Thermal Properties of Cu–Al–Ge Alloy PCM for Improving Thermal Energy Storage of Current CSP

Nobuyuki Gokon; Taisei Yuzawa; Takumi Kamada; Yuma Ikeuchi; Tsuyoshi Hatamachi

doi:10.52825/solarpaces.v2i.799

SolarPACES Conference Proceedings (Sep 2024)

Thermal Properties of Cu–Al–Ge Alloy PCM for Improving Thermal Energy Storage of Current CSP

Nobuyuki Gokon,
Taisei Yuzawa,
Takumi Kamada,
Yuma Ikeuchi,
Tsuyoshi Hatamachi

Affiliations

Nobuyuki Gokon: ORCiD; Niigata University
Taisei Yuzawa: Niigata University
Takumi Kamada: Niigata University
Yuma Ikeuchi: Niigata University
Tsuyoshi Hatamachi: Niigata University

DOI: https://doi.org/10.52825/solarpaces.v2i.799
Journal volume & issue: Vol. 2

Abstract

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Metallic phase change material was proposed and examined at melting/eutectic temperatures less than 600 °C for latent heat storage in concentrated solar power. The PCM alloy can potentially charge/discharge thermal energy as a sensible/latent heat at the temperature range of 414-527 °C. The working temperatures of PCM alloy are in operation temperatures of current molten-salt based CSP plant. In this study, thermal response testing of PCM alloy and sensible/latent storage unit that PCM alloy was loaded in a ceramic honeycomb were prepared in a laboratory scale. The thermal charging/discharging performance of PCM alloy and sensible/latent storage unit were experimentally examined and compared. The storage unit provided thermal release/absorption behaviour at close to temperatures of the thermodynamic equilibrium state.

Published in SolarPACES Conference Proceedings

ISSN: 2751-9899 (Online)
Publisher: TIB Open Publishing
Country of publisher: Germany
LCC subjects: Science: Physics
Website: https://www.tib-op.org/ojs/index.php/solarpaces/index

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