Response analysis of a laminar premixed M-flame to flow perturbations using a linearized compressible Navier-Stokes solver

Engineering

• Compressible Navier 100%
• Stokes 100%
• Flow Perturbation 100%
• Flame 100%
• Flow Field 44%
• Mechanisms 44%
• Reactant 22%
• Combustion 22%
• Nozzle 11%
• Frequency Response 11%
• Unsteady Flow 11%
• Reacting Flow 11%
• Numerical Model 11%
• One Step 11%
• Direct Simulation 11%
• Vortex Sheet 11%
• Phase Velocity 11%
• Conducted Experiment 11%
• Base Flow 11%
• Acoustic Field 11%
• Numerical Domain 11%
• Group Velocity 11%
• Experiments 11%
• Determines 11%
• Acoustics 11%
• Low Frequency 11%
• Hydrodynamics 11%

INIS

• flames 100%
• perturbations 100%
• navier-stokes equations 100%
• disturbances 44%
• combustion 22%
• dynamics 22%
• feedback 22%
• shape 22%
• acoustics 22%
• sheets 22%
• methane 11%
• chemistry 11%
• layers 11%
• air 11%
• nonlinear problems 11%
• simulation 11%
• investigations 11%
• vortices 11%
• noise 11%
• nozzles 11%
• topology 11%
• flow rate 11%
• steady-state conditions 11%
• hydrodynamics 11%
• unsteady flow 11%
• rims 11%

Physics

• Flames 100%
• Responses 100%
• Flow Distribution 44%
• Combustion 22%
• Shapes 22%
• Acoustics 22%
• Feedback 22%
• Methane 11%
• Steady State 11%
• Numerical Model 11%
• Hydrodynamics 11%
• Phase Velocity 11%
• Base Flow 11%
• Group Velocity 11%
• Frequencies 11%
• Air 11%
• Position (Location) 11%
• Simulation 11%
• Regimes 11%
• Topology 11%
• Domains 11%
• Reacting Flow 11%
• Unsteady Flow 11%