评估装有扭曲带的扭曲双管热交换器性能的计算研究

Q2 Mathematics
riyam ali, Khudheyer Salim
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引用次数: 0

摘要

扭曲双管热交换器在提高管侧传热效率、减少壳侧压降和缩小设备尺寸方面大有可为。尽管双管热交换器潜力巨大,但仍需研究热交换器内部的传热增强技术。在这项研究中,对插入扭曲带的扭曲双管热交换器的热液压特性进行了数值研究。采用 Naiver-stokes、能量和湍流方程来模拟流体流动和传热,湍流则采用 k- ε 模型。ANSYS Fluent 23.1 用于求解控制方程。研究了主要设计元素的影响,如质量流量、不同间距的扭曲双管和扭曲带插入件。内管使用热水,外管使用冷水,形成逆流装置。热交换器的长度为 1 米,内外直径分别为 0.054 米和 0.018 米。两根管子的厚度为 0.004 米。管子的扭曲比测试为 =5、10 和 15,而胶带的扭曲比为 4、6 和 8。研究结果表明,与普通管式热交换器相比,使用带扭曲插入带的双扭曲管式热交换器可提高传热效率。数值分析表明,随着扭曲率的下降,努塞尔特数、压降和整体传热系数都会增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Computational Study for Evaluating the Performance of Twisted Double Tube Heat Exchangers Fitted with Twisted Tape
Twisted double-tube heat exchangers are promising in improving the heat transfer efficiency on the tube side, decreasing the pressure drop on the shell side, and reducing the size of the equipment. Although offering immense potential, examining heat transfer enhancement techniques inside a heat exchanger. In this study, The thermal-hydraulic characteristics of twisted double-tube heat exchangers fitted with twisted tape inserted have been numerically studied. The Naiver-stokes, energy, and turbulence equations were used to model the fluid flow and heat transfer while the turbulence was with a k- ε model. ANSYS Fluent 23.1 was used to solve the governing equations. The effect of major design elements such as mass flow rate, varied pitches of twisted double tubes and twisted tape inserts was investigated. The hot water was used in the inner tube and the cold water in the outer tube to create a counter-flow apparatus. The Length of the heat exchanger was 1 meter, and the outer and inner diameter was 0.054 and 0.018 m respectively. The thickness of the two tubes was 0.004 m. The twisted ratio of the tubes was tested for =5, 10, and 15 while the twist ratio of the tape was 4, 6, and 8. The findings demonstrated that the utilization of a double twisted tube heat exchanger with a twisted tape insert resulted in enhanced heat transfer in comparison to a plain tube heat exchanger. The numerical analysis revealed that as the twisting ratio drops, the Nusselt number, pressure drop, and overall heat transfer coefficient increase.
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来源期刊
CFD Letters
CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
3.40
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0.00%
发文量
76
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