A COMPREHENSIVE REVIEW ON PASSIVE HEAT TRANSFER AUGMENTATION TECHNIQUES FOR PIPE HEAT EXCHANGERS

Q4 Physics and Astronomy

JP Journal of Heat and Mass Transfer Pub Date : 2023-09-15 DOI:10.17654/0973576323048

A. A. Kapse

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Abstract

Passive heat transfer augmentation techniques play a crucial role in enhancing the performance and efficiency of various thermal systems. This paper presents a comprehensive review of the state-of-the-art of passive heat transfer augmentation techniques, highlighting their principles, and thermo-hydraulic performance characteristics. The first part of the paper provides an overview of the fundamental principles underlying passive heat transfer augmentation. The discussion then delves into the concept of passive techniques, which rely on the intrinsic properties of the working fluids and the geometrical configurations to enhance heat transfer without the need for external energy input. The paper subsequently reviews a wide range of passive heat transfer augmentation techniques. It covers techniques such as surface modifications, including roughening, surface coatings, and porous media, which enhance convective heat transfer by altering the boundary layer characteristics. Furthermore, the paper explores the utilization of passive inserts, such as vortex generators, baffles, and turbulators, to induce fluid mixing and disrupt laminar flow, thereby increasing the convective heat transfer coefficient. Overall, this comprehensive review serves as a valuable resource for researchers, engineers, and practitioners interested in understanding and applying passive heat transfer augmentation techniques. It provides insights into the underlying principles and performance characteristics of these techniques, fostering further advancements in the field of thermal engineering. Received: April 29, 2023Revised: July 5, 2023Accepted: September 7, 2023

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管式换热器被动增热技术综述

被动换热技术在提高各种热系统的性能和效率方面起着至关重要的作用。本文介绍了最先进的被动传热增强技术的全面回顾，突出了他们的原理和热工性能特点。论文的第一部分概述了被动传热增强的基本原理。然后深入讨论了被动技术的概念，它依赖于工作流体的固有特性和几何结构来增强传热，而不需要外部能量输入。本文随后回顾了广泛的被动传热增强技术。它涵盖了表面改性等技术，包括粗化，表面涂层和多孔介质，通过改变边界层特征来增强对流传热。此外，本文还探讨了利用涡发生器、挡板和紊流器等被动插入物诱导流体混合，破坏层流，从而提高对流换热系数。总的来说，这篇全面的综述为研究人员、工程师和对理解和应用被动传热增强技术感兴趣的从业者提供了宝贵的资源。它提供了对这些技术的基本原理和性能特征的见解，促进了热工领域的进一步发展。收稿日期:2023年4月29日修稿日期:2023年7月5日收稿日期:2023年9月7日

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来源期刊

JP Journal of Heat and Mass Transfer Physics and Astronomy-Atomic and Molecular Physics, and Optics

CiteScore

1.00

自引率

0.00%

发文量

期刊介绍： The JP Journal of Heat and Mass Transfer publishes peer-reviewed articles in heat and mass transfer which enriches basic ideas in this field and provides applicable tools to its users. Articles both theoretical and experimental in nature covering different aspects in the area of heat and mass transfer such as heat transfer in phase change phenomena, machinery and welding operations, porous media and turbulence are considered. Priority is given to those which employ or generate fundamental techniques useful to promote applications in different disciplines of engineering, electronics, communication systems, environmental sciences and climatology. Because a combination of two or more different technologies in a single device may result into a significant development, the journal extends its scope to include papers with the utility value in electronics and communication system. In this spirit, we are devoting certain number of issues to ‘Mechanical Systems and ICT – Convergence’. Survey articles dealing with certain issues in the context of current developments in heat and mass transfer together with their applications in interdisciplinary topics are also entertained.