Overreliance on fossil fuels for human energy needs, combined with the associated negative environmental consequences in terms of greenhouse gas emissions, has shifted our focus …
Hydrogen future depends on large-scale storage, which can be provided by geological formations (such as caverns, aquifers, and depleted oil and gas reservoirs) to handle …
Abstract Underground hydrogen (H 2) storage (UHS) and carbon dioxide (CO 2) geo- storage (CGS) are prominent methods of meeting global energy needs and enabling a low …
Hydrogen as a clean fuel source compared to hydrocarbons has attracted many attentions to mitigate anthropogenic greenhouse gas emissions and meet global energy demand …
In hydrogen geological storage, capillary sealing efficiency analysis of caprocks is very important for containment security. In this work, the H2 wettabilities of three shales and one …
Global energy demand is increasing every year, and we face the drawbacks of extensive fossil fuel use in our daily lives more than ever. Hydrogen (H 2) is currently assessed as an …
Underground hydrogen storage (UHS) is a distinguished method for reducing anthropogenic greenhouse gases (GHGs) and meeting global energy demand. One of the …
Hydrogen is an integral component of the current energy transition roadmap to decarbonize the economy and create an environmentally-sustainable future. However, surface storage …
Underground hydrogen storage (UHS) and CO2 geological storage (CGS) are two outstanding techniques for meeting the universal energy demand and reducing …