Morphology and turbulent burning velocity of n-decane/air expanding flames at constant turbulent Reynolds numbers
In this work we experimentally investigated the propagation and the turbulent burning
velocity of n-decane/air turbulent expanding flames at 423 K and 0.5-3.0 atm, with constant …
velocity of n-decane/air turbulent expanding flames at 423 K and 0.5-3.0 atm, with constant …
Thickened Flame LES methodology for turbulent propagating flames in non-homogeneous mixtures: application to a constant volume chamber
N Detomaso, D Laera, O Dounia, C Mocquard… - Proceedings of the …, 2024 - Elsevier
Abstract A Large Eddy Simulation methodology is presented in the framework of the
Thickened Flame model, to predict the dynamics of turbulent propagating flames in non …
Thickened Flame model, to predict the dynamics of turbulent propagating flames in non …
Introduction of auto-ignition in the Thickened Flame model for Large Eddy Simulations of reheat systems
An extension of the Dynamic Thickened Flame model (DTF) Legier et al.,(2000) called
DTF_AI (Dynamic Thickened Flame model for Auto-Ignition) meant to provide a more …
DTF_AI (Dynamic Thickened Flame model for Auto-Ignition) meant to provide a more …
Thickened Flame Model Extension for Dual Gas Turbine Combustion: Validation Against Single Cup Atmospheric Test
R Meloni, G Babazzi, N Giannini… - … for Gas Turbines …, 2025 - asmedigitalcollection.asme.org
The development of predictive combustion models is more and more strategic in the design
definition of gas turbine (GT) combustor. The thickened flame model (TFM), despite its high …
definition of gas turbine (GT) combustor. The thickened flame model (TFM), despite its high …
Models for Large-Eddy Simulation of reheat combustion
Two-phase reactive turbulent Large-Eddy Simulations (LES) of the single flameholder
postcombustion test rig of Georgia Tech (Cross et al., 2011) are presented and compared to …
postcombustion test rig of Georgia Tech (Cross et al., 2011) are presented and compared to …