物理学报Issue(21):1-7,7.DOI:10.7498/aps.64.210201
耦合高压斯特林制冷效应的复合磁制冷循环的数值模拟∗
Numerical simulation of a hybrid magnetic refrigeration combined with high pressure Stirling regenerative refrigeration effect
摘要
Abstract
Magnetic refrigeration is a cooling method based on the magnetocaloric effect, which uses solid magnetocaloric materials as refrigerant, and helium, water or other fluid as heat transfer fluids. Stirling refrigeration is a kind of mature gas regenerative cooling method, using helium gas as the refrigerant. These refrigerations have similar cycling charac-teristics, and are both safe, environmantal-friendly and high efficient cooling methods. Therefore, a hybrid magnetic refrigerator combined with Stirling gas refrigeration effect is proposed and designed. In our previous works for hybrid magnetic refrigeration, numerical simulation and experimental performance of the low-pressure hybrid magnetic refrig-erator was carried out, and the cycling mechanism of hybrid magnetic refrigeration was also figured out. In this study, a numerical model for the high-pressure hybrid magnetic refrigeration cycle is established. The magnetic refrigeration materials are utilized as the regenerator matrix for both gas Stirling and active magnetic regenerative refrigeration in this model. Effects of gas Stirling and active magnetic regenerative refrigeration are combined to build a kind of high efficient refrigeration cycle. Ansys Fluent software is applied in this paper. Based on the physical model of hybrid refrig-erator and the theories of magnetocaloric effect and numerical calculation of regenerator, computational fluid dynamics (CFD) model of high-pressure hybrid magnetic refrigerator is established. This paper describes the internal heat transfer mechanism of Stirling and magnetic refrigeration effect in an active regenerator. Some parameters of the model such as working frequency and utilization are analyzed and the best phase angle is figured out in order to couple these two cooling effects positively. Simulation results show that Stirling and magnetic cooling effects can be coupled positively at phase angle of 60◦. Results also show that with increasing system pressure, which means to increase the utilization of the system, the system frequency can enhance the cooling performance of the system as well as improve the coefficient of performance (COP) of it. The results and analysis of the numerical model will be helpful for the construction of experimental prototype in our future work.关键词
数值模拟/磁制冷/混合系统Key words
numerical simulation/magnetic refrigeration/hybrid systems引用本文复制引用
高新强,沈俊,和晓楠,唐成春,戴巍,李珂,公茂琼,吴剑峰..耦合高压斯特林制冷效应的复合磁制冷循环的数值模拟∗[J].物理学报,2015,(21):1-7,7.基金项目
国家自然科学基金(批准号:51322605,51271192)资助的课题 (批准号:51322605,51271192)
