为了接近卡诺效率,所涉及的过程,在热机循环必须可逆且涉及没有改变熵。
In order to approach the carnot efficiency the processes involved in the heat engine cycle must be reversible and involve no change in entropy.
也就是说,这个热机的效率,比卡诺热机低。
So in other words, this engine is running less efficiently than my Carnot engine.
任何不可逆过程中,效率是小于的卡诺循环。
For any irreversible process, the efficiency is less than that of the Carnot cycle.
以经典理想气体为工质的卡诺热机循环由两个等温和两个绝热过程构成,热机可逆时,它的效率为最大。
A cyclic thermodynamic heat engine, which combines adiabatic and isothermal processes and consists of classical ideal gas as working substance, runs most efficiently if it is reversible.
概述了热容量为常量的理想气体的卡诺循环效率。
This paper Outlines Carnot cycle efficiency of ideal gas whose heat capacity is a constant.
本文导出卡诺热机工作于不可逆传热的情况下,最佳效率与输出功率间的关系。
The relation between optimal efficiency and power output of a Carnot heat engine which operates subject to irreversible heat transfer is derived.
根据卡诺定理给出了热机的循环效率极大值问题。
Carnot's Theorem discusses the extreme value of the efficiency of heat engines' cycles.
根据卡诺定理给出了热机的循环效率极大值问题。
Carnot's Theorem discusses the extreme value of the efficiency of heat engines' cycles.
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