Self-similarly developing, premixed, turbulent flames: A theoretical study
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Publication:3555119
DOI10.1063/1.1921250zbMath1187.80032OpenAlexW2063915074MaRDI QIDQ3555119
Andrei N. Lipatnikov, Jerzy Chomiak
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.1921250
Related Items (23)
A DNS study of the physical mechanisms associated with density ratio influence on turbulent burning velocity in premixed flames ⋮ Turbulent scalar fluxes in H2-air premixed flames at low and high Karlovitz numbers ⋮ Backscatter of scalar variance in turbulent premixed flames ⋮ Displacement speed, flame surface density and burning rate in highly turbulent premixed flames characterized by low Lewis numbers ⋮ A self-similar premixed turbulent flame model ⋮ A numerical study promoting algebraic models for the Lewis number effect in atmospheric turbulent premixed Bunsen flames ⋮ Direct numerical simulations of premixed turbulent flames with reduced chemistry: validation and flamelet analysis ⋮ Flamelet perturbations and flame surface density transport in weakly turbulent premixed combustion ⋮ Assessing diffusion model impacts on enstrophy and flame structure in turbulent lean premixed flames ⋮ Progress in the self-similar turbulent flame premixed combustion model ⋮ Role of Darrieus–Landau instability in propagation of expanding turbulent flames ⋮ Influence of molecular transport on burning rate and conditioned species concentrations in highly turbulent premixed flames ⋮ Mesoscale elements description of turbulent flow ⋮ Statistics conditioned to isoscalar surfaces in highly turbulent premixed reacting systems ⋮ Transient behavior of turbulent scalar transport in premixed flames ⋮ Experimental measurement of local burning velocity within a rotating flow ⋮ Investigation of the influence of combustion-induced thermal expansion on two-point turbulence statistics using conditioned structure functions ⋮ Iso-surface mass flow density and its implications for turbulent mixing and combustion ⋮ Using self-similar properties of turbulent premixed flames to downsize chemical tables in high-performance numerical simulations ⋮ Evolution of local flame displacement speeds in turbulence ⋮ Isolating strain and curvature effects in premixed flame/vortex interactions ⋮ Log-correlated large-deviation statistics governing Huygens fronts in turbulence ⋮ Evolution equations for the decomposed components of displacement speed in a reactive scalar field
Cites Work
- Turbulent transport in flames
- Turbulent Combustion
- Gradient, counter-gradient transport and their transition in turbulent premixed flames
- Position, thickness and transport properties of turbulent premixed flames in stagnating flows
- On the Statistical Theory of Isotropic Turbulence
- Front propagation into unstable states: Universal algebraic convergence towards uniformly translating pulled fronts
- Unnamed Item
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