Approximate projection methods are useful computational tools for solving the equations of time-dependent incompressible flow.In this report we will present a new discretization of the approximate projection in an approximate projection method. The discretizations of divergence and gradient will be identical to those in existing approximate projection methodology using cell-centered values of pressure; however, we will replace inversion of the five-point cell-centered discretization of the Laplacian operator by a Fast Multipole Method-based Poisson Solver (FMM-PS).We will show that the FMM-PS solver can be an accurate and robust component of an approximation projection method for constant density, inviscid, incompressible flow proble...
An original strategy to address hydrodynamic flow was recently proposed through a high-order weakly-...
AbstractA fast Poisson solver for general regions with Dirichlet boundary conditions is proposed and...
We consider the numerical simulation of two-phase fluid flow, where bubbles or droplets of one phase...
An analysis of existing and newly derived fast-projection methods for the numerical integration of i...
An approximate projection method has been developed for the incompressible Navier–Stokes equations....
The computational cost of solving the Navier-Stokes equations numerically is too high for most full-...
Despite the current increase in computing power, Direct Numerical Simulations (DNS) of turbulent flo...
This work describes a new finite element projection method for the computa-tion of incompressible vi...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
Velocity-pressure coupling schemes for the solution of incompressible fluid flow problems in Computa...
An analysis of existing and newly derived fast-projection methods for the numerical integration of i...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
Abstract—We propose a novel formulation of the projection method for Smoothed Particle Hydrodynamics...
Enforcing fluid incompressibility is one of the time-consuming aspects in SPH. In this paper, we pre...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
An original strategy to address hydrodynamic flow was recently proposed through a high-order weakly-...
AbstractA fast Poisson solver for general regions with Dirichlet boundary conditions is proposed and...
We consider the numerical simulation of two-phase fluid flow, where bubbles or droplets of one phase...
An analysis of existing and newly derived fast-projection methods for the numerical integration of i...
An approximate projection method has been developed for the incompressible Navier–Stokes equations....
The computational cost of solving the Navier-Stokes equations numerically is too high for most full-...
Despite the current increase in computing power, Direct Numerical Simulations (DNS) of turbulent flo...
This work describes a new finite element projection method for the computa-tion of incompressible vi...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
Velocity-pressure coupling schemes for the solution of incompressible fluid flow problems in Computa...
An analysis of existing and newly derived fast-projection methods for the numerical integration of i...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
Abstract—We propose a novel formulation of the projection method for Smoothed Particle Hydrodynamics...
Enforcing fluid incompressibility is one of the time-consuming aspects in SPH. In this paper, we pre...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
An original strategy to address hydrodynamic flow was recently proposed through a high-order weakly-...
AbstractA fast Poisson solver for general regions with Dirichlet boundary conditions is proposed and...
We consider the numerical simulation of two-phase fluid flow, where bubbles or droplets of one phase...