2023-08-21 06:30:02
The Power-to-Gas is the process by which electrical energy is converted into chemical energy, in gaseous form. Compared to electricity, the gas thus produced has the advantage of being easily storable in large quantities and over the long term. THE Power-to-Gas also makes it possible to decarbonise industrial hydrogen, produce low-carbon gas and create synergies between electricity and gas networks. The process relies on electrolysis, producing hydrogen (Power-to-H2) from electricity and water. It can be supplemented by methanation, allowing hydrogen to react with carbon dioxide to produce methane (Power-to-CH4).
Goals :
This webinar presents the main technologies involved in the Power-to-Gas, as well as the challenges and prospects in terms of performance, economic and environmental balance sheet, reliability and safety. These discussions will be fueled by the first R&D results and feedback from the Jupiter 1000 industrial demonstrator.
Programme :
Power-to-Gas: context, general process, services rendered Presentation of electrolysis and methanation technologies Jupiter 1000: Power-to-Gas industrial demonstrator Results of tests on electrolysis performance Economic and environmental assessment of Power-to-Gas Sharing experience on reliability, durability and safety
Animated by :
Florent Brissaud
Expert and leader of activities within the Research & Innovation Center for Energy (RICE) of GRTgaz
Florent Brissaud is an engineer and doctor in operational safety with fifteen years of activity in consulting and R&D, mainly in the energy and industry sectors. Since 2018, Florent Brissaud has been an expert and activity leader within the Research & Innovation Center for Energy (RICE) of GRTgaz, for the management of industrial assets serving the energy transition. He is responsible for the R&D of the industrial demonstrator of Power-to-Gas Jupiter 1000, producing “green” hydrogen with two electrolysis technologies and synthetic methane with a methanation process supplied with CO2 captured from an industrial site. Florent Brissaud is an active member of several standardization committees and working groups on reliability and security. He is the author of around fifty scientific publications and is a teaching assistant in engineering schools. Image credit of one: GRTgaz
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#PowertoGas #Technologies #challenges #perspectives