Sustainable development and optimization of a geothermal–biomass hybrid energy system for green hydrogen production

[Display omitted] •Development of a hybrid energy system for green hydrogen production utilizing geothermal energy and municipal solid waste.•Energy, exergy, sustainability, environmental, and thermo-economic analyses are performed.•Green hydrogen is the primary product, alongside oxygen, electrical...

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Published inEnergy conversion and management. X Vol. 27; p. 101106
Main Authors Afshardoost, Amir, Shamsi, Mohammad
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2025
Elsevier
Subjects
Carbon-neutral hydrogen
Geothermal
Power-to-hydrogen
Thermo-economic optimization
Waste-to-energy
Power-to-hydrogen
Waste-to-energy
Geothermal
Thermo-economic optimization
Carbon-neutral hydrogen
Online AccessGet full text
ISSN2590-1745
2590-1745
DOI10.1016/j.ecmx.2025.101106

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Abstract [Display omitted] •Development of a hybrid energy system for green hydrogen production utilizing geothermal energy and municipal solid waste.•Energy, exergy, sustainability, environmental, and thermo-economic analyses are performed.•Green hydrogen is the primary product, alongside oxygen, electrical power, hot water, and MP steam.•A multi-objective optimization and comprehensive parametric study are conducted.•The hydrogen production rate, sustainability index, and TUCP are 230 kg/h, 2.89, and 3.70 $/GJ, respectively. Fossil fuels remain the primary contributors to greenhouse gas emissions, particularly carbon dioxide. Transitioning toward renewable energy sources and adopting clean fuels, such as hydrogen, constitute effective strategies for mitigating CO2 emissions and decreasing global dependence on fossil-based energy systems. In this study, a carbon–neutral hybrid energy system was designed and developed to produce electricity, medium-pressure steam, hot water, and green hydrogen. The designed system utilizes municipal solid waste and geothermal energy as primary energy sources, offering an innovative solution for sustainable energy production. The proposed configuration integrates four principal subsystems: biomass steam gasification, a water electrolysis, a desalination unit, and a combined flash-binary geothermal system coupled with a cascaded organic Rankine cycle. A comprehensive evaluation was carried out, including thermodynamic analysis, sustainability assessment, environmental impact evaluation, and thermo-economic analysis. Furthermore, a detailed parametric study was conducted to assess the effects of key independent operating variables on the overall system performance. Subsequently, a multi-objective optimization was performed using the weighted sum method, aiming to minimize the TUCP and maximize the hydrogen production rate. The optimized system yielded useful outputs, including 230 kg/h of hydrogen, 31,217 kW of net electrical power, 18,488 kg/h of hot water, 1,981 kg/h of MP steam, and oxygen of 1054 kg/h. Thermodynamic analysis revealed an energetic efficiency of 78.57 % and an exergetic efficiency of 65.4 %, accompanied by a sustainability index of 2.89 and a TUCP of $3.70/GJ. The environmental assessment of the developed near-zero-carbon emission process highlighted substantial benefits, including an annual petroleum savings of 66,428 L/year and a reduction in annual CO2 emissions by 223,260 kg/year. Consequently, this study demonstrates an efficient, sustainable, and environmentally friendly process that effectively addresses energy and environmental challenges while outperforming comparable systems.
AbstractList Fossil fuels remain the primary contributors to greenhouse gas emissions, particularly carbon dioxide. Transitioning toward renewable energy sources and adopting clean fuels, such as hydrogen, constitute effective strategies for mitigating CO2 emissions and decreasing global dependence on fossil-based energy systems. In this study, a carbon–neutral hybrid energy system was designed and developed to produce electricity, medium-pressure steam, hot water, and green hydrogen. The designed system utilizes municipal solid waste and geothermal energy as primary energy sources, offering an innovative solution for sustainable energy production. The proposed configuration integrates four principal subsystems: biomass steam gasification, a water electrolysis, a desalination unit, and a combined flash-binary geothermal system coupled with a cascaded organic Rankine cycle. A comprehensive evaluation was carried out, including thermodynamic analysis, sustainability assessment, environmental impact evaluation, and thermo-economic analysis. Furthermore, a detailed parametric study was conducted to assess the effects of key independent operating variables on the overall system performance. Subsequently, a multi-objective optimization was performed using the weighted sum method, aiming to minimize the TUCP and maximize the hydrogen production rate. The optimized system yielded useful outputs, including 230 kg/h of hydrogen, 31,217 kW of net electrical power, 18,488 kg/h of hot water, 1,981 kg/h of MP steam, and oxygen of 1054 kg/h. Thermodynamic analysis revealed an energetic efficiency of 78.57 % and an exergetic efficiency of 65.4 %, accompanied by a sustainability index of 2.89 and a TUCP of $3.70/GJ. The environmental assessment of the developed near-zero-carbon emission process highlighted substantial benefits, including an annual petroleum savings of 66,428 L/year and a reduction in annual CO2 emissions by 223,260 kg/year. Consequently, this study demonstrates an efficient, sustainable, and environmentally friendly process that effectively addresses energy and environmental challenges while outperforming comparable systems.
[Display omitted] •Development of a hybrid energy system for green hydrogen production utilizing geothermal energy and municipal solid waste.•Energy, exergy, sustainability, environmental, and thermo-economic analyses are performed.•Green hydrogen is the primary product, alongside oxygen, electrical power, hot water, and MP steam.•A multi-objective optimization and comprehensive parametric study are conducted.•The hydrogen production rate, sustainability index, and TUCP are 230 kg/h, 2.89, and 3.70 $/GJ, respectively. Fossil fuels remain the primary contributors to greenhouse gas emissions, particularly carbon dioxide. Transitioning toward renewable energy sources and adopting clean fuels, such as hydrogen, constitute effective strategies for mitigating CO2 emissions and decreasing global dependence on fossil-based energy systems. In this study, a carbon–neutral hybrid energy system was designed and developed to produce electricity, medium-pressure steam, hot water, and green hydrogen. The designed system utilizes municipal solid waste and geothermal energy as primary energy sources, offering an innovative solution for sustainable energy production. The proposed configuration integrates four principal subsystems: biomass steam gasification, a water electrolysis, a desalination unit, and a combined flash-binary geothermal system coupled with a cascaded organic Rankine cycle. A comprehensive evaluation was carried out, including thermodynamic analysis, sustainability assessment, environmental impact evaluation, and thermo-economic analysis. Furthermore, a detailed parametric study was conducted to assess the effects of key independent operating variables on the overall system performance. Subsequently, a multi-objective optimization was performed using the weighted sum method, aiming to minimize the TUCP and maximize the hydrogen production rate. The optimized system yielded useful outputs, including 230 kg/h of hydrogen, 31,217 kW of net electrical power, 18,488 kg/h of hot water, 1,981 kg/h of MP steam, and oxygen of 1054 kg/h. Thermodynamic analysis revealed an energetic efficiency of 78.57 % and an exergetic efficiency of 65.4 %, accompanied by a sustainability index of 2.89 and a TUCP of $3.70/GJ. The environmental assessment of the developed near-zero-carbon emission process highlighted substantial benefits, including an annual petroleum savings of 66,428 L/year and a reduction in annual CO2 emissions by 223,260 kg/year. Consequently, this study demonstrates an efficient, sustainable, and environmentally friendly process that effectively addresses energy and environmental challenges while outperforming comparable systems.
ArticleNumber 101106
Author Shamsi, Mohammad
Afshardoost, Amir
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Waste-to-energy
Geothermal
Thermo-economic optimization
Carbon-neutral hydrogen
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Snippet [Display omitted] •Development of a hybrid energy system for green hydrogen production utilizing geothermal energy and municipal solid waste.•Energy, exergy,...
Fossil fuels remain the primary contributors to greenhouse gas emissions, particularly carbon dioxide. Transitioning toward renewable energy sources and...
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StartPage 101106
SubjectTerms Carbon-neutral hydrogen
Geothermal
Power-to-hydrogen
Thermo-economic optimization
Waste-to-energy
Title Sustainable development and optimization of a geothermal–biomass hybrid energy system for green hydrogen production
URI https://dx.doi.org/10.1016/j.ecmx.2025.101106
https://doaj.org/article/11febefc3ab041449f7695a0b7e163d8
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