Cryogenic Control Valve is engineered specifically for precise regulation of cryogenic fluids, such as liquefied natural gas (LNG), liquid nitrogen, liquid oxygen, and other ultra-low-temperature gases. Designed to perform reliably in temperatures as low as -196°C (-320°F), this valve enables accurate flow control in critical cryogenic processes, ensuring safe and efficient operation. Its specialized design minimizes heat transfer, reduces frost formation, and offers stable flow regulation, making it ideal for applications in LNG facilities, air separation units, petrochemical plants, and cryogenic storage systems.
Constructed from robust materials such as stainless steel, carbon steel, and cryogenic-compatible alloys, the Cryogenic Control Valve is built to withstand extreme temperatures and high pressures while preventing leakage and ensuring long service life. Meeting strict industry standards, these valves offer superior control and reliability in demanding cryogenic environments.
Specifications:
- Size Range: 1/2 inch to 12 inches
- Temperature Range: Down to -196°C (-320°F)
- Pressure Rating: Up to Class 600
- End Connection:
- Flanged
- Butt Weld
- Threaded
- Seat Material: PTFE, Metal Seated (Stainless Steel, Inconel)
- Design Standards:
- API 600
- ASME B16.34
- ISO 9001
Manufacturers:
- Emerson
- Fisher
- SVR
- L&T
We source Cryogenic Control Valves from industry-leading manufacturers to ensure quality, precision, and long-lasting performance.
Applications:
Cryogenic Control Valves are essential for applications requiring precise flow regulation at extremely low temperatures, such as:
- LNG Transportation and Storage
- Air Separation Units
- Petrochemical and Chemical Processing
- Cryogenic Research and Development Facilities
- Pharmaceutical and Laboratory Applications
These valves provide accurate, responsive control essential to safe and efficient cryogenic operations.
For further details on our Cryogenic Control Valves or to discuss specific application needs, please contact us. Our valves deliver exceptional performance and reliability in low-temperature environments.
