Based on these data can be calculated by the heat engine data.
根据这些数据可以计算得到发动机的余热数据。
One kind of heat engine USES atomic energy as a source of heat.
有一种热机用原子能作为热源。
By heat engine people mean an engine converting heat energy into mechanical work.
热机是指把热能转变为机械功的一种发动机。
The power versus efficiency characteristics of the model is the same as real heat engine.
由此得到的热机功率效率特性与实际热机特性相同。
Optimizing the heat engine system and transmission system improve the reliability of the engine.
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。
A diesel engine can not utilize all the chemical energy of the fuel nor can any other heat engine.
柴油机不能利用燃料的全部化学能,任何别的热机也做不到这一点。
This phenomenal tropical heat engine sends enormous clouds tens of kilometers into the atmosphere.
这个巨大的热力发动机将十几公里的云团送入大气。
A diesel engine can not utilize all the chemical energy of the fuel, nor can any other heat engine.
柴油机不能利用燃料的全部化学能,任何别的热机也做不到这一点。
They are: sodium-sulfur battery, solid state lithium battery, high temperature fuel cell and sodium heat engine.
介绍了钠硫电池、全固态锂电池,高温燃料电池、钠热机等方面的研究现状和发展趋势。
According to the second law of thermodynamics, a heat engine can generate power from this temperature difference.
根据热力学第二定律,一个热机发电可以从这个温差。
While proving Carnot theorem, the irreversible heat engine can only run on forward circulation, but not on the opposite.
在证明卡诺定理时,不可逆热机只能作正向循环,不能令其作逆向循环。
Concentrating solar power devices focus or concentrate the thermal energy of the sun to drive a generator or heat engine.
集中太阳能发电装置集中用太阳的热能,来驱动发电机或热力引擎。
Closed loop control must be used for underwater heat engine propeller system in order to improve the efficiency of weapons.
对于某水下热动力推进系统实施闭环控制是提高武器效能的需要。
Several kinds of irreversible Carnot heat engine models are reviewed and a new irreversible Carnot heat engine model is proposed.
对几种不可逆卡诺热机模型作了述评,并提出一种新的不可逆卡诺热机模型。
The internal combustion engine is a heat engine in which the burning of a fuel occurs in a confined space called a combustion chamber.
内燃机是一种热机,燃料在其被称为燃烧室的密封空间内燃烧。
Its manufacture process, the calibrating condition of static and dynamic state and the application on adiabatic heat engine are described.
本文主要介绍此种薄膜偶的制造工艺、静动态标定情况,并给出其在绝热发动机中的应用情况。
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。
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。
Usually, in order to solve cab or train cars during the winter, often for the heat engine cooling water, or for separate heat source to use for heating.
通常,为解决汽车驾驶室或车厢冬季取暖,往往以发动机冷却水为热源,或单独设立热源来供取暖器使用。
In this paper the definition of temperature founded on the first law and second law of thermodynamics is evolved by the operation of reversible heat engine.
本文以热力学第一定律和第二定律为基础,用可逆热机的运转来建立温度概念。
Two internal irreversibility parameters, the heat engine cycle and the refrigerator cycle were introduced to characterize the irreversibility inside the cycle.
引入两个内不可逆性参数,分别用于描述热机循环的内不可逆性和制冷循环的内不可逆性。
Based on the analysis of the real engine's working process, a new model of irreversible thermal cycle for heat engine is proposed by using the finite time thermodynamics.
在分析实际发动机工作过程的基础上,利用有限时间热力学理论方法,建立了一种新的不可逆热机热力循环模型。
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.
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。
Preper attended a start-up firms competition held in Shenzhen, Guangdong Province for his patented heat engine, which can be used in steel mills, power plants and solar energy plants.
Preper准备参加一个广东深圳举行的创业企业大赛,他的专利-热引擎,可用于钢厂,发电厂和太阳能发电厂。
A cyclic thermodynamic heat engine, which combines adiabatic and isothermal processes and consists of classical ideal gas as working substance, runs most efficiently if it is reversible.
以经典理想气体为工质的卡诺热机循环由两个等温和两个绝热过程构成,热机可逆时,它的效率为最大。
A cyclic thermodynamic heat engine, which combines adiabatic and isothermal processes and consists of classical ideal gas as working substance, runs most efficiently if it is reversible.
以经典理想气体为工质的卡诺热机循环由两个等温和两个绝热过程构成,热机可逆时,它的效率为最大。
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