Design and Optimization of a Standing-Wave Thermoacoustic Refrigerator Using DELTAEC

Diyala Journal of Engineering Sciences Pub Date : 2023-04-18 DOI:10.24237/djes.2023.16211

Mohanad Q. Kamil, Samir Gh. Yahya, Olusegun M. Ilori

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Abstract

Thermoacoustic refrigeration is one of the best alternatives to conventional refrigeration systems due to the use of inert gases such as helium or air. On the contrary, conventional refrigeration systems use refrigerants (CFC) that are harmful to the environment and humans due to global warming and ozone layer depletion issues. It is possible to classify thermoacoustic technology as a clean, renewable technology with a bright future due to its many advantages. Thermoacoustic refrigerators' main function is to utilize sound waves to create a cooling effect. In the present study, the focus is on the design of a standing-wave thermoacoustic refrigerator driven by an ordinary loudspeaker using the simulation program DELTAEC. Additionally, investigating the influence of significant stack and resonator parameters (inertance and compliance) on cooling power and performance coefficient (COP). Hence, the designed thermoacoustic refrigerator performed well in respect of cooling power and coefficient of performance. It has achieved a cooling power of 312 W with a temperature difference of 25 K between the ambient and cold heat exchangers at a COP of 1.9275.

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基于DELTAEC的驻波热声制冷机设计与优化

热声制冷是传统制冷系统的最佳替代方案之一，因为它使用惰性气体，如氦气或空气。相反，传统的制冷系统使用制冷剂(CFC)，由于全球变暖和臭氧层消耗问题，对环境和人类有害。热声技术由于其诸多优点，有可能被归类为一种清洁、可再生、前景光明的技术。热声制冷机的主要功能是利用声波来产生冷却效果。本研究利用DELTAEC仿真程序设计了一种由普通扬声器驱动的驻波热声制冷机。此外，研究了重要的堆栈和谐振器参数(惰性和顺应性)对冷却功率和性能系数(COP)的影响。因此，所设计的热声制冷机在制冷功率和性能系数方面表现良好。在COP为1.9275的情况下，环境换热器与冷换热器的温差为25k，制冷功率为312 W。

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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Diyala Journal of Engineering Sciences

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