The pressure reduction system is separated from the temperature reduction system. The temperature reduction and pressure reduction skid is mainly used in harsh working conditions, such as low steam flow, and is not suitable for temperature reducing and pressure reducing valves. In saturated steam conditions (low pressure mainly considers low steam flow), use Venturi tube cooling method, the cooling water is fully atomized to achieve better cooling effect.
Nowadays, the vacuum device industry wants to continue to develop and fundamentally adjust the industrial structure. After all, the life cycle of a vacuum device is not as long as the service life of the device. Therefore, many manufacturers have appropriately updated their devices, and with the promotion of science and technology, current vacuum devices have shown the momentum of integrating machinery, electricity, gas and life, and can work efficiently and save energy.
In pressure pipelines, usually, high-pressure gas enters the pipeline through the stop valve, is decompressed by the regulating valve of the pressure reducing skid, so that it reaches the required pressure, and is then transported to various places.
In a general pressure regulating device, after the high-pressure gas is depressurized through the pipeline, since the air inlet pipes and gas delivery pipes at both ends of the pressure regulating valve have the same diameter, the gas is output directly through the pipeline without buffering, which will cause unstable gas pressure.
Usually some manufacturing companies will set up a spherical buffer space on the gas pipeline, allowing the decompressed gas to enter the spherical buffer space along the pipeline for buffering, so that the gas pressure tends to be stable during output.
The spherical buffer space is difficult to process and needs to be welded to the gas pipeline, which increases the workload. When the welding quality is not good, air leakage may easily occur.
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