Description
The Three Piece Trunnion-Mounted Ball Valve 600 is engineered for precision and reliability in high-pressure applications. Designed to provide outstanding durability, this valve features a trunnion-mounted configuration that offers superior support for the ball, thereby minimizing friction and wear over time. Its innovative design is ideal for industries such as oil and gas, chemical processing, and water treatment.
The valve's three-piece construction allows for seamless maintenance without removal from the pipeline, making it a robust and efficient solution for demanding fluid control requirements.
Features
- Unique three-piece configuration simplifies maintenance and reduces downtime.
- Trunnion-mounted ball ensures optimal alignment and sealing under high pressures.
- Full port design promotes unrestricted flow and lowers pressure loss.
- Rated for high pressure up to 600 PSI, suitable for challenging applications.
- Corrosion-resistant materials provide durability in harsh environments.
- Adjustable packing gland allows for customized sealing capabilities.
- Wide range of actuator options available, including pneumatic, electric, and manual.
- Integrated stop and switch features enhance safety and operational feedback.
- Available with fire-safe design compliance for added safety in critical environments.
- Seismic qualifications ensure reliable operation in unstable environments.
Specifications
- Size: 2" to 10"
- Pressure Rating: Up to 600 PSI
- Temperature Range: -20°F to 450°F
- Connection Types: Flanged ANSI Class 150 and Class 300
- Body Material: ASTM A216 Gr. WCB, SS 304, SS 316, etc.
- Actuation: Full range of actuator options including pneumatic and electrical.
Applications
This valve is widely used in:
- Oil and gas operations for efficient fluid transfer.
- Chemical plants for safe handling of various substances.
- Water and wastewater treatment facilities for precise flow control.
- Power generation for the management of steam and gas flows.
- Mining applications for reliable and efficient resource extraction.