Kapitel

LITERATURVERZEICHNIS
[32] Fu, S., Launder, B. E. und Tselepidakis, D. Accomodating the effects of high
strain rates in modelling the pressure-strain correlations. Rep. TFD/87/5, Dept.
of Mech.-Eng., University of Manchester Inst. of Science and Tech. 1987.
[33] Galbraith, R. A., Sjolander, S. A. und Head, M. R. Mixing length in wall region
of turbulent boundary layers. Aeronautical Quaterly XXVII: 97–110. 1977.
[34] Gatski, T. B. und Speziale, C. G. On explicit algebraic stress models for complex
turbulent flows. J. Fluid Mech. 254: 59–75. 1993.
[35] Germano, M. Turbulence: the filtering approach. J. Fluid Mech. 238: 325–336.
1992.
[36] Gibson, M. M., Harper, R. D. und Dafa’Alla, A. A. Progress in the development
of the q − ξ turbulence model. Report TF–94–33, Dept. of Mech. Engineering.,
Imperial College, London. 1994.
[37] Gibson, M. M. und Launder, B. E. Ground effects on the pressure fluctuations
in the atmospheric boundary layer. J. Fluid Mech. 86: 491–511. 1978.
[38] Gibson, M. M. und Younis, B. Calculation of swirling jets with a Reynolds stress
closure. Phys. Fluids 29 (1): 38–48. 1986.
[39] Grotjans, H. und Menter, F. Wall functions for general cfd codes. In Proc. of 4th
European Comp. Fluid Dynamics Conference, Athens, Greece, 1112–1117. 1998.
[40] Hallbäck, M., Henningson, D. S., Johansson, A. V. und Alfredson, P. H. (Hrsg.).
Turbulence and Transition Modelling, Band 2 der Reihe Ercoftac Series. Kluwer,
Dordrecht. 1996.
[41] Hanjalić, K., Hadzić, I. und Jakirlić, S. Modelling turbulent wall flows subjected
to strong pressure variations. ASME Journal of Fluids Engineering 121: 57–64.
1999.
[42] Hanjalić, K. und Launder, B. E. A Reynolds-stress model of turbulence and its
application to thin shear flows. J. Fluid. Mech. 52: 609–638. 1972.
[43] Hinze, J. O. Turbulence. McGraw-Hill, New–York. 1959.
[44] Huang, P. G., Bradshaw, P. und Coakley, T. J. Turbulence models in compressible
boundary layers. AIAA Journal 32 (4): 735–740. 1994.
[45] Imao, S., Itoh, M. und Harada, T. Turbulent characteristics of a flow in an axially
rotating pipe. J. Heat and Fluid Flow 17: 444–451. 1996.
[46] Jakirlić, S. Reynolds–Spannungs–Modellierung komplexer turbulenter Strömungen.
Dissertation, Technische Fakultät der Universität Nürnberg-Erlangen. 1997.
[47] Jin, G. und Braza, M. Two-equation turbulence model for unsteady separated
flows around airfoils. AIAA Journal 32 (11): 2316–2320. 1994.
[48] Jischa, M. Konvektiver Impuls-, Wärme- und Stoffaustausch. Grundlagen der
Ingenieurwissenschaften. Vieweg, Braunschweig/Wiesbaden. 1982.
204