Laminar burning velocity and Markstein lengths of methane–air mixtures XJ Gu, MZ Haq, M Lawes, R Woolley Combustion and flame 121 (1-2), 41-58, 2000 | 1059 | 2000 |
Burning velocities, Markstein lengths, and flame quenching for spherical methane-air flames: a computational study D Bradley, PH Gaskell, XJ Gu Combustion and flame 104 (1-2), 176-198, 1996 | 875 | 1996 |
Modes of reaction front propagation from hot spots XJ Gu, DR Emerson, D Bradley Combustion and flame 133 (1-2), 63-74, 2003 | 423 | 2003 |
A high-order moment approach for capturing non-equilibrium phenomena in the transition regime X Gu, DR Emerson Journal of fluid mechanics 636, 177-216, 2009 | 262 | 2009 |
Biomimetic design of microfluidic manifolds based on a generalised Murray's law DR Emerson, K Cieślicki, X Gu, RW Barber Lab on a Chip 6 (3), 447-454, 2006 | 207 | 2006 |
Capturing Knudsen layer phenomena using a lattice Boltzmann model YH Zhang, XJ Gu, RW Barber, DR Emerson Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 74 (4 …, 2006 | 195 | 2006 |
Amplified pressure waves during autoignition: relevance to CAI engines D Bradley, C Morley, XJ Gu, DR Emerson SAE transactions, 2679-2690, 2002 | 174 | 2002 |
Premixed turbulent flame instability and NO formation in a lean-burn swirl burner D Bradley, PH Gaskell, XJ Gu, M Lawes, MJ Scott Combustion and Flame 115 (4), 515-538, 1998 | 167 | 1998 |
A computational strategy for the regularized 13 moment equations with enhanced wall-boundary conditions XJ Gu, DR Emerson Journal of computational physics 225 (1), 263-283, 2007 | 150 | 2007 |
Investigation of heat and mass transfer in a lid-driven cavity under nonequilibrium flow conditions B John, XJ Gu, DR Emerson Numerical Heat Transfer, Part B: Fundamentals 58 (5), 287-303, 2010 | 139 | 2010 |
Jet flame heights, lift-off distances, and mean flame surface density for extensive ranges of fuels and flow rates D Bradley, PH Gaskell, X Gu, A Palacios Combustion and Flame 164, 400-409, 2016 | 119 | 2016 |
Application of a Reynolds stress, stretched flamelet, mathematical model to computations of turbulent burning velocities and comparison with experiments D Bradley, PH Gaskell, XJ Gu Combustion and flame 96 (3), 221-248, 1994 | 116 | 1994 |
The mathematical modeling of liftoff and blowoff of turbulent non-premixed methane jet flames at high strain rates D Bradley, PH Gaskell, XJ Gu Symposium (International) on Combustion 27 (1), 1199-1206, 1998 | 106 | 1998 |
Premixed flamelet modelling: Factors influencing the turbulent heat release rate source term and the turbulent burning velocity D Bradley, PH Gaskell, XJ Gu, A Sedaghat Combustion and flame 143 (3), 227-245, 2005 | 90 | 2005 |
Effects of incomplete surface accommodation on non-equilibrium heat transfer in cavity flow: A parallel DSMC study B John, XJ Gu, DR Emerson Computers & fluids 45 (1), 197-201, 2011 | 81 | 2011 |
Lattice Boltzmann modelling Knudsen layer effect in non-equilibrium flows GH Tang, YH Zhang, XJ Gu, DR Emerson Europhysics letters 83 (4), 40008, 2008 | 80 | 2008 |
Isothermal slip flow over curved surfaces RW Barber, Y Sun, XJ Gu, DR Emerson Vacuum 76 (1), 73-81, 2004 | 80 | 2004 |
On the apparent permeability of porous media in rarefied gas flows L Wu, MT Ho, L Germanou, XJ Gu, C Liu, K Xu, Y Zhang Journal of Fluid Mechanics 822, 398-417, 2017 | 79 | 2017 |
Nonplanar oscillatory shear flow: From the continuum to the free-molecular regime DR Emerson, XJ Gu, SK Stefanov, S Yuhong, RW Barber Physics of Fluids 19 (10), 2007 | 71 | 2007 |
TELEMAC: An efficient hydrodynamics suite for massively parallel architectures C Moulinec, C Denis, CT Pham, D Rougé, JM Hervouet, E Razafindrakoto, ... Computers & Fluids 51 (1), 30-34, 2011 | 68 | 2011 |