Hydrogen and Energy Transition: Technologies and Implications
Presentation by: Milind Deo, Ph.D.
Professor, Chemical Engineering
EGI Director
Momentum is building for a hydrogen-based economy. Large-scale use of hydrogen for a variety of industrial processes is common. In the current resurgence of interest in hydrogen, new methods of production, storage and end-use are being considered. Hydrogen is viewed as the fuel of choice to store excess renewable energy and use when dictated by demand. This webinar explores the hydrogen landscape in the context of the ongoing energy transition.
There is considerable interest in discovering naturally occurring hydrogen. Instances of natural hydrogen occurrence and geologic conditions amenable for natural hydrogen accumulation will be reviewed. Current methods of hydrogen production – steam methane reforming, electrolysis, etc. will be discussed along with possible carbon dioxide capture technologies. Energy requirements and efficiencies in all of the key steps in each of the processes will be presented. Water usage over the hydrogen life cycle of production, storage and use will be discussed and compared with water use for other energy sources.
The webinar is intended to present a balanced view of the use of hydrogen as a ‘universal’ fuel and identify key gaps in knowledge and research opportunities.
Видео Hydrogen and Energy Transition: Technologies and Implications канала EGI - Energy & Geoscience Institute
Professor, Chemical Engineering
EGI Director
Momentum is building for a hydrogen-based economy. Large-scale use of hydrogen for a variety of industrial processes is common. In the current resurgence of interest in hydrogen, new methods of production, storage and end-use are being considered. Hydrogen is viewed as the fuel of choice to store excess renewable energy and use when dictated by demand. This webinar explores the hydrogen landscape in the context of the ongoing energy transition.
There is considerable interest in discovering naturally occurring hydrogen. Instances of natural hydrogen occurrence and geologic conditions amenable for natural hydrogen accumulation will be reviewed. Current methods of hydrogen production – steam methane reforming, electrolysis, etc. will be discussed along with possible carbon dioxide capture technologies. Energy requirements and efficiencies in all of the key steps in each of the processes will be presented. Water usage over the hydrogen life cycle of production, storage and use will be discussed and compared with water use for other energy sources.
The webinar is intended to present a balanced view of the use of hydrogen as a ‘universal’ fuel and identify key gaps in knowledge and research opportunities.
Видео Hydrogen and Energy Transition: Technologies and Implications канала EGI - Energy & Geoscience Institute
Показать
Комментарии отсутствуют
Информация о видео
5 мая 2023 г. 3:30:56
00:45:28
Другие видео канала
Overview of the Utah Frontier Observatory for Research in Geothermal Energy | Joseph Moore, Ph.DAdvanced Energy Systems - CA Conference 2022EGI's Chronostratigraphy CapabilitiesCarpathian mountain-building linked to Pannonian extension2023 EGI Tech. Conference - Geothermal session - Day 1About the Energy and Geoscience Institute at The University of UtahExploration Risk & Play AnalysisEGI OceansGeologic Carbon Sequestration in Utah and Beyond | Brian McPherson, Ph.D.Petrophysics, geochemistry and data-science: Enhancing geomodelling and source rock analysisUtahFORGE Overview - CA Conference 2022Research Services: Core through PorePetroleum, Geoscience, and the New Energy Reality2023 EGI Tech. Conference - Petroleum & Critical Minerals - Day 2Pangaea – Assembly and Fragmentation of a Supercontinent | Tony Doré, Ph.D.Petroleum from Red Sea to SomaliaCapabilities of the EGI BratislavaLeading The Energy Transition | EGI OverviewAbout EGI : AAPGEGI 50th Anniversary Photo Reel