Optimizing a hybrid wind-solar-biomass system with battery and hydrogen storage using generic algorithm-particle swarm optimization for performance assessment

•A hybrid GAPSO algorithm is implemented to optimize HRES.•Technical, economic, environmental, and social performance indicators are considered.•Optimized GAPSO's performance is compared with GA and PSO.•GAPSO achieved a 2.17 % and 0.01 % improvement in cost-effectiveness over GA and PSO.•GAPSO...

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Published inCleaner Energy Systems Vol. 9; p. 100157
Main Authors Bade, Shree Om, Tomomewo, Olusegun Stanley
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2024
Subjects
Environmental assessment
Generic algorithm-particle swarm optimization
Hybrid renewable energy system
Metaheuristic algorithm
Optimal sizing
Social assessment
Techno-economic assessment
Environmental assessment
Social assessment
Techno-economic assessment
Optimal sizing
Metaheuristic algorithm
Generic algorithm-particle swarm optimization
Hybrid renewable energy system
Online AccessGet full text
ISSN2772-7831
2772-7831
DOI10.1016/j.cles.2024.100157

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Abstract •A hybrid GAPSO algorithm is implemented to optimize HRES.•Technical, economic, environmental, and social performance indicators are considered.•Optimized GAPSO's performance is compared with GA and PSO.•GAPSO achieved a 2.17 % and 0.01 % improvement in cost-effectiveness over GA and PSO.•GAPSO increased its reliability by 11.11 %. This paper investigates the optimal design of a hybrid renewable energy system, integrating wind turbines, solar photovoltaic systems, biomass, and battery and hydrogen storage to ensure a reliable energy supply at the lowest annual cost for a residential load in Kern County, USA. The hybrid generic algorithm particle swarm optimization (GAPSO) algorithm was adopted to determine the optimal configuration of parameters and cost-effectiveness, considering technical, economic, environmental, and social performance indicators. The generic algorithm (GA) and particle swarm optimization (PSO) validate the effectiveness of the proposed technique, showcasing its efficiency in system optimization. The findings indicate that GAPSO outperforms GA and PSO due to its rapid convergence, lowest final fitness value, and stable optimization process. The hybrid GAPSO's performance, combined with the different capacities of wind turbines (4,561 kW), solar PV (8,480 kW), biomass (2,261 kW), battery banks (8,000 kWh), and fuel cells (2,392 kW), resulted in an annual cost of $6,239,193; energy cost and net present value of $0.48/kWh and $101,333,937. The system maintained a supply loss of 0.8 %, achieved an availability index of 99.2 %, a renewable energy fraction of 88.87 %, GHGs emission of 953,615 kg, land use of 3,842,875 m2, and water consumption 528,678 L respectively. GAPSO achieved a 2.17 % and 0.01 % improvement in cost-effectiveness and 11.11 % increase in reliability compared to GA and PSO. [Display omitted]
AbstractList •A hybrid GAPSO algorithm is implemented to optimize HRES.•Technical, economic, environmental, and social performance indicators are considered.•Optimized GAPSO's performance is compared with GA and PSO.•GAPSO achieved a 2.17 % and 0.01 % improvement in cost-effectiveness over GA and PSO.•GAPSO increased its reliability by 11.11 %. This paper investigates the optimal design of a hybrid renewable energy system, integrating wind turbines, solar photovoltaic systems, biomass, and battery and hydrogen storage to ensure a reliable energy supply at the lowest annual cost for a residential load in Kern County, USA. The hybrid generic algorithm particle swarm optimization (GAPSO) algorithm was adopted to determine the optimal configuration of parameters and cost-effectiveness, considering technical, economic, environmental, and social performance indicators. The generic algorithm (GA) and particle swarm optimization (PSO) validate the effectiveness of the proposed technique, showcasing its efficiency in system optimization. The findings indicate that GAPSO outperforms GA and PSO due to its rapid convergence, lowest final fitness value, and stable optimization process. The hybrid GAPSO's performance, combined with the different capacities of wind turbines (4,561 kW), solar PV (8,480 kW), biomass (2,261 kW), battery banks (8,000 kWh), and fuel cells (2,392 kW), resulted in an annual cost of $6,239,193; energy cost and net present value of $0.48/kWh and $101,333,937. The system maintained a supply loss of 0.8 %, achieved an availability index of 99.2 %, a renewable energy fraction of 88.87 %, GHGs emission of 953,615 kg, land use of 3,842,875 m2, and water consumption 528,678 L respectively. GAPSO achieved a 2.17 % and 0.01 % improvement in cost-effectiveness and 11.11 % increase in reliability compared to GA and PSO. [Display omitted]
ArticleNumber 100157
Author Bade, Shree Om
Tomomewo, Olusegun Stanley
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Keywords Environmental assessment
Social assessment
Techno-economic assessment
Optimal sizing
Metaheuristic algorithm
Generic algorithm-particle swarm optimization
Hybrid renewable energy system
Language English
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SubjectTerms Environmental assessment
Generic algorithm-particle swarm optimization
Hybrid renewable energy system
Metaheuristic algorithm
Optimal sizing
Social assessment
Techno-economic assessment
Title Optimizing a hybrid wind-solar-biomass system with battery and hydrogen storage using generic algorithm-particle swarm optimization for performance assessment
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