Economic-environmental analysis of solar-wind-biomass hybrid renewable energy system for hydrogen production: A case study in Vietnam DOI Creative Commons
Nguyễn Hữu Hiếu, Bùi Văn Ga, Komarova Le

et al.

International Journal of Renewable Energy Development, Journal Year: 2025, Volume and Issue: 14(3), P. 528 - 543

Published: April 6, 2025

Combining biomass with solar and wind energy to produce electricity hydrogen, referred as the Solar-Wind-Biomass Hybrid Renewable Energy System (SWB-HRES), provides optimal economic environmental efficiency. This paper presents research findings from a case study of SWB-HRES implemented in Hoa Bac commune, Danang City, Vietnam, utilizing HOMER software for system modeling optimization. The aims identify configuration hydrogen production assess its compatibility grid-connected without production. A detailed analysis greenhouse gas (GHG) emission reductions corresponding different configurations is also provided. results indicate that includes 15-kW panel, 9-kW turbine, an 8.3 kW syngas generator, 20-kW electrolyzer, 24-kW converter, storage tank capacity 1 kg. setup supports annual load 7,300 kWh produces 1,183 kilograms per year. For HRES production, solar-biomass demonstrates superior efficiency compared wind-biomass configuration. matches selling grid when cost $4.5/kg discontinuous generator operation $5/kg continuous operation. Furthermore, integrating into proves be effective strategy GHG reduction. same output 62,863 kWh/year, solar-wind achieves reduction 33 tons CO2-eq, while solar-wind-biomass 217 CO2-eq. Given performance depends on geographic location, equipment availability, pricing, practical implementations should validate simulation experimental data collected on-site.

Language: Английский

Economic-environmental analysis of solar-wind-biomass hybrid renewable energy system for hydrogen production: A case study in Vietnam DOI Creative Commons
Nguyễn Hữu Hiếu, Bùi Văn Ga, Komarova Le

et al.

International Journal of Renewable Energy Development, Journal Year: 2025, Volume and Issue: 14(3), P. 528 - 543

Published: April 6, 2025

Combining biomass with solar and wind energy to produce electricity hydrogen, referred as the Solar-Wind-Biomass Hybrid Renewable Energy System (SWB-HRES), provides optimal economic environmental efficiency. This paper presents research findings from a case study of SWB-HRES implemented in Hoa Bac commune, Danang City, Vietnam, utilizing HOMER software for system modeling optimization. The aims identify configuration hydrogen production assess its compatibility grid-connected without production. A detailed analysis greenhouse gas (GHG) emission reductions corresponding different configurations is also provided. results indicate that includes 15-kW panel, 9-kW turbine, an 8.3 kW syngas generator, 20-kW electrolyzer, 24-kW converter, storage tank capacity 1 kg. setup supports annual load 7,300 kWh produces 1,183 kilograms per year. For HRES production, solar-biomass demonstrates superior efficiency compared wind-biomass configuration. matches selling grid when cost $4.5/kg discontinuous generator operation $5/kg continuous operation. Furthermore, integrating into proves be effective strategy GHG reduction. same output 62,863 kWh/year, solar-wind achieves reduction 33 tons CO2-eq, while solar-wind-biomass 217 CO2-eq. Given performance depends on geographic location, equipment availability, pricing, practical implementations should validate simulation experimental data collected on-site.

Language: Английский

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