Coriolis flow meters factory today: Magnetic flow meters are commonly used to measure the flow of water and other conductive liquids, such as sewage, slurry, acids and bases. They are also often used in the food and beverage industry, as well as in the pulp and paper industry. Among the key advantages of magnetic flow meters is their non-invasive design. Because they use magnetic fields to measure the flow of the fluid, they do not require moving parts or obstructions in the pipe, making them easy to install and maintain. Additionally, they are relatively resistant to temperature and pressure changes, making them ideal for harsh environments. Find even more info at coriolis mass flow meter manufacturers.
Comprehensively consider the use requirements and procurement costs of gas turbine flowmeters. When the customized gas turbine flow meter did not appear in the domestic brand, the international brand can be said to be a super profitable product. A medium-sized gas turbine flow requires hundreds of thousands or even hundreds of thousands of yuan. And our domestic brands struggle tenaciously in a harsh environment where the strength and weakness are not an order of magnitude at all. It can be seen that when selecting a gas turbine flow meter, there are many factors to be considered, not only from before the purchase, but also after the purchase of the gas turbine flowmeter, all of which need to be considered. When choosing a gas turbine flowmeter, you must be careful!
Vortex flow meter is the fluid Reynolds number is within a certain range, and its output is only proportional to the volume flow. The output of vortex flowmeter has frequency signal and analog signal, and the analog output is obtained by f/ conversion on the basis of frequency output. This conversion loses about 0.1% accuracy. Therefore, when it is used to measure the steam flow, users prefer to use the frequency output. There are several other reasons why frequency output vortex flowmeters are more popular with users such as thermal companies.
The Insertion Density Meters are equiped with the microprocessors inside, so the sensor could complete the signal conditioning, calculation and diagnosis functions, and it does not need the remote eletronic devices for processing. Typical industries applied include the petrochemical industiry, electricity power industry, wine industry, food industry, pharmaceutical industry, and mineral processing (such as, clay, carbonate, silicate, etc. ) For sepecific applications, the Insertion Density Meters are largely used in the interface detection of the multi-product production lines, density detection of the mixed liquid, end monitoring of the reaction kettle, and the separator interface detection.
Thermal mass flow meters are suitable for all industrial and test platform applications that require fast, accurate gas measurement. The insertion thermal mass flow meter directly indicates the mass flow or standardized volume flow of the gas without any additional pressure and temperature compensation. They have impressive high accuracy, short response times and a very wide flow range, with almost no loss of accuracy even at the lowest flow. See even more information at https://www.bjssae.com/.
Beijing Sincerity Automatic Equipment Co., Ltd was reformed from the Petrochemical Branch Automatic Equipment Co.,Ltd. Beijing Sincerity is the innovation developed enterprise invested by both the China Petroleum &Chemical Corporation’s Beijing Research Institute of Chemical Industries and the Capital Science and Technology Group. Please be noticed, that all the videos taken are approved by SGS, Switzerland, or TUV, Germany. All the videos are real and without shooting skills or beauty filters.
It has been considered in the design that the steam becomes superheated, or it is difficult to determine which state it is in, or sometimes it is superheated and sometimes saturated, so the temperature and pressure compensation is adopted, and the above phase change has no effect on the measurement results. Considering saturated steam in the design, and adopting pressure compensation, the above-mentioned phase change will bring about a small error, that is, the compensation error caused by the density difference corresponding to the difference between the superheated steam temperature and the saturated steam temperature. The design is based on saturated steam, but temperature compensation is used, that is, the temperature of superheated steam is used as the saturation temperature to check the density table, which will generally cause large errors.