记住这个热机是反向运行的,我们把热量向上传输。
Remember this engine is running backward, and we're pumping heat up.
再来看看,不可逆热机的效率。
So now let's look at the efficiency of our irreversible engine.
有一种热机用原子能作为热源。
One kind of heat engine USES atomic energy as a source of heat.
目的观察癌热宁栓剂的解热机制。
Objective to adverse reaction of cancer Rening suppository in the treatment of fever cancer.
在一个真实的热机里,当然,你可以达到可逆极限。
In a real engine, of course, you can approach the reversible limit.
白天机器应该开着,以避免长时间热机。
The machine should be left on during the day to avoid long warm-up times.
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.
热机是指把热能转变为机械功的一种发动机。
By heat engine people mean an engine converting heat energy into mechanical work.
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.
提出了地球大气太阳能—风能转换的双热机并联模型。
The twin engine model for the wind system of the earths atmosphere is presented.
请记住这个热机是反过来运行的,我们把热量向上传输。
Remember this one's running backward, we're pumping heat up.
对热机系统、传动系统进行了优化设计,增强了整机的可靠性能。
Optimizing the heat engine system and transmission system improve the reliability of the engine.
本文应用传热学的理论知识,分析了真空蒸发制盐的加热室的传热机理。
This paper analyzed the mechanism of heat transferring with applications of the calorifics.
本文应用传热学的理论知识,分析了真空蒸发制盐的加热室的传热机理。
This paper analyzed the mechanism of heat transferring with applications of the calorifics.
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