Nonlinear cellular instabilities of planar premixed flames: numerical simulations of the Reactive Navier–Stokes equations
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Publication:5484543
DOI10.1080/13647830500472354zbMath1115.80317OpenAlexW2081766920WikidataQ60501024 ScholiaQ60501024MaRDI QIDQ5484543
Gary J. Sharpe, Sam A. E. G. Falle
Publication date: 21 August 2006
Published in: Combustion Theory and Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/13647830500472354
Navier-Stokes equations for incompressible viscous fluids (76D05) Finite difference methods applied to problems in fluid mechanics (76M20) Combustion (80A25)
Related Items (7)
Hydrodynamic and thermodiffusive instability effects on the evolution of laminar planar lean premixed hydrogen flames ⋮ Numerical simulation of premixed H2–air cellular tubular flames ⋮ Wavelet Methods in Computational Combustion ⋮ Effect of thermal expansion on the linear stability of planar premixed flames for a simple chain-branching model: The high activation energy asymptotic limit ⋮ Turbulent combustion of hydrogen-CO mixtures ⋮ On the transition from deflagration to detonation in narrow tubes ⋮ Dynamics of cellular flame deformation after a head-on interaction with a shock wave: reactive Richtmyer–Meshkov instability
Cites Work
- The cellular nature of hydrodynamic flame instability
- Two-dimensional numerical simulations of idealized detonations
- Flames as gasdynamic discontinuities
- The influence of hydrodynamic instability on the structure of cellular flames
- Numerical study on the formation of cellular premixed flames at high Lewis numbers
- Influence of hydrodynamics and diffusion upon the stability limits of laminar premixed flames
- Nonlinear analysis of hydrodynamic instability in laminar flames—I. Derivation of basic equations
- Nonlinear analysis of hydrodynamic instability in laminar flames—II. Numerical experiments
- Nonlinear Dynamics of Cellular Flames
- Numerical simulations of pulsating detonations: I. Nonlinear stability of steady detonations
- Stability of freely propagating flames revisited
- Linear stability of planar premixed flames: Reactive Navier–Stokes equations with finite activation energy and arbitrary Lewis number
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