Hyon Kook Myong scite author profile

Three-dimensional developing turbulent flow in a square duct involving turbulencedriven secondary motion is numerically predicted with an anisotropic low-Reynoldsnumber k-e turbulence model. Special attention has been given to both regions close to the wall and the corner, which are known to influence the characteristics of secondary flow a great deal. Hence, the no-slip boundary condition at the wall is directly used in place of the common wall function approach. The resulting set of equations simplified only by the boundary layer assumption are first compared with previous algebraic stress models, and solved with a forward marching numerical procedure for three-dimensional shear layers. Typical predicted quantities such as mean axial and secondary velocities, friction coefficients, turbulent kinetic energy, and Reynolds shear stress are compared with available experimental data. These results indicate that the present anisotropic k-e turbulence model performs quite well for this complex flow field.

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Numerical investigation of fully developed turbulent fluid flow and heat transfer in a square duct

Myong

1991

International Journal of Heat and Fluid Flow

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Numerical Analysis of Particle Deposition onto Horizontal Freestanding Wafer Surfaces Heated or Cooled

Yoo

Myong

1996

Aerosol Science and Technology

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Hyon Kook Myong

A New Approach to the Improvement of k-ε Turbulence Model for Wall-Bounded Shear Flows

Numerical Prediction of Turbulent Pipe Flow Heat Transfe for Various Prandtl Number Fluids with the Improved k-ε Turbulence Model

Prediction of Three-Dimensional Developing Turbulent Flow in a Square Duct With an Anisotropic Low-Reynolds-Number k-ε Model

Numerical investigation of fully developed turbulent fluid flow and heat transfer in a square duct

Numerical Analysis of Particle Deposition onto Horizontal Freestanding Wafer Surfaces Heated or Cooled

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Hyon Kook Myong

A New Approach to the Improvement of k-&epsilon; Turbulence Model for Wall-Bounded Shear Flows

Numerical Prediction of Turbulent Pipe Flow Heat Transfe for Various Prandtl Number Fluids with the Improved k-&epsilon; Turbulence Model

Prediction of Three-Dimensional Developing Turbulent Flow in a Square Duct With an Anisotropic Low-Reynolds-Number k-ε Model

Numerical investigation of fully developed turbulent fluid flow and heat transfer in a square duct

Numerical Analysis of Particle Deposition onto Horizontal Freestanding Wafer Surfaces Heated or Cooled

Contact Info

Product

Resources

About

A New Approach to the Improvement of k-ε Turbulence Model for Wall-Bounded Shear Flows

Numerical Prediction of Turbulent Pipe Flow Heat Transfe for Various Prandtl Number Fluids with the Improved k-ε Turbulence Model