| 1 |
A 2-D DNS study of the effects of nozzle geometry, ignition kernel placement and initial turbulence on prechamber ignition
Benekos S, Frouzakis CE, Giannakopoulos GK, Altantzis C, Boulouchos K
Combustion and Flame, 225, 272, 2021 |
| 2 |
Direct numerical simulations and models for hot burnt gases jet ignition
Male Q, Vermorel O, Ravet F, Poinsot T
Combustion and Flame, 223, 407, 2021 |
| 3 |
High-speed continuous production of polymeric nanoparticles with improved stability using a self-aligned coaxial turbulent jet mixer
Han HW, Yoon JH, Yi GR, Choi WI, Lim JM
Journal of Industrial and Engineering Chemistry, 97, 411, 2021 |
| 4 |
Continuous synthesis of stable ferrocene nanoparticles using a self-aligned coaxial turbulent jet mixer
Na YH, Jeong SH, Woo JS, Han HW, Choi WI, Lim JM, Sung DK
Journal of Industrial and Engineering Chemistry, 97, 434, 2021 |
| 5 |
Prechamber ignition: An exploratory 2-D DNS study of the effects of initial temperature and main chamber composition
Benekos S, Frouzakis CE, Giannakopoulos GK, Bolla M, Wright YM, Boulouchos K
Combustion and Flame, 215, 10, 2020 |
| 6 |
Large-Eddy Simulation and analysis of a sooting lifted turbulent jet flame
Grader M, Eberle C, Gerlinger P
Combustion and Flame, 215, 458, 2020 |
| 7 |
Experimental and numerical investigations of charge motion and combustion in lean-burn natural gas engines
Korb B, Kuppa K, Nguyen HD, Dinkelacker F, Wachtmeister G
Combustion and Flame, 212, 309, 2020 |
| 8 |
Analytical and numerical study of near-field ignition of H-2/air by injection of hot gas
Feyz ME, Hasti VR, Gore JP, Nalim MR
Combustion and Flame, 219, 373, 2020 |
| 9 |
Blowout of non-premixed turbulent jet flames with coflow under microgravity condition
Wang Q, Hu LH, Wang SM, Wang SF, Chung SH, Fujita O
Combustion and Flame, 210, 315, 2019 |
| 10 |
Flame profile parameters of horizontal turbulent jets: Experiments, similarity analysis and an integral model
Liu SX, Delichatsios MA, Hu LH
Combustion and Flame, 207, 1, 2019 |
