UFR 3-13 References
Flow over an isolated hill (without dispersion)
Underlying Flow Regime 3-13 © copyright ERCOFTAC 2004
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.
Almeida, G.P., Durao, D.F.G. & Heitor, M.V. (1992). Wake flows behind two dimensional model hills. Exp. Thermal and Fluid Science, 7, p.87
Almeida, G.P., Durao, D.F.G, Simoes J.P. & Heitor, M.V. (1990). Laser-Doppler measurements of fully developed turbulent channel flow. Proc. 5th Symp. Appl Laser Techniques to Fluid Meet., pp. 5-12
Castro, J.P. & Haque, A. (1987). The structure of a turbulent shear layer bounding a separation region. Journal Fluid Mechanics, Vol. 179, pp. 439-468
Craft T.J. (1999). Computations of flow over model hill forms using advanced second-moment closures. In Wind over Waves couplings perspectives and prospects (Sajjadi, Thomas, Hunt eds.), pp. 57-67, Clarendon Press, Oxford.
Jang, Temmerman, Leschziner (2001). Investigation of anisotropy-resolving turbulence models by reference to highly resolved LES data for separated flow, ECCOMAS Computational Fluid Dynamics Conference, Swansea, September 4-7.
Mellen, Fröhlich, Rodi (2000). Large Eddy Simulation of the flow over periodic hills, 16th IMACS World Congress , Lausanne.
Rodi W., Bonnin J.C., Buchal T., Laurence D. (1998). Testing of Calculation Methods for Turbulent Flows : Workshop Results for 5 Test Cases. Collection de Notes Internes de la Direction des Etudes et Recherches, EDF 98NB00004, ISSN 1161-0611
Snyder, W.H. & Hunt, J.C.R. (1980). Experiments on stably and neutrally stratified flow over a model three-dimensional hill. Journal Fluids Mechanics, Vol. 96, pp. 671-704
Acknowledgments: for solutions contributed by A. Davroux, C. Hoa, Y. Addad, J. Uribe
© copyright ERCOFTAC 2004
Contributors: Frederic Archambeau - EDF - R&D Division