Views: 0 Author: J-VALVES Publish Time: 2025-06-09 Origin: Site
Understanding Trunnion Ball Valves
Trunnion ball valves are a type of ball valve that uses a trunnion mechanism to support the ball. This mechanism allows the ball to rotate freely while maintaining a tight seal. The trunnion design provides several advantages over traditional ball valves, including better sealing performance, reduced wear, and improved durability.
Key Components of Trunnion Ball Valves
• Valve Body: The main structure that houses all internal components.
• Ball: The spherical element that controls the flow of fluid. It rotates to open and close the valve.
• Trunnion: A support mechanism that holds the ball in place and allows it to rotate.
• Stem: The component that connects the ball to the external actuator or handle.
• Seats: The sealing elements that provide a tight seal against the ball.• Bonnet: The cover that protects the internal components and provides access for maintenance.
• Actuator: The mechanism that provides the torque to operate the valve.
Working Principle of Trunnion Ball Valves
Trunnion ball valves operate by rotating the ball 90 degrees to open and close the valve. This 90-degree rotation is achieved through the following steps:
1. Initial Position: The valve is in the closed position, with the ball rotated such that the hole through the ball is perpendicular to the flow path.
2. Opening the Valve: When the actuator is engaged, it applies torque to the stem, which in turn rotates the ball. The ball rotates 90 degrees, aligning the hole through the ball with the flow path. This allows fluid to flow through the valve.
3. Closing the Valve: To close the valve, the actuator applies torque in the opposite direction, rotating the ball 90 degrees back to its initial position. The hole through the ball becomes perpendicular to the flow path, blocking the fluid flow and achieving a tight shutoff.
Achieving Zero Leakage Sealing
The zero leakage sealing in trunnion ball valves is achieved through a combination of design features and materials:
1. Floating Ball Mechanism: The trunnion mechanism allows the ball to float slightly within the valve body. This floating action helps the ball maintain contact with the seats, providing a tight seal even under high pressure.
2. Elastic Seals: The seats are typically made from elastic materials like PTFE (polytetrafluoroethylene) or other high-performance polymers. These materials conform to the ball's surface, creating a tight seal that prevents fluid leakage.
3. Pre-Compression: The seats are pre-compressed against the ball, ensuring a tight seal even at low pressures. This pre-compression force is maintained as the pressure increases, ensuring reliable sealing under all operating conditions.
4. Pressure-Assisted Sealing: As the system pressure increases, the fluid pressure helps to press the ball against the seats, enhancing the sealing performance. This pressure-assisted sealing ensures that the valve maintains a tight seal even under high-pressure conditions.
5. Metal-to-Metal Seals: In some high-pressure applications, metal-to-metal seals are used to provide additional sealing reliability. These seals are made from hard metals that can withstand high pressures and temperatures while maintaining a tight seal.
Design Features Enhancing Sealing Performance
The trunnion mechanism provides stable support to the ball, preventing it from shifting or rotating unexpectedly. This stability ensures that the ball maintains consistent contact with the seats, enhancing sealing performance.
Many trunnion ball valves feature double-acting seals, which provide sealing on both the upstream and downstream sides of the valve. This dual-sealing action ensures that fluid cannot leak through the valve, even if there is a pressure differential.
Trunnion ball valves are often designed to be fire-safe, meaning they can withstand exposure to fire without leaking. This is achieved through the use of fire-resistant materials and special seat designs that maintain their sealing properties even at high temperatures.
In applications involving flammable or explosive fluids, trunnion ball valves are designed to be anti-static. This design prevents the buildup of static electricity, reducing the risk of ignition and ensuring safe operation.
