Physical quantity synergy in laminar flow field of convective heat transfer and analysis of heat transfer enhancement |
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Authors: | Wei Liu ZhiChun Liu and ZengYuan Guo |
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Institution: | 1 School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan 430074, China;
2 School of Aerospace, Tsinghua University, Beijing 100084, China |
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Abstract: | Based on the principle of field synergy for heat transfer enhancement, the concept of physical quantity synergy in the laminar flow field is proposed in the present study according to the physical mechanism of convective heat transfer between fluid and tube wall. The synergy regulation among physical quantities of fluid particle is revealed by establishing formulas reflecting the relation between synergy angles and heat transfer enhancement. The physical nature of enhancing heat transfer and reducing flow resistance, which is directly associated with synergy angles α, β, γ, Ø, θ and ψ, is also explained. Besides, the principle of synergy among physical quantities is numerically verified by the calculation of heat transfer and flow in a thin cylinder-interpolated tube, which may guide the optimum design for better heat transfer unit and high-efficiency heat exchanger. |
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Keywords: | physical quantity synergy heat transfer enhancement laminar flow convective heat transfer numerical verification |
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