Calculation of turbulence intensities and turbulence shear stresses in incompressible flow on concave surfaces by extending the Low Reynolds Number turbulence model for curved walls  Fulltext 

[ Khoshnevis ] - Assistant professor Technical Faculty Sbzevar Tarbiat moalem University
[ Hariri ] - Graduated student Mechanical Department Shahrood University of Technology
[ Farzaneh Gord ] - Assistant professor Mechanical Department Shahrood University of Technology

خلاصه مقاله:

In this paper we examine the effect of concave curvatures on turbulent flows using numerical solutions of boundary layer equations on concave surfaces. Turbulence intensities and turbulent shear stress were calculated in the mentioned case. It is obvious that the turbulent intensities
and turbulent shear stress are increased on concave walls compared with flat plates under the same conditions. It was concluded that for the boundary layer on concave surfaces, the destabilizing effects lead to increased turbulent momentum exchange between fluid particles similar to the way concave curvature causes flow to be destabilized .The rate of integral parameters of the boundary layer such as momentum thickness and displacement thickness are increased on concave curvatures when they are compared to the values of these parameters on flat plates. However, the nonlinear k- e model often used in engineering applications cannot satisfy the distribution and wall-limiting behavior of the Reynolds stress component. In this case, the model used to calculate turbulent parameters is an improvement over low Reynolds number turbulence models. It is modified by both wall functions and curvature parameters for curved surfaces.

Turbulence model, Boundary layer equations, Shear stress, Turbulence intensities, Concave curvature.