Clay-hydrogen and clay-cushion gas interfacial tensions: Implications for hydrogen storage
Nurudeen Yekeen(Universiti Teknologi Petronas), Joël Sarout(Commonwealth Scientific and Industrial Research Organisation), Muhammad Ali(King Abdullah University of Science and Technology), Ahmed Al‐Yaseri(King Fahd University of Petroleum and Minerals), Berihun Mamo Negash(Universiti Teknologi Petronas), Lionel Esteban(Commonwealth Scientific and Industrial Research Organisation), Ausama Giwelli(Commonwealth Scientific and Industrial Research Organisation)
Cited by 97
Related Papers
Impact of pressure and temperature on CO 2 –brine–mica contact angles and CO 2 –brine interfacial tension: Implications for carbon geo-sequestration
|Journal of Colloid and Interface Science|2015|300
Receding and advancing (CO2+ brine + quartz) contact angles as a function of pressure, temperature, surface roughness, salt type and salinity
|The Journal of Chemical Thermodynamics|2015|272
CO<sub>2</sub> wettability of caprocks: Implications for structural storage capacity and containment security
|Geophysical Research Letters|2015|272
Influence of temperature and pressure on quartz–water–CO2 contact angle and CO2–water interfacial tension
|Journal of Colloid and Interface Science|2014|249
Hydrogen wettability of quartz substrates exposed to organic acids; Implications for hydrogen geo-storage in sandstone reservoirs
|Journal of Petroleum Science and Engineering|2021|190