# REFERENCES

**The references written by one of the partners of the project have been italicized.**

[Adams et al., 2004] N.A. Adams, S. Hickel, S. Franz, Implicit subgrid-scale modeling by adaptive deconvolution, Journal of Computational Physics 200, 412–431, 2004

[Baba-Ahmadi and Tabor, 2008] M.H. Baba-Ahmadi and G. Tabor. Inlet conditions for les of gas-turbine swirl injectors. AIAA Journal, 46, 2008.

*[Balarac et al., 2007a] G. Balarac, M. Si-Ameur, M. Lesieur and O. Métais, Direct numerical simulations of high velocity ratio coaxial jets: mixing properties and influence of upstream conditions, J. of Turbulence, 2007.*

*[Balarac et al., 2007b] G. Balarac, O. Métais and M. Lesieur, Mixing enhancement in coaxial jets through inflow forcing: a numerical study, Phys. Fluids 19, 2007.*

*[Balarac et al., 2008a] G. Balarac, H. Pitsch, and V. Raman, Development of a dynamic model for the subfilter scalar variance using the concept of optimal estimators, Phys. Fluids 20, 2008.*

*[Balarac et al., 2008b] G. Balarac, H. Pitsch, and V. Raman, Modeling of the subfillter scalar dissipation rate using the concept of optimal estimators, Phys. Fluids 20, 2008*

[Bardina et al., 1983] J. Bardina, J. H. Ferziger and W. C. Reynolds, Improved turbulence model based on large eddy simulation of homogeneous, incompressible, turbulent flows. Report TF-19, , Stanford University, 1983.

[Batchelor, 1959] G.K. Batchelor, Small scale variation of convected quantities like temperature in turbulent fluid. Part 1. General discussion and case of small conductivity. J. Fluid Mech., 5, 1959.

[Berger and Oliger, 1984] M. J. Berger and J. Oliger, Adaptive mesh refinement for hyperbolic partial differential equations, J. Comput. Phys., 53, 1984

[Bieder et al., 2000] U. Bieder, Ch. Calvin, P. Emonot, Priceles: an object oriented code for industrial large eddy simulations. In: Proceedings of the 8th Annual Conference of the CFD Society of Canada, June 11–13, Montreal, Canada, 2000.

[Bilger, 1976] W. Bilger, The structure of diffusion ﬂames, Combust. Sci. Technol., 13, 155, 1976.

*[Brun and Chollet, 2009] C. Brun and J.P. Chollet, LES of the turbulent katabatic flow developing along a hyperbolic tangent slope in stable atmospheric boundary layer, Turbulent Shear Flow Phenomena, 2009.*

*[Brun et al., 2006] C. Brun, R. Friedrich and C. B. da Silva, A non-linear SGS model based on the spatial velocity increment, Theor. Comput. Fluid Dyn., 20, 2006.*

*[Brun et al., 2008] C. Brun, G. Balarac, C. B. da Silva, and O. Métais, Effects of molecular diffusion on the subgrid-scale modeling of passive scalars, Phys. Fluids 20, 2008.*

[Calvin et al., 2002] C. Calvin, O. Cueto and P. Emonot, An object-oriented approach to the design of fluid mechanics software, Math. Model. Num. Anal. 36, 2002.

[Chatelain et al., 2008] P. Chatelain, A. Curioni, M. Bergdorf, D. Rossinelli, W. Andreoni and P. Koumoutsakos, Vortex Methods for Massively Parallel Computer Architectures. Springer-Verlag, Berlin, Heidelberg, 2008.

[Chaxel and Chollet, 2008] E. Chaxel and J.P. Chollet J.P., Ozone production from Grenoble city during the August 2003 heat wave, Atmospheric Environment, 2008.

[Cook and Riley, 1994] A. W. Cook and J. J. Riley, A subgrid model for equilibrium chemistry in turbulent ﬂows, Phys. Fluids, 6, 1994

*[Cottet, 1996] G.-H. Cottet, Artificial viscosity models for vortex and particle methods, J. Comput. Phys. 127, 299–308, 1996*

*[Cottet et al., 2002] G.-H. Cottet, B. Michaux, S. Ossia, G. VanderLinden, A comparison of spectral and vortex methods in three-dimensional incompressible flows, J. Comput. Phys. 175, 702–712, 2002*

*[Cottet et al., 2009] G.-H. Cottet, G. Balarac and M. Coquerelle, Subgrid particle resolution for the turbulent transport of a passive scalar, in Eckhardt Bruno editors, 12th Euromech Conference, (Marburg, Germany), 2009.*

*[Cottet and Koumoutsakos, 2000] G.-H. Cottet, P. Koumoutsakos, Vortex Methods – Theory and Practice, Cambridge University Press, New York, 2000.*

*[Cottet and Magni, 2009] G.-H. Cottet and A. Magni, TVD remeshing schemes for particle methods, C. R. Acad. Sci. Paris, Ser. I, 347, 2009*

*[Cottet and Weynans, 2006] G.-H. Cottet and L. Weynans, Particle methods revisited: a class of high-order finite-difference schemes, C. R. Acad. Sci. Paris, Ser. I 343, 51-56, 2006*

[Desjardins and Pitsch, 2009] O. Desjardins and H. Pitsch, A spectrally reﬁned interface approach for simulating multiphase ﬂows, J. Comp. Phys., 228, 2009.

*[Duprat et al., 2009] C. Duprat, G. Balarac, O. Métais, and T. Laverne. Simulation des grandes échelles d’un aspirateur de centrale hydraulique. Mécanique & Industries, 10, 2009.*

[Fedorovitch and Shapiro, 2010] E. Fedorovitch and A. Shapiro, Turbulence and waves in numerically simulated slope flows, Colloque international Alexandre Favre « Turbulence in geophysical fluids », 2009

[Fureby et al., 1997] C. Fureby, G. Tabor, H.G. Weller, and A.D. Gosman. A comparative study of subgrid scale models in homogeneous isotropic turbulence. Phys. of Fluids, 9, 1997

[Gao and Voke, 1995] S. Gao and P. R. Voke, Large-eddy simulation of turbulent heat transport in enclosed impinging jets. Int. J. Heat and Fluid Flow, 16, 1995.

[Hermann et al., 2006] M. Herrmann, G. Blanquart and V. Raman, Flux corrected finite volume scheme for preserving scalar boundedness in reacting Large-Eddy Simulations, AIAA Journal 44, 2006.

[Herrmann, 2008] M. Herrmann, A balanced force refined level set gridunstructured flow solver grids, J. Comp. Phys., 227, 2008.

[Hieber and Koumoutsakos, 2005] S. Hieber, P. Koumoutsakos, A Lagrangian particle level set method, Journal of Computational Physics, 210, 342–367, 2005

*[Kaul at al., 2009] C. M. Kaul, V. Raman, G. Balarac and H. Pitsch, Numerical Errors in the Computation of Sub-Filter Scalar Variance in Large Eddy Simulations, Physics of Fluids, 21, 2009.*

[Koumoutsakos and Leonard, 1995] P. Koumoutsakos and A. Leonard, High-resolution simulation of the flow around an impulsively started cylinder using vortex methods, J. Fluid Mech., 1–38, 1995

[Lesieur and Rogallo, 1989] M. Lesieur and R. Rogallo, Large-eddy simulation of passive scalar diffusion in isotropic turbulence, Phys. Fluids A 1, 1989.

[Lesieur et al., 2005] M. Lesieur, O. Métais and P. Comte, Large-eddy simulations of turbulence, Cambridge Unicversity Press, 2005.

[Lesieur, 2008] M. Lesieur, Turbulence in Fluids 4th Edition, Springer, 2008.

[Liu et al., 1994] X.D. Liu, S. Osher and T. Chan, Weighted essentially non-oscillatory schemes, J. Comput. Phys. 115, 1994.

[Mahle et al., 2007] I. Mahle, J. Sesterhenn, and R. Friedrich, Turbulent mixing in temporalshear layers involving detailed diffusion processes, J. of Turbulence, 8, 2007.

[Métais and Lesieur, 1992] O. Métais and M. Lesieur, Spectral large-eddy simulation of isotropic and stably-stratified turbulence, J. Fluid Mech., 239, 1992.

[Moin et al., 1991] P. Moin, K. Squires, W. H. Cabot, and S. Lee, A dynamic subgrid-scale model for compressible turbulence and scalar transport, Phys. Fluids A, 3, 1991.

*[Moreau et al., 2006] A. Moreau, O. Teytaud, and J. P. Bertoglio, Optimal estimation for large-eddy simulation of turbulence and application to the analysis of subgrid models, Phys. Fluids, 18, 2006 *

*[Moreau et al., 2007] A. Moreau, C. Lafarge, N. Laurent, K. Edee, and G. Granet, Enhanced transmission of slits arrays in an extremely thin metallic film, Journal of Optics A : Pure and Applied Optics, 9, 2007*

*[Ould-Salihi et al., 2000] M. Ould-Salihi, G.-H. Cottet, M. El Hamraoui: Blending finite-difference and vortex methods for incompressible flow computations. SIAM J. Sci. Comp. 22, 1655-1674, 2001*

*[Périquet et al., 2000] V. Périquet, A. Moreau, S.Carles, J.P. Schermann and C. Desfrançois, Cluster size effects upon anion solvation of N-heterocyclic molecules and nucleic acid bases, Journal of Electronic Spectroscopy and Related Phenomena, 106, 2000.*

[Pierce and Moin, 1998] C. D. Pierce and P. Moin, A dynamic model for subgrid-scale variance and dissipation rate of a conserved scalar, Phys. Fluids, 10, 1998.

[Pitsch, 2006] H. Pitsch, Large-Eddy Simulation of Turbulent Combustion, Annu. Rev. Fluid. Mech., 2006.

*[Pitsch et al., 2008] H. Pitsch, O. Desjardin, G. Balarac and M. Ihme, Large-eddy Simulation of turbulent reacting flows, Progress in Aerospace Sciences 44, 2008.*

[Ploumhans et al., 2003] P. Ploumhans, G. S. Winckelmans, J. K. Salmon, A. Leonard and M. S. Warren, Vortex Methods for Direct Numerical Simulation of Three-Dimensional Bluff Body Flows: Application to the Sphere at Re = 300, 500, and 1000, Journal of Computational Physics 178, 427–463, 2002

*[Rossellini et al. 2009] D. Rossinelli, M. Bergdorf, G.-H. Cottet and P. Koumoutsakos, GPU accelerated simulations of bluff body flows using penalization and vortex methods, submitted, 2009*

[Sagaut, 2005] P. Sagaut, Large Eddy simulations for incompressible flow. Springer, 2006.

[Sarris et al., 2007] I. E. Sarris, H. Jeanmart, D. Carati and G. Winckelmans, Box-size dependence and breaking of translational invariance in the velocity statistics computed from three-dimensional turbulent Kolmogorov ﬂows, Phys. Fluids, 18, 2006.

*[da Silva and Métais, 2002] C. B. da Silva and O. Métais, On the inﬂuence of coherent structures upon interscale interactions in turbulent plane jets, J. Fluid Mech., 473, 2002.*

*[da Silva and Pereira, 2007] C. B. da Silva and J. C. F. Pereira, Analysis of the gradient-diffusion hypothesis in large-eddy simulations based on transport equations, Phys. Fluids, 19, 2007*

*[da Silva and Pereira, 2008] C. B. da Silva and J. C. F. Pereira, Invariants of the velocity-gradient, rate-of-strain, and rate-of-rotation tensors across the turbulent/non-turbulent interface in jets, Phys. Fluids, 20, 2008*

*[da Silva et al., 2008] C.B. da Silva, S. Rego and J.C.F. Pereira, Analysis of the viscous/molecular subgrid-scale dissipation terms in LES based on transport equations: A priori tests, J. Turbulence, 8, 25, 2008*

*[da Silva, 2009a] C. B. da Silva, The behavior of subgrid-scale models near the turbulent/non-turbulent interface in jets, Phys. Fluids, 21, 2009*

*[da Silva, 2009b] C. B. da Silva, The role of subgrid-scale models near the turbulent/non-turbulent interface in free shear flows, 63th Annual Meeting of the Division of Fluid Dynamics, American Physical Society, (Minneapolis, USA), 2009.*

[Villermaux et al., 2001] E. Villermaux, C. Innocenti and J. Duplat, Short circuits in the Corrsin–Obukhov cascade, Phys. Fluids, 13, 2001.

[You and Moin, 2009] D. You and P. Moin, A dynamic global-coefﬁcient subgrid-scale model for large-eddy simulation of turbulent scalar transport in complex geometries, Phys. Fluids, 21, 2009.