Flow analysis of backward-facing step is claimed to be a necessity when it comes to Computational Fluid Dynamics solver validation. The turbulence development with both separation and reattachment passing through the step has become the practical challenge for solver developers ever since the numerical computation revolution started. In-line with the trend, this work is predestined to further validate the use of Splitting velocity-pressure coupling method with immersed boundary extension for unsteady Navier-Stokes flow solver. The comparison is launched with steady numerical results via established software for commonly used benchmark backward-facing step construction. Flow parameters in both solvers are set equivalent to Reynolds number of...
Separation and reattachment of turbulent shear layers is observed in many important engineering appl...
A numerical investigation of laminar flow over a backward-facing step is presented for the Reynolds ...
International audienceThis paper presents an Immersed Boundary Method (IBM) for handling flows in th...
Investigation of flow separation and reattachment length over a backward facing step are such as the...
Reattachment of a turbulent shear layer is an important process in wide variety of engineering syste...
A comparative study was conducted for computational fluid dynamic solutions to flow over a backward-...
AbstractIn this study, based on an open source CFD package OpenFOAM we carried out a number of numer...
The backward-facing step flow (BFSF) is a classical problem in fluid mechanics, hydraulic engineerin...
Computational examinations of the flow field in an open channel having a single Backward--Facing Ste...
Two-dimensional steady incompressible turbulent flow over a backward-facing step was calculated usin...
Splitting Methods are considered to be a strong candidate for obtaining accurate, robust and computa...
This paper assesses the validity of the Two-Step, One-Way (TSOW) coupled method for computational fl...
For a so-called backward facing step problem the local velocities and fluctuating components are mea...
The contribution deals with a 3D numerical simulation of backward-facing step flow. The ratio of wid...
AbstractA numerical investigation of laminar flow over a backward-facing step is presented for the R...
Separation and reattachment of turbulent shear layers is observed in many important engineering appl...
A numerical investigation of laminar flow over a backward-facing step is presented for the Reynolds ...
International audienceThis paper presents an Immersed Boundary Method (IBM) for handling flows in th...
Investigation of flow separation and reattachment length over a backward facing step are such as the...
Reattachment of a turbulent shear layer is an important process in wide variety of engineering syste...
A comparative study was conducted for computational fluid dynamic solutions to flow over a backward-...
AbstractIn this study, based on an open source CFD package OpenFOAM we carried out a number of numer...
The backward-facing step flow (BFSF) is a classical problem in fluid mechanics, hydraulic engineerin...
Computational examinations of the flow field in an open channel having a single Backward--Facing Ste...
Two-dimensional steady incompressible turbulent flow over a backward-facing step was calculated usin...
Splitting Methods are considered to be a strong candidate for obtaining accurate, robust and computa...
This paper assesses the validity of the Two-Step, One-Way (TSOW) coupled method for computational fl...
For a so-called backward facing step problem the local velocities and fluctuating components are mea...
The contribution deals with a 3D numerical simulation of backward-facing step flow. The ratio of wid...
AbstractA numerical investigation of laminar flow over a backward-facing step is presented for the R...
Separation and reattachment of turbulent shear layers is observed in many important engineering appl...
A numerical investigation of laminar flow over a backward-facing step is presented for the Reynolds ...
International audienceThis paper presents an Immersed Boundary Method (IBM) for handling flows in th...