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, Real-Time Imaging Reveals Distinct Pore-Scale Dynamics During Transient and Equilibrium Subsurface Multiphase Flow, Water Resources Research, Vol:56, ISSN:0043-1397
Jackson SJ, Krevor S, 2020, Small-Scale Capillary Heterogeneity Linked to Rapid Plume Migration During CO(2)Storage, Geophysical Research Letters, Vol:47, ISSN:0094-8276
Franchini S, Krevor S, 2020, Cut, overlap and locate: a deep learning approach for the 3D localization of particles in astigmatic optical setups, Experiments in Fluids, Vol:61, ISSN:0723-4864
Jackson SJ, Lin Q, Krevor S, 2020, Representative Elementary Volumes, Hysteresis, and Heterogeneity in Multiphase Flow From the Pore to Continuum Scale, Water Resources Research, Vol:56, ISSN:0043-1397
Zahasky C, Krevor S, 2020, Global geologic carbon storage requirements of climate change mitigation scenarios, Energy & Environmental Science, Vol:13, ISSN:1754-5692, Pages:1561-1567