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Active magnetocaloric heat pipes provide enhanced specific power of caloric refrigeration

Lena Maria Maier, Patrick Corhan, Alexander Barcza, Hugo A. Vieyra, Christian Vogel, Jan D. Koenig, Olaf Schäfer-Welsen, Jürgen Wöllenstein, Kilian Bartholomé

2020Communications Physics52 citationsDOIOpen Access PDF

Abstract

Abstract Today almost all refrigeration systems are based on compressors, which often require harmful refrigerants and typically reach 50% of the Carnot efficiency. Caloric cooling systems do not need any detrimental fluids and are expected to reach 60–70% of the Carnot limit. Current caloric systems utilise the active magnetocaloric regeneration principle and are quite cost-intensive, as it is challenging to achieve large cycle frequencies and thus high specific cooling powers with this principle. In this work, we present an alternative solution where the heat transfer from the heat exchangers to the caloric material is predicated on condensation and evaporation of a heat transfer fluid. Using thermal diodes, a directed heat flow is generated. Thereby we were able to build a cooling unit achieving a specific cooling power of 12.5 W g −1 at a cycle frequency of 20 Hz, which is one order of magnitude larger than the state-of-the-art.

Topics & Concepts

Carnot cycleMagnetic refrigerationRefrigerationRefrigerantHeat exchangerThermodynamicsHeat transferGas compressorRegenerative heat exchangerCaloric theoryMechanicsNuclear engineeringMechanical engineeringMaterials scienceEngineeringPhysicsMagnetic fieldQuantum mechanicsMagnetizationMagnetic and transport properties of perovskites and related materialsFerroelectric and Piezoelectric MaterialsPerfectionism, Procrastination, Anxiety Studies