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Journal article

A comprehensive parameter study of an active magnetic regenerator using a 2D numerical model

By Nielsen, Kaspar Kirstein1,2,3; Bahl, Christian Robert Haffenden2,3,4; Smith, Anders2,3,5; Pryds, Nini2,3,4; Hattel, Jesper Henri6,7

From

Electroceramics, Fuel Cells and Solid State Chemistry Division, Risø National Laboratory for Sustainable Energy, Technical University of Denmark1

Fuel Cells and Solid State Chemistry Division, Risø National Laboratory for Sustainable Energy, Technical University of Denmark2

Risø National Laboratory for Sustainable Energy, Technical University of Denmark3

Thermo Ceramics, Fuel Cells and Solid State Chemistry Division, Risø National Laboratory for Sustainable Energy, Technical University of Denmark4

Fuel Cells and Solid State Chemistry Division. Management, Fuel Cells and Solid State Chemistry Division, Risø National Laboratory for Sustainable Energy, Technical University of Denmark5

Manufacturing Engineering, Department of Mechanical Engineering, Technical University of Denmark6

Department of Mechanical Engineering, Technical University of Denmark7

A two-dimensional numerical heat transfer model is used to investigate an active magnetic regenerator (AMR) based on parallel plates of magnetocaloric material. A large range of parameter variations are performed to study the optimal AMR. The parameters varied are the plate and channel thicknesses, cycle frequency and fluid movement.

These are cast into the non-dimensional units utilization, porosity and number of transfer units (NTU). The cooling capacity vs. temperature span is mapped as a function of these parameters and each configuration is evaluated through the maximum temperature span and exergy. The results show that the optimal AMR should have a utilization in the range 0.2–1 and an NTU higher than 10 and not necessarily more than 30.

It is concluded that parallel plate-based regenerators face significant challenges in terms of manufacturability. However, the benefit of parallel plate regenerators is a very low pressure drop, which is needed for high performance.

Language: English
Year: 2010
Pages: 753-764
ISSN: 18792081 and 01407007
Types: Journal article
DOI: 10.1016/j.ijrefrig.2009.12.024
ORCIDs: Nielsen, Kaspar Kirstein , Bahl, Christian Robert Haffenden , Smith, Anders , Pryds, Nini and Hattel, Jesper Henri
Keywords

Brændselsceller og brint Fuel Cells and hydrogen Magnetic refrigeration Magnetisk køling

Other keywords

Gadolinium Performance Réfrigérateur magnétique Régénérateur Simulation Transfert de chaleur Échange de chaleur

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