Precisely adapted for laboratory gas measurement – a new type of highly adaptable glass rotor flowmeter!

Material quality is the core foundation for the stable operation of a flow meter. This upgraded flow meter features refined optimization in its structural materials, balancing corrosion resistance, pressure resistance, and light transmittance. The base is made of 304 stainless steel through a single forging process. 304 stainless steel possesses excellent acid and alkali resistance, oxidation resistance, and rust resistance, effectively resisting the erosion of various trace corrosive gases and humid environments in the laboratory. This prevents problems such as rusting, deformation, and leakage of the base over long-term use, significantly extending the equipment’s service life and making it suitable for long-term, high-frequency laboratory experiments.

In terms of core measurement performance, this flowmeter features a 1:10 wide range ratio design, offering a broader measurement coverage compared to traditional narrow-range flowmeters. It can meet the measurement needs of various scenarios in laboratories, including trace, routine, and medium-to-high flow rate gases, eliminating the need for frequent equipment changes and effectively improving experimental efficiency. Simultaneously, the device is fully adapted to the characteristics of industrial and scientific research media, suitable for various gas media of different densities.

Of particular note is the new flow meter’s ability to accurately distinguish between standard condition flow rate and working condition flow rate, addressing the most critical and easily confused issue in laboratory gas measurement. This completely resolves the problems of inconsistent flow parameter statistics and data mismatches in scientific research experiments. In the field of gas flow measurement, standard condition and working condition are two completely different sets of core parameters that directly affect the reference value of experimental data.