扩展表面强化传热的CFD研究

Electrochemistry eJournal Pub Date : 2020-03-06 DOI:10.2139/ssrn.3549677

L. Sahoo

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引用次数: 0

摘要

对矩形扩展面和针翅板的传热进行理论研究和分析，计算沿侧壁平行垂直方向的平均努塞尔数。与普通板相比，针翅板平均努塞尔数的总上升约为36%。最佳翅片间距为L比为0.2的Sv和W比为0.25的Sh，延伸面高度为24 mm(高厚比为8)，倾角为45°。平均努塞尔数随倾角的增大而减小，随纵横比的增大而增大。目前的研究表明，直线排列和交错排列不会产生明显不同的结果。当θ = 45°时，Sh/W= 0.33, Sv/L =0.2，翅片高度为6 mm (H/t=2)时，导电翅片与非导电翅片的最大平均努塞尔数差约为5%。

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Enhancement of Heat Transfer From Extended Surfaces by CFD

Theoretical studies and analysis of heat transfer from a rectangular extended surfaces and a pin finned plate studied to calculate the average Nusselt number in parallel, vertical direction placed along the sidewall. The total rise of the mean Nusselt number is noticed around 36% for pin finned plate with respect to a plain plate. This is examined with optimal fin spacing of Sv with L ratio equals to 0.2 and Sh with W ratio equals to 0.25, height of extended surfaces 24 mm (Height to thickness ratio 8), and 45o angle of inclination . The mean Nusselt number decreases with rise in angle of inclination and also increases with rise in aspect ratio. Present study reveals that in-line and staggered arrangements do not yield appreciably different results.The maximum average Nusselt number difference between conductive and non-conductive fins is around 5 % for S_h/W= 0.33, S_v/L =0.2 at θ = 45°, fin height of 6 mm (H/t=2).

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Electrochemistry eJournal

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