In this study, we measured the interfacial tensions (IFTs) of brine/hydrogen-methane (H-2-CH4) mixtures. We also measured the static contact angles of H-2-CH4 mixtures in contact with brine and oil-wet sandstone and limestone rocks at reservoir conditions. The measurements were conducted using pendant drop and rising/captive bubble techniques. The techniques were first validated for pure gas/brine IFT and contact angle systems. Then, the impacts of temperature and H-2-CH4 mixture fraction in contact with oil-wet rocks were investigated systematically. IFT values of H-2-CH4 mixture/brine diminished with increasing temperature and decreasing hydrogen fraction. It is revealed that, under the studied conditions, H-2-CH4 mixtures exhibit comparable weakly water-wet behavior on oil-wet sandstone and limestone rocks with contact angles ranged within 52.42 degrees-71.1 degrees independent of temperature. The results also indicated that IFT of H-2-CH4 mixture/brine decreases with increased temperature and methane fraction. Finally, the mechanisms accountable for the observed rock-fluid interaction behaviors at different conditions were discussed. (C) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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