UFR 2-02 References

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Flow past cylinder 

Underlying Flow Regime 2-02               © copyright ERCOFTAC 2004


References

Agard Advisory Report 345 (1998): A selection of test cases for the validation of large-eddy simulations of turbulent flows. This includes a CD containing the data.

Bearman, P. and Obajasu (1982): An experimental study of the pressure fluctuations on fixed and oscillating square-section cylinders, J. Fluid Mech., 119, pp. 297-321.

Bosch, G. and Rodi, W. (1998): Simulation of vortex shedding past a square cylinder with different turbulence models, Int. J. Numer. Meth. Fluids, 28, pp. 601-616.

Cantwell, B. and Coles, D. (1983): An experimental study of entrainment and transport in the turbulent near wake of a circular cylinder, J. Fluid Mech., 136, pp. 321-374.

Germano, M., Piomelli, U., Moin, P., Cabot, W.H. (1991): A dynamic subgrid-scale eddy-viscosity model, Physics of Fluids A., 3, pp 1760-1765.

Giammanco, R., Simons, E., Benocci, C. (2001): Large-eddy simulation of turbulent flows over a cylinder of square cross-section, in: Direct and Large-Eddy Simulation — IV, B.J. Guerts et al. (eds.), pp. 337-344, Kluwer Academic Publishers.

Kato, M. and Launder, B.E. (1993): The modelling of turbulent flow around stationary and vibrating square cylinders, Proc. 9th Symp. Turbulent Shear Flows, Kyoto, p.10-4-1.

Lakehal, D., Thiele, S., Duchamp, D., Lageneste, L. Buffat, M. (1998). Computation of vortex-shedding flows past a square cylinder employing LES and RANS, in: Notes on Numerical Fluid Mechanics, Numerical Flow Simulation I, E.H. Hirschel (ed.), 66, Vieweg Verlag, pp. 260-277.

Lyn, D.A. and Rodi, W. (1994): The flapping shear layer formed by flow separation from a forward corner of a square cylinder, J. Fluid Mech., 267, pp. 253-276.

Lyn, D.A., Einav, S., Rodi, W., and Park, J.H. (1995): A laser Doppler velocimeter study on ensemble-averaged characteristics of the turbulent near-wake of a square cylinder, J. Fluid Mech., 304, pp. 285-319.

Martinuzzi, R.J., and Wu, K.C.Q. (1997): An experimental investigation of the flow around a two-dimensional square prism in the proximity of a solid wall: effect of the gap size, Proc. 11th Symposium on Turbulent Shear Flows, Grenoble, France, pp. 11.16-11.23.

Rodi, W. (1997): Comparison of LES and RANS calculations of the flow around bluff bodies, J. of Wind Engineering and Industrial Aerodynamics, 69-71, pp. 55-75.

Rodi, W., Ferziger, H.J., Breuer, M., Pourquie, M. (1995): Proc. Workshop on Large-Eddy Simulation of Flows Past Bluff Bodies, Rottach-Egern, Germany, June 1995.

Rodi, W., Ferziger, H.J., Breuer, M., Pourquie, M. (1997): Status of Large-Eddy Simulation: Results of a Workshop, J. Fluid Eng., 119, pp. 248-262.

Rodi, W. (2002). Large-eddy simulation of the flow past bluff bodies, in: Strategies for Turbulent and Transitional Flows, B.E. Launder and N. Sandham (eds.), Cambridge University Press, pp. 361-391.

Schmidt, S. (2000): Grobstruktursimulation turbulenter Strömungen in komplexen Geometrien und bei hohen Reynoldszahlen, Ph.D. thesis, Technical University of Berlin.

Schmidt, S. and Thiele, S. (2002): Comparison of numerical methods applied to the flow over wall-mounted cubes, Int. J. of Heat and Fluid Flow, 23, pp. 330-339.

Sohankar, A., Davidson, L., Norberg, C. (2000): Large eddy simulation of flow past a square cylinder: comparison of different subgrid-scale models, J. Fluid Eng., 122, pp. 39-47.

Védy, E. and Voke, P.R. (2001): Large-eddy simulations of the flow past a square cylinder, Report FRC/2001.04, University of Surrey, UK.

Voke, P.R. (1997): Flow past a square cylinder: Test case LES2, in: Direct and Large-Eddy Simulation II, J.P. Chollet et al. (eds.), ERCOFTAC Series, Vol. 5, Kluwer Academic Publishers, pp. 355-373.

Warner, H. and Wengle, H. (1989): Large-eddy simulation of the flow over a square rib in a channel, Proc. 7th Symp. Turbulent Shear Flows, Stanford University, pp. 10.2.1-10.

Zdravkovich, M. (1997): Flow Around Circular Cylinders, Vol. 1, Fundamentals, Oxford University Press.

Zhu, J. (991). A low-diffusive and oscillation-free convection scheme, Comm. Appl. Numer. Methods, 7, pp. 225-232.

© copyright ERCOFTAC 2004



Contributors: Wolfgang Rodi - Universität Karlsruhe


Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References