Thermodynamic optimization of insulation for pipe like surface based on entropy generation analysis is given in this paper.
基于熵产分析,时管状表面绝热层进行热力学优化。
An entropy generation analysis method based on the second law of thermodynamics was used to component level optimization design of aircraft environmental control system in this paper.
一种以热力学第二定律为基础的熵产分析方法,应用于飞机环境控制系统的部件级优化设计。
An entropy generation based thermodynamic analysis was conducted of the internal flows in circular and flat tubes.
对圆管和扁管内部流动进行了以熵产生为基础的热力学分析。
The results of numerical analysis show that there exist relevant relations between the thermal drag and entropy generation of the heated flow.
数值分析结果表明,加热流动中的热阻力与熵产二者之间存在着对应相关的关系。
The results of numerical analysis show that there exist relevant relations between the thermal drag and entropy generation of the heated flow.
数值分析结果表明,加热流动中的热阻力与熵产二者之间存在着对应相关的关系。
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