So now let's look at the efficiency of our irreversible engine.
再来看看,不可逆热机的效率。
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。
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。
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 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。
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。
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