Entry flow problem in tapered tube domain. More...
Public Member Functions | |
| SteadyCurvedTubeProblem (DocInfo &doc_info, const double &min_error_target, const double &max_error_target) | |
| Constructor: Pass DocInfo object and target errors. More... | |
| ~SteadyCurvedTubeProblem () | |
| Destructor (empty) More... | |
| void | actions_before_newton_solve () |
| Update the problem specs before solve. More... | |
| void | actions_after_adapt () |
| After adaptation: Pin redudant pressure dofs. More... | |
| void | doc_solution () |
| Doc the solution. More... | |
| RefineableTubeMesh< ELEMENT > * | mesh_pt () |
| Overload generic access function by one that returns a pointer to the specific mesh. More... | |
Private Attributes | |
| DocInfo | Doc_info |
| Doc info object. More... | |
| GeomObject * | Volume_pt |
| Pointer to GeomObject that specifies the domain volume. More... | |
Detailed Description
template<class ELEMENT>
class SteadyCurvedTubeProblem< ELEMENT >
Entry flow problem in tapered tube domain.
Definition at line 99 of file curved_pipe.cc.
Constructor & Destructor Documentation
◆ SteadyCurvedTubeProblem()
| SteadyCurvedTubeProblem< ELEMENT >::SteadyCurvedTubeProblem | ( | DocInfo & | doc_info, |
| const double & | min_error_target, | ||
| const double & | max_error_target | ||
| ) |
Constructor: Pass DocInfo object and target errors.
Constructor: Pass DocInfo object and error targets.
Definition at line 149 of file curved_pipe.cc.
References Global_Physical_Variables::Delta, SteadyCurvedTubeProblem< ELEMENT >::mesh_pt(), Global_Physical_Variables::Re, and SteadyCurvedTubeProblem< ELEMENT >::Volume_pt.
◆ ~SteadyCurvedTubeProblem()
|
inline |
Destructor (empty)
Definition at line 109 of file curved_pipe.cc.
Member Function Documentation
◆ actions_after_adapt()
|
inline |
After adaptation: Pin redudant pressure dofs.
Definition at line 115 of file curved_pipe.cc.
◆ actions_before_newton_solve()
| void SteadyCurvedTubeProblem< ELEMENT >::actions_before_newton_solve |
Update the problem specs before solve.
Set the inflow boundary conditions.
Definition at line 256 of file curved_pipe.cc.
References Global_Physical_Variables::Delta.
◆ doc_solution()
| void SteadyCurvedTubeProblem< ELEMENT >::doc_solution |
Doc the solution.
Definition at line 284 of file curved_pipe.cc.
References Global_Physical_Variables::Re.
Referenced by main().
◆ mesh_pt()
|
inline |
Overload generic access function by one that returns a pointer to the specific mesh.
Definition at line 127 of file curved_pipe.cc.
Referenced by SteadyCurvedTubeProblem< ELEMENT >::SteadyCurvedTubeProblem().
Member Data Documentation
◆ Doc_info
|
private |
Doc info object.
Definition at line 135 of file curved_pipe.cc.
◆ Volume_pt
|
private |
Pointer to GeomObject that specifies the domain volume.
Definition at line 138 of file curved_pipe.cc.
Referenced by SteadyCurvedTubeProblem< ELEMENT >::SteadyCurvedTubeProblem().
The documentation for this class was generated from the following file: