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References

Baldwin, B., and Barth, T. A one-equation turbulence transport model for high reynolds number wall-bounded flows. NASA STI/Recon Technical Report N 91 (1990), 10252.

Baldwin, B., and Lomax, H. Thin layer approximation and algebraic model for separated turbulent flows, vol. 257. American Institute of Aeronautics and Astronautics, 1978.

Boussinesq, J. Theorie de l’ecoulement tourbillonnant et tumultueux des liquides dans les lits rectilignes a grande section. Comptes-rendus des seances de l’academie des sciences 23 (1877), 46.

Bradbury, L. The structure of a self-preserving turbulent plane jet. Journal of Fluid Mechanics 23, 01 (1965), 31--64.

Cebeci, T., and Smith, A. Analysis of turbulent boundary layers. NASA STI/Recon Technical Report A 75 (1974), 46513.

Clauser, F. The turbulent boundary layer. Advances in applied mechanics 4 (1956), 1--51.

Emmons, H. Shear flow turbulence. In Proceedings of the 2nd US Congress of Applied Mechanics, ASME (1954).

Froehlich, J., and von Terzi, D. Hybrid LES/RANS methods for the simulation of turbulent flows. Progress in Aerospace Sciences 44, 5 (2008), 349--377.

Germano, M., Piomelli, U., Moin, P., and Cabot, W. A dynamic subgrid-scale eddy viscosity model. Physics of Fluids A: Fluid Dynamics 3 (1991), 1760.

Glushko, G. Turbulent boundary layer on a flat plate in an incompressible fluid. Tech. rep., DTIC Document, 1966.

Hoyas, S., and Jiménez, J. Scaling of the velocity fluctuations in turbulent channels up to Re= 2003. Physics of fluids 18 (2006), 011702.

Johnson, D., and King, L. A mathematically simple turbulence closure model for attached and separated turbulent boundary layers. AIAA journal 23, 11 (1985), 1684--1692.

Jones, W., and Launder, B. The prediction of laminarization with a two-equation model of turbulence. International Journal of Heat and Mass Transfer 15, 2 (1972), 301--314.

Klebanoff, P. Characteristics of turbulence in a boundary layer with zero pressure gradient. National Advisory Committee for Aeronautics, 1955.

Kline, S., Reynolds, W., Schraub, F., and Runstadler, P. The structure of turbulent boundary layers. Journal of Fluid Mechanics 30, 04 (1967), 741--773.

Kolmogorov, A. Dissipation of energy in locally isotropic turbulence. In Dokl. Akad. Nauk SSSR (1941), vol. 32, pp. 16--18.

Launder, B., and Sharma, B. Application of the energy-dissipation model of turbulence to the calculation of flow near a spinning disc. Letters Heat Mass Transfer 1 (1974), 131--137.

Leonard, A. Energy cascade in large-eddy simulations of turbulent fluid flows. Advances in geophysics 18 (1975), 237--248.

Liepmann, H., and Laufer, J. Investigations of free turbulent mixing.

Lilly, D. The representation of small scale turbulence in numerical simulation experiments. IBM Scientific Computing Symposium on environmental sciences (1967), 195--210.

Lynch, C. Advanced CFD methods for wind turbine analysis. PhD thesis, Georgia Institute of Technology, 2011.

Mansour, N., Kim, J., and Moin, P. Reynolds-stress and dissipation-rate budgets in a turbulent channel flow. Journal of Fluid Mechanics 194, 1 (1988), 15--44.

Meneveau, C., and Katz, J. Scale-invariance and turbulence models for large-eddy simulation. Annual Review of Fluid Mechanics 32, 1 (2000), 1--32.

Menter, F. Improved two-equation k-omega turbulence models for aerodynamic flows. NASA STI/Recon Technical Report N 93 (1992), 22809.

Mydlarski, L., and Warhaft, Z. On the onset of high-reynolds-number grid-generated wind tunnel turbulence. Journal of Fluid Mechanics 320 (1996), 331--368.

Pope, S. Turbulent flows. Cambridge university press, 2000.

Rodi, W. Turbulence Models and Their Application in Hydraulics: A State-Of-The-Art Review. Taylor & Francis, 1993.

Sánchez-Rocha, M., and Menon, S. The compressible hybrid RANS/LES formulation using an additive operator. Journal of Computational Physics 228, 6 (2009), 2037--2062.

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