Description
The Gate Valve - Forged Steel Class 2500 is specifically designed for high-pressure applications where reliability, strength, and a secure seal are paramount. Made with high-quality forged steel, this valve is capable of withstanding extreme pressures of up to 2500 PSI. Its robust construction and dependable sealing make it suitable for a wide range of industrial applications, including oil and gas, petrochemical processing, and power generation.
This valve utilizes a lift-and-lower mechanism that provides an unobstructed flow path when fully open, making it ideal for applications that require maximum flow with minimal resistance.
Features
- Class 2500 rating ensures suitability for high-performance applications.
- Forged steel construction provides durability and resistance to harsh environments.
- Linear flow design minimizes turbulence and enhances efficiency.
- Standard flange or threaded connections for easy installation.
- Various sizes available to accommodate specific application demands.
- Flexible actuation options including manual, pneumatic, and electric.
- Fire-safe design compliant with API standards for enhanced safety.
- Maintenance-friendly design simplifies inspection and repairs.
- Widely applicable across different sectors including municipal, industrial, and chemical.
Specifications
- Size: 2" to 12"
- Pressure Rating: Class 2500 (up to 2500 PSI at 100°F)
- Temperature Range: -20°F to 450°F
- Connection Types: Flanged, SW, and NPT
- Body Material: ASTM A105, ASTM A350 Gr. LF2, and other suitable materials.
- Operation: Manual handwheel, pneumatic actuator, or electric actuator options.
Applications
This valve is commonly used in:
- Oil and gas pipelines for safe transport and regulation of fluids.
- Chemical processing for reliable flow control of aggressive materials.
- Power generation facilities for the regulation of steam and water flows.
- Water treatment plants ensuring precise flow regulation for treatment processes.
- Industrial applications requiring consistent and reliable valve operation.