Journal "Computational Technologies"

Article information

2001 , Volume 6, № 5, p.73-86

Kuzminov A.V., Lapin V.N., Chirkov D.V.

Numerical simulation of incompressible turbulent flows using two-layer turbulent (k - e) model

The method of closing for Reynolds equations, which is based on two-layer turbulent model is suggested. Two-layer model includes ([Java Applet])-model for the fully developed turbulent flow and model with one equation for the flow near the wall. It is not nessesary to distinguish explicitly the regions, where each model is applied, because the method switches automatically from one model to another.

[full text] Classificator Msc2000:

*76F40 Turbulent boundary layers

76F60 $k$-$\varepsilon$ modeling

Keywords: boundary layer, Reynolds equations, Oberbeck-Boussinesq approximation

Author(s):
Kuzminov A V
Office: Institute of Computational Technologies SB RAS
Address: 630090, Russia, Novosibirsk, Ac. Lavrentjev Ave. 6,

Lapin Vasily Nikolaevich
PhD.
Office: Institute of Computational Technologies SB RAS
Address: 630090, Russia, Novosibirsk, Ac. Lavrentjev Ave. 6,
Phone Office: (383) 3307373
E-mail: lapin@ict.sbras.ru

Chirkov Denis Vladimirovich
PhD.
Position: Senior Research Scientist
Office: Institute of Computational Technologies SB RAS
Address: 630090, Russia, Novosibirsk, Ac. Lavrentjev Ave. 6,
Phone Office: (383) 330 73 73
E-mail: chirkov@ict.nsc.ru

Bibliography link:
Kuzminov A.V., Lapin V.N., Chirkov D.V. Numerical simulation of incompressible turbulent flows using two-layer turbulent (k - e) model // Computational technologies. 2001. V. 6. № 5. P. 73-86