Forced Convective Heat Transfer From Helicoidal Pipes

A. Fakheri, Abdelrahman H. A. Alnaeim
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Abstract

Forced convection heat transfer from helicoidal pipes is experimentally investigated over a wide range of operating conditions. Based on the experimental results, a characteristic length incorporating the tube diameter, the coil diameter, and the coil spacing, is proposed as the relevant scale for defining Nusselt and Reynolds numbers. Based on this characteristic length, Nusselt number for helicoidal pipes can be predicated from the correlations available for cylinders in the range of available experimental data. It is shown that the performance of the coils depends on the Reynolds number. At high Reynolds numbers, the heat transfer coefficient is essentially equal to that of the straight pipe and the coil pitch has little influence on the heat transfer rate. On the other hand, at low Reynolds numbers, the heat transfer coefficient is lower than that of a straight pipe and its value is a strong function of the coil spacing.
螺旋管强制对流换热
实验研究了螺旋管在各种工况下的强制对流换热问题。根据实验结果,提出了包含管径、线圈直径和线圈间距的特征长度作为定义努塞尔数和雷诺数的相关尺度。在此特征长度的基础上,螺旋管的努塞尔数可以从可用实验数据范围内圆柱体的相关性中预测出来。结果表明,线圈的性能与雷诺数有关。在高雷诺数时,换热系数与直管换热系数基本相等,盘管间距对换热率的影响较小。另一方面,在低雷诺数下,换热系数低于直管,其值与盘管间距有很强的关系。
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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