In Chapter 2, we propose a finite-time thermodynamics model for a Diesel heat engine cycle.
第二章建立狄塞尔热机循环的有限时间热力学模型。
The performance of a semiconductor thermoelectric generator is analyzed by using the theory of finite-time thermodynamics.
应用有限时间热力学理论分析了半导体温差发电器的工作性能。
This paper analyzed and optimized the power output, efficiency and ecological criterion of a universal irreversible combined Carnot cycle by using finite-time thermodynamics.
用有限时间热力学的方法分析具有热阻、热漏、内不可逆性的定常流联合卡诺型热机循环。
A combined Brayton and Stirling cycles with heat resistance and heat leakage is created, the performance of the combined Brayton and Stirling cycles is analyzed by using finite-time thermodynamics.
本文构建了一个由布雷顿循环与斯特林循环组成的新型联合循环,用有限时间热力学的方法分析具有热阻、热漏的布雷顿与斯特林联合循环性能。
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。
Finite time thermodynamics is the extension of classical thermodynamics and a new branch of the modern thermodynamics.
有限时间热力学是经典热力学的延伸和推广,是现代热力学理论的一个新分支。
Comprising the finite time thermodynamics, nonequilibrium statistical theory and exergeocnomics, the maximum exergeoeconomic profit and performance limit are derived in the article.
将有限时间热力学、非平衡量子统计理论和火用经济学相结合,导出了量子斯特林制冷机的最大利润率以及对应的性能界限。
On the basis of the finite time thermodynamics, the change of entropy due to the external irreversibility in engine heat cycle process was discussed.
应用有限时间热力学理论研究了发动机热力循环过程中由于外不可逆性导致的熵的变化。
Based upon the theory of finite time thermodynamics, this paper derives the maximum power output and the corresponding efficiency bound for a finite time closed-Brayton cycle gas turbine.
本文从有限时间热力学观点出发,导出有限时间约束条件下闭式燃气轮机循环的最大功率输出及其相应的效率界限。
Based upon the theory of finite time thermodynamics, this paper derives the maximum power output and the corresponding efficiency bound for a finite time closed-Brayton cycle gas turbine.
本文从有限时间热力学观点出发,导出有限时间约束条件下闭式燃气轮机循环的最大功率输出及其相应的效率界限。
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