1) irreversible process
不可逆过程
1.
In terms of the symmetry of the physical variable describing the thermodynamic system, the concept and the characters of entropy is introduced with the analogy method,and the principle of entropy increment has been established based on the relationship between the work and the energy in the reversible process in contrast with the irreversible process.
本文根据物理量之间的对称关系应用类比的方法引出了熵的概念 ,并得到熵的性质 ;利用可逆过程与不可逆过程中的功能关系的对比建立了熵增加原理。
2.
In this paper,We discuss the realizability about the design for reversible processduring which we calculate entrop variation in irreversible process and the arbitrariness,con-vence base on it
讨论不可逆过程熵变计算时,可逆过程设计的可行性及在此基础上的任意性和简便性。
3.
In this paper, the production and numerical value relation of energy degeneration in thermodynamical system were studied by analysing quantitatively two typical irreversible processes.
本文研究热力学系统能量退化现象的产生和数值关系,通过对两个典型不可逆过程的定量分析,结果表明:能量退化的数值与熵变成正比,进一步指出状态函数熵和熵增加原理的重要意义。
5) Irreversible process having steady state
定态不可逆过程
6) Irreversible adiabatic process
不可逆绝热过程
1.
They are used to discuss the influence of the quantum degeneracy of the Bose gas and the irreversible adiabatic processes on the performance of the cycle.
基于不可逆布雷顿制冷循环模型和理想玻色气体的状态方程 ,导出以玻色气体为工质的布雷顿制冷循环的输入功、制冷系数、制冷量等重要参数的表示式 ,由此讨论玻色气体的量子简并性和不可逆绝热过程对循环性能的影响 ,揭示以玻色气体为工质的不可逆布雷顿制冷循环的一般性能特性 ,从而导出一些重要结论 。
补充资料:不可逆过程
不可逆过程 irreversible process 实际的热力学过程。见可逆过程。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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