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4.1.8 Sources of further information

Exemplification

The 'Advanced Turbulence Model' library contains the following Q1 files exemplifying the use of the RSTM:


       1DY Plane Channel Flow with Heat Transfer.               600
       1D Turbulent Pipe Flow with Heat Transfer.               602
       2D Parabolic Plane/Round Jet with Mass Transfer.         603
       2D Parabolic Plane Wall Jet with Heat Transfer.          604
       1D Rotating Pipe Flow with Heat Transfer.                605
       1D Plane Couette Flow.                                   606
       2DY-Z Channel Flow with Heat Transfer.                   607
       3D Developed Duct Flow with Heat Transfer.               608
       2D Impinging Round Jet with Heat Transfer.               609

Any of these cases may be loaded from the LIBRARY MENU, or alternatively from the SATELLITE in interactive mode by using, for example, LOAD(T609).

References

Daley, B.J. and Harlow, F.H., 'Transport equations of turbulence', Phys.Fluids, Vol.13, p2634, (1970).

Gibson, M.M. and Launder, B.E., 'Ground effects on pressure fluctuations in the atmospheric boundary layer', J.Fluid Mech., Vol.86, p491, (1978).

Gibson, M.M. and Younis, B.A., 'Calculation of swirling jets with a Reynolds stress closure', Physics Fluids, Vol.29, p38, (1986).

Hogg, S. and Leschziner, M.A., 'Second-moment-closure calculation of strong swirling confined flow with large density gradients', Int.J.Heat and Fluid Flow, Vol.10, No.1, p16, (1989).

Jones, W.P., 'Prediction methods for turbulent flames', In Models for Turbulent Flows with Variable Density and Combustion, VKI Lecture Series, 1979-2, Jan. 15-19, (1979).

Launder, B.E., 'On the effect of a gravitational field on the turbulent transport of heat and momentum', J.Fluid Mech., Vol.67, p569, (1975).

Launder, B.E., Reece G.J. and Rodi, W., 'Progress in the development of a Reynolds stress turbulence closure.', J. Fluid Mech, Vol.68, p537, (1975).

Launder, B.E., 'Second-moment closure: present.. and future?', Int.J.Heat Fluid Flow, Vol.10, No.4, p282, (1989a).

Launder, B.E., 'Second-moment closure and its use in modelling turbulent industrial flows', Int.J.Num.Methods in Fluids, Vol.9, p963, (1989b).

Leschziner, M.A., 'Modelling engineering flows with Reynolds stress turbulence closure.', J.Wind Engng & Industrial Aerodynamics.', Vol.35, p21, (1990).

Malin, M.R. and Younis, B.A., 'Modelling Reynolds stress and heat flux transport in turbulent buoyant plumes', Proc. XXIII IAHR Congress, Hydraulics and the Environment, pD.9, August 21-25, Ottawa, Canada, (1989).

Malin, M.R. and Younis, B.A., 'Calculation of turbulent buoyant plumes with a Reynolds stress and heat flux transport closure.', Int.J.Heat Mass Transfer, Vol.33, No.10, p2247, (1990).

Rodi, W., 'Turbulence models and their application in hydraulics- A state of the art review', IAHR Book Publication, Delft, The Netherlands, (1980).

Speziale, C.G., Sarkar, S., and Gatski, T.B., 'Modelling the pressure-strain correlation of turbulence; an invariant dynamical systems approach', J. Fluid Mech., Vol.227, p245, (1991).

Younis, B.A., 'On modelling the effects of streamline curvature on turbulent shear flows', PhD Thesis, University of London.

See also the Instruction Course lectures on 'Turbulence Models' under the PHENC entry: 'Lectures on PHOENICS', 'General Topics', 'The 5-day Course of Lectures and Workshops', 'Turbulence'.

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