Performance Study on an Electrocaloric Heat Pump Based on Ga-Based Liquid Metal

Panpan Song*, Yawei Zhu, Zhongyan An, Mingshan Wei, Xiaoxia Sun, Yangjun Zhang

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

A solid-state heat pump using the electrocaloric effect (ECE) provides a new idea for the future development of heat pumps. However, most of the electrocaloric (EC) heat pumps presented in the literature are low in efficiency and use at least one moving part, which significantly reduces the reliability of the heat pump and adds to its complexities. In this context, combining the positive and negative ECEs, we proposed a plate-laminar non-mobile EC heat pump adopting Gallium-based liquid metal as an intermediate medium to guarantee highly efficient heat transfer. Numerical simulation in COMSOL Multiphysics has been performed to investigate the correlation between different operating parameters and the performance of the EC heat pump. Changing the temperature span only, a COP of 8.13 and a UVHP of 746.1 (Formula presented.) were obtained at a temperature span of 7 K. It was also found that the UVHP increased by 28.45% and COP increased by 25.46% after adding one layer of EC material. The electric-induced quantity of heat and cooling capacity was found to significantly affect the heating performance. The biggest heating power of 7132.7 (Formula presented.) was obtained under 200 (Formula presented.), and the biggest COP of 14.84 was obtained under 150 (Formula presented.) at a cyclic period of 8 s. This study provides a highly efficient, non-mobile EC heat pump that employs fluid-thermal conjugated heat transfer, and exploration of the parameters makes the optimization of the heat pump possible by fine-tuning the operation parameters.

Original languageEnglish
Article number3104
JournalEnergies
Volume16
Issue number7
DOIs
Publication statusPublished - Apr 2023

Keywords

  • COMSOL Multiphysics
  • electrocaloric heat pump
  • heat pump performance
  • liquid metal
  • temperature span

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