| 1 |
A COMPARISON OF EVAPORATING SPRAY STRUCTURE OF JATROPHAMETHYL ESTER AND DIESEL, AND SURROGATE FUELS
Boggavarapu P, Ravikrishna RV
Atomization and Sprays, 28(9), 797, 2018 |
| 2 |
Reduction of a detailed chemical mechanism for a kerosene surrogate via RCCE-CSP
Koniavitis P, Rigopoulos S, Jones WP
Combustion and Flame, 194, 85, 2018 |
| 3 |
Development of a reduced n-heptane-n-butylbenzene-polycyclic aromatic hydrocarbon (PAH) mechanism for engine combustion simulation and soot prediction
Huang HZ, Zhu JZ, Lv DL, Wei YP, Zhu ZJ, Yu BB, Chen YJ
Energy, 165, 90, 2018 |
| 4 |
The effect of nozzle geometry over the evaporative spray formation for three different fuels
Payri R, Viera JP, Gopalakrishnan V, Szymkowicz PG
Fuel, 188, 645, 2017 |
| 5 |
The effect of nozzle geometry over ignition delay and flame lift-off of reacting direct-injection sprays for three different fuels
Payri R, Viera JP, Gopalakrishnan V, Szymkowicz PG
Fuel, 199, 76, 2017 |
| 6 |
Compositional effects on the ignition of FACE gasolines
Sarathy SM, Kukkadapu G, Mehl M, Javed T, Ahmed A, Naser N, Tekawade A, Kosiba G, AlAbbad M, Singh E, Park S, Al Rashidi M, Chung SH, Roberts WL, Oehlschlaeger MA, Sung CJ, Farooq A
Combustion and Flame, 169, 171, 2016 |
| 7 |
Sooting propensities of some gasoline surrogate fuels: Combined effects of fuel blending and air vitiation
Kashif M, Bonnety J, Matynia A, Da Costa P, Legros G
Combustion and Flame, 162(5), 1840, 2015 |
| 8 |
Mechanism reduction for multicomponent surrogates: A case study using toluene reference fuels
Niemeyer KE, Sung CJ
Combustion and Flame, 161(11), 2752, 2014 |
| 9 |
A chemical mechanism for ignition and oxidation of multi-component gasoline surrogate fuels
Zhong BJ, Zheng D
Fuel, 128, 458, 2014 |
| 10 |
A comparative ab initio study of hydrogen abstraction from n-propyl benzene
Robinson RK, Lindstedt RP
Combustion and Flame, 160(12), 2642, 2013 |
