Quality coriolis meters provider: Example mass flow applications – As gas mixtures are often defined in terms of volumetric ratios, mass flow instrumentation is useful for gas mixing applications. As noted above, mass flow is defined by the flow industry as a form of molar flow measurement, which can be confusing since in reality they are molar ratios. In order to make up “volumetric” mixture ratios, one should use mass flow rates. Custody transfer applications benefit from mass flow measurement, simply because it is necessary to know the mass of gas being used. Read more info at coriolis density meter.
Second, the gas turbine flow meter equipment has strong functions, low power consumption and superior performance. When it is sold in the industry, it is found that the functional advantages of this kind of flowmeter will be more perfect. In many gas distribution stations or gas When promoting in the station, I found that the advantages will be more diversified, and there are more and more advantages. Third, the configuration of the natural gas turbine flow meter instrument is more perfect, and it will be more and more widely used. As long as you take a fancy to the above clarity, it will be more convenient in the process of normal use. After this is used in many gas distribution stations, it is found that the measurement accuracy is higher.
Flow measurement of some low-viscosity oils, such as gasoline, kerosene, diesel, and heavy oil, residual oil, etc. whose viscosity is reduced by heating. Water flow measurement of large-diameter pipelines, among which the full-tube vortex flowmeter is mainly used for small and medium diameter pipes, while the insertion vortex flowmeter can be used for large-diameter (DN≥300mm) pipeline flow measurement. It is widely used in urban water pipelines and industrial water mains in chemical, electric power, metallurgy, papermaking, chemical fiber and other enterprises.
American first unit of coriolis mass flow meter entered China SINCE 1987. Beijing Sincerity belongs to the state owned enterprise, which is Beijing institute of chemical industry, SINOPEC automation instrument department. SINOPEC has invested large amount of money to ask Beijing Sincerity to develop the VERY FIRST Chinese domestic coriolis mass flow meter since 1987. Chinese very first unit of U shape coriolis mass flow meter was successfully developed by Beijing Sincerity Group. Beijing Sincerity won the National Science and Technology progress awards. – SINCER 1989.
Beijing Sincerity Automatic Equipment Co., Ltd is a research and development center, focusing only on one type of flow meter, the Coriolis mass flow meter, which has been in use for 33 years. Our Coriolis mass flow has reached the international leading level. We provide three types of Coriolis mass flowmeters, including U-shaped, micro-bent V-shaped and triangular, to meet the different needs of different industries. We can provide coriolis flow meter with ultra high pressure of 100MPa, ultra high temperature of 350 C, and minimum temperature of -300 C. We can also measure ultra-high viscosity liquids, such as 70,000 cps glue. We have been very successful with gas measurements such as hydrogen. In addition, we have been very successful in two-phase / three-phase / multiphase flow liquid measurement. We support OEM services. You can even customize the internal software for Coriolis mass flow meters. We also support market agents. See more info on https://www.bjssae.com/.
Beijing Sincerity is the leader of the coriolis mass flow meters industries in China,who specialized in producing thermal mass flow meter,turbine flow meter,fork density meters and ultrasonic flow meter. In line with our collaborative approach to our customers we are also able to discuss tailor-made Service and Support Solutions designed specifically for your needs that can include such topics as training, instrument replacement agreements and instant service and repair.
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.