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LPH de Goey
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Cited by
Year
Modelling of premixed laminar flames using flamelet-generated manifolds
JA Van Oijen, LPH De Goey
Combustion science and technology 161 (1), 113-137, 2000
8212000
The laminar burning velocity of flames propagating in mixtures of hydrocarbons and air measured with the heat flux method
KJ Bosschaart, LPH De Goey
Combustion and Flame 136 (3), 261-269, 2004
5742004
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
4762001
Measurement of flame temperature and adiabatic burning velocity of methane/air mixtures
A Van Maaren, DS Thung, LRH DE GOEY
Combustion Science and Technology 96 (4-6), 327-344, 1994
3731994
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
3532016
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
3512008
Laminar burning velocities of n-heptane, iso-octane, ethanol and their binary and tertiary mixtures
JPJ Van Lipzig, EJK Nilsson, LPH De Goey, AA Konnov
Fuel 90 (8), 2773-2781, 2011
3012011
Detailed analysis of the heat flux method for measuring burning velocities
KJ Bosschaart, LPH De Goey
Combustion and flame 132 (1-2), 170-180, 2003
2902003
Modelling of premixed laminar flames using flamelet-generated manifolds
JA Oijen, LPHD Goey
Combustion Science and Technology 161 (1), 113-137, 2000
2662000
Stabilization of adiabatic premixed laminar flames on a flat flame burner
LPH De Goey, A Van Maaren, RM Quax
Combustion science and technology 92 (1-3), 201-207, 1993
2641993
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
2432002
A review of cavity-based trapped vortex, ultra-compact, high-g, inter-turbine combustors
D Zhao, E Gutmark, P de Goey
progress in energy and combustion science 66, 42-82, 2018
2402018
A review of cavity-based trapped vortex, ultra-compact, high-g, inter-turbine combustors
G zhao
240*
On the determination of the laminar burning velocity from closed vessel gas explosions
AE Dahoe, LPH De Goey
Journal of Loss Prevention in the Process Industries 16 (6), 457-478, 2003
1992003
The effect of elevated pressures on the laminar burning velocity of methane+ air mixtures
M Goswami, SCR Derks, K Coumans, WJ Slikker, ...
Combustion and Flame 160 (9), 1627-1635, 2013
1882013
Premixed combustion on ceramic foam burners
PH Bouma, LPH De Goey
Combustion and Flame 119 (1-2), 133-143, 1999
1811999
Effects of hydrogen enrichment on adiabatic burning velocity and NO formation in methane+ air flames
FHV Coppens, J De Ruyck, AA Konnov
Experimental Thermal and Fluid Science 31 (5), 437-444, 2007
1752007
A flamelet description of premixed laminar flames and the relation with flame stretch
LPH De Goey, JHM ten Thije Boonkkamp
Combustion and flame 119 (3), 253-271, 1999
1701999
The temperature dependence of the laminar burning velocity of ethanol flames
AA Konnov, RJ Meuwissen, LPH De Goey
Proceedings of the Combustion Institute 33 (1), 1011-1019, 2011
1592011
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
1582011
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