe ball valves are commonly used in industrial applications where the risk of fire is high.
The design of a fire-safe ball valve typically includes features such as an additional seal or gasket material that can withstand high temperatures, metal-to-metal contact between the ball and valve body to prevent leakage, and a secondary sealing mechanism to prevent leakage in case the primary seal fails, ball valve manufacture.
Fire-safe ball valves are tested and certified to meet certain industry standards, such as API 607, API 6FA, and ISO 10497. These standards require the valve to be subjected to a fire test and demonstrate that it can maintain its sealing integrity during and after the test.
Fire-safe ball valves are commonly used in industries such as oil and gas, chemical processing, and power generation, where the risk of fire is high and the consequences of a leak or failure can be catastrophic, gate valve manufacture.

How Does a Ball Valve Seal?

A ball valve seals by using a ball-shaped closure member (the "ball") to control the flow of fluid through the valve body. When the valve is closed, the ball is rotated 90 degrees so that it blocks the flow of fluid. When the valve is opened, the ball is rotated 90 degrees again to allow fluid to flow through the valve, bronze valve.
The ball in a ball valve is typically made of a hard material such as stainless steel, brass, or ceramic, and is held in place by two seats, one on either side of the ball. The seats are typically made of softer materials such as PTFE or other elastomers, which are able to conform to the shape of the ball and provide a tight seal.
When the valve is closed, the ball is pressed against the downstream seat by the force of the fluid, creating a seal that prevents any further flow of fluid. The upstream seat also helps to provide support to the ball, ensuring that it is held in place and providing a backup seal, api 6d ball valve.
The sealing performance of a ball valve can be affected by factors such as pressure, temperature, and fluid type. Therefore, it is important to choose the appropriate valve design and materials for the specific application to ensure proper sealing performance and avoid potential issues with the valve.

How to Install a Ball Valve Lockout?

A ball valve seat is a component of a ball valve that provides a sealing surface for the ball to rest against when the valve is closed. The seat is typically made of a softer material than the ball, such as PTFE, nylon, or other elastomers, which are able to conform to the shape of the ball and provide a tight seal.
The seat is located on the inside of the valve body, and is usually held in place by a retainer or a snap ring. When the valve is closed, the ball is pressed against the downstream seat by the force of the fluid, creating a seal that prevents any further flow of fluid. The upstream seat also helps to provide support to the ball, ensuring that it is held in place and providing a backup seal, forged ball valve.
The sealing performance of a ball valve can be affected by factors such as pressure, temperature, and fluid type. Therefore, it is important to choose the appropriate valve design and materials for the specific application to ensure proper sealing performance and avoid potential issues with the valve.

What is a Ball Valve Seat?

A ball valve seat is a component of a ball valve that provides a sealing surface for the valve's ball to rest against when it is in the closed position. The seat is typically made of a resilient material, such as plastic or elastomer, that is designed to deform slightly under pressure and conform to the shape of the ball, creating a tight seal. The seat is typically located inside the valve body, and is held in place by a retainer or other means. The seat is a critical component of the ball valve, as it helps to prevent leakage when the valve is in the closed position. The type of seat material used in a ball valve can vary depending on the specific application, and factors such as temperature, pressure, and the type of fluid being transported must be taken into account when selecting a seat material, carbon steel gate valves.

What is Ball Valve Packing?

Ball valve packing is a sealing mechanism used to prevent fluid leakage from the valve stem in a ball valve. The valve stem is the component that connects the valve handle to the ball inside the valve, and allows the ball to be rotated to control the flow of fluid through the valve.
The packing material is typically made of a flexible material, such as PTFE (polytetrafluoroethylene) or graphite, which is wrapped around the valve stem and compressed tightly against the valve body. The packing material creates a seal that prevents fluid from leaking past the valve stem and out of the valve.
The amount of packing material used and the amount of compression applied to the packing can be adjusted to achieve the desired level of sealing performance. However, excessive packing can cause the valve stem to bind or become difficult to turn, while insufficient packing can result in fluid leakage. Therefore, it is important to carefully select the appropriate packing material and apply it correctly to ensure optimal performance and safety of the ball valve, high temperature gate valves.

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