UFR 3-33 References

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References

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  • Kharoua, N., Khezzar, L., 2013. Large-eddy simulation study of turbulent flow around smooth and rough domes. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 227 (12), 2686-2700.
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  • Kim, W.W., Menon, S., 1997. Application of the localized dynamic subgrid-scale model to turbulent wall-bounded flows. AIAA Paper No. AIAA-97-0210.
  • Klein, M., Sadiki, A., Janicka, J., 2003. A digital filter based generation of inflow data for spatially-developing direct numerical or large-eddy simulations. Journal of Computational Physics 186, 652-665.
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  • Lawson, T.V., 1968. Methods of producing velocity profiles in wind tunnels. Atmospheric Environment (1967) 2 (1), 73-76.
  • Lilly, D.K., 1992. A proposed modification of the Germano subgrid-scale closure method. Physics of Fluids A 4, 633-635.
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  • Manhart, M., 1998. Vortex shedding from a hemisphere in a turbulent boundary layer. Theoretical and Computational Fluid Dynamics 12 (1), 1-28.
  • Martinuzzi, R., Tropea, C., 1993. The flow around surface-mounted, prismatic obstacles placed in a fully developed channel flow. Journal of Fluids Engineering 115 (1), 85-92.
  • Meroney, R.N., Letchford, C.W., Sarkar, P.P., 2002. Comparison of numerical and wind tunnel simulation of wind loads on smooth, rough and dual domes immersed in a boundary layer. Wind and Structures 5 (2-4), 347-358.
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  • Piomelli, U., Chasnov, J.R., 1996. Large-eddy simulations: Theory and applications. In: M. Hallbäck, D. Henningson, A. Johansson, P. Alfredson (eds.) Turbulence and Transition Modeling, pp. 269-331. Kluwer.
  • Rhie, C.M., Chow, W.L., 1983. Numerical study of the turbulent flow past an airfoil with trailing-edge separation. AIAA Journal 21 (11), 1525-1532.
  • Sakamoto, H., Arie, M., 1983. Vortex shedding from a rectangular prism and a circular cylinder placed vertically in a turbulent boundary layer. Journal of Fluid Mechanics 126, 147-165.
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  • Savory, E., Toy, N., 1988. The separated shear layers associated with hemispherical bodies in turbulent boundary layers. Journal of Wind Engineering and Industrial Aerodynamics 28 (1), 291-300.
  • Scheit, C., Nusser, K., Hager, G., Becker, S., Zeiser, T., Wellein, G., 2014. Optimizing the FASTEST-3D CFD code for massive parallelism. In: 26th Int. Conf. on Comp. Fluid Dynamics, ParCFD 2014. Norway, Trondheim.
  • Schlatter, P., Orlu, R., Li, Q., Brethouwer, G., Fransson, J.H.M., Johansson, A.V., Alfredsson, P.H., Henningson, D.S., 2009. Turbulent boundary layers up to studied through simulation and experiment. Physics of Fluids 21 (5), 51,702.
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  • Schmidt, S., Breuer, M., 2016. Application and extension of a synthetic turbulence inflow generator within a hybrid LES-URANS methodology. In: J. Fröhlich, H. Kuerten, B.J. Geurts, V. Armenio (eds.) ERCOFTAC Series, Direct and Large-Eddy Simulation X, 10th Int. ERCOFTAC Workshop on Direct and Large-Eddy Simulation: DLES-10, Limassol, Cyprus, May 27-29, 2015. Springer Science+Business Media B.V. To appear
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  • Simpson, R.L., Long, C.H., Byun, G., 2002. Study of vortical separation from an axisymmetric hill. International Journal of Heat and Fluid Flow 23 (5), 582-591.
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  • Taylor, T.J., 1992. Wind pressures on a hemispherical dome. Journal of Wind Engineering and Industrial Aerodynamics 40 (2), 199-213.
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  • Wood, J.N., De Nayer, G., Schmidt, S., Breuer, M., 2016. Experimental Investigation and Large-Eddy Simulation of the Turbulent Flow past a Smooth and Rigid Hemisphere. Flow, Turbulence and Combustion97 (1), 79-119.
  • Yaghoubi, M.A., 1991. Air flow patterns around domed roof buildings. Renewable Energy 1 (3), 345-350.
  • Yakhot, V., Orszag, S.A., Thangam, S., Gatski, T.B., Speziale, C.G., 1992. Development of turbulence models for shear flows by a double expansion technique. Physics of Fluids 4 (7), 1510-1520.





Contributed by: Jens Nikolas Wood, Guillaume De Nayer, Stephan Schmidt, Michael Breuer — Helmut-Schmidt Universität Hamburg

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