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Analysis of low temperature solar thermal electric generation using regenerative Organic Rankine Cycle

Pei, Gang; Li, Jing; Ji, Jie

Authors

Gang Pei

Jie Ji



Abstract

The innovative configuration of low temperature solar thermal electric generation with regenerative Organic Rankine Cycle (ORC) is designed, mainly consisting of small concentration ratio compound parabolic concentrators (CPC) and the regenerative ORC. Advantages of the innovative configuration such as effectively reducing heat transfer irreversibility and permitting the use of thermal storage with phase change materials (PCMs) are outlined. The numerical simulation of the heat transfer and power conversion processes are carried out based on distributed parameters. The effects of regenerative cycle on the collector, ORC, and overall electricity efficiency are then analyzed. The results indicate that the regenerative cycle has positive effects on the ORC efficiency but negative ones on the collector efficiency due to increment of the average working temperature of the first-stage collectors. Thus, it is necessary to evaluate the overall electricity efficiency when regenerative cycle is adopted. Further investigation shows that there are maximum efficiencies for both the ORC and the system electric generation on conditions of constant irradiance, evaporation temperature, and environment temperature. And the regenerative temperature at which the system electricity efficiency reaches its maximum is smaller than that at which the ORC efficiency reaches its maximum by 12-21 °C. Thus, the regenerative cycle optimization of the solar thermal electric generation differs from that of a solo ORC. The system electricity efficiency with regenerative ORC is about 8.6% for irradiance 750 W/m2 and is relatively higher than that without the regenerative cycle by 4.9%. © 2010 Elsevier Ltd. All rights reserved.

Citation

Pei, G., Li, J., & Ji, J. (2010). Analysis of low temperature solar thermal electric generation using regenerative Organic Rankine Cycle. Applied thermal engineering, 30(8-9), 998-1004. https://doi.org/10.1016/j.applthermaleng.2010.01.011

Journal Article Type Article
Acceptance Date Jan 10, 2010
Online Publication Date Jan 15, 2010
Publication Date Jun 1, 2010
Deposit Date Mar 24, 2022
Journal Applied Thermal Engineering
Print ISSN 1359-4311
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 30
Issue 8-9
Pages 998-1004
DOI https://doi.org/10.1016/j.applthermaleng.2010.01.011
Public URL https://hull-repository.worktribe.com/output/3647618