SKM 2023 – scientific programme

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MA: Fachverband Magnetismus

MA 42: Caloric Effects in Ferromagnetic Materials

MA 42.1: Talk

Thursday, March 30, 2023, 15:00–15:15, HSZ 04

Exploring rare earth Laves phases for magnetocaloric hydrogen liquefaction — •Bruno Weise¹, Marvin Hofmann^1,2, Lukas Beyer^1,3, and Tino Gottschall⁴ — ¹Leibniz IFW, Dresden, Germany — ²TU Dresden, Dresden, Germany — ³TU Bergakademie Freiberg, Freiberg, Germany — ⁴Helmholtz-Zentrum Dresden-Rossendorf, Dresden, Germany

The replacement of fossil fuels with renewable energies is an integral part of fighting the global climate crisis. Green hydrogen, produced with renewable energies, is one of the most promising energy sources. The unsurpassed high storage density of liquid hydrogen offers great advantages, especially on long transport routes. By magnetocaloric cooling the efficiency of the energy-intensive liquefaction of hydrogen will be increased. RE-X₂ Laves phases, are ideal for low temperature hydrogen liquefaction in the temperature range between 77 and 20 K.

By substitution of individual elements in the RE-X₂ Laves phases the transition temperature can be manipulated, while maintaining the magnetocaloric performance. A substitution series of DyNi_2−xAl_x was prepared by arc melting and studied by structural, magnetic and thermodynamic characterization methods. The investigated alloy series DyNi_2−xAl_x shows a nonlinear substitution dependency of the Curie Temperature and adiabatic temperature change. In pulsed field measurements a temperature of up to 17 K for 10 T magnetic field pulse was measured. In the present contribution we will evaluate the suitability of the DyNi_2−xAl_x rare earth Laves phases for magnetocaloric hydrogen liquefaction.