Communications Engineering (Mar 2024)

Electrocaloric cooling system utilizing latent heat transfer for high power density

  • Julius Metzdorf,
  • Patrick Corhan,
  • David Bach,
  • Sakyo Hirose,
  • Dirk Lellinger,
  • Stefan Mönch,
  • Frank Kühnemann,
  • Olaf Schäfer-Welsen,
  • Kilian Bartholomé

DOI
https://doi.org/10.1038/s44172-024-00199-z
Journal volume & issue
Vol. 3, no. 1
pp. 1 – 6

Abstract

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Abstract Electrocalorics (EC) is potentially more efficient than refrigeration and heat pumps based on compressors and does not need detrimental fluids. Current EC-prototypes use solid-state contact or forced convection with liquids to transfer the heat generated from the EC-material, which inhibits high cycle frequencies and thus limits power density. Here we present a heatpipe system solution, where the heat transfer is realized through condensation and evaporation of ethanol as a heat transfer fluid. Our prototype with lead scandium tantalate (PST) EC-material working at 5 Hz shows a specific cooling power of 1.5 W g−1. This is one order of magnitude more than previously reported for ceramic EC-prototypes. Overcoming the limits of slow heat transfer is essential to reach high specific cooling powers enabling a future commercial success of the technology.