Classes | Namespaces | Functions | Variables
adaptive_bubble_in_channel.cc File Reference

Go to the source code of this file.

Classes

class  oomph::MyTaylorHoodElement
 Overload TaylorHood element to modify output. More...
 
class  oomph::FaceGeometry< MyTaylorHoodElement >
 
class  oomph::FaceGeometry< FaceGeometry< MyTaylorHoodElement > >
 
class  BubbleInChannelProblem< ELEMENT >
 Problem class to simulate inviscid bubble propagating along 2D channel. More...
 

Namespaces

 oomph
 
 Problem_Parameter
 Namespace for Problem Parameter.
 

Functions

int main (int argc, char **argv)
 Driver code for moving bubble problem. More...
 

Variables

DocInfo Problem_Parameter::Doc_info
 Doc info object. More...
 
double Problem_Parameter::Re =0.0
 Reynolds number. More...
 
double Problem_Parameter::Ca = 10.0
 Capillary number. More...
 
double Problem_Parameter::Nu =0.3
 Pseudo-solid Poisson ratio. More...
 
double Problem_Parameter::Radius = 0.25
 Initial radius of bubble. More...
 
double Problem_Parameter::Volume = -MathematicalConstants::Pi*Radius*Radius
 Volume of the bubble (negative because it's outside the fluid!) More...
 
double Problem_Parameter::Inflow_veloc_magnitude = 0.0
 Scaling factor for inflow velocity (allows it to be switched off to do hydrostatics) More...
 
double Problem_Parameter::Length = 3.0
 Length of the channel. More...
 
ConstitutiveLaw * Problem_Parameter::Constitutive_law_pt =0
 Constitutive law used to determine the mesh deformation. More...
 
ofstream Problem_Parameter::Trace_file
 Trace file. More...
 
ofstream Problem_Parameter::Norm_file
 File to document the norm of the solution (for validation purposes – triangle doesn't give fully reproducible results so mesh generation/adaptation may generate slightly different numbers of elements on different machines!) More...
 

Function Documentation

int main ( int  argc,
char **  argv 
)