2017 Research Allowance: Analysis and purification of Biogas and Energetic Valorisation by Catalytic Reform (ABioVal) (Q3688152): Difference between revisions
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(Created claim: summary (P836): The coupling of biogas production with catalytic processes makes it possible to convert it into higher-value chemical compounds such as hydrogen or synthetic gas (H2+CO) that can be considered as green energy sources. However, the widespread use of biogas will depend largely on the control of the risks associated with impurities present in its composition or the limited duration of catalysts. The thesis project proposes to study the composition...) |
(Changed label, description and/or aliases in en: translated_label) |
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2017 Research Allowance: Analysis and purification of Biogas and Energetic Valorisation by Catalytic Reform (ABioVal) |
Revision as of 10:11, 22 November 2021
Project Q3688152 in France
Language | Label | Description | Also known as |
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English | 2017 Research Allowance: Analysis and purification of Biogas and Energetic Valorisation by Catalytic Reform (ABioVal) |
Project Q3688152 in France |
Statements
45,251.0 Euro
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90,502.0 Euro
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50.0 percent
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1 October 2017
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30 March 2021
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Université du Littoral Côte d'Opale
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Le couplage de la production de biogaz avec des procédés catalytiques permet de le convertir en composés chimiques de plus haute valeur ajoutée comme l’hydrogène ou le gaz de synthèse (H2+CO) pouvant être considéré comme sources d’énergie vertes. Cependant, la généralisation de la valorisation du biogaz dépendra largement de la maitrise des risques liés aux impuretés présentes dans sa composition ou de la durée limitée des catalyseurs. Le projet de thèse se propose d’étudier la composition du biogaz émis sur le centre d’enfouissement de déchets non dangereux d’Opale environnement, d’en quantifier les impuretés et leur provenance. Un biofiltre sera par la suite expérimenter pour en extraire les impuretés les plus nocives. .Les travaux se poursuivront par le développement de catalyseurs résistants dans les réactions de reformage à sec du biogaz réel en présence d’impuretés. Ce procédé de reformage à sec permet de produire des composés chimiques à haute valeur ajoutée. (French)
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The coupling of biogas production with catalytic processes makes it possible to convert it into higher-value chemical compounds such as hydrogen or synthetic gas (H2+CO) that can be considered as green energy sources. However, the widespread use of biogas will depend largely on the control of the risks associated with impurities present in its composition or the limited duration of catalysts. The thesis project proposes to study the composition of the biogas emitted on Opale Environnement’s non-hazardous waste landfill, to quantify its impurities and their origin. A biofilter will then be tested to extract the most harmful impurities. .Work will continue with the development of resistant catalysts in the dry reforming reactions of real biogas in the presence of impurities. This dry reforming process makes it possible to produce chemical compounds with high added value. (English)
22 November 2021
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Identifiers
NP0012970
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