Iron-sandstone synergy: Advancing in-situ hydrogen production from natural gas via electromagnetic heating
To address the escalating demands for decarbonization in the petroleum industry, a carbon-
zero technology, known as in-situ hydrogen (H 2) production via electromagnetic (EM) …
zero technology, known as in-situ hydrogen (H 2) production via electromagnetic (EM) …
Deciphering minerals in reservoir rocks as natural catalysts for in-situ methane-to-hydrogen conversion via electromagnetic heating
Electromagnetic (EM)-assisted catalytic heating for in-situ hydrogen generation directly from
petroleum reservoirs is an emerging method for decarbonizing petroleum industry and …
petroleum reservoirs is an emerging method for decarbonizing petroleum industry and …
Unraveling the role of water in microwave/electromagnetic-assisted catalytic heating for hydrogen production from gas reservoirs
To cope with the increasing pressures of decarbonization that the petroleum industry is
facing, a novel approach, entitled in-situ microwave/electromagnetic-assisted catalytic …
facing, a novel approach, entitled in-situ microwave/electromagnetic-assisted catalytic …
Natural catalysis-based clean hydrogen production from shale oil: An in-situ conversion enabled by electromagnetic heating
Employing electromagnetic (EM)-assisted catalytic heating to produce hydrogen (H 2)
directly from petroleum reservoirs is an emerging technology for decarbonizing fossil fuel …
directly from petroleum reservoirs is an emerging technology for decarbonizing fossil fuel …
Energy Efficiency, Techno-Economic Viability, and Life Cycle Assessment of In-Situ Hydrogen Production from Natural Gas Reservoirs Using Electromagnetic Heating
Recently, a subsurface technology of in-situ hydrogen production using electromagnetic
(EM) heating shows great potential for extracting clean hydrogen directly from natural gas …
(EM) heating shows great potential for extracting clean hydrogen directly from natural gas …