Overview
ABSTRACT
Power-to-Gas is the process that converts electrical energy into chemical energy, in gaseous form. This process is firstly based on electrolysis, producing hydrogen (Power-to-H 2 ) from electricity and water. Electrolysis can be completed by a methanation step, allowing hydrogen to react with carbon dioxide to produce methane (Power-to-CH 4). The article provides an overview of the technologies involved in the Power-to-Gas, then the challenges and perspectives in terms of performance (energy efficiency, response time), economic balance (capital expenditure and costs of MWh produced, in the form of H 2 or CH 4 ), environmental impacts (greenhouse gas emissions), reliability and durability (control of failures and degradation), safety (control of hazardous phenomena).
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Florent BRISSAUD: R&D Project Manager for Power-to-Gas and Industrial Asset Management - Research & Innovation Center for Energy (RICE), GRTgaz, France
INTRODUCTION
Power-to-Gas is the process by which electrical energy is converted into chemical energy in gaseous form. Compared with electricity, the gas produced in this way has the advantage of being easily storable in large quantities over the long term. Power-to-Gas also makes it possible to decarbonize industrial hydrogen, produce low-carbon gas and create synergies between electricity and gas networks.
Power-to-Gas relies primarily on electrolysis to produce hydrogen (Power-to-H 2 ) from electricity and water. Alkaline, proton exchange membrane (PEM) and high-temperature electrolyzers (SOEC) are described in this article, along with other emerging technologies. Electrolysis can be complemented by a methanation step, allowing hydrogen to react with carbon dioxide to produce methane (Power-to-CH 4 ). Catalytic and biogenic methane generators are described in this article, as well as the capture and supply of CO 2 . The following ancillary units are also presented: electrical installations, water treatment, product gas treatment, compression, storage and transport via networks.
This article also presents the challenges and prospects of Power-to-Gas in terms of technology performance (energy yields, flexibility and response time), economic balance (costs of installations and of the megawatt-hour produced, in the form of H 2 or CH 4 ), environmental impact (greenhouse gas emissions), reliability and durability (control of failures and degradation) and safety (control of hazardous phenomena).
This article presents the initial R&D results and feedback from Jupiter 1000, France's first megawatt-scale industrial Power-to-Gas demonstrator, using two electrolysis technologies and one methanation technology.
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KEYWORDS
electrolysis | methanation | hydrogen | Power-to-H2 | Power-to-CH4
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Power-to-Gas
Bibliography
Bibliography
Standards and norms
- Hydrogen detectors – Fixed applications - ISO 26142 - 2010
- Installation des systèmes mettant en œuvre l'hydrogène - NF M58-003 - 2013
- Considérations fondamentales pour la sécurité des systèmes à l'hydrogène - ISO/TR 15916 - 2015
- Système d'adsorption modulée en pression pour la séparation et la purification de l'hydrogène - ISO/TS 19883 - 2017
- Transportable gas storage devices – Hydrogen...
Directory
Organizations – Federations – Associations (non-exhaustive list)
Association technique énergie environnement https://atee.fr/
Clean Hydrogen Partnership https://www.clean-hydrogen.europa.eu/
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