| CO2 sequestration in depleted oil and gas reservoirs—caprock characterization and storage capacity Z Li, M Dong, S Li, S Huang Energy conversion and management 47 (11-12), 1372-1382, 2006 | 396 | 2006 |
| The imbibition and flow of a wetting liquid along the corners of a square capillary tube M Dong, I Chatzis Journal of colloid and interface science 172 (2), 278-288, 1995 | 323 | 1995 |
| Enhanced heavy oil recovery through interfacial instability: A study of chemical flooding for Brintnell heavy oil M Dong, S Ma, Q Liu Fuel 88 (6), 1049-1056, 2009 | 309 | 2009 |
| Surfactant enhanced alkaline flooding for Western Canadian heavy oil recovery Q Liu, M Dong, S Ma, Y Tu Colloids and Surfaces A: Physicochemical and Engineering Aspects 293 (1-3 …, 2007 | 252 | 2007 |
| Synergy of alkali and surfactant in emulsification of heavy oil in brine Q Liu, M Dong, X Yue, J Hou Colloids and Surfaces A: Physicochemical and Engineering Aspects 273 (1-3 …, 2006 | 252 | 2006 |
| Asphaltene deposition during CO2 flooding RK Srivastava, SS Huang, M Dong SPE production & facilities 14 (04), 235-245, 1999 | 251 | 1999 |
| Gas breakthrough pressure for hydrocarbon reservoir seal rocks: implications for the security of long‐term CO2 storage in the Weyburn field S LI, M DONG, Z LI, S Huang, H Qing, E Nickel Geofluids 5 (4), 326-334, 2005 | 245 | 2005 |
| Optimum effective viscosity of polymer solution for improving heavy oil recovery J Wang, M Dong Journal of Petroleum Science and Engineering 67 (3-4), 155-158, 2009 | 222 | 2009 |
| Enhanced oil recovery by branched-preformed particle gel injection in parallel-sandpack models Q Sang, Y Li, L Yu, Z Li, M Dong Fuel 136, 295-306, 2014 | 218 | 2014 |
| A comparison of CO2 minimum miscibility pressure determinations for Weyburn crude oil M Dong, S Huang, SB Dyer, FM Mourits Journal of Petroleum Science and Engineering 31 (1), 13-22, 2001 | 189 | 2001 |
| Which one is more important in chemical flooding for enhanced court heavy oil recovery, lowering interfacial tension or reducing water mobility? H Zhang, M Dong, S Zhao Energy & fuels 24 (3), 1829-1836, 2010 | 171 | 2010 |
| Development of an artificial neural network model for predicting minimum miscibility pressure in CO2 flooding YF Huang, GH Huang, MZ Dong, GM Feng Journal of Petroleum science and Engineering 37 (1-2), 83-95, 2003 | 162 | 2003 |
| Densities and solubilities for binary systems of carbon dioxide+ water and carbon dioxide+ brine at 59 C and pressures to 29 MPa Z Li, M Dong, S Li, L Dai Journal of Chemical & Engineering Data 49 (4), 1026-1031, 2004 | 160 | 2004 |
| Displacement mechanisms of enhanced heavy oil recovery by alkaline flooding in a micromodel M Dong, Q Liu, A Li Particuology 10 (3), 298-305, 2012 | 145 | 2012 |
| Alkaline/surfactant flood potential in western Canadian heavy oil reservoirs Q Liu, M Dong, S Ma SPE Improved Oil Recovery Conference?, SPE-99791-MS, 2006 | 141 | 2006 |
| Comparative effectiveness of CO2, produced gas, and flue gas for enhanced heavy-oil recovery RK Srivastava, SS Huang, M Dong SPE Reservoir Evaluation & Engineering 2 (03), 238-247, 1999 | 133 | 1999 |
| Laboratory Investigation of Weyburn CO2 Miscible Flooding RK Srivastava, SS Huang, M Dong Journal of Canadian Petroleum Technology 39 (02), 2000 | 132 | 2000 |
| Effect of oil viscosity on heavy-oil/water relative permeability curves J Wang, M Dong, K Asghari SPE Improved Oil Recovery Conference?, SPE-99763-MS, 2006 | 131 | 2006 |
| Improved oil recovery by adsorption–desorption in chemical flooding Q Liu, M Dong, W Zhou, M Ayub, YP Zhang, S Huang Journal of Petroleum Science and Engineering 43 (1-2), 75-86, 2004 | 127 | 2004 |
| Effect of wettability alteration on enhanced heavy oil recovery by alkaline flooding H Gong, Y Li, M Dong, S Ma, W Liu Colloids and Surfaces A: Physicochemical and Engineering Aspects 488, 28-35, 2016 | 124 | 2016 |
