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Experimental investigation of a novel vertical loop-heat-pipe PV/T heat and power system under different height differences

Yu, Min; Chen, Fucheng; Zhou, Jinzhi; Yuan, Yanping; Fan, Yi; Li, Guiqiang; Zhao, Xudong; Wang, Zhangyuan; Li, Jing; Zheng, Siming

Authors

Min Yu

Fucheng Chen

Jinzhi Zhou

Yanping Yuan

Yi Fan

Guiqiang Li

Zhangyuan Wang

Siming Zheng



Abstract

For a novel vertical solar loop-heat-pipe photovoltaic/thermal system, the height difference between evaporator and condenser plays an important role in the heat transport capacity, which has significant impact on the solar thermal efficiency and parametrical optimization of this system. Therefore, based on the results derived from the authors’ previous analytical investigation and computer modelling studies, a prototype of this novel system was designed, constructed, and an experimental investigation under different height difference was undertaken to study the impact of height difference on the system performance. It was found that the relationship between the solar thermal efficiency of this vertical system and the height difference is nonlinear. In present study, the optimal height difference is around 1.1 m, which was selected as an optimal value for the following experimental investigations, and below 1.1 m, the PV module surface temperature decreased with the increase of the height difference. Furthermore, the transient solar thermal and electrical performance of this system with the selected optimal height difference were investigated under outdoor real weather condition. These results of this experimentation can help optimize the system construction and thus help to develop the high thermal performance and low-cost solar PV/T system for space heating and power generation.

Citation

Yu, M., Chen, F., Zhou, J., Yuan, Y., Fan, Y., Li, G., Zhao, X., Wang, Z., Li, J., & Zheng, S. (2022). Experimental investigation of a novel vertical loop-heat-pipe PV/T heat and power system under different height differences. Energy, 254, Part A, Article 124193. https://doi.org/10.1016/j.energy.2022.124193

Journal Article Type Article
Acceptance Date May 3, 2022
Online Publication Date May 10, 2022
Publication Date Sep 1, 2022
Deposit Date Nov 11, 2022
Publicly Available Date Sep 27, 2023
Journal Energy
Print ISSN 0360-5442
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 254, Part A
Article Number 124193
DOI https://doi.org/10.1016/j.energy.2022.124193
Public URL https://hull-repository.worktribe.com/output/4006800

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