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Experimental investigation and annual performance mathematical-prediction on a novel LT-PV/T system using spiral-descent concentric copper tube heat exchanger as the condenser for large-scale application

Li, Zhaomeng; Ji, Jie; Li, Jing; Zhao, Xudong; Cui, Yu; Song, Zhiying; Wen, Xin; Yao, Ting Ting

Authors

Zhaomeng Li

Jie Ji

Yu Cui

Zhiying Song

Xin Wen

Ting Ting Yao



Abstract

The condensers of loop thermosyphon PV/T systems (LT-PV/T) are usually integrated inside water tanks, which may bring some challenges during combination use. This research innovatively proposed a concentric copper tube heat exchanger as the condenser, which is combined with a copper tube evaporator beneath the absorber. The gaseous working fluid flows in the inner tube and the cooling water flows in the outer tube. Since ordinary water pipes are used for water circulating between the outer tube and water tank, this LT-PV/T collector can be used individually or combined with other collectors flexibly. To access its' performance, researches have been conducted: (1) Designing and fabricating the system prototypes; (2) Investigating system performance with different volume-filling ratios (26.5%, 34.8%, 43.2%); (3) Investigating the influences of working fluid (water, ethanol and R134A). (4) Evaluating the systems’ performance with energy efficiency, exergy efficiency, and semi-empirical system efficiency models; (5) Conducting two case studies in South China (an individual collector & a 4 parallelly/serially-combined LT-PV/T collectors system). The system is first-of-its-kind and has obvious advantages in reliability, flexibility, space-saving and large-scale applications. The typical primary energy-saving efficiency of the LT-PV/T with R134a of 40% filling ratio can reach 78.0%, higher than the published LT-PV/T systems.

Citation

Li, Z., Ji, J., Li, J., Zhao, X., Cui, Y., Song, Z., …Yao, T. T. (2022). Experimental investigation and annual performance mathematical-prediction on a novel LT-PV/T system using spiral-descent concentric copper tube heat exchanger as the condenser for large-scale application. Renewable energy, 187, 257-270. https://doi.org/10.1016/j.renene.2022.01.079

Journal Article Type Article
Acceptance Date Jan 19, 2022
Online Publication Date Jan 22, 2022
Publication Date 2022-03
Deposit Date Mar 24, 2022
Publicly Available Date Jan 23, 2023
Journal Renewable Energy
Print ISSN 0960-1481
Electronic ISSN 1879-0682
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 187
Pages 257-270
DOI https://doi.org/10.1016/j.renene.2022.01.079
Keywords Loop thermosyphon; Photovoltaic/thermal technology; Concentric copper tube heat exchanger; Working fluid; Volume-filling ratio
Public URL https://hull-repository.worktribe.com/output/3925089

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