iScience (Jul 2022)

Thermal processes of miniature thermomagnetic generators in resonant self-actuation mode

  • Joel Joseph,
  • Makoto Ohtsuka,
  • Hiroyuki Miki,
  • Manfred Kohl

Journal volume & issue
Vol. 25, no. 7
p. 104569

Abstract

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Summary: This paper presents an investigation of the heat transfer processes in miniature thermomagnetic generators (TMGs) that are based on the recently developed concept of resonant self-actuation of a cantilever enabling efficient conversion of thermal into electrical energy. A lumped element model (LEM) is introduced to describe the dynamics of heat intake during mechanical contact between a thermomagnetic (TM) film and heat source, and of heat dissipation. The key parameters governing heat intake and dissipation are the heat transfer coefficient at contact and the thermal resistance Rb of the bonding layer between TM film and cantilever, respectively. The effects of these parameters on the performance metrics are investigated for different heat source temperatures above the Curie temperature of the TM film. LEM simulations reveal critical values of κ and Rb, above which stable performance of energy generation occurs characterized by large stroke and frequency resulting in large power.

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