通过反复比较或分析的方法,应用(火用)分析能进行低温过程和装置的最佳化设计。在广泛使用计算机进行设计计算的工业应用中,(火用)函数正象其他变量一样可以排入程序。因此,可以把计算(火用)消耗比怍循环过程或象精馏塔那样的装置。在多次反复的计算中,循环不断地得到改进,(火用)分析则可达到较低的(火用)损失。因此,这种方法无疑有许多优点。 By iterative comparison or analysis methods, exergy analysis can be used to optimize the design of cryogenic processes and devices. In industrial applications where computers are widely used for design calculations, the exergy function is just like any other variable that can be put into a program. Therefore, it is possible to calculate the (exergy) consumption rate than the cycle or a device like a distillation column. In many iterative calculations, the cycle is continuously improved, while exergy analysis achieves lower (exergy) losses. Therefore, this method undoubtedly has many advantages.