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Catalytic thermal conversion of CO2 into fuels: Perspective and challenges

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  • Galadima, Ahmad
  • Muraza, Oki

Abstract

Consequent to the climate change and associated environmental and economic difficulties, CO2 sequestration is necessary for global sustainability. However, cost and technology challenges have recently prompted “carbon dioxide to fuels” as the best approach for handling CO2 emissions globally. In this perspective, we have carefully reviewed and analyzed an updated literature on the various thermal paths for CO2 valorization that are specifically critical for the production of CH4 (i.e. via methanation), CH3OH and gasoline-range hydrocarbons (i.e. via hydrogenation). The paper discussed a trend in terms of catalyst development, reaction catalysis and carefully identified areas requiring additional investigations. Reaction parameters contributing to catalysts deactivation, activity-promotion, stability of active sites and associated mechanisms were also simultaneously discussed.

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  • Galadima, Ahmad & Muraza, Oki, 2019. "Catalytic thermal conversion of CO2 into fuels: Perspective and challenges," Renewable and Sustainable Energy Reviews, Elsevier, vol. 115(C).
  • Handle: RePEc:eee:rensus:v:115:y:2019:i:c:s1364032119305416
    DOI: 10.1016/j.rser.2019.109333
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    1. Narayanamoorthy, Samayan & Ramya, L. & Kalaiselvan, Samayan & Kureethara, Joseph Varghese & Kang, Daekook, 2021. "Use of DEMATEL and COPRAS method to select best alternative fuel for control of impact of greenhouse gas emissions," Socio-Economic Planning Sciences, Elsevier, vol. 76(C).
    2. George, Adwek & Shen, Boxiong & Craven, Michael & Wang, Yaolin & Kang, Dongrui & Wu, Chunfei & Tu, Xin, 2021. "A Review of Non-Thermal Plasma Technology: A novel solution for CO2 conversion and utilization," Renewable and Sustainable Energy Reviews, Elsevier, vol. 135(C).
    3. Georgios Varvoutis & Athanasios Lampropoulos & Evridiki Mandela & Michalis Konsolakis & George E. Marnellos, 2022. "Recent Advances on CO 2 Mitigation Technologies: On the Role of Hydrogenation Route via Green H 2," Energies, MDPI, vol. 15(13), pages 1-38, June.
    4. Ipsakis, Dimitris & Varvoutis, Georgios & Lampropoulos, Athanasios & Papaefthimiou, Spiros & Marnellos, George E. & Konsolakis, Michalis, 2021. "Τechno-economic assessment of industrially-captured CO2 upgrade to synthetic natural gas by means of renewable hydrogen," Renewable Energy, Elsevier, vol. 179(C), pages 1884-1896.
    5. Chakrabortty, Sankha & Kumar, Ramesh & Nayak, Jayato & Jeon, Byong-Hun & Dargar, Shashi Kant & Tripathy, Suraj K. & Pal, Parimal & Ha, Geon-Soo & Kim, Kwang Ho & Jasiński, Michał, 2023. "Green synthesis of MeOH derivatives through in situ catalytic transformations of captured CO2 in a membrane integrated photo-microreactor system: A state-of-art review for carbon capture and utilizati," Renewable and Sustainable Energy Reviews, Elsevier, vol. 182(C).
    6. Ateka, Ainara & Portillo, Ander & Sánchez-Contador, Miguel & Bilbao, Javier & Aguayo, Andres T., 2021. "Macro-kinetic model for CuO–ZnO–ZrO2@SAPO-11 core-shell catalyst in the direct synthesis of DME from CO/CO2," Renewable Energy, Elsevier, vol. 169(C), pages 1242-1251.

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