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Cryogenic Forged Steel F316 DN20 150LB RF Flange Floating Ball Valve With Extended Stem
Nominal Diameter:3/4”(DN20)
Bore: Full Bore
Nominal Pressure: 150LB
Material:F316
Operation:Lever
Design Standard:API 6D
Test/Inspection:API598
End Connection:RF FLANGE
Flange standard:ASME/ANSI B16.5
The "Cryogenic Forged Steel F316 DN20 150LB RF Flange Floating Ball Valve With Extended Stem" is a specialized ball valve designed for extremely low temperatures. It features a forged steel construction with F316 stainless steel, has a nominal diameter of 20 millimeters, a pressure rating of 150 pounds per square inch, and includes a floating ball design and an extended stem for specific installation needs.
Applications:
Liquefied Natural Gas (LNG) Industry:
Used in the production, storage, and transportation of liquefied natural gas, where handling fluids at extremely low temperatures is necessary.
Industrial Gas Industry:
Applicable for handling liquefied gases or other industrial gases that often require extremely low temperatures in their liquid state.
Space Technology:
In space exploration, where controlling fluids at very low temperatures is essential, this valve might be used in spacecraft and related equipment.
Laboratory and Research:
Utilized in laboratory or research settings, especially in fields requiring experiments at extremely low temperatures.
It's important to note that these are potential application areas, and the specific use cases will depend on the detailed specifications and design of the valve, as well as the requirements of particular industries or processes.
Why choose it?
Corrosion Resistance:
The F316 stainless steel construction provides excellent corrosion resistance, ensuring the valve's durability and longevity in challenging environments.
Cryogenic Suitability:
Specifically designed for cryogenic applications, this valve can handle extremely low temperatures, making it suitable for industries dealing with liquefied gases or other low-temperature fluids.
Versatility:
The floating ball design and extended stem enhance the valve's versatility, allowing it to control different media flows. This adaptability is crucial in various industrial processes.
Pressure Rating:
With a 150LB pressure rating, the valve is capable of handling moderate to high-pressure applications, providing flexibility for usage across different systems.
Extended Stem:
The presence of an extended stem is beneficial for installations where a longer stem is required. This feature enables easier operation and control of the valve in specific setups.
Flange Design:
The RF flange (Raised Face) type ensures a reliable and secure connection in systems requiring flanged connections.
Wide Range of Applications:
Suitable for diverse industries, including liquefied natural gas, industrial gases, space technology, laboratories, and research, making it a versatile solution.
Ultimately, choosing this type of valve is driven by its ability to meet the specific requirements of cryogenic applications, offering durability, adaptability, and reliable performance in challenging environments.
Cryogenic Forged Steel F316 DN20 150LB RF Flange Floating Ball Valve With Extended Stem
Nominal Diameter:3/4”(DN20)
Bore: Full Bore
Nominal Pressure: 150LB
Material:F316
Operation:Lever
Design Standard:API 6D
Test/Inspection:API598
End Connection:RF FLANGE
Flange standard:ASME/ANSI B16.5
The "Cryogenic Forged Steel F316 DN20 150LB RF Flange Floating Ball Valve With Extended Stem" is a specialized ball valve designed for extremely low temperatures. It features a forged steel construction with F316 stainless steel, has a nominal diameter of 20 millimeters, a pressure rating of 150 pounds per square inch, and includes a floating ball design and an extended stem for specific installation needs.
Applications:
Liquefied Natural Gas (LNG) Industry:
Used in the production, storage, and transportation of liquefied natural gas, where handling fluids at extremely low temperatures is necessary.
Industrial Gas Industry:
Applicable for handling liquefied gases or other industrial gases that often require extremely low temperatures in their liquid state.
Space Technology:
In space exploration, where controlling fluids at very low temperatures is essential, this valve might be used in spacecraft and related equipment.
Laboratory and Research:
Utilized in laboratory or research settings, especially in fields requiring experiments at extremely low temperatures.
It's important to note that these are potential application areas, and the specific use cases will depend on the detailed specifications and design of the valve, as well as the requirements of particular industries or processes.
Why choose it?
Corrosion Resistance:
The F316 stainless steel construction provides excellent corrosion resistance, ensuring the valve's durability and longevity in challenging environments.
Cryogenic Suitability:
Specifically designed for cryogenic applications, this valve can handle extremely low temperatures, making it suitable for industries dealing with liquefied gases or other low-temperature fluids.
Versatility:
The floating ball design and extended stem enhance the valve's versatility, allowing it to control different media flows. This adaptability is crucial in various industrial processes.
Pressure Rating:
With a 150LB pressure rating, the valve is capable of handling moderate to high-pressure applications, providing flexibility for usage across different systems.
Extended Stem:
The presence of an extended stem is beneficial for installations where a longer stem is required. This feature enables easier operation and control of the valve in specific setups.
Flange Design:
The RF flange (Raised Face) type ensures a reliable and secure connection in systems requiring flanged connections.
Wide Range of Applications:
Suitable for diverse industries, including liquefied natural gas, industrial gases, space technology, laboratories, and research, making it a versatile solution.
Ultimately, choosing this type of valve is driven by its ability to meet the specific requirements of cryogenic applications, offering durability, adaptability, and reliable performance in challenging environments.
