Characteristics of thermo‐hydraulic flow inside corrugated channels: Comprehensive and comparative review

IF 2.8 Q2 THERMODYNAMICS

Heat Transfer Pub Date : 2024-07-26 DOI:10.1002/htj.23136

Fatimah Q. Al-Daamee, Naseer H. Hamza

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Abstract

Previous works that investigated the characteristics of heat transfer and fluid flow in channels with corrugated walls have been extensively reviewed in this study. In accordance with the fast increase in power consumption requirements, many researchers have investigated a new approach for cooling techniques that can enhance the cooling performance of devices without consuming more power. To improve the efficiency of energy systems, many investigators and engineers implement promising techniques such as surface optimization and additives as passive methods to augment the rates of heat transfer. Researchers investigated different corrugation profiles along with various working fluids as well as external power devices to further improve the heat exchange process of thermal systems. The aim of this article is to give a clear preview of the effects of different parameters such as wave parameters, Reynolds number, type of working fluid, and pulsating flow condition on the average and local Nusselt number, the pressure drop, the performance factors, and irreversibility. The main findings are listed in tables and depicted in figures, the matter that helps engineers and researchers to choose a suitable channel shape for their applications.

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波纹通道内的热液流动特性：综合比较综述

本研究广泛综述了以往研究波纹壁通道中热传导和流体流动特性的工作。随着功耗要求的快速增长，许多研究人员都在研究一种新的冷却技术方法，这种方法可以在不消耗更多电能的情况下提高设备的冷却性能。为了提高能源系统的效率，许多研究人员和工程师采用了表面优化和添加剂等有前途的技术作为被动方法来提高热传导率。研究人员对不同的波纹轮廓、各种工作流体以及外部动力装置进行了研究，以进一步改善热系统的热交换过程。本文旨在清楚地介绍不同参数（如波参数、雷诺数、工作流体类型和脉动流条件）对平均和局部努塞尔特数、压降、性能系数和不可逆性的影响。主要研究结果以表格和图表的形式列出，有助于工程师和研究人员为其应用选择合适的通道形状。

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

Heat Transfer THERMODYNAMICS-

CiteScore

6.30

自引率

19.40%

发文量

342