A noncatalytic coating for platinum-rhodium thermocouples JH Kent Combustion and Flame 14, 279-282, 1970 | 297 | 1970 |
A representation of curved boundaries for the solution of the Navier–Stokes equations on a staggered three-dimensional Cartesian grid MP Kirkpatrick, SW Armfield, JH Kent Journal of Computational Physics 184 (1), 1-36, 2003 | 278 | 2003 |
Who do diffusion flames emit smoke JH Kent, HG Wagner Combustion science and technology 41 (5-6), 245-269, 1984 | 243 | 1984 |
Modeling soot formation in turbulent methane–air jet diffusion flames A Kronenburg, RW Bilger, JH Kent Combustion and Flame 121 (1-2), 24-40, 2000 | 226 | 2000 |
Three-dimensional furnace computer modelling RK Boyd, JH Kent Symposium (International) on Combustion 21 (1), 265-274, 1988 | 208 | 1988 |
Soot and mixture fraction in turbulent diffusion flames JH Kent, D Honnery Combustion Science and Technology 54 (1-6), 383-398, 1987 | 198 | 1987 |
Fuel consumption and emission modelling by power demand and a comparison with other models K Post, JH Kent, J Tomlin, N Carruthers Transportation Research Part A: General 18 (3), 191-213, 1984 | 147 | 1984 |
A soot formation rate map for a laminar ethylene diffusion flame JH Kent, DR Honnery Combustion and Flame 79 (3-4), 287-298, 1990 | 143 | 1990 |
Parametric effects on sooting in turbulent acetylene diffusion flames JH Kent, SJ Bastin Combustion and flame 56 (1), 29-42, 1984 | 130 | 1984 |
A driving cycle for Sydney JH Kent, GH Allen, G Rule Transportation Research 12 (3), 147-152, 1978 | 129 | 1978 |
The prediction of turbulent diffusion flame fields and nitric oxide formation JH Kent, RW Bilger Symposium (International) on Combustion 16 (1), 1643-1656, 1977 | 125 | 1977 |
An integral model for the transient pyrolysis of solid materials B Moghtaderi, V Novozhilov, D Fletcher, JH Kent Fire and Materials 21 (1), 7-16, 1997 | 124 | 1997 |
Modeling formation and oxidation of soot in nonpremixed flames M Sirignano, J Kent, A D’Anna Energy & Fuels 27 (4), 2303-2315, 2013 | 122 | 2013 |
Soot measurements in laminar ethylene diffusion flames JH Kent, HG Wagner Combustion and Flame 47, 53-65, 1982 | 122 | 1982 |
Numerical simulations of smoke movement from a pool fire in a ventilated tunnel DF Fletcher, JH Kent, VB Apte, AR Green Fire Safety Journal 23 (3), 305-325, 1994 | 120 | 1994 |
A model of particulate and species formation applied to laminar, nonpremixed flames for three aliphatic-hydrocarbon fuels A D'Anna, JH Kent Combustion and Flame 152 (4), 573-587, 2008 | 117 | 2008 |
A new correlation for bench-scale piloted ignition data of wood B Moghtaderi, V Novozhilov, DF Fletcher, JH Kent Fire safety journal 29 (1), 41-59, 1997 | 107 | 1997 |
Turbulent diffusion flames JH Kent, RW Bilger Symposium (international) on combustion 14 (1), 615-625, 1973 | 106 | 1973 |
A model of particle nucleation in premixed ethylene flames A D’Anna, M Sirignano, J Kent Combustion and flame 157 (11), 2106-2115, 2010 | 99 | 2010 |
Pool fire plume flow in a large-scale wind tunnel VB Apte, AR Green, JH Kent Fire Safety Science, 425-434, 1991 | 95 | 1991 |