Selection of four dimensional turbocharging pump
四维增压泵（气体增压泵，气液增压泵，空气增压泵）有七个重要工作参数决定了1. 最小的出口压力2. 流量3. 被压缩气体4. 可用气体驱动压力为多大？ 5. 可用气体体积为多少?6. 被压缩介质是什么？7. 用于什么地方
Four dimensional booster pump (gas booster pump, gas hydraulic booster pump, air booster pump) has seven important working parameters, which determine 1. minimum outlet pressure, 2. flow rate 3., compressed gas 4. and available gas drive pressure. 5. what is the volume of the available gas? What is the 6. compressed medium? 7. for where to use
Specific applications select the appropriate turbocharging pump, first to determine which series of gas booster pumps can meet the demand for flow.
The flow rate provided in this article is determined by the pressure curve. The possible proportion of the application is determined by using air pressure and flow rate to test the gas booster pump and gas - liquid supercharging pump, air pressurized pump, and working data. The capacity of the pressurized pump to produce pressure is the function of the driving pressure, the ideal supercharging ratio and the maximum compression ratio. produce
The capacity of the flow is a function of the flow of air, the displacement of each cycle of the pump and the volume efficiency of the pump. For each series of gaseous gas booster pumps
Made of commonly used materials. For applications that involve corrosive gases, some of the materials can be replaced.
Single action single stage series
The booster pump provides an economical solution for small parts testing or other similar applications. In these applications, the volume of the booster container is very small, and the efficiency is not very high. This series of pneumatic gas booster pumps can control the actual maximum output pressure by using cheap pneumatic pressure control equipment. The maximum output pressure of the gas booster pump is equal to the product of the ratio of the driving air pressure to the large and small area of the piston of the pneumatic gas booster pump. The double acting single stage series gas booster pump not only increases the volume of the pump twice, but also consumes the driving air. This is because the pressure of the input gas itself provides a part of the required driving force. This series of gas booster pumps provide an effective solution for the low and middle compression ratio of large flow gas. The maximum output pressure of the pump is equal to the drive area ratio multiplied by the driving air pressure, and the input gas pressure is added.
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