Enhancement of thermo-hydraulic transport within a round tube using a twisted-staggered concave/convex dimples tape

IF 4 3区工程技术 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

International Journal of Numerical Methods for Heat & Fluid Flow Pub Date : 2025-01-13 DOI:10.1108/hff-08-2024-0614

Shiang-Wuu Perng, Horng Wen Wu, Yi-Ling Guo, Tao-Hsuan Liu

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引用次数: 0

Abstract

Purpose

The purpose of this study is to value the thermal and hydraulic transport augmentation of turbulent fluid flow within the round-pipe axis fixed by a twisted-staggered concave/convex dimples tape.

Design/methodology/approach

This study meets the report’s novel design by axis-inserting a twisted plastic tape with staggered concave/convex dimples of varying diameters (4 and 6 mm) and depths (1, 1.4 and 1.8 mm). Introducing a realizable model integrated with an improved wall function and SIMPLE solving procedure evaluates the thermo-hydraulic transport as Reynolds number is feasible as 5,000, 10,000, 15,000 and 20,000. In addition, using the findings from the present experimental work validates the numerical methodology.

Findings

This paper reveals that the staggered concave/convex dimples on the axis-fixed plastic tape can significantly improve thermo-hydraulic transport within this outer-heated tube. Furthermore, the processed dimples can cause flow disturbance, which increases turbulent kinetic energy and accelerates fluid mixing around a twisted plastic tape, resulting in enhanced thermal convection. The six kinds of twisted tapes (C1−C6) result in the thermo-hydraulic performance index (η) of 1.18–1.32 at Re = 5000. Among all the cases, the dimples using 4 mm combined with 6 mm diameter and 1.4 mm height (C4) earn the highest, around 1.40 at Re = 5,000.

Research limitations/implications

The conditions of constant hydraulic-thermal characteristics of working fluid (air), steady Newtonian fluid considered, and the ignored radiative heat transfer and gravity are the research limitations of the numerical simulation.

Practical implications

The given results can benefit from a round tube design of a thermal apparatus axis fixed by a twisted-staggered concave/convex dimples tape to augment the thermo-hydraulic transport.

Originality/value

Staggered concave/convex dimples on the surface of a twisted tape allow for impinging and swirling flow along the tape. These processed dimples can induce flow disturbance, which increases the turbulent kinetic energy and facilitates fluid mixing in a twisted tape. Furthermore, the hybrid-diameter dimples have enough flow channels for fluid separation-reattachment, and the thermo-hydraulic performance index has improved. This paper then presents a helpful passive approach for cooling a thermal device.

查看原文本刊更多论文

利用扭曲交错凹/凸凹陷带增强圆管内热液传输

目的研究扭曲交错凹/凸凹陷带固定的圆管内湍流流体的热输运和水力输运。设计/方法/方法本研究通过轴向插入带有不同直径（4和6毫米）和深度（1,1.4和1.8毫米）交错凹/凸凹的扭曲塑料带来满足报告的新颖设计。引入了一个可实现的模型，结合改进的壁面函数和SIMPLE求解程序，对雷诺数为5,000、10,000、15,000和20,000时的热液输运进行了评估。此外，利用本实验工作的结果验证了数值方法。研究结果表明，轴向固定塑料胶带上的交错凹/凸凹陷能显著改善外加热管内的热液传输。此外，加工后的韧窝会引起流动扰动，从而增加湍流动能，加速扭曲塑料带周围的流体混合，从而增强热对流。在Re = 5000时，6种扭曲带（C1 ~ C6）的热液性能指数（η）为1.18 ~ 1.32。在所有情况下，使用4mm结合6mm直径和1.4 mm高度（C4）的酒窝最高，在Re = 5000时约为1.40。研究局限/意义考虑恒定的工作流体（空气）水热特性条件，考虑稳定的牛顿流体，忽略辐射传热和重力是数值模拟的研究局限。实际意义所给出的结果可以受益于热仪轴的圆管设计，该热仪轴由扭曲交错的凹/凸凹带固定，以增加热液传输。原创/价值扭曲胶带表面的凹凸凹陷允许沿胶带撞击和旋转流动。这些加工后的韧窝可以引起流动扰动，从而增加湍流动能，促进扭曲带中的流体混合。此外，混合直径的微窝具有足够的流体分离再附着通道，提高了热工性能指标。然后，本文提出了一种有用的被动方法来冷却热装置。

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 Numerical Methods for Heat & Fluid Flow 工程技术-力学

CiteScore

9.50

自引率

11.90%

发文量

100

审稿时长

6-12 weeks

期刊介绍： The main objective of this international journal is to provide applied mathematicians, engineers and scientists engaged in computer-aided design and research in computational heat transfer and fluid dynamics, whether in academic institutions of industry, with timely and accessible information on the development, refinement and application of computer-based numerical techniques for solving problems in heat and fluid flow. - See more at: http://emeraldgrouppublishing.com/products/journals/journals.htm?id=hff#sthash.Kf80GRt8.dpuf