1) entropy generation minimization
熵产最小
1.
Aiming at entropy generation minimization as the objective function,the optimization model was built.
本文以熵产最小作为目标函数,建立优化模型,采用熵产最小方法对微槽冷却热沉的横截面形状和结构尺寸进行优化设计。
2) entropy generation minimization
熵产最小法
1.
With the entropy generation minimization (EGM) method, the thermodynamical performance optimization in a thermoelectric refrigeration system is studied.
应用有限时间热力学理论,基于熵产最小法,对热电制冷系统随有限温度的变化、由外部热源与内部工质之间的温差而形成的热漏及内部耗散所产生的传热不可逆性进行了最优化研究,建立了不可逆热电制冷循环模型。
3) entropy generation minimization
熵产最小化
4) minimum entropy generation
熵产最小原理
1.
Numerical results show that the minimum entropy generation means the minimum exergy loss,while the extremum entransy dissipation means the best heat transfer performance.
为了进一步明确对流换热过程中热力学优化与传热优化之间的差异,本文分别利用熵产最小原理,(?)耗散极值原理针对两种边界条件下的对流换热问题进行分析,讨论熵产、(?)耗散与有用能损失以及对流换热能力之间的关系。
5) EMG
熵产最小化原理
6) entropy production
熵产
1.
An experimental study on heat transfer entropy production of heat exchangers in operation of power station boilers;
电站锅炉运行中换热器传热熵产的试验研究
2.
Dissipation of heat transport potential capacity and entropy production in heat conduction optimization;
势容损耗及熵产与导热优化
3.
Based on irreversible thermodynamics,the heat transfer entropy production of heat surfaces were calculated in use of the entropy production model which has been established,and the curves of heat transfer entropy production due to sootblowing were achieved.
从不可逆热力学角度出发建立了传热熵产模型,并针对某电站锅炉采集的实时数据利用,计算了各受热面在吹灰前后的传热熵产,得出了吹灰对各受热面传热熵产的影响曲线,总结出了该电站锅炉吹灰模式的利弊,给出了关于吹灰模式优化的相关见解。
参考词条
补充资料:最小熵产生原理
见不可逆过程热力学。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。