热机效率

用化学平衡法分析热机效率与排出废气中的NO含量的关系

Relation Between the Efficiency of Heat Engine and the Quantity of NO in Waste Gas from Heat Engine

按照效率表达式中n取不同的值，得到了卡诺循环、通过辐射热和热传导进行热传递时的热机效率具体表达式。

According to the different value of n , we get the concrete efficiency formula for Carnot'Cycle , radiating heat exchange and heat conduction .

根据P-V图、T-S图、热力学第二定律，对任意循环过程的热机效率极大值问题进行了研究。

Starting from the graphs of P-V and T-S and the second law of thermodynamics , the extreme value of the efficiency of heat engines in the process of arbitrary cycles is studied .

本文提出线粒体的热机效率原理可作为DOMS的一种可能性机制的观点，旨在为DOMS的研究深入到分子机制水平指明方向。

This study proposed that the principles of heat engine efficiency in mitochondria can be regarded as one kind of probable mechanism of DOMS , in order to point out a direction how to help the research of DOMS deepen into the molecular mechanism level .

求热机效率的关键在于确定热转换点，本文给出求热转换点的两种方法。

This paper give two methods of defining hot inversion spot .

分析了两种特定情况下的热机效率。

The efficiency expressions for two special cases are analyzed .

运动性延迟性肌肉酸痛与线粒体的热机效率原理的探讨

Discussion on DOMS and the Principles of Heat Engine Efficiency in Mitochondria

提高热机效率的一种方法&联合循环法

A method & unite circulation of lifting heat engine effectiveness

关于热机效率两种说法的比较

Comparison Between the two Expressions About the Heat Engines Efficiency

热机效率的最大值证明

Proof of the maximum value of heat engines efficiency

熵在热机效率计算中的应用

Application of Entropy in Calculation of Thermal Efficiency

任意循环过程热机效率的极值研究

Study of the Extreme Value of the Efficiency of Heat Engines in the Process of Arbitrary Cycles

生态学优化以牺牲小部分输出功率为代价，较大地降低了循环的熵产率，而且在一定程度上提高了热机效率。

The optimization of the ecological function makes the entropy generation rate of cycle decrease greatly and the thermal efficiency increase with the cost of a little decreasing of the power output .

主要结论：（1）高原隆起前的干热气候是由于隆起前全球地势平坦，致使大气热机效率很低之故；

The main conclusions are those : ( 1 ) the cause of hot-dry climate before elevation of plateau is that the efficiency of atmospheric heat engine is lower than after the elevation owing to flatter global landform ;

本文讨论工质的压强与体积成线性关系的热力学过程的有关计算问题，特别是按三角形循环工作的理想气体热机效率的计算。

This paper discusses the calculation of a thermodynamic process of the working substance pressure linearly dependent on its volume , and the calculation , in particular , of the efficiency of an ideal gas heat engine working in a triangular cycle .

这就是说，任何可逆热机的效率都是，负T2除以。

So what this says is the efficiency of any reversible engine T1 has to be one minus T2 over T1 .

最大功率密度输出时Atkinson热机的效率

Efficiency of an Atkinson Engine at Maximum Power Density

不可逆性对热机功率效率的影响

The Effect of Irreversibility on Heat Engine Power and Efficiency

有热漏时定常态不可逆卡诺热机功率效率特性

Power and efficiency characteristics for steady flow irreversible Carnot engine with heat leak

再来看看，不可逆热机的效率。

So now let 's look at the efficiency of our irreversible engine .

热漏对热机功率效率特性的影响

The Influence of Heat Leak on the Power versus Efficiency Characteristics of Heat Engines

一类不可逆卡诺热机最佳效率和功率间的关系

Relationship between the Optimum Efficiency and Output Power of a Kind of Irreversible Carnot Heat Engine

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 .

由此得到的热机功率效率特性与实际热机特性相同。

The power versus efficiency characteristics of the model is the same as real heat engine .

实验结果表明压力放大器不仅可以放大压力，还能提高负载入口声功和热机的效率。

The experimental results have demonstrated that the pressure amplifier not only amplifies the pressure ratio , but also improves the acoustic power .

流动阻力损失对斯特林热机功率和效率影响的理论分析

Analysis on Flow Resistance Effects on Stirling Heat Engine Power and Efficiency

不可逆卡诺热机的最佳效率与供热率间的关系

Relation between the Optimal Efficiency and the Rate of Heat-Input of an Irreversible Carnot Engine

由此导出不可逆卡诺热机的最佳效率与供热率间的关系，以及一些新的性能界限。

From it , the relation between optimal efficiency and rate of heat-input , and some new bounds of performance are derived .

所得结果不同于仅存在热阻损失时的内可逆热机的功率效率特性，且与实际热机特性相一致。

The power versus efficiency characteristics obtained here is qualitatively different from that for an endoreversible heat engine and is in agreement with that for a real heat engine .

得到了生态学目标函数E最大时量子ST热机的最佳热效率和最佳输出功率。

The corresponding optimal thermal efficiency and the optimal power output of the engine at a maximum point of the objective function E are obtained .