Summary
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. We have several PhD opportunities for the 2022/23 intake. Please see the following descriptions and contact myself with any interest:
1. Digital Rocks for Characterising CO2 Storage
2. Global CO2 storage capacity: Modeling limitations of geography and injectivity
Our new research group website is live and under development: https://www.imperial.ac.uk/earth-science/research/research-groups/subsurface-co2-research-group/
Publications
Journals
Garfi G, John CM, Rucker M, et al., 2022, Determination of the spatial distribution of wetting in the pore networks of rocks, Journal of Colloid and Interface Science, Vol:613, ISSN:0021-9797, Pages:786-795
Zhang Y, Jackson C, Zahasky C, et al., 2022, European carbon storage resource requirements of climate change mitigation targets, International Journal of Greenhouse Gas Control, Vol:114, ISSN:1750-5836
Harris C, Jackson SJ, Benham GP, et al., 2021, The impact of heterogeneity on the capillary trapping of CO2 in the Captain Sandstone, International Journal of Greenhouse Gas Control, Vol:112, ISSN:1750-5836, Pages:1-12
Wenck N, Jackson SJ, Manoorkar S, et al., 2021, Simulating Core Floods in Heterogeneous Sandstone and Carbonate Rocks, Water Resources Research, Vol:57, ISSN:0043-1397
Manoorkar S, Jackson SJ, Krevor S, 2021, Observations of the Impacts of Millimeter- to Centimeter-Scale Heterogeneities on Relative Permeability and Trapping in Carbonate Rocks, Water Resources Research, Vol:57, ISSN:0043-1397