A review of the combustion and emissions properties of advanced transportation biofuels and their impact on existing and future engines JM Bergthorson, MJ Thomson Renewable and sustainable energy reviews 42, 1393-1417, 2015 | 513 | 2015 |
An experimental and kinetic modeling study of n-butanol combustion SM Sarathy, MJ Thomson, C Togbé, P Dagaut, F Halter, ... Combustion and Flame 156 (4), 852-864, 2009 | 412 | 2009 |
A wide-ranging kinetic modeling study of methyl butanoate combustion S Gaïl, MJ Thomson, SM Sarathy, SA Syed, P Dagaut, P Diévart, ... Proceedings of the Combustion Institute 31 (1), 305-311, 2007 | 306 | 2007 |
Application of an enhanced PAH growth model to soot formation in a laminar coflow ethylene/air diffusion flame SB Dworkin, Q Zhang, MJ Thomson, NA Slavinskaya, U Riedel Combustion and Flame 158 (9), 1682-1695, 2011 | 292 | 2011 |
A chemical kinetic study of n-butanol oxidation at elevated pressure in a jet stirred reactor P Dagaut, SM Sarathy, MJ Thomson Proceedings of the combustion Institute 32 (1), 229-237, 2009 | 281 | 2009 |
Detailed numerical modeling of PAH formation and growth in non-premixed ethylene and ethane flames NA Slavinskaya, U Riedel, SB Dworkin, MJ Thomson Combustion and Flame 159 (3), 979-995, 2012 | 262 | 2012 |
Chemical kinetic modeling of dimethyl carbonate in an opposed-flow diffusion flame PA Glaude, WJ Pitz, MJ Thomson Proceedings of the Combustion Institute 30 (1), 1111-1118, 2005 | 230 | 2005 |
Modeling soot formation in turbulent kerosene/air jet diffusion flames Z Wen, S Yun, MJ Thomson, MF Lightstone Combustion and Flame 135 (3), 323-340, 2003 | 216 | 2003 |
The evolution of soot morphology in a laminar coflow diffusion flame of a surrogate for Jet A-1 M Kholghy, M Saffaripour, C Yip, MJ Thomson Combustion and Flame 160 (10), 2119-2130, 2013 | 212 | 2013 |
Soot formation with C1 and C2 fuels using an improved chemical mechanism for PAH growth V Chernov, MJ Thomson, SB Dworkin, NA Slavinskaya, U Riedel Combustion and Flame 161 (2), 592-601, 2014 | 205 | 2014 |
The core–shell internal nanostructure of soot–A criterion to model soot maturity MR Kholghy, A Veshkini, MJ Thomson Carbon 100, 508-536, 2016 | 203 | 2016 |
CoFlame: A refined and validated numerical algorithm for modeling sooting laminar coflow diffusion flames NA Eaves, Q Zhang, F Liu, H Guo, SB Dworkin, MJ Thomson Computer Physics Communications 207, 464-477, 2016 | 194 | 2016 |
Experimental and chemical kinetic modeling study of small methyl esters oxidation: Methyl (E)-2-butenoate and methyl butanoate S Gaïl, SM Sarathy, MJ Thomson, P Diévart, P Dagaut Combustion and Flame 155 (4), 635-650, 2008 | 191 | 2008 |
A comparison of saturated and unsaturated C4 fatty acid methyl esters in an opposed flow diffusion flame and a jet stirred reactor SM Sarathy, S Gaïl, SA Syed, MJ Thomson, P Dagaut Proceedings of the Combustion Institute 31 (1), 1015-1022, 2007 | 191 | 2007 |
Experimental investigation and detailed modeling of soot aggregate formation and size distribution in laminar coflow diffusion flames of Jet A-1, a synthetic kerosene, and n-decane M Saffaripour, A Veshkini, M Kholghy, MJ Thomson Combustion and Flame 161 (3), 848-863, 2014 | 174 | 2014 |
Modeling of soot aggregate formation and size distribution in a laminar ethylene/air coflow diffusion flame with detailed PAH chemistry and an advanced sectional aerosol … Q Zhang, H Guo, F Liu, GJ Smallwood, MJ Thomson Proceedings of the Combustion Institute 32 (1), 761-768, 2009 | 168 | 2009 |
Comparison of multiple diagnostic techniques to study soot formation and morphology in a diffusion flame MR Kholghy, Y Afarin, AD Sediako, J Barba, M Lapuerta, C Chu, ... Combustion and Flame 176, 567-583, 2017 | 153 | 2017 |
The importance of reversibility in modeling soot nucleation and condensation processes NA Eaves, SB Dworkin, MJ Thomson Proceedings of the Combustion Institute 35 (2), 1787-1794, 2015 | 153 | 2015 |
Experimental and numerical study of soot formation in laminar coflow diffusion flames of gasoline/ethanol blends A Khosousi, F Liu, SB Dworkin, NA Eaves, MJ Thomson, X He, Y Dai, ... Combustion and Flame 162 (10), 3925-3933, 2015 | 136 | 2015 |
The chemical structures of opposed flow diffusion flames of C3 oxygenated hydrocarbons (isopropanol, dimethoxy methane, and dimethyl carbonate) and their mixtures A Sinha, MJ Thomson Combustion and flame 136 (4), 548-556, 2004 | 135 | 2004 |