Carbon capture utilization and storage (CCUS) and underground hydrogen storage (UHS)
constitute promising potential to contribute to the net zero targets. Furthermore, CO 2 is also …

Hydrogen as a clean fuel source compared to hydrocarbons has attracted many attentions to
mitigate anthropogenic greenhouse gas emissions and meet global energy demand …

This study aims to investigate and predict the interfacial tension at elevated pressure for
binary systems, that are essential for the ongoing energy transition. A comprehensive review …

Saline aquifer storage is considered to be a promising method of carbon dioxide (CO 2)
mitigation. The CO 2–brine interfacial tension (IFT) and the caprock wettability under …

Geological CO 2 sequestration during CO 2 enhanced oil recovery in tight formations is a
technically and economically viable option to alleviate carbon emission. In tight formations …

In light of the environmental consequences linked to the burning of fossil fuels, there is a
mounting push to devise cleaner means of energy generation. The production of hydrogen …

In the context of Underground Hydrogen Storage (UHS), deep saline aquifers offer great
potential due to their availability and high storage capacity. In these porous media, the direct …

CO 2 sequestration into underground aquifers is a viable option to alleviate greenhouse gas
emissions. CO 2 solubility trapping in nanoporous media saturated with saline water may …

Carbon capture and storage (CCS) is a promising technique to reduce anthropogenic gases
causing climate change. This efficient strategy contributes toward reaching net-zero …

Thermodynamic properties of the CO 2–brine pseudo-binary system are essential for the
design of geological carbon storage (GCS) projects, especially those utilizing saline …