Add to ORKGFlow over a backward facing step is examined by means of an expansion into the eigenfunctions of the Poiseuille flow development. A limit equation is defined for the large Re flow, along with inlet conditions from which the flow evolves. The equations are manipulated to reduce the solution to a quasi-linear ordinary differential equation with eigenfunction initial conditions. Computational results are provided for the first six eigenfunctions. Higher numbers of eigenfunctions generated singularities in the simplified ODE. Streamlines, velocity distributions and pressure data are furnished
AbstractA numerical investigation of laminar flow over a backward-facing step is presented for the R...
In this study, high-resolution simulations of the flow over a forward-facing step (FFS) are presente...
AbstractA test problem which may be set up as an initial value, boundary value or eigenvalue problem...
This report deals with the calculation of the development of a channel flow at Reynolds number. The ...
Linearized equations governing a small disturbance of the Poiseuille flow lead to an eigenvalue prob...
Large-Reynolds-number analysis is given for separated flows that have the characteristic feature of ...
SIGLEAvailable from British Library Document Supply Centre- DSC:9091.9(AEA-DR--0417) / BLDSC - Briti...
Flow analysis of backward-facing step is claimed to be a necessity when it comes to Computational Fl...
In this text I will investigate steady single layer flow over an obstacle of which the height will b...
AbstractPlane Poiseuille flow is analyzed according to the method of elementary solutions previously...
AbstractA recently proposed computational method for analyzing linear ordinary differential eigensys...
In the present paper, the L2-normalized Stokes eigenfunctions for plane Poiseuille flow, which for...
It is well known that most fluid flows observed in nature or encountered in engineering applications...
International audienceThis paper constitutes the numerical counterpart of the mathematical framework...
The viscous laminar, separated flowfield downstream of a sudden expansion in a two-dimensional duct ...
AbstractA numerical investigation of laminar flow over a backward-facing step is presented for the R...
In this study, high-resolution simulations of the flow over a forward-facing step (FFS) are presente...
AbstractA test problem which may be set up as an initial value, boundary value or eigenvalue problem...
This report deals with the calculation of the development of a channel flow at Reynolds number. The ...
Linearized equations governing a small disturbance of the Poiseuille flow lead to an eigenvalue prob...
Large-Reynolds-number analysis is given for separated flows that have the characteristic feature of ...
SIGLEAvailable from British Library Document Supply Centre- DSC:9091.9(AEA-DR--0417) / BLDSC - Briti...
Flow analysis of backward-facing step is claimed to be a necessity when it comes to Computational Fl...
In this text I will investigate steady single layer flow over an obstacle of which the height will b...
AbstractPlane Poiseuille flow is analyzed according to the method of elementary solutions previously...
AbstractA recently proposed computational method for analyzing linear ordinary differential eigensys...
In the present paper, the L2-normalized Stokes eigenfunctions for plane Poiseuille flow, which for...
It is well known that most fluid flows observed in nature or encountered in engineering applications...
International audienceThis paper constitutes the numerical counterpart of the mathematical framework...
The viscous laminar, separated flowfield downstream of a sudden expansion in a two-dimensional duct ...
AbstractA numerical investigation of laminar flow over a backward-facing step is presented for the R...
In this study, high-resolution simulations of the flow over a forward-facing step (FFS) are presente...
AbstractA test problem which may be set up as an initial value, boundary value or eigenvalue problem...