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Investigation on part-load performances of combined cooling and power system primed by solid oxide fuel cell with different bottoming cycles

Luo, X. J.; Fong, K. F.

Authors

Xiaojun Luo Xiaojun.Luo@uwe.ac.uk
Senior Lecturer in Financial Technology

K. F. Fong



Abstract

© 2019 Elsevier B.V. In hot-humid cities, conventional trigeneration can be reduced to combined cooling and power system. Solid oxide fuel cell is a high-temperature prime mover with high electrical efficiency, its efficiency may be further boosted up with bottoming cycle like gas turbine, Stirling engine and organic Rankine cycle. Besides using waste heat recovered from the prime mover to energize absorption chiller, the surplus electricity can be used to drive the conventional compression chiller as supplement. However, there is little knowledge about the effectiveness of such combined cooling and power system under different operating conditions. System models with various bottoming cycles are therefore developed, and their part-load performances are investigated. The effects of fuel inlet temperature and current density of fuel cell stack; compression ratio of gas turbine; Stirling engine type; working fluid of organic Rankine cycle; and fuel cell stack part-load ratio are explored. It is found that the combined cooling and power system with bottoming cycles of gas turbine and Stirling engine have higher boost of electrical efficiency. Gas turbine bottoming cycle is recommended when building energy demands are relatively constant, while Stirling engine bottoming cycle is suggested for variable energy demands.

Journal Article Type Article
Acceptance Date Apr 22, 2019
Online Publication Date May 6, 2019
Publication Date Jul 31, 2019
Deposit Date May 31, 2019
Publicly Available Date May 7, 2020
Journal Journal of Power Sources
Print ISSN 0378-7753
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 429
Pages 127-148
DOI https://doi.org/10.1016/j.jpowsour.2019.04.095
Public URL https://uwe-repository.worktribe.com/output/847292
Publisher URL http://doi.org/10.1016/j.jpowsour.2019.04.095
Additional Information Additional Information : This is the author's accepted manuscript. The final published version is available here: http://doi.org/10.1016/j.jpowsour.2019.04.095.
Contract Date May 31, 2019

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