A Numerical Study of Turbulent Boundary Layer Flow Over a Flat Surface With a Single Dimple

Advances in Enhanced Heat Transfer Pub Date : 2000-11-05 DOI:10.1115/imece2000-1282

M. Kithcart, D. Klett

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Abstract

Turbulent boundary layer flow over a flat surface with a single dimple has been investigated numerically using the FLUENT CFD software package, and compared to an experiment by Ezerskii and Shekhov [1989], which studied the same configuration. The impetus for this work developed as a result of previous studies. Kithcart and Klett [1996], and Afanas’yev and Chudnovskiy [1992], showed that dimpled surfaces enhance heat transfer comparably to surfaces with protrusion roughness elements, but with a much lower drag penalty. However, the actual physical mechanisms involved in this phenomena were only partially known prior this study. Results obtained numerically are in good agreement with the experiment, most notably the confirmation of the existence of a region of enhanced heat transfer created by interaction of the flow with the dimple. In particular, the simulation indicates that heat transfer augmentation is a consequence of the development of a stagnation flow region within the dimple geometry, and the existence of coherent vortical structures which create a periodic flow-field within and immediately downstream of the dimple. This periodicity appears to govern the magnitude of the heat transfer augmentation.

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具有单个凹痕的平面上湍流边界层流动的数值研究

使用FLUENT CFD软件包对具有单个凹痕的平坦表面上的湍流边界层流动进行了数值研究，并与Ezerskii和Shekhov[1989]研究相同配置的实验进行了比较。这项工作的推动力是以前研究的结果。kitcart和Klett[1996]以及Afanas 'yev和Chudnovskiy[1992]表明，与带有突出粗糙度元素的表面相比，凹痕表面增强了传热，但阻力损失要小得多。然而，在这项研究之前，这种现象所涉及的实际物理机制只是部分已知的。数值计算结果与实验结果吻合较好，最显著的是确认了流动与凹窝相互作用产生的强化传热区域的存在。特别是，模拟表明，传热增强是在韧窝几何形状内的停滞流动区域发展的结果，以及在韧窝内部和直接下游产生周期性流场的相干涡结构的存在。这种周期性似乎决定了传热增益的大小。

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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Advances in Enhanced Heat Transfer

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