화학공학소재연구정보센터
Energy Conversion and Management, Vol.52, No.1, 97-107, 2011
A numerical analysis of an active magnetic regenerative refrigerant system with a multi-layer regenerator
Magnetic refrigeration is an emerging technology based on the magnetocaloric effect in solid-state refrigerants. The active magnetic regenerative refrigeration (AMRR) cycle is a special kind of regenerator for the magnetic refrigerator, in which the magnetic material matrix works both as a refrigerating medium and as a heat regenerating medium, while the fluid flowing in the porous matrix works as a heat transfer medium. The performance of an AMRR cycle depends strongly on the behaviour of the adiabatic magnetization temperature change as a function of material temperature in the flow direction of the regenerator. In the present paper, a practical model for predicting the performance and efficiency of an AMRR cycle has been developed. The model simulates both the ferromagnetic material and the entire cycle of an AMRR operating in conformity with a Brayton regenerative cycle. The model simulates different kinds of layered regenerators operating at their optimal operation point. The program study the Gd-x Tb1-x alloys as constituent materials for the regenerator over the temperature range 275-295 K. and Gd-x Dy1-x alloys in the temperature range 260-280 K. With this model, the refrigeration capacity, the power consumption and consequently the coefficient of performance can be predicted. The results show a greater COP for the refrigerator based on the magnetocaloric technology compared with the COP of a classical vapour compression plant working between the same thermal levels. (C) 2010 Elsevier Ltd. All rights reserved.