Marco Ferraro scite author profile

CO 2 methanation is a well-known reaction that is of interest as a capture and storage (CCS) process and as a renewable energy storage system based on a power-to-gas conversion process by substitute or synthetic natural gas (SNG) production. Integrating water electrolysis and CO 2 methanation is a highly effective way to store energy produced by renewables sources. The conversion of electricity into methane takes place via two steps: hydrogen is produced by electrolysis and converted to methane by CO 2 methanation. The effectiveness and efficiency of power-to-gas plants strongly depend on the CO 2 methanation process. For this reason, research on CO 2 methanation has intensified over the last 10 years. The rise of active, selective, and stable catalysts is the core of the CO 2 methanation process. Novel, heterogeneous catalysts have been tested and tuned such that the CO 2 methanation process increases their productivity. The present work aims to give a critical overview of CO 2 methanation catalyst production and research carried out in the last 50 years. The fundamentals of reaction mechanism, catalyst deactivation, and catalyst promoters, as well as a discussion of current and future developments in CO 2 methanation, are also included.

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Activity and stability of powder and monolith-coated Ni/GDC catalysts for CO2 methanation

Vita

Italiano

Pino

et al. 2018

Applied Catalysis B: Environmental

147

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A new approach to calculating endurance in electric flight and comparing fuel cells and batteries

et al. 2017

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Life cycle energy performances and environmental impacts of a prefabricated building module

Tumminia

Guarino

Longo

et al. 2018

Renewable and Sustainable Energy Reviews

120

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Marco Ferraro

Supported Catalysts for CO2 Methanation: A Review

Activity and stability of powder and monolith-coated Ni/GDC catalysts for CO2 methanation

A new approach to calculating endurance in electric flight and comparing fuel cells and batteries

Life cycle energy performances and environmental impacts of a prefabricated building module

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