The Role of Catalysts in Life Cycle Assessment Applied to Biogas Reforming

The real implementation of biogas reforming at an industrial scale to obtain interesting products (like hydrogen or syngas) is a developing research field where multidisciplinary teams are continuously adding improvements and innovative technologies. These works can contribute to the proliferation o...

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Veröffentlicht in:	Catalysts 2024-09, Vol.14 (9), p.592
Hauptverfasser:	Nogales-Delgado, Sergio, González González, Juan Félix
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Sprache:	eng
Schlagworte:	Alternative energy sources Biogas Biomass energy Carbon dioxide Carbon footprint Carbon offsets Catalysts Circular economy Clean technology Emissions Environmental impact Gasoline Green hydrogen Green technology Greenhouse gases Hydrogen Hydrogen production Life cycle assessment Methane Molecular weight Natural gas Nuclear energy Pollution Raw materials Reforming Soil contamination Sustainability Sustainable development Synthesis gas
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container_title	Catalysts
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creator	Nogales-Delgado, Sergio González González, Juan Félix
description	The real implementation of biogas reforming at an industrial scale to obtain interesting products (like hydrogen or syngas) is a developing research field where multidisciplinary teams are continuously adding improvements and innovative technologies. These works can contribute to the proliferation of green technologies where the circular economy and sustainability are key points. To assess the sustainability of these processes, there are different tools like life cycle assessment (LCA), which involves a complete procedure where even small details count to consider a certain technology sustainable or not. The aim of this work was to review works where LCA is applied to different aspects of biogas reforming, focusing on the role of catalysts, which are essential to improve the efficiency of a certain process but can also contribute to its environmental impact. In conclusion, catalysts have an influence on LCA through the improvement of catalytic performance and the impact of their production, whereas other aspects related to biogas or methane reforming could equally affect their catalytic durability or reusability, with a subsequent effect on LCA. Further research about this subject is required, as this is a continuously changing technology with plenty of possibilities, in order to homogenize this research field.
doi_str_mv	10.3390/catal14090592
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subjects	Alternative energy sources Biogas Biomass energy Carbon dioxide Carbon footprint Carbon offsets Catalysts Circular economy Clean technology Emissions Environmental impact Gasoline Green hydrogen Green technology Greenhouse gases Hydrogen Hydrogen production Life cycle assessment Methane Molecular weight Natural gas Nuclear energy Pollution Raw materials Reforming Soil contamination Sustainability Sustainable development Synthesis gas
title	The Role of Catalysts in Life Cycle Assessment Applied to Biogas Reforming
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