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The role of biomass gasification and methanisation in the decarbonisation strategies

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  • Gabin Mantulet

    (LPSC - Laboratoire de Physique Subatomique et de Cosmologie - IN2P3 - Institut National de Physique Nucléaire et de Physique des Particules du CNRS - CNRS - Centre National de la Recherche Scientifique - UGA - Université Grenoble Alpes - Grenoble INP - Institut polytechnique de Grenoble - Grenoble Institute of Technology - UGA - Université Grenoble Alpes, GAEL - Laboratoire d'Economie Appliquée de Grenoble - CNRS - Centre National de la Recherche Scientifique - INRAE - Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement - UGA - Université Grenoble Alpes - Grenoble INP - Institut polytechnique de Grenoble - Grenoble Institute of Technology - UGA - Université Grenoble Alpes)

  • Adrien Bidaud

    (LPSC - Laboratoire de Physique Subatomique et de Cosmologie - IN2P3 - Institut National de Physique Nucléaire et de Physique des Particules du CNRS - CNRS - Centre National de la Recherche Scientifique - UGA - Université Grenoble Alpes - Grenoble INP - Institut polytechnique de Grenoble - Grenoble Institute of Technology - UGA - Université Grenoble Alpes)

  • Silvana Mima

    (GAEL - Laboratoire d'Economie Appliquée de Grenoble - CNRS - Centre National de la Recherche Scientifique - INRAE - Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement - UGA - Université Grenoble Alpes - Grenoble INP - Institut polytechnique de Grenoble - Grenoble Institute of Technology - UGA - Université Grenoble Alpes)

Abstract

The study explores future development of biomass uses across different climate policy scenarios and under different assumptions of biomass supply availability and technology performances. Broad bioenergy technology portfolios and generations provide flexibility to allocate bioenergy to supply a specific final energy mix and to remove carbon dioxide by combining bioenergy with carbon capture and sequestration (BECCS). The paper aim is to perform a detailed and focused analysis of the availability of biomass gasification and methanisation and the role of these green gas energy carriers in the decarbonisation strategies using a model based approach to see how some countries technology appropriation evolves through the XXI st century. The results show that the future of bioenergy depends mostly on countries bioenergy supply and demand that are partly triggered by climate policies. Besides, very diverse local biomass end use patterns are highlighted depending on local resource availability, economic growth and climate policies. The majority of modern uses will be possible with a biomass transformation through the gas vector thanks to methanisation and gasification processes. Technology maturities and efficiencies are also essential for bioenergy development for the field competitiveness. In presence of climate policies, the deployment of biomass methanisation and gasification increases two or three times faster due to higher competitiveness compared to highly taxed fossil fuel. The possibility to implement CCS fosters even more the use of bioenergy for decarbonisation strategies in the long term and switching the allocation of the resource in favor of gasification with CCS.

Suggested Citation

  • Gabin Mantulet & Adrien Bidaud & Silvana Mima, 2020. "The role of biomass gasification and methanisation in the decarbonisation strategies," Post-Print hal-02418770, HAL.
    • Handle: RePEc:hal:journl:hal-02418770
    DOI: 10.1016/j.energy.2019.116737
    Note: View the original document on HAL open archive server: https://hal.science/hal-02418770
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    Cited by:

    1. Lund, Henrik & Skov, Iva Ridjan & Thellufsen, Jakob Zinck & Sorknæs, Peter & Korberg, Andrei David & Chang, Miguel & Mathiesen, Brian Vad & Kany, Mikkel Strunge, 2022. "The role of sustainable bioenergy in a fully decarbonised society," Renewable Energy, Elsevier, vol. 196(C), pages 195-203.
    2. Brenda H. M. Silveira & Hirdan K. M. Costa & Edmilson M. Santos, 2023. "Bioenergy with Carbon Capture and Storage (BECCS) in Brazil: A Review," Energies, MDPI, vol. 16(4), pages 1-18, February.
    3. Kaabinejadian, Amirreza & Maghsoudi, Peyman & Homayounpour, Mohammad Mehdi & Sadeghi, Sadegh & Bidabadi, Mehdi & Xu, Fei, 2020. "Mathematical modeling of multi-region premixed combustion of moist bamboo particles," Renewable Energy, Elsevier, vol. 162(C), pages 1618-1628.
    4. Naqvi, Salman Raza & Naqvi, Muhammad & Ammar Taqvi, Syed Ali & Iqbal, Farukh & Inayat, Abrar & Khoja, Asif Hussain & Mehran, Muhammad Taqi & Ayoub, Muhammad & Shahbaz, Muhammad & Saidina Amin, Nor Ais, 2021. "Agro-industrial residue gasification feasibility in captive power plants: A South-Asian case study," Energy, Elsevier, vol. 214(C).
    5. Hidalgo, D. & Martín-Marroquín, J.M., 2020. "Power-to-methane, coupling CO2 capture with fuel production: An overview," Renewable and Sustainable Energy Reviews, Elsevier, vol. 132(C).

    More about this item

    Keywords

    bioenergy; gasification; methanisation; CCS; biogas; decarbonisation; Long-term energy modelling; flexibility 2;
    All these keywords.

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