Now, with the gradual popularization of air booster system, the market's requirements for air booster system are becoming more and more diversified, such as high stop and low start, timing start, timing pressure maintenance when the pressure is reached, etc. Here's a brief introduction.
with the gradual popularization of air boosting systems, the market's requirements for air boosting systems are becoming increasingly diversified, such as high stop and low start, timed start, reaching pressure for timed pressure maintenance, and so on here, the editor will give you a brief introduction.
With the advancement of science and technology, the popularity of air booster systems and energy savings. In the future, there will be more and more requirements for the performance and functionality of air booster systems. For example, the energy conservation and emission reduction advocated now, the air booster system is required to work with the least consumption, and the original air pressurization system can not achieve the purpose, in view of this situation, Jingtuo has developed a high stop and low starting air pressurization system, which can meet the working conditions when the air pressure is high in the air place, and the pressure is insufficient to meet the working conditions when the air pressure is low. The high-stop and low-starting air booster system uses intelligent chips to sense the high and low changes of on-site pressure, and determines whether the air booster pump works by comparing the upper and lower lines of the set air pressure pressure, and when the on-site air source reaches the pressure setting line, the smart chip stops the work of the booster pump, and the booster pump is quite a pipeline, and there is no consumption of the gas source on the site (the high-pressure gas directly enters the container tank through the booster pump, and the booster pump will work repeatedly without the smart chip to consume a large part of the energy). When the on-site air source reaches the set pressure and goes offline, it proves that the pressure cannot meet the requirements of on-site use, and the intelligent chip will issue an opening instruction to the air booster pump, and the air booster pump will work normally to ensure the normal use of the use pressure of the equipment.
with the advancement of technology, the popularization of air boosting systems and energy conservation. in the future, there will be increasing demands for the performance and functionality of air boost systems. for example, the current promotion of energy conservation and emission reduction requires the air boost system to work at its maximum with minimal consumption. at this time, the original air boost system cannot achieve its goals. in response to this situation, a high stop low start air boost system has been developed. this system can meet the working conditions when the air pressure in the gas field is high, but cannot meet the working conditions when the pressure is low. the high stop low start air booster system uses intelligent chips to sense the changes in on-site pressure, and determines whether the air booster pump is working by comparing the upper and lower lines of the set air pressure. when the on-site air source reaches the pressure set upper line, the intelligent chip stops the operation of the booster pump, which acts as a pipeline, there is no consumption of the on-site gas source (high-pressure gas enters the container tank directly through the booster pump, and without intelligent chips, the booster pump will repeatedly work and consume a large part of the energy). when the on-site gas source reaches the set pressure offline, it proves that the pressure cannot meet the requirements for on-site use. the intelligent chip will issue an opening command to the air booster pump. at this time, the air booster pump will work normally to ensure the normal use of the equipment's operating pressure.