Add to ORKGThis thesis is an investigation of numerical methods for approximating solutions to fluid flow problems, specifically the Navier-Stokes equations (NSE) and magnetohydrodynamic equations (MHD), with an overriding theme of enforcing more physical behavior in discrete solutions. It is well documented that numerical methods with more physical accuracy exhibit better long-time behavior than comparable methods that enforce less physics in their solutions. This work develops, analyzes and tests finite element methods that better enforce mass conservation in discrete velocity solutions to the NSE and MHD, helicity conservation for NSE, cross-helicity conservation in MHD, and magnetic field incompressibility in MHD
The Navier-Stokes equations model the evolution of water, oil, and air flow (air under 220 m.p.h.), ...
A numerical formulation to solve the MHD problem with thermal coupling is presented in full detail. ...
A sizeable proportion of the work in this thesis focuses on a new turbulence model, dubbed ADC (the ...
This thesis studies novel physics-based methods for simulating incompressible fluid flow desc...
This dissertation contains several approaches to resolve irregularity issues of CFD problems, includ...
This thesis is a study of several high accuracy numerical methods for fluid flow problems and turbul...
The magnetohydrodynamics (MHD) model describes the flow of electrically conducting fluids in the pre...
Computational fluid dynamics is an essential research area that is of crucial importance in comprehe...
This article studies two methods for obtaining excellent mass conservation in finite element computa...
This book presents a collection of works published in a recent Special Issue (SI) entitled “Computat...
This article studies two methods for obtaining excellent mass conservation in finite element computa...
In this thesis, a finite element discretization of the incompressible Navier-Stokes equations for a ...
AbstractWe study Voigt regularizations for the Navier–Stokes equations (NSEs) and magnetohydrodynami...
The results of a comprehensive numerical investigation of the basic capabilities of the finite eleme...
This thesis studies regularization models as a way to approximate a flow simulation at a lower compu...
The Navier-Stokes equations model the evolution of water, oil, and air flow (air under 220 m.p.h.), ...
A numerical formulation to solve the MHD problem with thermal coupling is presented in full detail. ...
A sizeable proportion of the work in this thesis focuses on a new turbulence model, dubbed ADC (the ...
This thesis studies novel physics-based methods for simulating incompressible fluid flow desc...
This dissertation contains several approaches to resolve irregularity issues of CFD problems, includ...
This thesis is a study of several high accuracy numerical methods for fluid flow problems and turbul...
The magnetohydrodynamics (MHD) model describes the flow of electrically conducting fluids in the pre...
Computational fluid dynamics is an essential research area that is of crucial importance in comprehe...
This article studies two methods for obtaining excellent mass conservation in finite element computa...
This book presents a collection of works published in a recent Special Issue (SI) entitled “Computat...
This article studies two methods for obtaining excellent mass conservation in finite element computa...
In this thesis, a finite element discretization of the incompressible Navier-Stokes equations for a ...
AbstractWe study Voigt regularizations for the Navier–Stokes equations (NSEs) and magnetohydrodynami...
The results of a comprehensive numerical investigation of the basic capabilities of the finite eleme...
This thesis studies regularization models as a way to approximate a flow simulation at a lower compu...
The Navier-Stokes equations model the evolution of water, oil, and air flow (air under 220 m.p.h.), ...
A numerical formulation to solve the MHD problem with thermal coupling is presented in full detail. ...
A sizeable proportion of the work in this thesis focuses on a new turbulence model, dubbed ADC (the ...