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Magnetic Refrigeration with Recycled Permanent Magnets and Free Rare‐Earth Magnetocaloric La–Fe–Si

 
: Benke, D.; Fries, M.; Specht, M.; Wortmann, J.; Pabst, M.; Gottschall, T.; Radulov, I.; Skokov, K.; Bevan, A.I.; Prosperi, D.; Tudor, C.O.; Afiuny, P.; Zakotnik, M.; Gutfleisch, O.

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Volltext ()

Energy technology 8 (2020), Nr.7, Art. 1901025, 12 S.
ISSN: 2194-4288
ISSN: 2194-4296
European Commission EC
H2020; 743116; Cool Innov
Turning the concept of magnetocaloric cooling on its head
Deutsche Forschungsgemeinschaft DFG
SPP 1599
Kalorische Effekte in ferroischen Materialien: Neue Konzepte der Kühlung
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IWKS ()

Abstract
Magnetic refrigeration is an upcoming technology that could be an alternative to the more than 100‐year‐old conventional gas–vapor compression cooling. Magnetic refrigeration might answer some of the global challenges linked with the increasing demands for readily available cooling in almost every region of the world and the global‐warming potential of conventional refrigerants. Important issues to be solved are, for example, the required mass and the ecological footprint of the rare‐earth permanent magnets and the magnetocaloric material, which are key parts of the magnetic cooling device. The majority of existing demonstrators use Nd–Fe–B permanent magnets, which account for more than 50% of the ecological footprint, and Gd, which is a critical raw material. This work shows a solution to these problems by demonstrating the world's first magnetocaloric demonstrator that uses recycled Nd–Fe–B magnets as the magnetic field source, and, as a Gd replacement material, La–Fe–Mn–Si for the magnetocaloric heat exchanger. These solutions show that it is possible to reduce the ecological footprint of magnetic cooling devices and provides magnetic cooling as a green solid‐state technology that has the potential to satisfy the rapidly growing global demands.

: http://publica.fraunhofer.de/dokumente/N-596635.html