pressure_driven_torus.cc File Reference

#include "generic.h"
#include "axisym_navier_stokes.h"
#include "solid.h"
#include "constitutive.h"
#include "meshes/triangle_mesh.h"

Classes
class	oomph::MyTaylorHoodElement< DIM >
	Overload TaylorHood element to modify output. More...
class	oomph::FaceGeometry< MyTaylorHoodElement >
class	oomph::FaceGeometry< FaceGeometry< MyTaylorHoodElement > >
class	GeneralCircle
class	UnstructuredTorusProblem< ELEMENT >
	Solve the Axisymmetric Navier Stokes equations in a torus. More...

Namespaces
	Global_Physical_Variables
	Global variables.
	oomph
	DRAIG: Change all instances of (SPATIAL_DIM) to (DIM-1).

Functions
void	Global_Physical_Variables::axial_pressure_gradient (const double &time, const Vector< double > &x, Vector< double > &result)
	A function to specify a constant axial body force. More...
int	main ()

Variables
double	Global_Physical_Variables::Dean = 100.0
	The Dean number. More...
double	Global_Physical_Variables::Lambda_sq =0.0
	Pseudo-solid mass density. More...
double	Global_Physical_Variables::Mu = 0.0

Function Documentation

main()

int main

(

)

{
 
 double max_error = 1.0e-3;
 double min_error = 1.0e-5;
 
 {
  UnstructuredTorusProblem<
   ProjectableAxisymmetricTaylorHoodElement<MyTaylorHoodElement> >
    /* PseudoSolidNodeUpdateElement<AxisymmetricTTaylorHoodElement, 
       TPVDElement<2,3> > > >   */
   problem(min_error,max_error);
 
  //Now timestep
  problem.solve_system(0.01,2,"RESLT_TH");
 }
 
 
 }

References MeshRefinement::max_error, MeshRefinement::min_error, and problem.