preloader

Get a Quote

Wall Mounted Ultrasonic Flow Meter

Wall Mounted Ultrasonic Flow Meter Wall Mounted Ultrasonic Flow Meter

Wall Mounted Ultrasonic Flow Meter


A wall mounted ultrasonic flow meter is a device used to measure the flow rate of liquids in pipes without the need for cutting into the pipe or disrupting the flow. It utilizes ultrasonic technology to accurately and non-invasively determine the velocity and volume of the flowing liquid.

How does a Wall Mounted Ultrasonic Flow Meter Work?

A wall mounted ultrasonic flow meter consists of a sensor unit that is mounted on the exterior wall of the pipe. The sensor unit contains one or more pairs of ultrasonic transducers that emit and receive ultrasonic signals.

The transducers are strategically positioned on the pipe surface, creating an acoustic path through the flowing liquid. The upstream transducer emits ultrasonic signals at an angle relative to the flow direction, and the downstream transducer receives the signals.

The ultrasonic signals travel through the liquid and experience a time difference or frequency shift depending on the flow velocity. By measuring the time of flight or the frequency shift, the flow meter can calculate the velocity of the liquid.

The flow meter incorporates algorithms to account for pipe diameter, temperature, and other factors to accurately determine the volumetric or mass flow rate of the liquid.

Features and Benefits of Wall Mounted Ultrasonic Flow Meters

Non-invasive installation: Wall mounted ultrasonic flow meters are installed on the external surface of the pipe, eliminating the need for cutting into the pipe or interrupting the flow. This makes installation quick and easy, reducing downtime.

Accurate and reliable measurements: These flow meters provide accurate and repeatable flow rate measurements across a wide range of flow velocities. Advanced signal processing algorithms compensate for variations in flow conditions, ensuring reliable performance.

Wide range of applications: Wall mounted ultrasonic flow meters are suitable for various industries and applications, including water and wastewater, oil and gas, chemical processing, HVAC systems, and more.

No pressure drop or energy loss: Since the flow meter does not obstruct the flow path, it does not introduce pressure drop or energy loss, resulting in energy-efficient flow measurement.

Wide pipe size compatibility: These flow meters can be used with different pipe sizes, ranging from small-diameter pipes to large pipelines, offering versatility in flow measurement applications.

Data logging and communication capabilities: Many wall mounted ultrasonic flow meters are equipped with data logging functionality and communication protocols such as Modbus or Ethernet, enabling remote monitoring, data retrieval, and integration into control systems.

Applications of Wall Mounted Ultrasonic Flow Meters

Wall mounted ultrasonic flow meters are utilized in various industries and applications, including:

Water and wastewater: They are used for flow measurement in water distribution networks, wastewater treatment plants, irrigation systems, and industrial water applications.

Oil and gas: These flow meters are employed in oil and gas pipelines, refineries, and production facilities for measuring the flow of crude oil, natural gas, and petroleum products.

Chemical processing: Wall mounted ultrasonic flow meters find applications in chemical processing plants for measuring the flow of various liquids, including corrosive chemicals and solvents.

HVAC systems: They are used in heating, ventilation, and air conditioning systems to measure the flow of chilled water, hot water, and HVAC refrigerants.

Wall mounted ultrasonic flow meters provide a non-invasive and accurate solution for measuring the flow rate of liquids in pipes. With their easy installation, high accuracy, and wide range of applications, they are widely used in industries requiring precise flow measurement. By enabling efficient flow monitoring and control, wall mounted ultrasonic flow meters contribute to improved process performance, energy management, and operational efficiency.