The core–shell internal nanostructure of soot–A criterion to model soot maturity MR Kholghy, A Veshkini, MJ Thomson Carbon 100, 508-536, 2016 | 187 | 2016 |
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 | 163 | 2014 |
A numerical study of high pressure, laminar, sooting, ethane–air coflow diffusion flames NA Eaves, A Veshkini, C Riese, Q Zhang, SB Dworkin, MJ Thomson Combustion and Flame 159 (10), 3179-3190, 2012 | 122 | 2012 |
A soot particle surface reactivity model applied to a wide range of laminar ethylene/air flames A Veshkini, SB Dworkin, MJ Thomson Combustion and Flame 161 (12), 3191-3200, 2014 | 95 | 2014 |
Application of PAH-condensation reversibility in modeling soot growth in laminar premixed and nonpremixed flames A Veshkini, NA Eaves, SB Dworkin, MJ Thomson Combustion and Flame 167, 335-352, 2016 | 92 | 2016 |
Detailed modeling of CO2 addition effects on the evolution of soot particle size distribution functions in premixed laminar ethylene flames A Naseri, A Veshkini, MJ Thomson Combustion and Flame 183, 75-87, 2017 | 53 | 2017 |
The role of reactive PAH dimerization in reducing soot nucleation reversibility MR Kholghy, NA Eaves, A Veshkini, MJ Thomson Proceedings of the Combustion Institute 37 (1), 1003-1011, 2019 | 44 | 2019 |
Understanding soot particle size evolution in laminar ethylene/air diffusion flames using novel soot coalescence models A Veshkini, SB Dworkin, MJ Thomson Combustion Theory and Modelling 20 (4), 707-734, 2016 | 37 | 2016 |
A computational study of soot formation and flame structure of coflow laminar methane/air diffusion flames under microgravity and normal gravity A Veshkini, SB Dworkin Combustion Theory and Modelling 21 (5), 864-878, 2017 | 14 | 2017 |
Modeling for predicting frost behavior of a fin-tube heat exchanger with thermal contact resistance Y Shokouhmand, H. Esmaili, E. Veshkini, A. Sarabi ASHRAE Transactions 115 (1), 538-551, 2009 | 7 | 2009 |
Understanding Soot Particle Growth Chemistry and Particle Sizing Using a Novel Soot Growth and Formation Model A Veshkini University of Toronto (Canada), 2015 | 5 | 2015 |
Effect of nucleation reversibil-ity on predicting soot particle size distributions in premixed flames A Veshkini, N Eaves, S Dworkin, M Thomson 8th International Seminar on Flame Structure, 2014 | 4 | 2014 |