Geological porous reservoirs provide the volume capacity needed for large scale underground hydrogen storage (UHS). To effectively exploit these reservoirs for UHS, it is crucial to characterize the hydrogen transport properties inside porous rocks. In this work, for the first time in the community, we have performed H 2/water multiphase flow experiments at core scale under medical X-ray CT scanner. This has allowed us to directly image the complex transport properties of H 2 when it is injected or retracted from the porous rock. The important effective functions of capillary pressure and relative permeability are also measured, for both drainage and imbibition. The capillary pressure measurements are combined with MICP data to derive a rec...
Characterizing the wettability of hydrogen (H2)–methane (CH4) mixtures in subsurface reservoirs is t...
Fluctuating energy production by renewables is one of the main issues in transition times of energy ...
Underground Hydrogen Storage (UHS) is an emerging large-scale energy storage technology. Researchers...
Geological porous reservoirs provide the volume capacity needed for large scale underground hydrogen...
HypothesisUnderground hydrogen (H2) storage is a potentially viable solution for large-scale cyclic ...
Hydrogen can act as an energy store to balance supply and demand in the renewable energy sector. Hyd...
Underground hydrogen storage (UHS) in initially brine-saturated deep porous rocks is a promising lar...
A solution for energy storage is needed to balance supply and demand in future energy markets with a...
International audienceTo provide quantitative data for the development of underground hydrogen stora...
The global commitment to achieve net-zero has led to increasing investment towards the production an...
Subsurface porous formations provide large capacities for underground hydrogen storage (UHS). Succes...
Subsurface porous rocks have the potential to store large volumes of hydrogen (H$_2$) required for t...
Zero carbon energy generation from renewable sources can reduce climate change by mitigating carbon ...
Underground Hydrogen Storage (UHS) is an attractive technology for large-scale (TWh) renewable energ...
Green hydrogen, produced from surplus electricity during peak production, can be injected into subsu...
Characterizing the wettability of hydrogen (H2)–methane (CH4) mixtures in subsurface reservoirs is t...
Fluctuating energy production by renewables is one of the main issues in transition times of energy ...
Underground Hydrogen Storage (UHS) is an emerging large-scale energy storage technology. Researchers...
Geological porous reservoirs provide the volume capacity needed for large scale underground hydrogen...
HypothesisUnderground hydrogen (H2) storage is a potentially viable solution for large-scale cyclic ...
Hydrogen can act as an energy store to balance supply and demand in the renewable energy sector. Hyd...
Underground hydrogen storage (UHS) in initially brine-saturated deep porous rocks is a promising lar...
A solution for energy storage is needed to balance supply and demand in future energy markets with a...
International audienceTo provide quantitative data for the development of underground hydrogen stora...
The global commitment to achieve net-zero has led to increasing investment towards the production an...
Subsurface porous formations provide large capacities for underground hydrogen storage (UHS). Succes...
Subsurface porous rocks have the potential to store large volumes of hydrogen (H$_2$) required for t...
Zero carbon energy generation from renewable sources can reduce climate change by mitigating carbon ...
Underground Hydrogen Storage (UHS) is an attractive technology for large-scale (TWh) renewable energ...
Green hydrogen, produced from surplus electricity during peak production, can be injected into subsu...
Characterizing the wettability of hydrogen (H2)–methane (CH4) mixtures in subsurface reservoirs is t...
Fluctuating energy production by renewables is one of the main issues in transition times of energy ...
Underground Hydrogen Storage (UHS) is an emerging large-scale energy storage technology. Researchers...