Chemical compatibility of Cu-Ge alloy with container materials for latent heat storage system

Chemical compatibility of Cu-Ge alloy with container materials for latent heat storage system

Latent heat storage technology in CSP plant has been studied to enhance the dispatchability of solar energy in order to meet fluctuating electricity needs. A novel concept using metal alloys as latent heat storage material gives way to achieve this technology. In this paper, we analyzed the structur...

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Hauptverfasser: Gokon, Nobuyuki, Jie, Chew Shun, Bellan, Selvan, Kodama, Tatsuya, Hatamachi, Tsuyoshi, Cho, Hyunseok
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Alloys
Aluminum oxide
Chemical compatibility
Containers
Containment
Copper
Copper base alloys
Energy storage
Germanium
Heat storage
High temperature
Inert atmospheres
Latent heat
Materials selection
Silicon carbide
Solar energy
Stainless steels
Thermal energy
Thermodynamic properties
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Zusammenfassung:Latent heat storage technology in CSP plant has been studied to enhance the dispatchability of solar energy in order to meet fluctuating electricity needs. A novel concept using metal alloys as latent heat storage material gives way to achieve this technology. In this paper, we analyzed the structural and thermal properties of Cu-Ge alloy to evaluate the potential of metallic PCM for high temperature TES application. Containment options for metallic PCM were explored and the materials are selected for long term operation. Compatibility tests of stainless steel, alumina and SiC ceramics under inert atmosphere were performed at high temperatures (800°C) for a duration of 1 month (720 h) in order to develop a suitable container material for thermal energy storage system.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0028722