| 1 |
Investigation of PAH and soot formation in a dimethyl ether (DME) laminar coflow diffusion flame
Li TJ, Mitra T, Chu C, Yuan Y, Thomson MJ
Combustion and Flame, 223, 437, 2021 |
| 2 |
Polycyclic aromatic hydrocarbon formation in a flame of the alkylated aromatic trimethylbenzene compared to those of the alkane dodecane
Mitra T, Chu C, Naseri A, Thomson MJ
Combustion and Flame, 223, 495, 2021 |
| 3 |
The effects of naphthalene-addition to alkylbenzenes on soot formation
Chu C, Thomson MJ
Combustion and Flame, 215, 169, 2020 |
| 4 |
The chemical structure effects of alkylbenzenes on soot formation in a laminar co-flow flame
Chu C, Zhang TF, Thomson MJ
Combustion and Flame, 204, 237, 2019 |
| 5 |
Understanding the formation and growth of polycyclic aromatic hydrocarbons (PAHs) and young soot from n-dodecane in a sooting laminar coflow diffusion flame
Mitra T, Zhang TF, Sediako AD, Thomson MJ
Combustion and Flame, 202, 33, 2019 |
| 6 |
Development of a numerical model to simulate carbon black synthesis and predict the aggregate structure in flow reactors
Naseri A, Thomson MJ
Combustion and Flame, 207, 314, 2019 |
| 7 |
In Situ Imaging Studies of Combustor Pressure Effects on Soot Oxidation
Sediako AD, Bennett A, Roberts WL, Thomson MJ
Energy & Fuels, 33(2), 1582, 2019 |
| 8 |
Effect of Dewatering Wood-Derived Fast Pyrolysis Oil on Its Fuel Properties for Power Generation
Khan MS, Rafiq M, Sookrah V, Thomson MJ
Energy & Fuels, 33(12), 12403, 2019 |
| 9 |
The distillation curve and sooting propensity of a typical jet fuel
Saggese C, Singh AV, Xue X, Chu C, Kholghy MR, Zhang TF, Camacho J, Giaccai J, Miller JH, Thomson MJ, Sung CJ, Wang H
Fuel, 235, 350, 2019 |
| 10 |
The effects of nozzle design on the combustion of wood-derived fast pyrolysis oil
Albert-Green S, Thomson MJ
Biomass & Bioenergy, 117, 102, 2018 |
