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Strain rate effects on the nonlinear development of hydrodynamically unstable flames
F. Creta,
M. Matalon
Mechanical Science and Engineering
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Dive into the research topics of 'Strain rate effects on the nonlinear development of hydrodynamically unstable flames'. Together they form a unique fingerprint.
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Keyphrases
Hydrodynamic Instability
100%
Nonlinear Development
100%
Strain Rate Effect
100%
Unstable Flame
100%
Strain Effect
50%
Variable Density
50%
Cusp
50%
Navier-Stokes Equations
50%
Propagation Speed
50%
Linear Stability Analysis
50%
Hydrodynamic Model
50%
Stabilizing Effect
50%
Premixed Flame
50%
Stability Threshold
50%
Free Boundary Problem
50%
Flame Speed
50%
Level Set Equation
50%
Flame Surface Area
50%
Flame Stretch
50%
Engineering
Hydrodynamics
100%
Strain Rate Effect
100%
Level Set
33%
Effect of Strain
33%
Propagation Speed
33%
Navier-Stokes Equation
33%
Linear Stability Analysis
33%
Hydrodynamic Model
33%
Premixed Flame
33%