Generalized thermal resistance for convective heat transfer and its relation to entransy dissipation 被引量：52

Generalized thermal resistance for convective heat transfer and its relation to entransy dissipation

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摘要 In order to further analyze and optimize convective heat transfer process further, the concepts of heat flux weighted average heat temperature and heat flux weighted average heat temperature difference in multi-dimensional heat transfer system were introduced in this paper. The ratio of temperature difference to heat flux is defined as the generalized thermal resistance of convective heat transfer processes, and then the minimum thermal resistance theory for convective heat transfer optimization was developed. By analyzing the relationship between generalized thermal resistance and entansy dissipation in convective heat transfer processes, it can be concluded that the minimum thermal resistance theory equals the entransy dissipation extremum theory. Finally, a two-dimensional convective heat transfer process with constant wall temperature is taken as an example to illustrate the applicability of generalized thermal resistance to convective heat transfer process analysis and optimization. In order to further analyze and optimize convective heat transfer process further, the concepts of heat flux weighted average heat temperature and heat flux weighted average heat temperature difference in multi-dimensional heat transfer system were introduced in this paper. The ratio of temperature differ- ence to heat flux is defined as the generalized thermal resistance of convective heat transfer processes, and then the minimum thermal resistance theory for convective heat transfer optimization was devel- oped. By analyzing the relationship between generalized thermal resistance and entansy dissipation in convective heat transfer processes, it can be concluded that the minimum thermal resistance theory equals the entransy dissipation extremum theory. Finally, a two-dimensional convective heat transfer process with constant wall temperature is taken as an example to illustrate the applicability of generalized thermal resistance to convective heat transfer process analysis and optimization.

作者 CHEN Qun REN JianXun

机构地区 Department of Engineering Mechanics

出处《Chinese Science Bulletin》 SCIE EI CAS 2008年第23期3753-3761,共9页

基金 National Key Fundamental R&D Program of China (Grant No. G2007CB206901)

关键词对流热传输广义热电阻热混合温度热学 convective heat transfer, generalized thermal resistance, entransy dissipation, heat flux weighted average temperature difference

分类号 O551 [理学—热学与物质分子运动论]

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