Wettability, a fundamental property of porous surface, occupies a pivotal position in the fields
of enhanced oil recovery, organic contaminant adsorption and oil/water separation. In this …

Carbon capture, utilization, and sequestration (CCUS) is a promising solution to
decarbonize the energy and industrial sector to mitigate climate change. An integrated …

Shale wettability determines shale gas productivities and gas (H 2, CH 4 and CO 2) geo-
storage efficiencies. However, shale wettability is a complex parameter which depends on …

The utilization of carbon capture utilization and storage (CCUS) in unconventional
formations is a promising way for improving hydrocarbon production and combating climate …

The aim of CO 2 enhanced gas recovery (CO 2-EGR) is to extract more natural gas from
depleted gas reservoirs and simultaneously sequestrate large amount of CO 2. To achieve …

Mineralization reactions in basaltic formations have gained recent interest as an effective
method for CO 2 geo-storage in order to mitigate anthropogenic greenhouse gas emissions …

To meet the ever-increasing global energy demands, it is more necessary than ever to
ensure increments in the recovery factors (RF) associated with oil reservoirs. Owing to this …

This study explores the use of machine learning algorithms to predict hydrogen wettability in
underground storage sites. The motivation for this research is the need to find a safe and …

Acetone, toluene, and heptane have been perceived as the conventional cleaning agents
for the preservation of original water-wet rock reservoir wettability, and for restoration of oil …

Developing precise predictive methods for liquid density of CO 2+ hydrocarbon mixtures is
vital to model, optimize, and design of the enhanced oil recovery (EOR) and the CO 2 …