On flame speed enhancement in turbulent premixed hydrogen-air flames during local flame-flame interaction
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U. Toronto | Toronto | S. Arabia | H. Im | C. Law | Wonsik Song | A. Engineering | Usa | Yuvraj | Canada | Thuwal | P. University | D. Mechanical | Technology | King Abdullah University of Science | Yazdan Naderzadeh Ardebili | Swetaprovo Chaudhuri Institute for Aerospace Studies | Clean Combustion Research Center
[1] H. Im,et al. Diffusive effects of hydrogen on pressurized lean turbulent hydrogen-air premixed flames , 2022, Combustion and Flame.
[2] H. Pitsch,et al. Effects of differential diffusion on hydrogen flame kernel development under engine conditions , 2022, Proceedings of the Combustion Institute.
[3] B. Savard,et al. Turbulent flame speed based on the mass flow rate: Theory and DNS , 2022, Combustion and Flame.
[4] D. Veynante,et al. Direct Numerical Simulations of high Karlovitz number premixed flames for the analysis and modeling of the displacement speed. , 2022, Combustion and Flame.
[5] P. Dai,et al. A DNS study of extreme and leading points in lean hydrogen-air turbulent flames - part II: Local velocity field and flame topology , 2021, Combustion and Flame.
[6] H. Im,et al. Local flame displacement speeds of hydrogen-air premixed flames in moderate to intense turbulence , 2021, Combustion and Flame.
[7] E. Hawkes,et al. Flame Annihilation Displacement Speed and Stretch Rate in Turbulent Premixed Flames , 2020 .
[8] Swetaprovo Chaudhuri,et al. Evolution of local flame displacement speeds in turbulence , 2019, Journal of Fluid Mechanics.
[9] M. Brear,et al. Annihilation events topology and their generated sound in turbulent premixed flames , 2019, Combustion and Flame.
[10] M. Klein,et al. Effects of Lewis Number on the Evolution of Curvature in Spherically Expanding Turbulent Premixed Flames , 2019, Fluids.
[11] E. Villermaux. Mixing Versus Stirring , 2019, Annual Review of Fluid Mechanics.
[12] R. Huddleston. Structure , 2018, Jane Austen's Style.
[13] Swetaprovo Chaudhuri,et al. Genesis and evolution of premixed flames in turbulence , 2018, Combustion and Flame.
[14] Bok Jik Lee,et al. Direct numerical simulations of reacting flows with detailed chemistry using many-core/GPU acceleration , 2018, Computers & Fluids.
[15] C. Dopazo,et al. Analysis of flame curvature evolution in a turbulent premixed bluff body burner , 2018, Physics of Fluids.
[16] Swetaprovo Chaudhuri,et al. Direct Numerical Simulations of Statistically Stationary Turbulent Premixed Flames , 2016 .
[17] A. Tomboulides,et al. Consistent definitions of “Flame Displacement Speed” and “Markstein Length” for premixed flame propagation , 2015 .
[18] N. Kingsbury,et al. Flame Interactions in Turbulent Premixed Twin V-Flames , 2013 .
[19] M. P. Burke,et al. Comprehensive H2/O2 kinetic model for high‐pressure combustion , 2012 .
[20] C. Law,et al. Spectral formulation of turbulent flame speed with consideration of hydrodynamic instability. , 2011, Physical review. E, Statistical, nonlinear, and soft matter physics.
[21] Hong G. Im,et al. Characteristic boundary conditions for simulations of compressible reacting flows with multi-dimensional, viscous and reaction effects , 2007 .
[22] Yi Wang,et al. Characteristic boundary conditions for direct simulations of turbulent counterflow flames , 2005 .
[23] Nilanjan Chakraborty,et al. Influence of Lewis number on curvature effects in turbulent premixed flame propagation in the thin reaction zones regime , 2005 .
[24] N. Chakraborty,et al. Effects of strain rate and curvature on surface density function transport in turbulent premixed flames in the thin reaction zones regime , 2005 .
[25] Zhenwei Zhao,et al. An updated comprehensive kinetic model of hydrogen combustion , 2004 .
[26] S. Ghosal,et al. A similarity solution describing the collision of two planar premixed flames , 2003 .
[27] Moshe Matalon,et al. Hydrodynamic theory of premixed flames: effects of stoichiometry, variable transport coefficients and arbitrary reaction orders , 2003, Journal of Fluid Mechanics.
[28] Tarek Echekki,et al. Analysis of the contribution of curvature to premixed flame propagation , 1999 .
[29] Hong G. Im,et al. Correlation of Flame Speed with Stretch in Turbulent Premixed Methane/Air Flames , 1997 .
[30] I. S. Wichman,et al. A study of one-dimensional laminar premixed flame annihilation , 1997 .
[31] Tarek Echekki,et al. Unsteady strain rate and curvature effects in turbulent premixed methane-air flames , 1996 .
[32] Thierry Poinsot,et al. The evolution equation for the flame surface density in turbulent premixed combustion , 1994, Journal of Fluid Mechanics.
[33] Christopher J. Rutland,et al. Direct simulations of premixed turbulent flames with nonunity Lewis numbers , 1993 .
[34] Thierry Poinsot,et al. Numerical simulations of Lewis number effects in turbulent premixed flames , 1992, Journal of Fluid Mechanics.
[35] Thierry Poinsot,et al. Flame Stretch and the Balance Equation for the Flame Area , 1990 .
[36] Moshe Matalon,et al. On Flame Stretch , 1983 .
[37] Bernard J. Matkowsky,et al. Flames as gasdynamic discontinuities , 1982, Journal of Fluid Mechanics.
[38] P. Pelcé,et al. Influence of hydrodynamics and diffusion upon the stability limits of laminar premixed flames , 1982, Journal of Fluid Mechanics.
[39] M. Liberman. Combustion Physics , 2021 .
[40] F. Spellman. Combustion Theory , 2020 .
[41] H. Kolla,et al. Topology of pocket formation in turbulent premixed flames , 2019, Proceedings of the Combustion Institute.
[42] Harshavardhana A. Uranakara,et al. On the extinction of igniting kernels in near-isotropic turbulence , 2017 .
[43] C. Law,et al. Extrapolation of laminar flame speeds from stretched flames: Role of finite flame thickness , 2017 .
[44] Paul G. Arias,et al. A flame particle tracking analysis of turbulence–chemistry interaction in hydrogen–air premixed flames , 2016 .
[45] W. Kollmann,et al. Three-dimensional topology of turbulent premixed flame interaction. , 2015 .
[46] A. Tomboulides,et al. The curvature Markstein length and the definition of flame displacement speed for stationary spherical flames , 2015 .
[47] Swetaprovo Chaudhuri. Life of flame particles embedded in premixed flames interacting with near isotropic turbulence , 2015 .
[48] T. Miyauchi,et al. Local structure and fractal characteristics of H2–air turbulent premixed flame , 2011 .
[49] T. Poinsot,et al. Theoretical and numerical combustion , 2001 .
[50] C. Lawa,et al. Structure , aerodynamics , and geometry of premixed flamelets , 2000 .
[51] Hong G. Im,et al. EFFECTS OF FLOW TRANSIENTS ON THE BURNING VELOCITY OF LAMINAR HYDROGEN/AIR PREMIXED FLAMES , 2000 .
[52] Inge R. Gran,et al. NEGATIVE FLAME SPEED IN AN UNSTEADY 2-D PREMIXED FLAME: A COMPUTATIONAL STUDY , 1996 .
[53] C. Law,et al. On the determination of laminar flame speeds from stretched flames , 1985 .