1.
Frequency Characteristics of a Generalized Irreversible Carnot Heat Engine Under a Linear Phenomenological Heat Transfer Law
线性唯象传热定律下广义不可逆卡诺热机的频率特性
2.
The Heat-Work Conversion Analysis of Irreversible Carnot Cycle;
不可逆卡诺循环的热功转换特点分析
3.
Interaction between a reversible engine( A) and a reversible ideal gas Carnot cycle( B).( Illustration courtesy of OCW.
可逆热机()理想气体可逆卡诺循环()相互作用。(片由开放式课程提供。
4.
Angular speed-dependent performance of endoreversible Carnot engine with linear phenomenological heat transfer law
线性唯象传热规律时内可逆卡诺热机的角速度特性
5.
Model of Feroeletric Heat Engine And Its Efficiency of Irreversible Carnot Cycle of Isothermany Isoeletric;
铁电体热机模型设计及其在等温等电压下不可逆卡诺循环效率的研究
6.
Performance Comparison forEndoreversible Carnot and Brayton Heat Pumps Ⅰ. Steady Flow Cycles with Infinite Reservoirs
内可逆卡诺和布雷顿热泵循环性能比较
7.
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。
8.
Analysis of Heat Transfer Irreversible Regenerated Brayton Refrigerator
传热不可逆回热式布雷顿制冷机分析
9.
OPerformance Comparison for Endoreversible Carnot and Brayton Heat Pumps (Continued) Ⅱ. Steady Flow Cycles with Finite Reservoirs
内可逆卡诺和布雷顿热泵循环性能比较(续)Ⅱ定常态流变温热源循环
10.
An Ecological Optimization of Irreversible Braysson Heat Engine Cycle;
不可逆布雷森热机循环的生态学优化
11.
The Performance Optimization of a Generalized Irreversible Braysson Heat Engine
广义不可逆Braysson热机的性能优化
12.
Influence of Multi-irreversibilities on the Performance of a Miller Heat Engine
多种不可逆性对Miller热机性能的影响
13.
Performance Optimization of a Generalized Irreversible Miller Heat Engine Cycle
广义不可逆Miller热机循环的性能优化
14.
Power Density Optimization of an Irreversible Braysson Heat Engine
不可逆Braysson热机的功率密度优化
15.
Optimal Performance of the Irreversible Stirling Heat Engine with Finite Thermal Sources
两有限热源间的不可逆斯特林热机的优化性能
16.
Optimization on the Performance of an Irreversible Harmonic Brayton Heat Engine
不可逆谐振子系统布雷顿热机循环性能优化
17.
The Ecological Optimization Criterion of Irreversible Stirling Heat Engine;
一类不可逆斯特林热机的生态学准则优化
18.
Stability Analysis on the Performance of an Irreversible Carnot Cycle and the Performance Characteristics of Micro/nano Scaled Gas Cycle;
不可逆卡诺循环性能稳定性分析和微纳米尺度下气体循环性能特征