Meter Run FL56
In situations where the pipe size is less than 50 millimeters, the use of Meter Run FL56 is preferred over orifice plates and orifice flanges. This device is designed for precise fluid flow measurement and is an essential component in industrial measurement systems.
Components of Meter Run FL56
- Input flange: For connecting the Meter Run to the system’s input pipe.
- Input pipe: Part of the assembly that directs the fluid flow towards the orifice holder.
- Orifice holder: Holds the orifice plate, which plays a key role in accurate flow measurement.
- Orifice plate: The main component used to create pressure difference and calculate fluid flow.
- Seals: To prevent leakage between the various components.
- Output pipe: The section where the fluid flows after passing through the orifice.
- Output flange: The final connection for transferring the fluid to the output lines.
Design Standard
Meter Run FL56 is designed and manufactured according to the ASME MFC-14M standard. This standard ensures high accuracy and reliable performance under various conditions. Adherence to this standard ensures optimal performance across a variety of industrial applications.
Advantages of Using Meter Run FL56
- High accuracy: Suitable for measuring flow in small pipes with sizes under 50 millimeters.
- Complete design: Includes all necessary components for quick installation and setup.
- Leak reduction: Using seals and a standardized design minimizes the risk of leaks.
- Flexibility: Can be used in various fluids and operational conditions.
- Stability: High resistance to pressure and temperature.
Applications
- Oil and Gas Industry: Measuring flow of hydrocarbon fluids.
- Petrochemical Industry: Flow control in chemical processes.
- Power Plants: Monitoring fluid flow in cooling and steam systems.
- Processing Industries: Used in production and fluid transfer lines for specific fluids.
- Laboratories: Accurate flow measurement for testing and calibration of equipment.
Conclusion
Meter Run is an ideal solution for measuring fluid flow in small pipes. Its standardized design, high accuracy, and flexibility make it one of the top choices in various industries. Its use in industrial processes significantly improves quality and enhances efficiency.
