UFR 4-03 References

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Pipe flow - rotating

Underlying Flow Regime 4-03               © copyright ERCOFTAC 2004


Prandtl, L. (1925) ¨Uber die ausgebildete turbulenz. Z. Angew. Math. Mech. 5, 136{139.

Reynolds O. (1883) An experimental investigation of the circumstances which determine whether the motion of water shall be direct or sinuous, and the law of resistance in parallel channels. Phil. Trans. Roy. Soc. Lond. 174,935.

Laufer, J. (1954) The structure of turbulence in fully developed pipe flow. NACA Report 1174.

Eggels, J.G.M., Unger, F., Weiss, M.H., Westerweel, J., Adrian, R.J., Friedrich, R. & Nieuwstadt, F.T.M. (1994) Fully developed turbulent pipe flow: a comparison between direct numerical simulation and experiment J.Fluid Mech 268,175--209. (EUW)

Kim, J., Moin P. & Moser, R. (1987) Turbulence statistics in fully developed channel flow at low Reynolds number J.Fluid Mech 177, 133-166. (KMM)

Eggels, J.G.M., Boersma, B.J. & Nieuwstadt, F.T.M. (1994). Direct and large eddy simulations of turbulent flow in an axially rotating pipe (EBN)

Murakami M. & Kikuyama K. (1980) Turbulent flow in axially rotating pipes. Journal of Fluids Engineering 102,97-103.

Hirai, S., Takagi, T. & Matsumoto, M. (1988) Prediction of the laminarization phenomena in an axially rotating pipe flow. Journal of Fluids Engineering 110, 424-430.

Orlandi, P. & Fatica, M. (1997) Direct simulations of turbulent flow in a pipe rotating about its

axis. J. Fluid Mech. 143, 43-72.

Orlandi (1997). Helicity fluctuations and turbulent energy production in rotating and non-rotating pipes. Physics of Fluids 9 (7), 2045-2056.

Feiz, A. A, Ould-Rouis M. & Lauriat G. (2003) Large eddy simulation of turbulent flow in a rotating pipe. International Journal of Heat and Fluid Flow, 24, Issue 3, 412-420.

Speziale C.G., Younis&. Berger S.A. (2000). Analysis and modelling of turbulent flow in an axially rotating pipe. 'J.Fluid Mech407, 1-26

Nishibori K., Kikuyama, K., & Murakami, M. (1987) Laminarization of turbulent flow in the inlet region of an axially rotating pipe. JSME International Journal 30, 255-262.

F. Durst, J. Jovanovic, & J. Sender, (1995) LDA measurements in the near-wall region of a turbulent pipe flow. J.Fluid Mech, 295, 305-335.

Kikuyama, K., Murakami, M. & Nishibori K. (1983) Development of three dimensional turbulent boundary layer in an axially rotating pipe. Journal of Fluids Engineering 105, 154-160.

Reich, G. & Beer H. (1989) Fluid flow and heat transfer in axially rotating pipe 1. Effect of rotation on turbulent pipe flow. Int. J. Heat Mass Transfer 32, 551-561.

Verzicco, R. & Orlandi P. (1996) A finite difference scheme for direct simulation in cylindrical coordinates. J. Comp. Phys. 123, 402-413.

Rai M.M. & Moin P. (1991) Direct simulations of turbulent flow using finite-difference schemes. J. Comp. Phys 96, 15-53.

Germano, M. Piomelli, U. & Cabot W.H. (1991), Physics of Fluid, 17 444.

Lilly, D.K. (1992) Physics of Fluids A, 4, 633.

Imao, S., Itoh, M. & Harada, T. (1996) Turbulent characteristics of the flow in an axially rotating pipe. Intl J. Heat Fluid Flow 17, 444-451.

Wallin, S. & Johansson, A. V. (1997). A new explicit algebraic Reynolds stress turbulence model for 3D flows. In Proc. 11th Symp. on Turbulent Shear Flows, Institut National Polytechnique de Grenoble, Universit_e Joseph Fourier, Grenoble, France, pp. 13.13-13.17.

Kravchenko, A.,G. & Moin, P. (1996) On the effect of numerical errors in large eddy simulations of turbulent flows CTR Manuscript N^0 160, Center of Turbulence Research Stanford USA}.

Orlandi P. & Jiménez, J. (1994) On the generation of turbulent wall friction. Phys. Fluids 6, 634-641.

Durbin, P.A. (1991) Near-wall turbulence closure modelling without damping functions Theoret. Comp. Fluid Dynamics 3, 1-13.

Zeman O. (1995) The persistence of trailing vortices - a modelling study. Physics of Fluids 7, 135-143.


© copyright ERCOFTAC 2004

Contributors: Stefano Leonardi - Universita di Roma 'La Sapienza'

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