流体流动参数对全致密zrb2微换热器性能的敏感性分析

Mohsen Naderi, M. Vajdi, Farhad Sadegh Moghanlou, H. Nami
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引用次数: 1

摘要

热交换器在现代技术中占有重要地位,并被用于各种工业,如发电厂、汽车和飞机。它们的主要作用是确保针对特定系统需求的高效传热。随着电子产品的小型化,电路过热等挑战已经出现,增加了对紧凑而高性能的热交换器的需求。微机电系统的出现增加了微型热交换器的应用,其高表面体积比有望提高效率。虽然铝等金属通常用于制造热交换器,但它们对腐蚀和高温的敏感性限制了它们的用途。这项研究将注意力转向了超高温陶瓷,特别是完全烧结的ZrB2,以其高温耐久性和抗氧化性而闻名。本研究利用Taguchi方法(一种鲁棒优化方法),探讨了流体流动参数对全致密zrb2微换热器性能的敏感性分析,并强调了陶瓷在换热器结构中的潜力。结果表明,质量流量对效率的贡献率最大,估计为4.4%,最佳情况下的效率可达24.3%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sensitivity analysis of fluid flow parameters on the performance of fully dense ZrB2-made micro heat exchangers
Heat exchangers are important in modern technology and are used in various industries such as power plants, automobiles and airplanes. Their main role is to ensure efficient heat transfer tailored to specific system needs. With miniaturized electronics, challenges such as circuit overheating have emerged, increasing the demand for compact yet high-performance heat exchangers. The advent of micro-electromechanical systems has increased the application of micro heat exchangers with their high surface-to-volume ratio promising enhanced efficiency. Although metals such as aluminum are commonly used for fabricating heat exchangers, their susceptibility to corrosion and high temperatures limits their usefulness. This study turns attention to ultrahigh temperature ceramics, specifically fully sintered ZrB2, known for their high temperature durability and oxidation resistance. Utilizing the Taguchi approach, a robust optimization method, this study explores the sensitivity analysis of fluid flow parameters on the performance of fully dense ZrB2-made micro heat exchangers and highlights the potential of ceramics in heat exchanger construction. Based on the results, the mass flow rate with an estimated contribution of 4.4% in the effectiveness is the most influential parameter on the performance, and in the best case, the effectiveness reaches 24.3%.
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