Add to ORKGA brief review is given of turbulence models in use today for engineering applications. The main categories covered are simple eddy-viscosity models, the k-ε two-equation model and Reynolds-stress-equation models as well as their algebraic stress derivatives. Calculation examples are presented for a variety of 2D and 3D flows
The aim of these lecture notes is to introduce the reader to Reynolds stress equation model and othe...
The aim of these lecture notes is to introduce the reader to Reynolds stress equation model and othe...
Here we provide an overview of some of the most commonly used turbulence models used in current CFD ...
A survey is given of relatively simple turbulence models which are in use for solving practical flow...
The performance of different low-Reynolds number turbulence models applied to various flows is descr...
A survey is given of relatively simple turbulence models which are in use for solving practical flow...
Examples are presented of calculations performed with the relatively simple turbulence models survey...
In recent years codes that use the Navier-Stokes equations to compute aerodynamic flows have evolved...
The computational fluid dynamics (CFD) tools for various flow problems have become widespread nowada...
The computational fluid dynamics (CFD) tools for various flow problems have become widespread nowada...
Basics of Engineering Turbulence introduces flow turbulence to engineers and engineering students wh...
An overview is given on the background of different turbulence models that can be used to compute bo...
With applications to climate, technology, and industry, the modeling and numerical simulation of tur...
An overview is given on the background of different turbulence models that can be used to compute bo...
Aeronautical aerodynamics is characterized by compressible flow at high Reynolds numbers. Therefore ...
The aim of these lecture notes is to introduce the reader to Reynolds stress equation model and othe...
The aim of these lecture notes is to introduce the reader to Reynolds stress equation model and othe...
Here we provide an overview of some of the most commonly used turbulence models used in current CFD ...
A survey is given of relatively simple turbulence models which are in use for solving practical flow...
The performance of different low-Reynolds number turbulence models applied to various flows is descr...
A survey is given of relatively simple turbulence models which are in use for solving practical flow...
Examples are presented of calculations performed with the relatively simple turbulence models survey...
In recent years codes that use the Navier-Stokes equations to compute aerodynamic flows have evolved...
The computational fluid dynamics (CFD) tools for various flow problems have become widespread nowada...
The computational fluid dynamics (CFD) tools for various flow problems have become widespread nowada...
Basics of Engineering Turbulence introduces flow turbulence to engineers and engineering students wh...
An overview is given on the background of different turbulence models that can be used to compute bo...
With applications to climate, technology, and industry, the modeling and numerical simulation of tur...
An overview is given on the background of different turbulence models that can be used to compute bo...
Aeronautical aerodynamics is characterized by compressible flow at high Reynolds numbers. Therefore ...
The aim of these lecture notes is to introduce the reader to Reynolds stress equation model and othe...
The aim of these lecture notes is to introduce the reader to Reynolds stress equation model and othe...
Here we provide an overview of some of the most commonly used turbulence models used in current CFD ...