SimulationThermoCapillaryDroplet< dim, number > Class Template Reference

Developer Documentation: MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number > Class Template Reference
Developer Documentation
MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number > Class Template Reference

#include <thermo_capillary_droplet.hpp>

Inheritance diagram for MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >:
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Collaboration diagram for MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >:
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Public Member Functions

 SimulationThermoCapillaryDroplet (std::string parameter_file, const MPI_Comm mpi_communicator)
 
bool add_case_specific_parameters (dealii::ParameterHandler &prm) override
 Add simulation-specific parameters (can be overridden).
 
void create_spatial_discretization () override
 Pure virtual function to create the spatial discretization.
 
void set_boundary_conditions () final
 Pure virtual function to set the boundary conditions.
 
void set_field_conditions () final
 Pure virtual function to set the field conditions.
 
void do_postprocessing (const GenericDataOut< dim, double > &generic_data_out) const final
 
- Public Member Functions inherited from MeltPoolDG::MeltPoolCase< dim, number >
 MeltPoolCase (const std::string &parameter_file_in, MPI_Comm mpi_communicator_in)
 
- Public Member Functions inherited from MeltPoolDG::SimulationCaseBase< dim, number, spacedim >
virtual ~SimulationCaseBase ()=default
 
 SimulationCaseBase (const std::string &parameter_file_in, MPI_Comm mpi_communicator_in)
 
void create ()
 Main setup function to initialize the simulation.
 
std::map< dealii::types::boundary_id, std::shared_ptr< dealii::Function< dim > > > get_boundary_condition (const std::string &type, const std::string &operation_name, const bool is_optional=true) const
 Retrieve boundary conditions of a specific type for an operation.
 
std::shared_ptr< BoundaryConditionManager< dim, number > > get_boundary_condition_manager (const std::string &operation_name, const bool is_optional=true) const
 Retrieve the boundary condition object for a specific operation.
 
std::string get_boundary_condition_type (dealii::types::boundary_id boundary_id, const std::string &operation_name) const
 Retrieve the type of a boundary condition for a specific boundary ID and operation.
 
void set_time_boundary_conditions (const number time)
 Update the time for all boundary conditions.
 
std::shared_ptr< dealii::Function< dim > > get_field_function (const std::string &type, const std::string &operation_name, const bool is_optional=false)
 
std::shared_ptr< dealii::Function< dim > > get_initial_condition (const std::string &operation_name, const bool is_optional=false)
 Retrieve the initial condition for a given operation.
 
const PeriodicBoundaryConditions< dim > & get_periodic_bc () const
 Get the periodic boundary condition manager.
 
virtual void do_postprocessing (const GenericDataOut< dim, number > &generic_data_out) const
 Perform specific postprocessing (can be overridden by derived classes).
 

Private Attributes

const double x_min = -2 * a
 
const double x_max = 2 * a
 
double velocity_reference
 
double time_reference
 
double reynolds_number
 
double mach_number
 
double capillary_number
 
bool liquid_phase_outside = false
 
std::ofstream file
 
bool print_once = true
 

Additional Inherited Members

- Public Attributes inherited from MeltPoolDG::MeltPoolCase< dim, number >
MeltPoolCaseParameters< number > parameters
 
- Public Attributes inherited from MeltPoolDG::SimulationCaseBase< dim, number, spacedim >
std::shared_ptr< dealii::Triangulation< dim, spacedim > > triangulation
 
const std::string parameter_file
 
const MPI_Comm mpi_communicator
 
- Protected Member Functions inherited from MeltPoolDG::SimulationCaseBase< dim, number, spacedim >
void attach_field_function (std::shared_ptr< dealii::Function< dim > > function, const std::string &type, const std::string &operation_name)
 
void attach_initial_condition (std::shared_ptr< dealii::Function< dim > > initial_function, const std::string &operation_name)
 
void attach_boundary_condition (std::pair< const dealii::types::boundary_id, const std::shared_ptr< dealii::Function< dim > > > id_and_function, const std::string &type, const std::string &operation_name)
 Attach a boundary condition for a specific operation.
 
void attach_boundary_condition (const dealii::types::boundary_id id, const std::string &type, const std::string &operation_name)
 Attach a boundary condition with a dummy function for a specific operation.
 
void attach_periodic_boundary_condition (const dealii::types::boundary_id id_in, const dealii::types::boundary_id id_out, const int direction)
 

Constructor & Destructor Documentation

◆ SimulationThermoCapillaryDroplet()

template<int dim, typename number >
MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::SimulationThermoCapillaryDroplet ( std::string  parameter_file,
const MPI_Comm  mpi_communicator 
)
inline

Member Function Documentation

◆ add_case_specific_parameters()

template<int dim, typename number >
bool MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::add_case_specific_parameters ( dealii::ParameterHandler &  )
inlineoverridevirtual

Add simulation-specific parameters (can be overridden).

This function can be overridden in derived classes to add custom simulation parameters to the handler. The return value can be used to print the parameters to the terminal output.

Parameters
prmParameterHandler object to which parameters can be added.

Reimplemented from MeltPoolDG::SimulationCaseBase< dim, number, spacedim >.

◆ create_spatial_discretization()

template<int dim, typename number >
void MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::create_spatial_discretization ( )
inlineoverridevirtual

Pure virtual function to create the spatial discretization.

Derived classes must implement this function to define how the spatial discretization is created.

Implements MeltPoolDG::SimulationCaseBase< dim, number, spacedim >.

◆ do_postprocessing()

template<int dim, typename number >
void MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::do_postprocessing ( const GenericDataOut< dim, double > &  generic_data_out) const
inlinefinal

◆ set_boundary_conditions()

template<int dim, typename number >
void MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::set_boundary_conditions ( )
inlinefinalvirtual

Pure virtual function to set the boundary conditions.

Derived classes must implement this function to define how boundary conditions are set.

Implements MeltPoolDG::SimulationCaseBase< dim, number, spacedim >.

◆ set_field_conditions()

template<int dim, typename number >
void MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::set_field_conditions ( )
inlinefinalvirtual

Pure virtual function to set the field conditions.

Derived classes must implement this function to define how field conditions are set.

Implements MeltPoolDG::SimulationCaseBase< dim, number, spacedim >.

Member Data Documentation

◆ capillary_number

template<int dim, typename number >
double MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::capillary_number
private

◆ file

template<int dim, typename number >
std::ofstream MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::file
mutableprivate

◆ liquid_phase_outside

template<int dim, typename number >
bool MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::liquid_phase_outside = false
private

◆ mach_number

template<int dim, typename number >
double MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::mach_number
private

◆ print_once

template<int dim, typename number >
bool MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::print_once = true
mutableprivate

◆ reynolds_number

template<int dim, typename number >
double MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::reynolds_number
private

◆ time_reference

template<int dim, typename number >
double MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::time_reference
private

◆ velocity_reference

template<int dim, typename number >
double MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::velocity_reference
private

◆ x_max

template<int dim, typename number >
const double MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::x_max = 2 * a
private

◆ x_min

template<int dim, typename number >
const double MeltPoolDG::Simulation::ThermoCapillaryDroplet::SimulationThermoCapillaryDroplet< dim, number >::x_min = -2 * a
private

The documentation for this class was generated from the following file: