Experimental study on heat transfer and pressure drop in a channel with triangular V-ribs

Proceedings of the International Conference on Energy and Sustainable Development: Issues and Strategies (ESD 2010) Pub Date : 2010-06-02 DOI:10.1109/ESD.2010.5598855

Dumri Jansangsuk, C. Khanoknaiyakarn, P. Promvonge

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引用次数: 7

Abstract

The paper presents an experimental study on heat transfer and pressure drop characteristics in a rectangular channel fitted with periodic triangular v-pattern ribs. The ribs are tested for pointing downstream (v-down) to the flow. The channel has an aspect ratio (width to height ratio), AR = 10 and height, H = 30 mm; the rib-to-channel height, e/H = 0.1, 0.2, and 0.3; the rib pitch to channel height, PR=P/H = 3 and 4; the attack angle (α) of 30° relative to the flow direction. The experiment has been conducted by varying air flow velocity in order to adjust Reynolds number range from 5000 to 20,000. The upper plate of channel is uniformly heated as a constant heat flux while the whole test section is covered with insulation to reduce heat loss to surroundings. These boundary conditions correspond closely to those founded in solar air heaters. The experimental results show a significant effect of the presence of the ribs on the heat transfer rate and pressure drop over the plain channel. The measured data indicates that the triangular v-type rib with e/H = 0.3 and PR =3 yields higher heat transfer rate in terms of Nusselt number, Nu, and the pressure drop in the form of friction factor, f, than the others and also much higher than the smooth wall channel.

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三角形v肋通道内传热与压降的实验研究

本文对装有周期性三角形v型肋的矩形通道内的传热和压降特性进行了实验研究。测试肋是否指向下游(v-down)的流动。该通道具有宽高比(宽高比)，AR = 10，高度H = 30 mm;肋道高度，e/H = 0.1、0.2、0.3;肋距与通道高度比值，PR=P/H = 3和4;攻角(α)相对于气流方向为30°。通过改变气流速度，将雷诺数范围从5000调整到20000，进行了实验。通道的上板以恒定的热流均匀受热，而整个测试段都覆盖了隔热层，以减少热量散失给周围环境。这些边界条件与太阳能空气加热器中的边界条件非常相似。实验结果表明，肋的存在对平面通道的换热率和压降有显著影响。实测数据表明，当e/H = 0.3、PR =3时，三角v型肋的换热率(努塞尔数Nu)和压降(摩擦系数f)均高于其他两种肋，且远高于光滑壁面通道。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the International Conference on Energy and Sustainable Development: Issues and Strategies (ESD 2010)

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