A pressure-based algorithm for incompressible flows is presented. The algorithm employs a finite-volume discretization in general curvilinear coordinates on a nonstaggered mesh. This approach is derived from a finite-element algorithm, and is here extended to the finite-volume/finite-difference context. The algorithm can be classified as a SIMPLE-like sequential method, and is validated in two classical test cases: the lid-driven cavity and the differentially heated cavity problems. Good results, with no pressure checkerboarding, are achieved up to Reynolds numbers Re = 104 and Rayleigh numbers Ra = 108, respectivel
The conventional SIMPLE algorithm for the pressure–velocity coupling has been adopted by many commer...
The conventional SIMPLE algorithm for the pressure–velocity coupling has been adopted by many commer...
A number of two dimensional staggered unstructured discretisation schemes for the solution of fluid ...
A pressure-based algorithm for incompressible flows is presented. The algorithm employs a finite-vol...
In the aspect of numerical methods for incompressible flow problems, there are two different algorit...
The characteristic-based split (CBS) method has been widely used in the finite element community to ...
We present a class of a high-resolution Godunov-type algorithms for solving flow problems governed b...
In this paper, a pressure correction algorithm for computing incompressible flows is modified and im...
The present lecture deals with issues related mainly to the geometric and algorithmic complexities, ...
Selecting compute nodes and solution grid generation are the first steps of numerical solutions. The...
A pressure based solver is developed for an incompressible laminar Newtonian fluid using finite volu...
The basic idea of pressure based method to predict compressible flows solving the governing partial ...
An explicit algorithm was introduced to obtain an accurate solution of pseudo-compressible time depe...
The finite-elemem algorithm for the solution of two- and three-dimensional incompressible laminar th...
Abstract: An artificial compressibility method is designed to simulate stationary two-and three-dime...
The conventional SIMPLE algorithm for the pressure–velocity coupling has been adopted by many commer...
The conventional SIMPLE algorithm for the pressure–velocity coupling has been adopted by many commer...
A number of two dimensional staggered unstructured discretisation schemes for the solution of fluid ...
A pressure-based algorithm for incompressible flows is presented. The algorithm employs a finite-vol...
In the aspect of numerical methods for incompressible flow problems, there are two different algorit...
The characteristic-based split (CBS) method has been widely used in the finite element community to ...
We present a class of a high-resolution Godunov-type algorithms for solving flow problems governed b...
In this paper, a pressure correction algorithm for computing incompressible flows is modified and im...
The present lecture deals with issues related mainly to the geometric and algorithmic complexities, ...
Selecting compute nodes and solution grid generation are the first steps of numerical solutions. The...
A pressure based solver is developed for an incompressible laminar Newtonian fluid using finite volu...
The basic idea of pressure based method to predict compressible flows solving the governing partial ...
An explicit algorithm was introduced to obtain an accurate solution of pseudo-compressible time depe...
The finite-elemem algorithm for the solution of two- and three-dimensional incompressible laminar th...
Abstract: An artificial compressibility method is designed to simulate stationary two-and three-dime...
The conventional SIMPLE algorithm for the pressure–velocity coupling has been adopted by many commer...
The conventional SIMPLE algorithm for the pressure–velocity coupling has been adopted by many commer...
A number of two dimensional staggered unstructured discretisation schemes for the solution of fluid ...