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Biogas Upgrading Via Dry Reforming Over a Ni-Sn/CeO 2 -Al 2 O 3 Catalyst: Influence of the Biogas Source

Author

Listed:
  • Estelle le Saché

    (Chemical & Process Engineering Department, University of Surrey, Guildford GU2 7XH, UK)

  • Sarah Johnson

    (Chemical & Process Engineering Department, University of Surrey, Guildford GU2 7XH, UK)

  • Laura Pastor-Pérez

    (Chemical & Process Engineering Department, University of Surrey, Guildford GU2 7XH, UK)

  • Bahman Amini Horri

    (Chemical & Process Engineering Department, University of Surrey, Guildford GU2 7XH, UK)

  • Tomas R. Reina

    (Chemical & Process Engineering Department, University of Surrey, Guildford GU2 7XH, UK)

Abstract

Biogas is a renewable, as well as abundant, fuel source which can be utilised in the production of heat and electricity as an alternative to fossil fuels. Biogas can additionally be upgraded via the dry reforming reactions into high value syngas. Nickel-based catalysts are well studied for this purpose but have shown little resilience to deactivation caused by carbon deposition. The use of bi-metallic formulations, as well as the introduction of promoters, are hence required to improve catalytic performance. In this study, the effect of varying compositions of model biogas (CH 4 /CO 2 mixtures) on a promising multicomponent Ni-Sn/CeO 2 -Al 2 O 3 catalyst was investigated. For intermediate temperatures (650 °C), the catalyst displayed good levels of conversions in a surrogate sewage biogas (CH 4 /CO 2 molar ratio of 1.5). Little deactivation was observed over a 20 h stability run, and greater coke resistance was achieved, related to a reference catalyst. Hence, this research confirms that biogas can suitably be used to generate H 2 -rich syngas at intermediate temperatures provided a suitable catalyst is employed in the reaction.

Suggested Citation

  • Estelle le Saché & Sarah Johnson & Laura Pastor-Pérez & Bahman Amini Horri & Tomas R. Reina, 2019. "Biogas Upgrading Via Dry Reforming Over a Ni-Sn/CeO 2 -Al 2 O 3 Catalyst: Influence of the Biogas Source," Energies, MDPI, vol. 12(6), pages 1-14, March.
    • Handle: RePEc:gam:jeners:v:12:y:2019:i:6:p:1007-:d:214105
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    Citations

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    Cited by:

    1. Mohsen Fallah Vostakola & Babak Salamatinia & Bahman Amini Horri, 2022. "A Review on Recent Progress in the Integrated Green Hydrogen Production Processes," Energies, MDPI, vol. 15(3), pages 1-41, February.
    2. Arnob Das & Susmita Datta Peu, 2022. "A Comprehensive Review on Recent Advancements in Thermochemical Processes for Clean Hydrogen Production to Decarbonize the Energy Sector," Sustainability, MDPI, vol. 14(18), pages 1-42, September.
    3. Baena-Moreno, Francisco M. & Rodríguez-Galán, Mónica & Vega, Fernando & Reina, T.R. & Vilches, Luis F. & Navarrete, Benito, 2019. "Converting CO2 from biogas and MgCl2 residues into valuable magnesium carbonate: A novel strategy for renewable energy production," Energy, Elsevier, vol. 180(C), pages 457-464.
    4. Baena-Moreno, Francisco M. & Sebastia-Saez, Daniel & Pastor-Pérez, Laura & Reina, Tomas Ramirez, 2021. "Analysis of the potential for biogas upgrading to syngas via catalytic reforming in the United Kingdom," Renewable and Sustainable Energy Reviews, Elsevier, vol. 144(C).
    5. Baena-Moreno, Francisco M. & Pastor-Pérez, Laura & Zhang, Zhien & Reina, T.R., 2020. "Stepping towards a low-carbon economy. Formic acid from biogas as case of study," Applied Energy, Elsevier, vol. 268(C).

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