Application of Siemens ultrasonic flowmeter technologyBattery powered for easy on-site application: convenient for mobile instruments - saving time during measurement, monitoring, and temporary installation

Waterproof mode can be used outdoors and can be installed in places that are not exposed to rainwater

The sturdy casing of the waterproof mode enables it to withstand harsh environments without being damaged like other instruments

Multi functional - no need to replace the instrument when working conditions change

Easy to install; No need to cut the pipeline or stop the flow

Low maintenance costs; External sensors do not require regular cleaning

Application of Siemens ultrasonic flowmeter technologyIt consists of three parts: ultrasonic transducer, electronic circuit, and flow display and accumulation system. The ultrasonic transducer converts electrical energy into ultrasonic energy and emits it into the measured fluid. The ultrasonic signal received by the receiver is amplified by electronic circuits and converted into an electrical signal representing the flow rate, which is supplied to the display and integration instrument for display and integration. This achieves the detection and display of traffic.

In addition, the accuracy of flow measurement of ultrasonic measuring instruments is almost unaffected by parameters such as temperature, pressure, viscosity, and density of the measured fluid. They can also be made into non-contact and portable measuring instruments, which can solve the problem of flow measurement of highly corrosive, non-conductive, radioactive, and flammable and explosive media that are difficult to measure with other types of instruments.

It is a non-contact flow measurement instrument that can measure the volumetric flow rate of liquid and gas media. In addition to the advantages of electromagnetic flow meters (no pressure loss, no interference with the flow field, ability to measure highly corrosive media, media containing impurities, etc.), it can also measure the flow rate of non-conductive media, and is not affected by fluid pressure, temperature, viscosity, density, etc; Good universality, the same meter can measure the flow rate of media in pipelines of different diameters; Easy installation and maintenance, no need to cut off the fluid, and do not affect the normal flow of fluid in the pipeline. No valves, flanges, bypass pipes, etc. are required during installation; Especially suitable for flow measurement of large-diameter pipelines, due to the absence of pressure loss, the energy-saving effect is significant.

Disadvantages:During installation, it is not advisable to be too close to the vibration source as it may affect the measurement of the probe; When measuring the flow rate of water,

Due to the tendency of water to accumulate scale in pipelines over time, it has an impact on the signal strength of the probe; We cannot measure suspension yet