Energy, economic and environmental analysis of a photovoltaic-thermal integrated dual-source heat pump system under a system coefficient of performance − based switching strategy

•System coefficient of performance (COPsys) − based switching strategy is proposed.•Energy, economic and environmental (3E) analysis method is used.•The performance under COPsys-based strategy is better than under conventional one.•Average COP* under COPsys-based strategy is improved by 13.36%. The...

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Published inEnergy and buildings Vol. 323; p. 114759
Main Authors Sang, Xuejing, Qu, Minglu, Yan, Nannan, Li, Zhao, Liu, Hongzhi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.11.2024
Subjects
Economic analysis
Energy analysis
Environmental analysis
Heat pump
Photovoltaic-thermal
Switching strategy
Switching strategy
Energy analysis
Economic analysis
Photovoltaic-thermal
Environmental analysis
Heat pump
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Abstract •System coefficient of performance (COPsys) − based switching strategy is proposed.•Energy, economic and environmental (3E) analysis method is used.•The performance under COPsys-based strategy is better than under conventional one.•Average COP* under COPsys-based strategy is improved by 13.36%. The photovoltaic-thermal integrated dual-source heat pump system can offer performance improvement by addressing the limitations of a single heat pump system, which not only improves energy efficiency and system performance but also reduces pollutant emissions. However, the operational performance of the system is significantly affected by different switching strategies between two heat sources, which has not been given adequate attention from researchers. Therefore, this study introduced a system coefficient of performance − based switching strategy, which can alternate between air-source heat pump and solar water heat pump modes to make full use of air and solar energy, to optimize the operation of the photovoltaic-thermal integrated dual-source heat pump system and compare with the conventional water temperature of the heat storage tank − based switching strategy. A TRNSYS model of the system was developed and validated, and the simulated results demonstrated the better performance of system coefficient of performance − based switching strategy in energy, economic and environmental perspectives. The average photoelectric and photothermal conversion efficiency under system coefficient of performance − based switching strategy were higher than those under water temperature of the heat storage tank − based switching strategy by 1.1 % and 4.0 %, respectively, with average modified coefficient of performance of 7.43 and 6.55. Furthermore, the system not only achieved savings of 5.63 % in annual electrical cost and 5.33 % in yearly operational cost but also reduced standard coal by 19.25 kg and total pollutant emissions by 242.55 kg per year under system coefficient of performance − based switching strategy, compared to water temperature of the heat storage tank − based switching strategy.
AbstractList •System coefficient of performance (COPsys) − based switching strategy is proposed.•Energy, economic and environmental (3E) analysis method is used.•The performance under COPsys-based strategy is better than under conventional one.•Average COP* under COPsys-based strategy is improved by 13.36%. The photovoltaic-thermal integrated dual-source heat pump system can offer performance improvement by addressing the limitations of a single heat pump system, which not only improves energy efficiency and system performance but also reduces pollutant emissions. However, the operational performance of the system is significantly affected by different switching strategies between two heat sources, which has not been given adequate attention from researchers. Therefore, this study introduced a system coefficient of performance − based switching strategy, which can alternate between air-source heat pump and solar water heat pump modes to make full use of air and solar energy, to optimize the operation of the photovoltaic-thermal integrated dual-source heat pump system and compare with the conventional water temperature of the heat storage tank − based switching strategy. A TRNSYS model of the system was developed and validated, and the simulated results demonstrated the better performance of system coefficient of performance − based switching strategy in energy, economic and environmental perspectives. The average photoelectric and photothermal conversion efficiency under system coefficient of performance − based switching strategy were higher than those under water temperature of the heat storage tank − based switching strategy by 1.1 % and 4.0 %, respectively, with average modified coefficient of performance of 7.43 and 6.55. Furthermore, the system not only achieved savings of 5.63 % in annual electrical cost and 5.33 % in yearly operational cost but also reduced standard coal by 19.25 kg and total pollutant emissions by 242.55 kg per year under system coefficient of performance − based switching strategy, compared to water temperature of the heat storage tank − based switching strategy.
ArticleNumber 114759
Author Qu, Minglu
Liu, Hongzhi
Sang, Xuejing
Yan, Nannan
Li, Zhao
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Keywords Switching strategy
Energy analysis
Economic analysis
Photovoltaic-thermal
Environmental analysis
Heat pump
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Snippet •System coefficient of performance (COPsys) − based switching strategy is proposed.•Energy, economic and environmental (3E) analysis method is used.•The...
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StartPage 114759
SubjectTerms Economic analysis
Energy analysis
Environmental analysis
Heat pump
Photovoltaic-thermal
Switching strategy
Title Energy, economic and environmental analysis of a photovoltaic-thermal integrated dual-source heat pump system under a system coefficient of performance − based switching strategy
URI https://dx.doi.org/10.1016/j.enbuild.2024.114759
Volume 323
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