Optimal sizing of a hybrid PV-WT-battery storage system: Effects of split-ST and combined ST + ORC back-ups in circuit charging and load following
•Biomass fired ST back-up is proposed to augment the reliability of hybrid systems.•Optimal system is determined by implementing techno-enviro-economic optimisation.•Several test cases have been formulated and compared to diesel generator base case.•CO2 emissions and dumped power reduce by 33.70% an...
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| Published in: | Energy conversion and management Vol. 256; p. 115370 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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15-03-2022
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| Abstract | •Biomass fired ST back-up is proposed to augment the reliability of hybrid systems.•Optimal system is determined by implementing techno-enviro-economic optimisation.•Several test cases have been formulated and compared to diesel generator base case.•CO2 emissions and dumped power reduce by 33.70% and 2.91% with ST + ORC back-up in LF.•CO2 emissions and dumped power fell by 24.5% and 5.1% with 4-split ST back-up in CC.•System performance strongly alters as local weather and size and cost of PV change.
This study explores the opportunities in deploying split Stirling and combined Stirling and organic Rankine cycle (ORC) in circuit charging and load following dispatch modes, respectively as the back-up of a hybrid renewable energy system. The optimal number of system components in each dispatch mode that simultaneously minimises the loss of power supply probability (LPSP), levelised cost of energy (LCOE) and dumped power have been found by implementing an evolutionary algorithm-based multi-objective optimisation approach. Then, a multi-criteria decision making tool is deployed to select the best configuration from the Pareto set. The optimal hybrid system configuration obtained have been compared to the traditional diesel generator back-up system base case, to demonstrate performance improvements with the deployment of the proposed back-ups. The results show deploying Stirling + ORC back-up in load following leads to 60.70% and 33.71% reductions in the LCOE and CO2 emissions, respectively compared to the base case but with slightly higher LPSP. While 61.4%, 33% and 24.47% reductions in the LCOE, CO2 emissions and LPSP have been observed with the deployment of split Stirling in circuit charging mode. Further results from the dynamic simulation highlight the energy cost, reliability, dumped power and battery performance of the optimal system respond to seasonal changes in the test location. Other observed results show the change in the market price and number of the photo-voltaic generator that generates 50% of the total power, strongly affect the performance of the optimal system. The proposed biomass powered Stirling based back-ups are promising alternatives to replace the traditional diesel generator back-ups in improving the green energy system’s reliability. |
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| AbstractList | This study explores the opportunities in deploying split Stirling and combined Stirling and organic Rankine cycle (ORC) in circuit charging and load following dispatch modes, respectively as the back-up of a hybrid renewable energy system. The optimal number of system components in each dispatch mode that simultaneously minimises the loss of power supply probability (LPSP), levelised cost of energy (LCOE) and dumped power have been found by implementing an evolutionary algorithm-based multi-objective optimisation approach. Then, a multi-criteria decision making tool is deployed to select the best configuration from the Pareto set. The optimal hybrid system configuration obtained have been compared to the traditional diesel generator back-up system base case, to demonstrate performance improvements with the deployment of the proposed back-ups. The results show deploying Stirling + ORC back-up in load following leads to 60.70% and 33.71% reductions in the LCOE and CO2 emissions, respectively compared to the base case but with slightly higher LPSP. While 61.4%, 33% and 24.47% reductions in the LCOE, CO2 emissions and LPSP have been observed with the deployment of split Stirling in circuit charging mode. Further results from the dynamic simulation highlight the energy cost, reliability, dumped power and battery performance of the optimal system respond to seasonal changes in the test location. Other observed results show the change in the market price and number of the photo-voltaic generator that generates 50% of the total power, strongly affect the performance of the optimal system. The proposed biomass powered Stirling based back-ups are promising alternatives to replace the traditional diesel generator back-ups in improving the green energy system's reliability. •Biomass fired ST back-up is proposed to augment the reliability of hybrid systems.•Optimal system is determined by implementing techno-enviro-economic optimisation.•Several test cases have been formulated and compared to diesel generator base case.•CO2 emissions and dumped power reduce by 33.70% and 2.91% with ST + ORC back-up in LF.•CO2 emissions and dumped power fell by 24.5% and 5.1% with 4-split ST back-up in CC.•System performance strongly alters as local weather and size and cost of PV change. This study explores the opportunities in deploying split Stirling and combined Stirling and organic Rankine cycle (ORC) in circuit charging and load following dispatch modes, respectively as the back-up of a hybrid renewable energy system. The optimal number of system components in each dispatch mode that simultaneously minimises the loss of power supply probability (LPSP), levelised cost of energy (LCOE) and dumped power have been found by implementing an evolutionary algorithm-based multi-objective optimisation approach. Then, a multi-criteria decision making tool is deployed to select the best configuration from the Pareto set. The optimal hybrid system configuration obtained have been compared to the traditional diesel generator back-up system base case, to demonstrate performance improvements with the deployment of the proposed back-ups. The results show deploying Stirling + ORC back-up in load following leads to 60.70% and 33.71% reductions in the LCOE and CO2 emissions, respectively compared to the base case but with slightly higher LPSP. While 61.4%, 33% and 24.47% reductions in the LCOE, CO2 emissions and LPSP have been observed with the deployment of split Stirling in circuit charging mode. Further results from the dynamic simulation highlight the energy cost, reliability, dumped power and battery performance of the optimal system respond to seasonal changes in the test location. Other observed results show the change in the market price and number of the photo-voltaic generator that generates 50% of the total power, strongly affect the performance of the optimal system. The proposed biomass powered Stirling based back-ups are promising alternatives to replace the traditional diesel generator back-ups in improving the green energy system’s reliability. |
| ArticleNumber | 115370 |
| Author | Ma, Lin Michailos, Stavros Hughes, Kevin J. Ingham, Derek Udeh, Godfrey T. Pourkashanian, Mohamed |
| Author_xml | – sequence: 1 givenname: Godfrey T. surname: Udeh fullname: Udeh, Godfrey T. organization: Department of Mechanical Engineering, Faculty of Engineering, University of Port Harcourt, Nigeria – sequence: 2 givenname: Stavros surname: Michailos fullname: Michailos, Stavros email: s.michailos@sheffield.ac.uk organization: Energy 2050, Department of Mechanical Engineering, University of Sheffield, Sheffield S3 7RD, United Kingdom – sequence: 3 givenname: Derek surname: Ingham fullname: Ingham, Derek organization: Energy 2050, Department of Mechanical Engineering, University of Sheffield, Sheffield S3 7RD, United Kingdom – sequence: 4 givenname: Kevin J. surname: Hughes fullname: Hughes, Kevin J. organization: Energy 2050, Department of Mechanical Engineering, University of Sheffield, Sheffield S3 7RD, United Kingdom – sequence: 5 givenname: Lin surname: Ma fullname: Ma, Lin organization: Energy 2050, Department of Mechanical Engineering, University of Sheffield, Sheffield S3 7RD, United Kingdom – sequence: 6 givenname: Mohamed surname: Pourkashanian fullname: Pourkashanian, Mohamed organization: Energy 2050, Department of Mechanical Engineering, University of Sheffield, Sheffield S3 7RD, United Kingdom |
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| CitedBy_id | crossref_primary_10_3390_wevj14060155 crossref_primary_10_1016_j_seta_2023_103485 crossref_primary_10_1016_j_rser_2023_113476 |
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| Keywords | Combined power Split ST back-up Dispatch strategy TOPSIS Techno-enviro-economic Multi-objective optimisation |
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Renew Energy doi: 10.1016/j.renene.2016.03.065 contributor: fullname: Dufo-López – volume: 13 start-page: 3098 issue: 6 year: 2021 ident: 10.1016/j.enconman.2022.115370_b0050 article-title: Research on multi-objective optimization model for hybrid energy system considering combination of wind power and energy storage publication-title: Sustain doi: 10.3390/su13063098 contributor: fullname: Wu – ident: 10.1016/j.enconman.2022.115370_b0185 – ident: 10.1016/j.enconman.2022.115370_b0210 – ident: 10.1016/j.enconman.2022.115370_b0110 doi: 10.3390/su9081314 |
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| Snippet | •Biomass fired ST back-up is proposed to augment the reliability of hybrid systems.•Optimal system is determined by implementing techno-enviro-economic... This study explores the opportunities in deploying split Stirling and combined Stirling and organic Rankine cycle (ORC) in circuit charging and load following... |
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| SubjectTerms | Batteries Carbon dioxide Carbon dioxide emissions Charging Circuits Clean energy Combined power Configurations Decision making Diesel generators Dispatch strategy Emissions Energy Energy costs Energy storage Evolutionary algorithms Heat recovery Hybrid systems Multi-objective optimisation Multiple criterion Multiple objective analysis Organic loading Pareto optimization Photovoltaic cells Rankine cycle Renewable energy Seasonal variations Split ST back-up Techno-enviro-economic TOPSIS |
| Title | Optimal sizing of a hybrid PV-WT-battery storage system: Effects of split-ST and combined ST + ORC back-ups in circuit charging and load following |
| URI | https://dx.doi.org/10.1016/j.enconman.2022.115370 https://www.proquest.com/docview/2647396592 |
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