Performance evaluation on a novel combined cool/heat and power (CCP/CHP) system integrating an SOFC-GT plant with a solar-assisted LiBr absorption cooling/heating unit

Motivated by the demand for a balanced electricity and heat/cool output, as well as by the recent increasing interest on the SOFC-GT based microgrid that incorporates renewable energies, this study aims at the presentation of an “all-round” CCP/CHP system based on the integration of a modified SOFC-...

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Bibliographic Details
Published in:Energy (Oxford) 2023-11, Vol.283, p.129102, Article 129102
Main Authors: Tan, Luzhi, Chen, Changnian, Gong, Zhiqiang, Xia, Lijiang
Format: Article
Language:English
Subjects:
Cooling
Gas turbine
Heating
Solar-assisted LiBr absorption cycle
Solid oxide fuel cell
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Summary:Motivated by the demand for a balanced electricity and heat/cool output, as well as by the recent increasing interest on the SOFC-GT based microgrid that incorporates renewable energies, this study aims at the presentation of an “all-round” CCP/CHP system based on the integration of a modified SOFC-GT plant with a novel solar-assisted LiBr absorption unit. The SOFC-GT plant, fuelled with the natural gas (NG), allows a relative independent operation of the GT from the SOFC, and can operate with a comprehensive variable-load strategy. The SOFC-GT plant exhaust and the solar hot water, the two different heat sources, attain a perfect thermal match in the proposed double-effect LiBr absorption cycle. Performance of the proposed system is investigated through building a complete system-level mode. Results of the performance investigation are presented in terms of baseline state data and operation efficiency maps which are accompanied by a well-informed discussion on related findings. The results also represent a satisfactory completion of the research objective. •A comprehensive variable-load operation SOFC-GT plant was proposed.•A novel solar-assisted LiBr absorption cycle was presented.•System performance was simulated through building a system-level model.•Baseline state data and operation efficiency maps of the system were presented.
ISSN:0360-5442
DOI:10.1016/j.energy.2023.129102