| Modelling of premixed laminar flames using flamelet-generated manifolds JA Van Oijen, LPH De Goey Combustion science and technology 161 (1), 113-137, 2000 | 1146 | 2000 |
| Modeling of complex premixed burner systems by using flamelet-generated manifolds JA Van Oijen, FA Lammers, LPH De Goey Combustion and Flame 127 (3), 2124-2134, 2001 | 502 | 2001 |
| State-of-the-art in premixed combustion modeling using flamelet generated manifolds JA Van Oijen, A Donini, RJM Bastiaans, JHM ten Thije Boonkkamp, ... Progress in Energy and Combustion Science 57, 30-74, 2016 | 418 | 2016 |
| Premixed and nonpremixed generated manifolds in large-eddy simulation of Sandia flame D and F AW Vreman, BA Albrecht, JA Van Oijen, LPH De Goey, RJM Bastiaans Combustion and Flame 153 (3), 394-416, 2008 | 358 | 2008 |
| Modelling of premixed counterflow flames using the flamelet-generated manifold method JA Van Oijen, LPH De Goey Combustion Theory and Modelling 6 (3), 463, 2002 | 254 | 2002 |
| Flamelet-generated manifolds: development and application to premixed laminar flames JA van Oijen | 206 | 2002 |
| Modeling biomass particle pyrolysis with temperature-dependent heat of reactions Y Haseli, JA Van Oijen, LPH De Goey Journal of Analytical and Applied Pyrolysis 90 (2), 140-154, 2011 | 171 | 2011 |
| A detailed one-dimensional model of combustion of a woody biomass particle Y Haseli, JA Van Oijen, LPH De Goey Bioresource Technology 102 (20), 9772-9782, 2011 | 129 | 2011 |
| Temperature and phase transitions of laser-ignited single iron particle D Ning, Y Shoshin, M van Stiphout, J van Oijen, G Finotello, P de Goey Combustion and flame 236, 111801, 2022 | 117 | 2022 |
| Burn time and combustion regime of laser-ignited single iron particle D Ning, Y Shoshin, JA van Oijen, G Finotello, LPH De Goey Combustion and flame 230, 111424, 2021 | 112 | 2021 |
| Low-dimensional manifolds in direct numerical simulations of premixed turbulent flames JA Van Oijen, RJM Bastiaans, LPH De Goey Proceedings of the Combustion Institute 31 (1), 1377-1384, 2007 | 107 | 2007 |
| A 5-D implementation of FGM for the large eddy simulation of a stratified swirled flame with heat loss in a gas turbine combustor A Donini, RJ M. Bastiaans, JA Van Oijen, LP H. de Goey Flow, turbulence and combustion 98, 887-922, 2017 | 103 | 2017 |
| Modeling non-premixed laminar co-flow flames using flamelet-generated manifolds LM Verhoeven, WJS Ramaekers, JA Van Oijen, LPH De Goey Combustion and Flame 159 (1), 230-241, 2012 | 103 | 2012 |
| Intrinsic low-dimensional manifold method extended with diffusion H Bongers, JA Van Oijen, LPH De Goey Proceedings of the Combustion Institute 29 (1), 1371-1378, 2002 | 98 | 2002 |
| Subgrid scale modeling in large-eddy simulation of turbulent combustion using premixed flamelet chemistry AW Vreman, JA Van Oijen, LPH De Goey, RJM Bastiaans Flow, Turbulence and Combustion 82, 511-535, 2009 | 96 | 2009 |
| A numerical study of confined triple flames using a flamelet-generated manifold JA Van Oijen, LPH De Goey Combustion Theory and Modelling 8 (1), 141, 2004 | 93 | 2004 |
| Comparison and evaluation of methods for the determination of flammability limits, applied to methane/hydrogen/air mixtures F Van den Schoor, RTE Hermanns, JA Van Oijen, F Verplaetsen, ... Journal of hazardous materials 150 (3), 573-581, 2008 | 91 | 2008 |
| Inclusion of preferential diffusion in simulations of premixed combustion of hydrogen/methane mixtures with flamelet generated manifolds JAM de Swart, RJM Bastiaans, JA van Oijen, LPH de Goey, RS Cant Flow, turbulence and combustion 85, 473-511, 2010 | 76 | 2010 |
| Direct numerical simulation of autoigniting mixing layers in MILD combustion JA Van Oijen Proceedings of the Combustion Institute 34 (1), 1163-1171, 2013 | 75 | 2013 |
| A flamelet analysis of the burning velocity of premixed turbulent expanding flames JA Van Oijen, GRA Groot, RJM Bastiaans, LPH De Goey Proceedings of the Combustion Institute 30 (1), 657-664, 2005 | 73 | 2005 |
