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Deardorff, J. W.

On the magnitude of the subgrid scale eddy coefficient. (English) Zbl 0227.76082

J. Comput. Phys. 7, 120-133 (1971).
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Cited in 35 Documents

MSC:

76F10 Shear flows and turbulence
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[1] Deardorff, J. W., A numerical study of three-dimensional turbulent channel flow at large Reynolds numbers, J. Fluid Mech., 41, 453-480 (1970) · Zbl 0191.25503
[2] Deardorff, J. W., A three-dimensional numerical investigation of the idealized planetary boundary layer, Geophys. Fluid Dynamics, 1, 377-410 (1970)
[3] Deardorff, J. W.; Peskin, R. L., Lagrangian statistics from numerically integrated turbulent shear flow, Phys. Fluids, 13, 584-595 (1970) · Zbl 0191.56504
[4] Lilly, D. K., The representation of small-scale turbulence in numerical simulation experiments, (Proceedings of the IBM Scientific Computing Symposium on Environmental Sciences. Proceedings of the IBM Scientific Computing Symposium on Environmental Sciences, IBM Form No. 320-1951 (1967)) · Zbl 0282.76045
[5] Smagorinsky, J. S., General circulation experiments with the primitive equations: 1. The basic experiment, Mon. Weather Rev., 91, 99-164 (1963)
[6] Pond, S.; Stewart, R. W.; Burling, R. W., Turbulence spectra in the wind over waves, J. Atmos. Sci., 20, 319-324 (1963)
[7] Lilly, D. K., On the Application of the Eddy Viscosity Concept in the Inertial Subrange of Turbulence, (Manuscript No. 123 (1966), National Center for Atmospheric Research: National Center for Atmospheric Research Boulder, Colo) · Zbl 0282.76045
[8] Lax, P. D.; Wendroff, B., Systems of conservation laws, Comm. Pure Appl. Math., 13, 217-237 (1960) · Zbl 0152.44802
[9] Harlow, F. H.; Welch, J. E., Numerical calculation of time-dependent viscous incompressible flow of fluid with free surface, Phys. Fluids, 8, 2182-2189 (1965) · Zbl 1180.76043
[10] Thompson, P. D., Numerical Weather Analysis and Prediction (1961), MacMillan Co: MacMillan Co New York · Zbl 0191.45502
[11] Hirt, C. W., Heuristic stability theory for finite-difference equations, J. Comp. Phys., 2, 339-355 (1968) · Zbl 0187.12101
[12] Lilly, D. K., On the computational stability of numerical solutions of time-dependent nonlinear geophysical fluid dynamics problems, Mon. Weather Rev., 93, 11-26 (1965)
[13] Williams, G. P., Numerical integration of the three-dimensional Navier-Stokes equations for incompressible flow, J. Fluid Mech., 37, 727-750 (1969) · Zbl 0183.55104
[14] Arakawa, A., Computational design for long term numerical integration of the equations of fluid motion. Two-dimensional incompressible flow, J. Comp. Phys., 1, 119-143 (1966), Part 1 · Zbl 0147.44202
[15] Fischer, G., A. survey of finite-difference approximations to the primitive equations, Mon. Weather Rev., 93, 1-10 (1965)
[16] Laufer, J., Investigation of Turbulent flow in a Two-Dimensional Channel, NACA Report 1053 (1950)
[17] Businger, J. A., Transfer of momentum and heat in the planetary boundary layer, (Proceedings of the Symposium on Arctic Heat Budget and Atmospheric Curculation. Proceedings of the Symposium on Arctic Heat Budget and Atmospheric Curculation, RM-5233NSF (1966), Rand Corp), 305
[18] Lumley, J. L.; Panofsky, H. A., The Structure of Atmospheric Turbulence (1964), Wiley (Interscience): Wiley (Interscience) New York
[19] Lenschow, D., Airplane measurements of planetary boundary layer structure, J. Appl. Meteorol., 9, No. 6 (1970)
[20] Pasquill, F., Atmospheric Diffusion (1962), D. Van Nostrand: D. Van Nostrand Princeton, N. J
[21] Lenschow, D.; Johnson, W. B., Concurrent airplane and balloon measurements of atmospheric boundary layer structure over a forest, J. Appl. Meteorol., 7, 79-89 (1968)
[22] Kraichnan, R. H., Dispersion of particle pairs in homogeneous turbulence, Phys. Fluids, 9, 1937-1943 (1966)
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