气体经压缩后的气体温度是压缩机的重要参数之一。它不仅与压缩机的热力设计紧密相关,而且还直接关系着机器运转的可靠与安全,因此当分析压缩机问题时常给予充分的重视。 对于纯组分气体,若已具备该气体的有关热力性质图表,可按已知条件方便而又准确地从上得出可靠的结果。不过,由于气体种类十分繁多,并不是所有气体都具备同类热力性质的图表可资鉴用,特别是对于多组分实际气体就更为复杂了,所以如何准确地计算出气体压缩后的温度就成为一个必须解决的问题。 Gas compressed gas temperature is one of the important parameters of the compressor. It is not only closely related to the thermal design of the compressor, but also directly related to the reliability and safety of the machine. Therefore, it is often paid attention to when analyzing the compressor problem. For pure component gases, reliable results can be obtained conveniently and accurately from known conditions, provided the chart on the thermodynamic properties of the gas is available. However, due to the wide variety of gases, not all of the gases have the same thermodynamic properties of the chart can be used, especially for multi-component real gas is even more complicated, so how to accurately calculate the gas compression temperature Become a problem that must be solved.