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Q41F
MSNL
API6D Stainless Steel DBB Trunnion Mounted Flanged Ball Valve
Stainless Steel Trunnion Ball Valve specifications:
Size: 2’’~24’’(DN50~DN600)
Pressure: 150LB~1500LB
Material: A351-CF8, A351-CF8M, A351-CF3, A351-CF3M, A216-WCB
Ends: RF, RTJ, BW
Port: Full Port & Reduce Port
Seal/Seat: PTFE, RPTFE, PPL, PEEK, Metal
Working Temperature: ~196℃-425℃
Stainless Steel Trunnion Ball Valve design description:
Trunnion type ball
Two piece or three piece construction design
Blow-out proof stem design
PTFE/RPTFE/PPL/PEEK seat seal( Seat seal material could be decided by customer’s request or according to valve’s medium & temp. condition).
Double Block and Bleed function
API607 fire-proof and anti-static design
Operation: Hand wheel, Worm wheel, Pneumatic actuator & Electric Actuator.
Stainless Steel Trunnion Ball Valve technical specification:
Design & Manufacture standard: API 6D, API 608, BS 5351.
Pressure & Temperature standard: ASME B16.34.
Face to face dimension standard: ASME B16.10.
Flange standard: ASME B16.5, ASME B16.47.
Test & Inspect standard: API 598, API 6D.
Stainless Steel Trunnion Ball Valve competitive advantage:
GOOD QUALITY
RESONABLE PRICE
ON-TIME DELIVERY
STRICT EXAMINATION
SINCERE SERVICE
DURABLE IN USE
PROFESSIONAL EXPORT EXPERIENCE
The Trunnion Mounted Ball valve is designed to ensure stable operation in high pressure or complex conditions. It offers both full port and reduce port options to accommodate different flow rates in various working conditions. Our Trunnion Mounted Ball Valve can be manufactured using materials such as CF8, CF8M, CF3, CF3M, WCB, WCC, WC6, WC9, LCC, LCB, C5, and more. Additionally, we can produce valves according to different standards including API, JIS DIN, EN, BS, ASME, GOST, GB, and others. To cater to different market needs, we offer both soft and metal seat options.
To ensure durability, our cast steel ball valves are protected with high-quality painting or phosphating. On the other hand, our stainless steel ball valves have a natural finish for added protection. In case of a fire, our valves are equipped with a secondary metallic machined ring that comes into contact with the ball to prevent leakage and provide a reliable shut-off, in line with the latest industry fire-safe requirements.
A flanged ball valve is a type of valve that uses a ball with a hole in it to control the flow of fluid through a pipeline. It is called a "flanged" ball valve because it has flanges on each end that allow it to be bolted directly to the pipeline. Here are some key features and characteristics of a flanged ball valve:
1. Construction: Flanged ball valves are typically made of durable materials such as stainless steel, carbon steel, or cast iron. The body of the valve is usually one piece, with a hollow ball inside that has a hole or port through it.
2. Ball and Seat Design: The ball inside the valve has a hole or port that can be aligned with the flow path to allow fluid to pass through or rotated to block the flow. When the ball is in the open position, the fluid flows freely through the valve. When the ball is rotated 90 degrees, the hole is perpendicular to the flow path, blocking the flow. The ball is often made of stainless steel or other corrosion-resistant materials.
3. Flanged Connections: Flanged ball valves have flanges on each end, which allow them to be bolted directly to the pipeline. The flanges provide a secure and leak-free connection, making them suitable for high-pressure or high-temperature applications.
4. Actuation Options: Flanged ball valves can be manually operated or actuated using various methods. Manual operation involves turning a handle or lever to rotate the ball and control the flow. Actuated valves use pneumatic, electric, or hydraulic actuators to automate the operation of the valve, allowing for remote control and precise positioning.
5. Full Bore or Reduced Bore: Flanged ball valves can have either full bore or reduced bore designs. Full bore valves have a larger ball and port size, allowing for unrestricted flow and minimal pressure drop. Reduced bore valves have a smaller ball and port size, resulting in a slightly higher pressure drop.
6. Pressure and Temperature Ratings: Flanged ball valves are available in various pressure and temperature ratings to suit different applications. They can handle high pressures and temperatures, making them suitable for demanding industrial processes.
7. Versatility: Flanged ball valves are versatile and can be used in a wide range of applications, including water and wastewater treatment, oil and gas pipelines, chemical processing, power plants, and HVAC systems. They are suitable for both on/off and throttling applications.
Flanged ball valves are popular in industries where reliable and efficient flow control is required. Their sturdy construction, secure flanged connections, and ease of operation make them a preferred choice for many piping systems. When selecting a flanged ball valve, it is important to consider factors such as the material of construction, pressure and temperature ratings, bore size, actuation options, and compatibility with the fluid being handled to ensure it meets the specific needs of the application.
API6D Stainless Steel DBB Trunnion Mounted Flanged Ball Valve
Stainless Steel Trunnion Ball Valve specifications:
Size: 2’’~24’’(DN50~DN600)
Pressure: 150LB~1500LB
Material: A351-CF8, A351-CF8M, A351-CF3, A351-CF3M, A216-WCB
Ends: RF, RTJ, BW
Port: Full Port & Reduce Port
Seal/Seat: PTFE, RPTFE, PPL, PEEK, Metal
Working Temperature: ~196℃-425℃
Stainless Steel Trunnion Ball Valve design description:
Trunnion type ball
Two piece or three piece construction design
Blow-out proof stem design
PTFE/RPTFE/PPL/PEEK seat seal( Seat seal material could be decided by customer’s request or according to valve’s medium & temp. condition).
Double Block and Bleed function
API607 fire-proof and anti-static design
Operation: Hand wheel, Worm wheel, Pneumatic actuator & Electric Actuator.
Stainless Steel Trunnion Ball Valve technical specification:
Design & Manufacture standard: API 6D, API 608, BS 5351.
Pressure & Temperature standard: ASME B16.34.
Face to face dimension standard: ASME B16.10.
Flange standard: ASME B16.5, ASME B16.47.
Test & Inspect standard: API 598, API 6D.
Stainless Steel Trunnion Ball Valve competitive advantage:
GOOD QUALITY
RESONABLE PRICE
ON-TIME DELIVERY
STRICT EXAMINATION
SINCERE SERVICE
DURABLE IN USE
PROFESSIONAL EXPORT EXPERIENCE
The Trunnion Mounted Ball valve is designed to ensure stable operation in high pressure or complex conditions. It offers both full port and reduce port options to accommodate different flow rates in various working conditions. Our Trunnion Mounted Ball Valve can be manufactured using materials such as CF8, CF8M, CF3, CF3M, WCB, WCC, WC6, WC9, LCC, LCB, C5, and more. Additionally, we can produce valves according to different standards including API, JIS DIN, EN, BS, ASME, GOST, GB, and others. To cater to different market needs, we offer both soft and metal seat options.
To ensure durability, our cast steel ball valves are protected with high-quality painting or phosphating. On the other hand, our stainless steel ball valves have a natural finish for added protection. In case of a fire, our valves are equipped with a secondary metallic machined ring that comes into contact with the ball to prevent leakage and provide a reliable shut-off, in line with the latest industry fire-safe requirements.
A flanged ball valve is a type of valve that uses a ball with a hole in it to control the flow of fluid through a pipeline. It is called a "flanged" ball valve because it has flanges on each end that allow it to be bolted directly to the pipeline. Here are some key features and characteristics of a flanged ball valve:
1. Construction: Flanged ball valves are typically made of durable materials such as stainless steel, carbon steel, or cast iron. The body of the valve is usually one piece, with a hollow ball inside that has a hole or port through it.
2. Ball and Seat Design: The ball inside the valve has a hole or port that can be aligned with the flow path to allow fluid to pass through or rotated to block the flow. When the ball is in the open position, the fluid flows freely through the valve. When the ball is rotated 90 degrees, the hole is perpendicular to the flow path, blocking the flow. The ball is often made of stainless steel or other corrosion-resistant materials.
3. Flanged Connections: Flanged ball valves have flanges on each end, which allow them to be bolted directly to the pipeline. The flanges provide a secure and leak-free connection, making them suitable for high-pressure or high-temperature applications.
4. Actuation Options: Flanged ball valves can be manually operated or actuated using various methods. Manual operation involves turning a handle or lever to rotate the ball and control the flow. Actuated valves use pneumatic, electric, or hydraulic actuators to automate the operation of the valve, allowing for remote control and precise positioning.
5. Full Bore or Reduced Bore: Flanged ball valves can have either full bore or reduced bore designs. Full bore valves have a larger ball and port size, allowing for unrestricted flow and minimal pressure drop. Reduced bore valves have a smaller ball and port size, resulting in a slightly higher pressure drop.
6. Pressure and Temperature Ratings: Flanged ball valves are available in various pressure and temperature ratings to suit different applications. They can handle high pressures and temperatures, making them suitable for demanding industrial processes.
7. Versatility: Flanged ball valves are versatile and can be used in a wide range of applications, including water and wastewater treatment, oil and gas pipelines, chemical processing, power plants, and HVAC systems. They are suitable for both on/off and throttling applications.
Flanged ball valves are popular in industries where reliable and efficient flow control is required. Their sturdy construction, secure flanged connections, and ease of operation make them a preferred choice for many piping systems. When selecting a flanged ball valve, it is important to consider factors such as the material of construction, pressure and temperature ratings, bore size, actuation options, and compatibility with the fluid being handled to ensure it meets the specific needs of the application.
