为了达到空调制冷系统负荷的最优匹配,设计者不仅要了解该系统最大的供冷能力和效率,还要了解在不同供冷负荷时系统的运行效率。蒸汽——压缩式空调制冷系统的有效运行取决于各部件的运行特性,但一般不是各部件的简单串联。各部件组合的结果会大大地影响系统特性,这在系统的分析中是必须予以考虑的。当然,在系统运行中,设计者可以根据每个部件偶合作用常识,按系统的效率来选择部件。数字计算机程序简化了蒸汽——压缩式空调制冷系统部件的组合,以便用最少的能量消耗获得一定的制冷能力。部件的选择是借助于静态系统的数学模拟来实现的。在蒸汽——压缩式空调制冷系统中,由于瞬变过程的稳定时间比起系统的实际运行周期要 In order to achieve the optimal matching of the air-conditioning refrigeration system load, the designer must not only understand the maximum cooling capacity and efficiency of the system, but also understand the operating efficiency of the system under different cooling loads. The effective operation of a steam-compression air-conditioning refrigeration system depends on the operating characteristics of the various components, but it is not generally a simple series connection of the components. The result of each component combination can greatly affect the system characteristics, which must be considered in the analysis of the system. Of course, in the operation of the system, the designer can select components according to the efficiency of the system based on the common sense of each component. The digital computer program simplifies the combination of steam-compression air conditioning refrigeration system components to achieve a certain degree of cooling capacity with minimal energy consumption. The choice of components is achieved by means of a mathematical simulation of a static system. In steam-compression air-conditioning refrigeration systems, the settling time of the transient process is greater than the actual operating cycle of the system.