Difference between revisions of "SiTCom-B Gallery"
From www.coria-cfd.fr
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== Flame base stabilization in vitiated partially-premixed mixture == | == Flame base stabilization in vitiated partially-premixed mixture == | ||
[[File:nice_QW.png]] | [[File:nice_QW.png]] | ||
| + | |||
| + | * P. Domingo, L. Vervisch, D. Veynante (2008) Large-Eddy Simulation of a lifted methane jet flame in a vitiated coflow Combust. Flame 152(3): 415-432. | ||
== Electric field and edge-flame == | == Electric field and edge-flame == | ||
[[File:electric_edges_1.png|500px]] | [[File:electric_edges_1.png|500px]] | ||
| + | |||
| + | * M. Belhi, P. Domingo, P. Vervisch (2010) Direct numerical simulation of the effect of an electric field on flame stability Combust. Flame 157 2286–2297. | ||
== NSCBC vs 3D-NSCBC in jets == | == NSCBC vs 3D-NSCBC in jets == | ||
[[File:jet_NSCBC_1D.png|500px]] [[File:jet_3DNSCBC_bis.png|300px]] | [[File:jet_NSCBC_1D.png|500px]] [[File:jet_3DNSCBC_bis.png|300px]] | ||
| + | * G. Lodato, P. Domingo, L. Vervisch (2008) Three-dimensional boundary conditions for Direct and Large-Eddy Simulation of compressible flows J. of Comp. Phys. 227(10): 5105-5143. | ||
== Impinging round jets == | == Impinging round jets == | ||
| Line 35: | Line 40: | ||
[[File:jet_wall_2.png|400px]] | [[File:jet_wall_2.png|400px]] | ||
[[File:jet_wall_3.png|300px]] | [[File:jet_wall_3.png|300px]] | ||
| + | |||
| + | * G. Lodato, L. Vervisch, P. Domingo (2009) A compressible wall-adapting similarity mixed model for large-eddy simulation of the impinging round jet Phys. Fluids 21:035102. | ||
== Ignition of a bluff-body burner == | == Ignition of a bluff-body burner == | ||
[[File:igni_bluff_1.png]] | [[File:igni_bluff_1.png]] | ||
| + | |||
| + | * V. Subramanian, P. Domingo, L. Vervisch (2010) Large-Eddy Simulation of forced ignition of an annular bluff-body burner Combust. Flame 157(3): 579-601. | ||
== Bunsen flame == | == Bunsen flame == | ||
[[File:bunsen.png|400px]] | [[File:bunsen.png|400px]] | ||
| + | |||
| + | * G. Lodato, P. Domingo, L. Vervisch, D. Veynante (2009) Scalar variances: LES against measurements and mesh optimization criterion; scalar gradient: a three-dimensional estimation from planar measurements using DNS In Studying turbulence by using numerical simulation databases XII, (Eds Center for Turbulence Research) Stanford, pp. 387-398 | ||
== Jet flame-surface == | == Jet flame-surface == | ||
[[File:jet_flame_DNS.png|400px]] | [[File:jet_flame_DNS.png|400px]] | ||
| + | |||
| + | * L. Vervisch, P. Domingo, G. Lodato, D. Veynante (2010) Scalar energy fluctuations in Large-Eddy Simulation of turbulent flames: Statistical budgets and mesh quality criterion Combust. Flame 157(4): 778-789. | ||
| + | * D. Veynante, G. Lodato, P. Domingo, L. Vervisch, E. R. Hawkes (2010) Estimation of three-dimensional flame surface densities from planar images in turbulent premixed combustion Exp. in Fluids 49:267-278. | ||
== Nonpremixed jet flame == | == Nonpremixed jet flame == | ||
[[File:sandia_flame.png|400px]] | [[File:sandia_flame.png|400px]] | ||
| + | |||
| + | * G. Godel, P. Domingo, L. Vervisch (2009) Tabulation of NOx chemistry for Large-Eddy Simulation of non-premixed turbulent flames Proc. Combust. Inst. 32: 1555-1551. | ||
Revision as of 16:48, 8 February 2011
Contents
HIT of a non-reacting flow
This is a very simple DNS computation of a HIT with a constant-properties gas. Numerical scheme is RK3, 4th order skew symmetric with no AV.
In this series of computations, the number of cell by processor is kept constant to 64^3 and the number of processors is increased from 1 to 256
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 |
 |
Flame base stabilization in vitiated partially-premixed mixture
- P. Domingo, L. Vervisch, D. Veynante (2008) Large-Eddy Simulation of a lifted methane jet flame in a vitiated coflow Combust. Flame 152(3): 415-432.
Electric field and edge-flame
- M. Belhi, P. Domingo, P. Vervisch (2010) Direct numerical simulation of the effect of an electric field on flame stability Combust. Flame 157 2286–2297.
NSCBC vs 3D-NSCBC in jets
- G. Lodato, P. Domingo, L. Vervisch (2008) Three-dimensional boundary conditions for Direct and Large-Eddy Simulation of compressible flows J. of Comp. Phys. 227(10): 5105-5143.
Impinging round jets
Wall/jet interaction
]]
- G. Lodato, L. Vervisch, P. Domingo (2009) A compressible wall-adapting similarity mixed model for large-eddy simulation of the impinging round jet Phys. Fluids 21:035102.
Ignition of a bluff-body burner
- V. Subramanian, P. Domingo, L. Vervisch (2010) Large-Eddy Simulation of forced ignition of an annular bluff-body burner Combust. Flame 157(3): 579-601.
Bunsen flame
- G. Lodato, P. Domingo, L. Vervisch, D. Veynante (2009) Scalar variances: LES against measurements and mesh optimization criterion; scalar gradient: a three-dimensional estimation from planar measurements using DNS In Studying turbulence by using numerical simulation databases XII, (Eds Center for Turbulence Research) Stanford, pp. 387-398
Jet flame-surface
- L. Vervisch, P. Domingo, G. Lodato, D. Veynante (2010) Scalar energy fluctuations in Large-Eddy Simulation of turbulent flames: Statistical budgets and mesh quality criterion Combust. Flame 157(4): 778-789.
- D. Veynante, G. Lodato, P. Domingo, L. Vervisch, E. R. Hawkes (2010) Estimation of three-dimensional flame surface densities from planar images in turbulent premixed combustion Exp. in Fluids 49:267-278.
Nonpremixed jet flame
- G. Godel, P. Domingo, L. Vervisch (2009) Tabulation of NOx chemistry for Large-Eddy Simulation of non-premixed turbulent flames Proc. Combust. Inst. 32: 1555-1551.
