Effect of pin fins on heat transfer during condensation in minichannel heat exchanger

Q1 Chemical Engineering
Fadi Alnaimat , Mohamed Daadoua , Bobby Mathew
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引用次数: 0

Abstract

In this study, condensation heat transfer of water vapor in a minichannel heat exchanger on smooth and pin fins surfaces was investigated experimentally. The experimental study was carried out to evaluate heat transfer coefficient, overall heat transfer coefficient, and Nusselt number over different ranges of vapor mass flux from 0.0064 to 0.0368 kg m−2 s−1 and cold-water flow rate range between 0.0013 kg s−1 to 0.0057 kg s−1. The minichannel has a rectangular shape with a hydraulic diameter of 1.3 mm. The experimental testing is carried out on aluminum surface with a channel that has a length of 270, width of 30 mm, and height of 1.3 mm. The pin fins surface is on the bottom of the condensing channel and the fins are circular and have diameter, height, and spacing of 1 mm, and are in-inline arrangement. It is found that condensation heat transfer coefficient on pin fins surface is about 15 % higher than that on smooth surface. It is found that the condensation heat transfer coefficient increases significantly with increasing the vapor mass flux. In addition, the effect of increasing the cold fluid flow rate is lower than that of the hot vapor flow rate, but it becomes more significant for higher vapor flux.
针翅片对微型通道热交换器冷凝过程中传热的影响
本研究通过实验研究了水蒸气在光滑翅片和针形翅片表面的微型通道热交换器中的冷凝传热。实验研究评估了水蒸气质量通量在 0.0064 至 0.0368 kg m-2 s-1 和冷水流速在 0.0013 kg s-1 至 0.0057 kg s-1 之间不同范围内的传热系数、总传热系数和努塞尔特数。微型通道为矩形,水力直径为 1.3 毫米。实验测试在铝表面进行,通道长 270、宽 30 毫米、高 1.3 毫米。针翅片表面位于冷凝通道的底部,翅片呈圆形,直径、高度和间距均为 1 毫米,采用内嵌式布置。研究发现,针翅片表面的冷凝传热系数比光滑表面高出约 15%。研究发现,冷凝传热系数随着蒸汽质量通量的增加而显著提高。此外,增加冷流体流速的影响低于增加热蒸汽流速的影响,但在蒸汽通量较高时,冷凝传热系数会变得更加显著。
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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来源期刊
International Journal of Thermofluids
International Journal of Thermofluids Engineering-Mechanical Engineering
CiteScore
10.10
自引率
0.00%
发文量
111
审稿时长
66 days
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