For the single-stage booster pump, the inlet pressure has a great influence on the flow according to the different pressurization ratio. Under the same boost ratio, the higher the inlet pressure within a certain range, the greater the output flow. The flow has a great impact on the service life of the booster pump.
The higher the inlet pressure, the greater the output flow, and the working frequency of the booster pump will be greatly shortened, which will affect the service life of the booster pump. On the contrary, due to the low inlet pressure, the working time of the booster pump will be longer, and it needs to work for many times to increase the pressure, and the service life of the gas booster pump will be shortened.
For two-stage booster pump, there are great requirements for inlet pressure. Take feintztt40 as an example. If the on-site pressurized gas is 15bar, the customer needs to reduce the pressure to 10bar for pressurization. If it is within the range of high pressure and air pressure, the pump will stop working. When the pressure is within 10bar, the higher the pressure, the greater the flow.
The inlet pressure will affect the productivity of the plant. It is suggested that the pre pressurized gas is of great help to the gas booster pump on the premise of conditions.
For most pumps, the purpose of increasing the inlet and outlet pipe diameter is to reduce the flow rate of fluid in the pipe, reduce the resistance of the small pipe and reduce the power consumption of the pump, but the increase of pipe diameter is at the cost of increasing the investment cost of the pipe. In this way, for the pipeline at the outlet of long-distance transmission pump, it can be considered to appropriately increase the pipe diameter to reduce the resistance drop, while for short-distance transmission pipeline, it can be ignored.
Because the material delivered at the pump inlet is liquefied gas, the temperature is close to the boiling point. For materials prone to cavitation, such as those with low suction position, consider increasing the diameter of the pump inlet pipe to reduce the resistance drop and avoid cavitation of the pump.
The equipment itself shall be equipped with effective anti leakage facilities to ensure that harmful substances do not leak. If chemicals or oil products are new varieties or brands, they shall be approved by the quality administrative department in advance. Leak proof trays shall be provided for equipment that may leak. Inform the facility department and issue the plan. The pollution discharge plan shall be approved by the quality administrative department in advance.
Generally speaking, components with high energy consumption efficiency should be used as much as possible. When designing the whole gas-liquid booster pump system, all energy consumption of the system shall be calculated. All electrical equipment shall be provided with optional manual energy-saving mode in production interval and standby mode. There can also be energy-saving mode during automatic operation. When using gas and vacuum systems, energy waste should be controlled. Relevant measures shall be indicated in the technical parameter requirements of the system. During installation and commissioning, try to prevent compressed air leakage.
The inlet pressure has an impact on the gas-liquid booster pump. The content is like this. If you need or want more information, please pay attention to our website www.allarabandroid.com COM, answer your questions!