Influence of wall temperature on condensation rate in duct flow of humid air: a comprehensive computational study

Pub Date : 2024-07-12 DOI:10.24425/ather.2024.151229
Jakub Bobrowski, Artur Gutkowski
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Abstract

In engineering phase-change phenomena are found in a multitude of applications, ranging from refrigeration and air con-ditioning to steam turbines and petroleum refining. This study investigates the flow of moist air in a circular duct where water vapour condenses in contact with the cold wall of the duct. The investigation delves into the relationship between the condensation mass transfer rate, the heat transfer between the bulk flow and the wall, and the temperature of the wall. The volume of fluid model coupled with the Lee evaporation-condensation model was employed. Five simulations were carried out, involving different wall temperatures while maintaining the same inlet conditions. Condensation was more pronounced at lower wall temperatures, which aligns with the expectations. The heat transfer between the bulk flow and the wall decreased with the decreasing temperature difference. Interestingly, the findings revealed that the surface heat transfer coefficient increased as the wall temperature approached the temperature of the bulk flow. The success of the study suggests potential applications in optimising thermal management systems, with implications for industries where accurate predictions of moisture behaviour and heat transfer are crucial.
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墙壁温度对湿空气管道流中冷凝率的影响:综合计算研究
在工程领域,相变现象应用广泛,从制冷和空气调节到蒸汽轮机和石油提炼,不一而足。本研究调查了湿空气在圆形管道中的流动情况,水蒸气在接触管道冷壁时会凝结。研究深入探讨了冷凝传质速率、散流与管壁之间的传热以及管壁温度之间的关系。研究采用了流体体积模型和 Lee 蒸发-冷凝模型。在入口条件不变的情况下,对不同的壁面温度进行了五次模拟。在壁面温度较低时,冷凝现象更为明显,这与预期相符。随着温差的减小,散流和壁面之间的传热也随之减小。有趣的是,研究结果表明,当壁温接近散流温度时,表面传热系数增大。这项研究的成功表明,它在优化热管理系统方面具有潜在的应用价值,对准确预测湿度行为和热传递至关重要的行业具有重要意义。
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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