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Simulation of a thermoelectric power generation system with multiple heat storage for lunar habitat

Authors
Kim, SeheonLim, HansolKim, Beom-JunKim, TaeyeonPark, Sang-HwanJeong, Jae-Weon
Issue Date
Nov-2025
Publisher
Pergamon Press Ltd.
Keywords
Heat storage; Lunar habitat; Lunar mission; Simulation; Thermoelectric generator
Citation
Acta Astronautica, v.236, pp 616 - 626
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
Acta Astronautica
Volume
236
Start Page
616
End Page
626
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210097
DOI
10.1016/j.actaastro.2025.07.034
ISSN
0094-5765
1879-2030
Abstract
The global demand for space research has surged, driven by advancements in technology and the pursuit of extraterrestrial resource utilization. As the development of lunar resources and infrastructure necessitates a sustained human presence, establishing a lunar habitat is imperative for the long-term advancement of space exploration. To ensure continuous power supply to such a habitat, thermoelectric generators (TEGs), which directly transform heat flux into electrical energy, can be utilized, leveraging the extreme temperature gradient on the lunar surface, which ranges from 90 to 390 K. However, although some studies suggest that the transient-state operation may enhance the TEG efficiency, its feasibility under lunar conditions remains unexplored. Therefore, as switching heat storage (HS) induces the transient state by altering the temperature of the working fluid and HS is generally necessary due to the Moon's prolonged nights, this study aims to assess the suitability of a multiple-HS system to generate a thermally transient state in the TEG through HS switching. The results showed that the multiple-HS structure increased power generation by approximately 48.9 % under the lunar environment, pointing temperature altering can enhance the power generation of the TEG-based system on the moon. Additionally, the effects of switching timing of multiple-HS and size of HS were assessed, but its impact is relatively low, +0.3 % for switching timing and −0.5 % for size. The findings should contribute to lunar research, providing insights for the transient characteristics of TEGs.
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