Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue Gasification
Hydrogen (H<sub>2</sub>) production from biomass has emerged as a promising alternative to fossil-based pathways, addressing the global demand for low-carbon energy solutions. This study compares the environmental impacts of two biomass-based H<sub>2</sub> production processe...
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MDPI AG
2025-04-01
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| author | Mamo Abawalo Krzysztof Pikoń Marcin Landrat |
| author_facet | Mamo Abawalo Krzysztof Pikoń Marcin Landrat |
| author_sort | Mamo Abawalo |
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| description | Hydrogen (H<sub>2</sub>) production from biomass has emerged as a promising alternative to fossil-based pathways, addressing the global demand for low-carbon energy solutions. This study compares the environmental impacts of two biomass-based H<sub>2</sub> production processes, biogas reforming and agricultural residue gasification, through a life cycle assessment (LCA). Using real-world data from the literature, the analysis considered key system boundaries for each process, including biogas production, reforming, and infrastructure, for the former, and biomass cultivation, syngas generation, and offgas management, for the latter. Environmental impacts were evaluated using SimaPro software (Version 9.4) and the ReCiPe midpoint (H) method. The results revealed that biogas reforming emits approximately 5.047 kg CO<sub>2</sub>-eq per kg of H<sub>2</sub>, which is 4.89 times higher than the emissions from agricultural residue gasification (1.30 kg CO<sub>2</sub>-eq/kg H<sub>2</sub>), demonstrating the latter’s superior environmental performance. Gasification consumes fewer fossil resources (3.20 vs. 10.42 kg oil-eq) and poses significantly lower risks to human health (1.51 vs. 23.28 kg 1,4-DCB-eq). Gasification water consumption is markedly higher (5.37 compared to biogas reforming (0.041 m<sup>3</sup>/kg H<sub>2</sub>)), which is an important factor to consider for sustainability. These findings highlight gasification as a more sustainable H<sub>2</sub> production method and emphasize its potential as an eco-friendly solution. To advance sustainability in energy systems, integrating socio-economic studies with LCA is recommended, alongside prioritizing agricultural residue gasification for hydrogen production. |
| format | Article |
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| language | English |
| publishDate | 2025-04-01 |
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| spelling | doaj-art-e30ea274ed8a41e496ab54cbd8d10d442025-08-20T02:30:46ZengMDPI AGApplied Sciences2076-34172025-04-01159502910.3390/app15095029Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue GasificationMamo Abawalo0Krzysztof Pikoń1Marcin Landrat2Department of Technologies and Installations for Waste Management, Faculty of Energy and Environmental Engineering, Silesian University of Technology, 44-100 Gliwice, PolandDepartment of Technologies and Installations for Waste Management, Faculty of Energy and Environmental Engineering, Silesian University of Technology, 44-100 Gliwice, PolandDepartment of Technologies and Installations for Waste Management, Faculty of Energy and Environmental Engineering, Silesian University of Technology, 44-100 Gliwice, PolandHydrogen (H<sub>2</sub>) production from biomass has emerged as a promising alternative to fossil-based pathways, addressing the global demand for low-carbon energy solutions. This study compares the environmental impacts of two biomass-based H<sub>2</sub> production processes, biogas reforming and agricultural residue gasification, through a life cycle assessment (LCA). Using real-world data from the literature, the analysis considered key system boundaries for each process, including biogas production, reforming, and infrastructure, for the former, and biomass cultivation, syngas generation, and offgas management, for the latter. Environmental impacts were evaluated using SimaPro software (Version 9.4) and the ReCiPe midpoint (H) method. The results revealed that biogas reforming emits approximately 5.047 kg CO<sub>2</sub>-eq per kg of H<sub>2</sub>, which is 4.89 times higher than the emissions from agricultural residue gasification (1.30 kg CO<sub>2</sub>-eq/kg H<sub>2</sub>), demonstrating the latter’s superior environmental performance. Gasification consumes fewer fossil resources (3.20 vs. 10.42 kg oil-eq) and poses significantly lower risks to human health (1.51 vs. 23.28 kg 1,4-DCB-eq). Gasification water consumption is markedly higher (5.37 compared to biogas reforming (0.041 m<sup>3</sup>/kg H<sub>2</sub>)), which is an important factor to consider for sustainability. These findings highlight gasification as a more sustainable H<sub>2</sub> production method and emphasize its potential as an eco-friendly solution. To advance sustainability in energy systems, integrating socio-economic studies with LCA is recommended, alongside prioritizing agricultural residue gasification for hydrogen production.https://www.mdpi.com/2076-3417/15/9/5029biogas reforminghydrogengasificationLCAlow carbonenergy |
| spellingShingle | Mamo Abawalo Krzysztof Pikoń Marcin Landrat Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue Gasification Applied Sciences biogas reforming hydrogen gasification LCA low carbon energy |
| title | Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue Gasification |
| title_full | Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue Gasification |
| title_fullStr | Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue Gasification |
| title_full_unstemmed | Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue Gasification |
| title_short | Comparative Life Cycle Assessment of Hydrogen Production via Biogas Reforming and Agricultural Residue Gasification |
| title_sort | comparative life cycle assessment of hydrogen production via biogas reforming and agricultural residue gasification |
| topic | biogas reforming hydrogen gasification LCA low carbon energy |
| url | https://www.mdpi.com/2076-3417/15/9/5029 |
| work_keys_str_mv | AT mamoabawalo comparativelifecycleassessmentofhydrogenproductionviabiogasreformingandagriculturalresiduegasification AT krzysztofpikon comparativelifecycleassessmentofhydrogenproductionviabiogasreformingandagriculturalresiduegasification AT marcinlandrat comparativelifecycleassessmentofhydrogenproductionviabiogasreformingandagriculturalresiduegasification |