Email this article Influence of void ratio on phase change of thermal energy storage for heat pipe receiver
- Authors: Gui X.1, Li T.1, Yuan D.1, Liang S.1, Tang D.1, Ling B.2
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Affiliations:
- Institute of Engineering Thermophysics
- University of Notre Dame
- Issue: Vol 25, No 2 (2016)
- Pages: 275-287
- Section: Article
- URL: https://journals.rcsi.science/1810-2328/article/view/211062
- DOI: https://doi.org/10.1134/S1810232816020120
- ID: 211062
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Abstract
In this paper, influence of void ratio on phase change of thermal storage unit for heat pipe receiver under microgravity is numerically simulated. Accordingly, mathematical model is set up. Numerical method is offered. The liquid fraction distribution of thermal storage unit of heat pipe receiver is shown. Numerical results are compared with experimental ones in Japan. Numerical results show that void cavity prevents the process of phase change greatly. PCMmelts slowly during sunlight periods and freezes slowly during eclipse periods as the void ratio increases. The utility ratio of PCM during both sunlight periods and eclipse periods decreases obviously as the void ratio increases. The thermal resistance of void cavity is much higher than that of PCMcanister wall. Void cavity prevents the heat transfer between PCM zone and canister wall.
About the authors
X. Gui
Institute of Engineering Thermophysics
Author for correspondence.
Email: guixiaohong@iet.cn
China, Beijing, 100190
T. Li
Institute of Engineering Thermophysics
Email: guixiaohong@iet.cn
China, Beijing, 100190
D. Yuan
Institute of Engineering Thermophysics
Email: guixiaohong@iet.cn
China, Beijing, 100190
Sh. Liang
Institute of Engineering Thermophysics
Email: guixiaohong@iet.cn
China, Beijing, 100190
D. Tang
Institute of Engineering Thermophysics
Email: guixiaohong@iet.cn
China, Beijing, 100190
B. Ling
University of Notre Dame
Email: guixiaohong@iet.cn
United States, Notre Dame, IN, 46556
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