Go to the source code of this file.
Classes | |
| class | MyHelicalCylinder |
| The arguemts are the radius of the tube, its curvature in the x,y plane and the pitch of the helix. More... | |
| class | SteadyHelicalProblem< ELEMENT > |
| Entry flow problem in tapered tube domain. More... | |
Namespaces | |
| Global_Physical_Variables | |
| Namespace for physical parameters. | |
Functions | |
| int | main (int argc, char *argv[]) |
| ///////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////// More... | |
Variables | |
| double | Global_Physical_Variables::Pitch = 1.0 |
| int main | ( | int | argc, |
| char * | argv[] | ||
| ) |
///////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////
Driver for 3D entry flow into a tapered tube. If there are any command line arguments, we regard this as a validation run and perform only a single adaptation
Definition at line 333 of file helical_pipe.cc.
References SteadyHelicalProblem< ELEMENT >::doc_solution().