1) four heat source cycle
四热源循环
1.
According to the thermodynamic theory,the four heat source cycle is not so well as the corresponding three heat source cycle,and by using the latte to be instead of the former,the better cyclic results will be achieved.
按热力学理论 ,四热源循环不如相应的三热源循环 ,而用后者取代前者 ,将可获得更优的循环效
2) four-heat-reservoir refrigeration cycle
四热源制冷循环
3) four heat source irreversible cycle
不可逆四热源循环
4) three-heat-source cycle
三热源循环
1.
The Bucher diagrams of the Carnot cycle are used to present vividly three-heat-source cycles.
应用卡诺循环的Bucher图形象地表示出三热源循环,并由图中的相似三角形直接导出三热源循环的能量守恒方程、熵守恒方程和性能系数。
5) three heat source refrigeration cycle
三热源制冷循环
1.
It is revealed that a four heat source refrigeration cycle is equivalent to a three heat source refigeration cycle and the four heat source refrigeration cycle may be transformed into the three heat source refrigeration cycle to achieve the optimum refrigeration results.
揭示了一个四热源制冷循环等效于一个三热源制冷循环 ,而且还可使四热源制冷循环转化为三热源制冷循环 ,获得最佳的制冷效
6) three-source thermodynamic cycle
三源热力循环
1.
In this dissertation, the influences of the irreversibilities of heat and mass transfer, the irreversibility inside a cyclic working fluid, heat leakage and otlier irreversible effects on the performances of three-source thermodynamic cycles are studied.
本文研究传热不可逆性、传质不可逆性、工质内部不可逆性及热漏等不可逆因素对三源热力循环性能的影响,应用有限时间热力学和最优控制论等方法,导出相关热力循环的基本优化关系和一系列性能界限。
补充资料:循环系统的进化鱼的循环系统
李瑞端绘
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说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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