| Comprehensive comparison of pore-scale models for multiphase flow in porous media B Zhao, CW MacMinn, BK Primkulov, Y Chen, AJ Valocchi, J Zhao, ... Proceedings of the National Academy of Sciences 116 (28), 13799-13806, 2019 | 265 | 2019 |
| A new compressive scheme to simulate species transfer across fluid interfaces using the Volume-Of-Fluid method J Maes, C Soulaine Chemical Engineering Science 190, 405-418, 2018 | 88 | 2018 |
| Upscaling the porosity–permeability relationship of a microporous carbonate for Darcy-scale flow with machine learning HP Menke, J Maes, S Geiger Scientific reports 11 (1), 2625, 2021 | 84 | 2021 |
| Direct pore-scale reactive transport modelling of dynamic wettability changes induced by surface complexation J Maes, S Geiger Advances in Water Resources 111, 6-19, 2018 | 79 | 2018 |
| A unified single-field Volume-of-Fluid-based formulation for multi-component interfacial transfer with local volume changes J Maes, C Soulaine Journal of Computational Physics 402, 109024, 2020 | 65 | 2020 |
| Computational microfluidics for geosciences C Soulaine, J Maes, S Roman Frontiers in Water 3, 643714, 2021 | 52 | 2021 |
| Spontaneous imbibition in a microchannel: Analytical solution and assessment of volume of fluid formulations S Pavuluri, J Maes, F Doster Microfluidics and nanofluidics 22, 1-18, 2018 | 48 | 2018 |
| GeoChemFoam: Direct modelling of multiphase reactive transport in real pore geometries with equilibrium reactions J Maes, HP Menke Transport in porous media 139 (2), 271-299, 2021 | 42 | 2021 |
| Comparison of flow and transport experiments on 3D printed micromodels with direct numerical simulations F Watson, J Maes, S Geiger, E Mackay, M Singleton, T McGravie, ... Transport in Porous media 129, 449-466, 2019 | 36 | 2019 |
| Scaling analysis of the In-Situ Upgrading of heavy oil and oil shale J Maes, AH Muggeridge, MD Jackson, M Quintard, A Lapene Fuel 195, 299-313, 2017 | 34 | 2017 |
| Towards pore network modelling of spontaneous imbibition: contact angle dependent invasion patterns and the occurrence of dynamic capillary barriers S Pavuluri, J Maes, J Yang, M Regaieg, A Moncorgé, F Doster Computational Geosciences 24, 951-969, 2020 | 26 | 2020 |
| Modelling in-situ upgrading of heavy oil using operator splitting method J Maes, AH Muggeridge, MD Jackson, M Quintard, A Lapene Computational Geosciences 20, 581-594, 2016 | 22 | 2016 |
| GeoChemFoam: Direct modelling of flow and heat transfer in micro-CT images of porous media J Maes, HP Menke Heat and Mass Transfer 58 (11), 1937-1947, 2022 | 21 | 2022 |
| Improved volume-of-solid formulations for micro-continuum simulation of mineral dissolution at the pore-scale J Maes, C Soulaine, HP Menke Frontiers in Earth Science 10, 917931, 2022 | 20 | 2022 |
| Benchmarking the viability of 3D printed micromodels for single phase flow using particle image velocimetry and direct numerical simulations A Patsoukis Dimou, HP Menke, J Maes Transport in Porous Media 141 (2), 279-294, 2022 | 14 | 2022 |
| Channeling is a distinct class of dissolution in complex porous media HP Menke, J Maes, S Geiger Scientific Reports 13 (1), 11312, 2023 | 13 | 2023 |
| Thermal adaptive implicit method: Time step selection J Maes, A Moncorgé, H Tchelepi Journal of Petroleum Science and Engineering 106, 34-45, 2013 | 13 | 2013 |
| An investigation into the upscaling of mineral dissolution from the pore to the core scale AN Faris, J Maes, HP Menke ECMOR XVII 2020 (1), 1-15, 2020 | 8 | 2020 |
| Scaling heat and mass flow through porous media during pyrolysis J Maes, AH Muggeridge, MD Jackson, M Quintard, A Lapene Heat and mass transfer 51 (3), 313-334, 2015 | 7 | 2015 |
| GeoChemFoam: Operator Splitting based time-stepping for efficient Volume-Of-Fluid simulation of capillary-dominated two-phase flow J Maes, HP Menke arXiv preprint arXiv:2105.10576, 2021 | 5 | 2021 |