BS10 Table D/E Flanged Gate Valve
Delivery Time
General Delivery Time: 2 working daysBS10 Table D/E Flanged Gate Valve
These BS10 Table D/E Flanged Cast Iron Gate Valves have a bronze trim. and Stainless Steel Stem. Designed to BS3464 and are Non Rising Stem, with a working pressure of 10 bar and a working temperature range of -10°C to +180°C.
10" and 12" are available on request
Face to Face
- 2" (DN50) 146mm
- 2.1/2" (DN65) 159mm
- 3" (DN80) 165mm
- 4" (DN100) 171mm
- 5" (DN125) 190mm
- 6" (DN150) 210mm
- 8" (DN200) 241mm
Overview of the BS10 Table D/E Flanged Gate Valve
The BS10 Table D/E Flanged Gate Valve is designed for effective flow management in various industrial applications. This valve features a robust construction that meets the BS10 standard, ensuring durability and reliability. It allows for complete shut-off, making it ideal for critical systems requiring precise control over fluid flow. Because of its flanged connections, installation is straightforward and secure, reducing the risk of leaks. Users appreciate this valve for its performance in both high-pressure and standard operations.
Key Features and Benefits
This valve comes with several features that enhance its performance. It is made from high-quality materials that resist corrosion, making it suitable for harsh environments. Additionally, the BS10 Table D/E Flanged Gate Valve offers a good sealing capability, so it minimizes the risk of fluid leakage. By allowing for smooth operation, the valve not only improves efficiency but also prolongs the lifespan of connected piping systems, which is a significant advantage in maintenance.
Applications and Industries
The BS10 Table D/E Flanged Gate Valve is widely used across many industries, including oil and gas, water treatment, and manufacturing. It is essential in systems where the flow of fluids needs to be regulated effectively. Given its compatibility with various fluids, this valve proves advantageous in both commercial and industrial settings. Therefore, choosing the right valve type is crucial because it affects operational efficiency and safety in fluid management processes.
