| 基于(火积)耗散率最小的复杂肋片对流换热构形优化 |
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| 引用本文: | 冯辉君,陈林根,谢志辉,孙丰瑞.基于(火积)耗散率最小的复杂肋片对流换热构形优化[J].物理学报,2015,64(3):34701-034701. |
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| 作者姓名: | 冯辉君 陈林根 谢志辉 孙丰瑞 |
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| 作者单位: | 海军工程大学热科学与动力工程研究室, 武汉 430033;海军工程大学舰船动力工程军队重点实验室, 武汉 430033;海军工程大学动力工程学院, 武汉 430033 |
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| 基金项目: | 国家自然科学基金(批准号:51176203;51356001)资助的课题.* Project supported by the National Natural Science Foundation of China |
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| 摘 要: | 基于构形理论, 以基于(火积)耗散率定义的当量热阻最小为优化目标对复杂肋片进行构形优化, 得到同时考虑肋片导热和对流换热(火积)耗散性能的肋片最优构形, 并比较不同形状和不同优化目标下的肋片最优构形. 结果表明: 存在最佳单元级直肋、中部空腔以及肋片末梢高度和长度比使得复杂肋片当量热阻取得三重最小值. 当量热阻最小的复杂肋片最优构形与T-Y形肋片最优构形相比, 复杂肋片结构使得肋片整体传热性能大大提高. 当肋片传热为二维传热且根部较宽时, 肋片根部温度越不均匀, 当量热阻最小和最大热阻最小的复杂肋片最优构形差别越大. 在保证热安全性的前提下, 工程上对肋片进行优化设计时可选择当量热阻最小的肋片构形设计方案以降低其平均传热温差、提高整体传热性能. 本文从传热优化角度为复杂肋片的优化设计提供了参考.
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| 关 键 词: | 构形理论 (火积)耗散率最小 复杂肋片 广义热力学优化 |
| 收稿时间: | 2014-07-29 |
Constructal optimization of complex fin with convective heat transfer based on entransy dissipation rate minimization |
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| Feng Hui-Jun,Chen Lin-Gen,Xie Zhi-Hui,Sun Feng-Rui.Constructal optimization of complex fin with convective heat transfer based on entransy dissipation rate minimization[J].Acta Physica Sinica,2015,64(3):34701-034701. |
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| Authors: | Feng Hui-Jun Chen Lin-Gen Xie Zhi-Hui Sun Feng-Rui |
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| Institution: | Institute of Thermal Science and Power Engineering, Naval University of Engineering, Wuhan 430033, China;Military Key Laboratory for Naval Ship Power Engineering, Naval University of Engineering, Wuhan 430033, China;3. College of Power Engineering, Naval University of Engineering, Wuhan 430033, China |
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| Abstract: | Based on the constructal theory, the constructal optimization of a complex fin is carried out by taking the minimum equivalent thermal resistance, which is defined according to entransy dissipation rate, as the optimization objective. Optimal constructal of the complex fin is obtained by tsking into consideration the entransy dissipation performance caused by heat conduction and heat convection. Comparisons between the optimal constructal with different shapes and optimization objectives of the fins are performed. Results show that there exist the optimal ratios of the height to the length of the elemental fin, central cavity and fin tip which lead to the triple minimum equivalent thermal resistance of the complex fin. By comparing the optimal constructal of the complex fin with that of the T-Y shaped fin, the structure of the complex fin will greatly improve its global heat transfer performance. When the heat transfer of the fin is two-dimensional and the root of the fin is broader, the more non-uniform the temperature at the fin root, the bigger difference of the optimal constructs the complex fin obtains, based on the minimizations of the equivalent thermal resistance and maximum thermal resistance. For the optimal design of the fin in pracuice, when the thermal safety of the fin is ensured, the constructal design scheme of the fin with minimum equivalent thermal resistance can be adopted to reduce temperature difference in the average heat transfer and improves the global heat transfer performance. This paper provides some guidelines for the optimal design of the complex fin from the point of view of heat transfer optimization. |
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| Keywords: | constructal theory entransy dissipation rate minimization complex fin generalized thermo-dynamic optimization |
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