In order to approach the carnot efficiency the processes involved in the heat engine cycle must be reversible and involve no change in entropy.
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。
For any irreversible process, the efficiency is less than that of the Carnot cycle.
任何不可逆过程中,效率是小于的卡诺循环。
The relation between optimal efficiency and power output of a Carnot heat engine which operates subject to irreversible heat transfer is derived.
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。
This paper analyzed and optimized the power output, efficiency and ecological criterion of a universal irreversible combined Carnot cycle by using finite-time thermodynamics.
用有限时间热力学的方法分析具有热阻、热漏、内不可逆性的定常流联合卡诺型热机循环。
Therefore, a TAR realizing a gas Stirling cycle approximating the Carnot cycle which is an ideal gas cycle, and realizing simplification of the structure and high efficiency of the device is provided.
介绍了一种基于高效斯特林循环的热声制冷机的基本原理及主要组成。
Therefore, a TAR realizing a gas Stirling cycle approximating the Carnot cycle which is an ideal gas cycle, and realizing simplification of the structure and high efficiency of the device is provided.
介绍了一种基于高效斯特林循环的热声制冷机的基本原理及主要组成。
应用推荐