Experimental Research

1. Singh, K., Jung, M., Brinkmann, M., and Seemann, R. (2019). Capillary-dominated fluid displacement in porous media. Annual Review of Fluid Mechanics, 51, 429-49 [Invited Review Paper].
2. Rücker, M., Bartels, W‐B, Singh, K., Brussee, N., Coorn, A., van der Linde, H.A., Bonnin, A., Ott, H., Hassanizadeh, S.M., Blunt, M.J., Mahani, H., Georgiadis, A., Berg, S. (2019). The effect of mixed wettability on pore-scale flow regimes based on a flooding experiment in Ketton limestone.Geophysical Research Letters, 46, 6, 3225-3234.
3. Singh, K., Anabaraonye, B., Blunt, M.J., and Crawshaw, J. (2018). Partial dissolution of carbonate rock grains during reactive CO2-saturated brine injection under reservoir conditions. Advances in Water Resources, 122, 27-36.
4. Singh, K., Menke, H., Andrew, M., Lin, Q., Rau, C., Bijeljic, B., and Blunt, M.J. (2018). Time-resolved synchrotron X-ray micro-tomography datasets of drainage and imbibition in carbonate rocks.Scientific Data, 5, 180265.
5. Scanziani, A., Singh, K., Bultreys, T., Bijeljic, B., and Blunt, M.J. (2018). In situ characterization of immiscible three-phase flow at the pore scale for a water-wet carbonate rock. Advances in Water Resources, 121, 446-455.
6. Singh, K., Scholl, H., Brinkmann, M., Di Michiel, M., Scheel, M., Herminghaus, S., and Seemann, R. (2017). The role of local instabilities in fluid invasion into permeable media. Scientific Reports, 7, 1, 444.
7. Singh, K., Menke, H., Andrew, M., Lin, Q., Rau, C., Blunt, M. J., and Bijeljic, B. (2017). Dynamics of snap-off and pore-filling events during two-phase fluid flow in permeable media. Scientific Reports, 7, 1, 5192.
8. Scanziani, A., Singh, K., Blunt, M.J., and Guadagnini, A. (2017). Automatic method for estimation of in situ effective contact angle from X-ray micro tomography images of two-phase flow in porous media.Journal of Colloid and Interface Science, 496, 51-59.
9. Alhammadi, A. S. Y., Al-Ratrout, A., Singh, K., Bijeljic, B., and Blunt, M.J. (2017). In situ characterization of mixed-wettability in a reservoir rock at subsurface conditions. Scientific Reports, 7, 10753.
10. Singh, K., Bijeljic, B., and Blunt, M.J. (2016). Imaging of oil layers, curvature and contact angle in a mixed-wet and a water-wet carbonate rock. Water Resources Research, 52, 1716-1728.
11. Saif, T., Qingyang, L., Singh, K., Bijeljic, B., and Blunt, M.J. (2016). Dynamic imaging of oil shale pyrolysis using Synchrotron X-ray micro-tomography. Geophysical Research Letters, 43, 1-9.
12. Singh, K., Niven, R.K., Senden, T.J., Turner, M.L., Sheppard, A.P. & Middleton, J., and Knackstedt, M.A. (2011). Remobilization of residual non-aqueous phase liquid in porous media by freeze-thaw cycles.Environmental Science & Technology, 45, 8, 3473-3478.
13. Niven, R.K., and Singh, K. (2008). Mobilization and rupture of LNAPL ganglia during freeze-thaw: two-dimensional cell experiments. Environmental Science & Technology, 42, 15, 5467-5472.

Modelling Research

1. Raeini, A.Q., Yang, J., Bondino, I., Bultreys, T., Blunt, M.J., and Bijeljic, B. (2019). Validating the generalized pore network model using micro-CT images of two-phase flow. Transport in Porous Media.
2. Bultreys, T., Lin, Q., Gao, Y., Raeini, A.Q., AlRatrout, A., Bijeljic, B., and Blunt, M.J. (2018). Validation of model predictions of pore-scale fluid distributions during two-phase flow. Physical Review E,97(5):053104.
3. Shams, M., Raeini, A.Q., Blunt, M.J., and Bijeljic, B. (2018). A study to investigate viscous coupling effects on the hydraulic conductance of fluid layers in two-phase flow at the pore level. Journal of colloid and interface science, 522:299-310.
4. Raeini, A.Q., Bijeljic, B., and Blunt, M.J. (2018). Generalized network modelling: Capillary-dominated two-phase flow. Physical Review E, 97(2):023308.
5. Shams, M., Raeini, A.Q., Blunt, M.J., and Bijeljic, B. (2018). A numerical model of two-phase flow at the micro-scale using the volume-of-fluid method. Journal of Computational Physics, 357:159–182.
6. Raeini, A.Q., Bijeljic, B., and Blunt, M.J. (2017). Generalized network modeling: Network extraction as a coarse-scale discretization of the void space of porous media. Physical Review E, 96(1):013312.
7. AlRatrout, A., Raeini, A.Q., Bijeljic, B., and Blunt, M.J. (2017). Automatic measurement of contact angle in pore-space images.Advances in Water Resources, 109:158–169.
8. Xie, C., Raeini, A.Q., Wang, Y., Blunt, M.J., and Wang, M. (2017). An improved pore-network model including viscous coupling effects using direct simulation by the lattice Boltzmann method. Advances in Water Resources, 100:26-34.
9. Alyafei, N., Raeini, A.Q., Paluszny, A., and Blunt, M.J. "(2015). A sensitivity study of the effect of image resolution on predicted petrophysical properties. Transport in Porous Media, 110:157–169.
10. Muljadi, B.P., Blunt, M.J., Raeini, A.Q., and Bijeljic, B. (2015). The impact of porous media heterogeneity on non-Darcy flow behaviour from pore-scale simulation. Advances in Water Resources, 95:329-40.
11. Raeini, A.Q., Bijeljic, B., and Blunt, M.J. (2015). Modelling capillary trapping using finite-volume simulation of two-phase flow directly on micro-CT images. Advances in Water Resources, 83:102–110.
12. Raeini, A.Q., Blunt, M.J., and Bijeljic, B. (2014). Direct simulations of two-phase flow on micro-CT images of porous media and upscaling of pore-scale forces.Advances in Water Resources, 74:116–126.
13. Raeini, A.Q., Bijeljic, B., and Blunt, M.J. (2014). Numerical Modelling of Sub-pore Scale Events in Two-Phase Flow Through Porous Media. Transport in Porous Media, 101:191–213.
14. Bijeljic, B., Raeini, A.Q., Mostaghimi, P., and Blunt, M.J. (2013). Predictions of non-Fickian solute transport in different classes of porous media using direct simulation on pore-scale images.Physical Review E, 87:013011.
15. Raeini, A.Q., Blunt, M.J., and Bijeljic, B. (2012). Modelling two-phase flow in porous media at the pore scale using the volume-of-fluid method. Journal of Computational Physics, 231:5653–68.