Propylene is a commonly used industrial raw material. Propylene gas is used in many industrial production processes. High concentrations of propylene gas can pose a threat to workers’ health and may even cause explosion accidents. Therefore, in the industrial production process, accurate measurement of gas flow can help companies monitor propylene gas concentration, detect problems in time and take corresponding measures to ensure the health and safety of workers and the stability of production. In response to the measurement needs of propylene gas flow, the propylene gas mass flow meter came into being.
A gas mass flow meter is a device used to measure gas flow and density. There are two key aspects of gas mass flow meter applications in the polypropylene manufacturing process. First, it ensures accurate gas mass flow measurement, thus ensuring quality and efficiency in the production process. Secondly, it can help production workers monitor the flow and density of gas during the production process to ensure safety and stability during the production process. Mass flow meter: High measurement accuracy, low sensitivity to changes in fluid temperature and pressure , and can directly measure mass flow. However, the price is higher and installation and maintenance are relatively complicated.
The American Siargo MEMS gas mass flow controller-MFC2000 series provided by Gongcai.com provides flow control ranges from a few milliliters to 200L/min. The MFC2000 mass flow controller uses SIARGO’s proprietary MEMS flow sensing chip and integrates time domain flow sensing technology and intelligent electronic technology. Compared to traditional calorimetric flow sensing technologies on the market, this unique time-domain flow sensing technology eliminates the sensitivity of some common gases. For other sensitive gases, software can be used to realize gas identification. The surface of the MEMS chip is passivated with silicon nitride ceramic material, and combined with waterproof and oil-proof nano-coatings, product performance and reliability are greatly improved. Time-domain flow sensing technology also provides better linearity and greatly reduces temperature effects.