1 |
Modeling cycle-to-cycle variations in spark ignited combustion engines by scale-resolving simulations for different engine speeds Masouleh MG, Keskinen K, Kaario O, Kahila H, Karimkashi S, Vuorinen V Applied Energy, 250, 801, 2019 |
2 |
Restoring Property of the Michelson-Sivashinsky Equation Trucchia A, Pagnini G Combustion Science and Technology, 191(9), 1734, 2019 |
3 |
Flow and thermal field effects on cycle-to-cycle variation of combustion: scale-resolving simulation in a spark ignited simplified engine configuration Masouleh MG, Keskinen K, Kaario O, Kahila H, Wright YM, Vuorinen V Applied Energy, 230, 486, 2018 |
4 |
Modelling turbulent premixed flame-wall interactions including flame quenching and near-wall turbulence based on a level-set flamelet approach Suckart D, Linse D Combustion and Flame, 190, 50, 2018 |
5 |
Development of a comprehensive flame transfer function and its application to predict combustion instabilities in a dump combustor Rani VK, Rani SL Combustion Science and Technology, 190(8), 1313, 2018 |
6 |
3D CFD simulation of a CI engine converted to SI natural gas operation using the G-equation Liu JL, Dumitrescu CE Fuel, 232, 833, 2018 |
7 |
The turbulent flame speed for low-to-moderate turbulence intensities: Hydrodynamic theory vs. experiments Fogla N, Creta F, Matalon M Combustion and Flame, 175, 155, 2017 |
8 |
THE EFFECT OF A LAMINAR MOVING FLAME FRONT ON THERMOACOUSTIC OSCILLATIONS OF AN ANCHORED DUCTED V-FLAME Luzzato CM, Morgans AS Combustion Science and Technology, 187(3), 410, 2015 |
9 |
Analysis of flamelet leading point dynamics in an inhomogeneous flow Amato A, Lieuwen TC Combustion and Flame, 161(5), 1337, 2014 |
10 |
Novel perspectives on the dynamics of premixed flames Blumenthal RS, Subramanian P, Sujith RI, Polifke W Combustion and Flame, 160(7), 1215, 2013 |