My work focuses on the investigation of the multiphase flow and reactive transport properties of CO2 and water in reservoir rock materials using core-flooding experiments at high temperature and pressure.
I lead the Subsurface CO2 research group at Imperial. Please visit our website for further information about our research: http://subsurfaceco2.ese.ic.ac.uk
et al., 2020, Experimental study of pH effect on uranium (UVI) particle formation and transport through quartz sand in alkaline 0.1 M sodium chloride solutions, Colloids and Surfaces A: Physicochemical and Engineering Aspects, Vol:592, ISSN:0927-7757, Pages:1-11
et al., 2020, Fluid Surface Coverage Showing the Controls of Rock Mineralogy on the Wetting State, Geophysical Research Letters, Vol:47, ISSN:0094-8276
et al., 2020, Relationship between wetting and capillary pressure in a crude oil/brine/rock system: From nano-scale to core-scale, Journal of Colloid and Interface Science, Vol:562, ISSN:0021-9797, Pages:159-169
Jackson SJ, Lin Q, Krevor S, Representative elementary volumes, hysteresis and heterogeneity in multiphase flow from the pore to continuum scale, Water Resources Research, ISSN:0043-1397
et al., Workflow for upscaling wettability from the nano- to core-scales, International Symposium of the Society of Core Analysts