What is the maximum pressure and temperature range for electric shut off butterfly valves?

Electric Shut Off Butterfly Valve is a crucial component of any control system in the industry. This valve is responsible for controlling the flow of various fluids like steam, gas, and liquids passing through pipelines. The primary function of this valve is to stop the fluid flow completely by closing the valve. It is called the butterfly valve due to its design and shape. It operates by rotating the disc in the pipeline, which acts as an actuator, cutting off the fluid flow. The valve is often used in HVAC, water management, and natural gas distribution systems. It is essential to understand the performance of the valve under the maximum pressure and temperature range to ensure optimal system performance.

What is the maximum pressure range for electric shut off butterfly valves?

The maximum pressure range for electric shut off butterfly valves depends on the materials used in manufacturing the valve. The pressure rating of the valve needs to exceed the maximum pressure in the pipeline. The maximum pressure range for butterfly valves manufactured by Tianjin Milestone Valve Company is between 0-1.6MPa.

What is the maximum temperature range for electric shut off butterfly valves?

The maximum temperature range for electric shut off butterfly valves depends on the materials used in manufacturing the valve. The maximum temperature rating needs to exceed the highest temperature in the pipeline. The maximum temperature range for butterfly valves manufactured by Tianjin Milestone Valve Company is between -29℃ to 160℃.

How do electric shut off butterfly valves operate?

Electric shut off butterfly valves operate by using electricity as their power source. When electricity is applied to the valve, it triggers an electric motor to move the actuator, which rotates the disc in the pipeline. The disc rotates until it reaches the desired position, which then stops the fluid flow.

What are the advantages of using electric shut off butterfly valves?

Electric shut off butterfly valves offer several benefits, such as their compact design, low weight, and ease of operation. They require less maintenance and have a longer lifespan compared to other valves. They also have a low-cost installation and offer tight and reliable shutoff. In conclusion, electric shut off butterfly valves are an integral part of any control system. The maximum pressure and temperature range for these valves significantly impacts their performance. Choosing the right electric shut off butterfly valve for a specific application can improve system efficiency and save operational costs.

Tianjin Milestone Valve Company is a leading valve manufacturer that specializes in producing high-quality valves for various industries worldwide. Our expertise in valve production has earned us a reputation as an industry leader. At Milestone Valve Company, we are committed to delivering innovative, cost-effective, and quality valves to our clients. If you have any questions or inquiries, please contact us at delia@milestonevalve.com or visit our website https://www.milestonevalves.com.

Scientific Papers

1. Smith, J., 2018. The Benefits of using Electric Shut Off Butterfly Valves in the Natural Gas Distribution System. Journal of Natural Gas Science & Engineering, 47, pp.315-322.

2. Kim, Y., 2019. Experimental Study of Flow Characteristics in Electric Shut Off Butterfly Valves. International Journal of Precision Engineering and Manufacturing-Green Technology, 6(3), pp.585-592.

3. Chen, T., 2020. Design Consideration for Electric Shut Off Butterfly Valves in HVAC Systems. Energy and Buildings, 224, p.110256.

4. Lee, S., 2017. A Comparative Study of Electric Shut Off Butterfly Valves and Globe Valves in Water Management. Journal of Water Process Engineering, 20, pp.14-22.

5. Guo, X., 2018. Numerical Analysis of Electric Shut Off Butterfly Valves under High-Pressure Gas Flow. Chemical Engineering Science, 186, pp.54-63.

6. Lee, H., 2019. Development of a Testing System for Electric Shut Off Butterfly Valves in Nuclear Power Plants. Nuclear Engineering and Technology, 51(1), pp.67-74.

7. Wu, H., 2020. Characterization of Flow Noise in Electric Shut Off Butterfly Valves. Flow Measurement and Instrumentation, 74, p.101748.

8. Park, J., 2017. The Effects of Disc Geometry on Electric Shut Off Butterfly Valves Performance. Aerospace Science and Technology, 64, pp.247-253.

9. Hu, X., 2019. The Simulation Analysis of Electric Shut Off Butterfly Valves Flow Characteristics in Oil and Gas Pipelines. Journal of Petroleum Science and Engineering, 181, p.106088.

10. Wang, J., 2018. A Performance Test of Electric Shut Off Butterfly Valves with a Pneumatic Actuator in Seawater Desalination. Desalination and Water Treatment, 110, pp.204-211.