KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Classes | Namespaces
fluid_dynamics_application.h File Reference
#include <string>
#include <iostream>
#include "includes/define.h"
#include "includes/kratos_application.h"
#include "custom_elements/axisymmetric_navier_stokes.h"
#include "custom_elements/vms.h"
#include "custom_elements/qs_vms.h"
#include "custom_elements/qs_vms_dem_coupled.h"
#include "custom_elements/alternative_qs_vms_dem_coupled.h"
#include "custom_elements/d_vms.h"
#include "custom_elements/d_vms_dem_coupled.h"
#include "custom_elements/alternative_d_vms_dem_coupled.h"
#include "custom_elements/fic.h"
#include "custom_elements/symbolic_stokes.h"
#include "custom_elements/weakly_compressible_navier_stokes.h"
#include "custom_elements/embedded_fluid_element.h"
#include "custom_elements/embedded_fluid_element_discontinuous.h"
#include "custom_elements/two_fluid_vms.h"
#include "custom_elements/two_fluid_vms_linearized_darcy.h"
#include "custom_elements/stationary_stokes.h"
#include "custom_elements/fractional_step.h"
#include "custom_elements/fractional_step_discontinuous.h"
#include "custom_elements/spalart_allmaras.h"
#include "custom_conditions/wall_condition.h"
#include "custom_conditions/fs_werner_wengle_wall_condition.h"
#include "custom_conditions/fs_generalized_wall_condition.h"
#include "custom_conditions/wall_condition_discontinuous.h"
#include "custom_conditions/monolithic_wall_condition.h"
#include "custom_conditions/stokes_wall_condition.h"
#include "custom_conditions/two_fluid_navier_stokes_wall_condition.h"
#include "custom_conditions/fs_periodic_condition.h"
#include "custom_conditions/navier_stokes_wall_condition.h"
#include "custom_conditions/embedded_ausas_navier_stokes_wall_condition.h"
#include "custom_elements/dpg_vms.h"
#include "custom_elements/bingham_fluid.h"
#include "custom_elements/herschel_bulkley_fluid.h"
#include "custom_elements/stokes_3D.h"
#include "custom_elements/stokes_3D_twofluid.h"
#include "custom_elements/navier_stokes.h"
#include "custom_elements/embedded_navier_stokes.h"
#include "custom_elements/embedded_ausas_navier_stokes.h"
#include "custom_elements/compressible_navier_stokes_explicit.h"
#include "custom_elements/two_fluid_navier_stokes.h"
#include "custom_elements/two_fluid_navier_stokes_alpha_method.h"
#include "custom_elements/data_containers/axisymmetric_navier_stokes/axisymmetric_navier_stokes_data.h"
#include "custom_utilities/qsvms_data.h"
#include "custom_utilities/time_integrated_qsvms_data.h"
#include "custom_utilities/qsvms_dem_coupled_data.h"
#include "custom_utilities/fic_data.h"
#include "custom_utilities/time_integrated_fic_data.h"
#include "custom_utilities/symbolic_stokes_data.h"
#include "custom_utilities/two_fluid_navier_stokes_data.h"
#include "custom_utilities/two_fluid_navier_stokes_alpha_method_data.h"
#include "custom_utilities/weakly_compressible_navier_stokes_data.h"
#include "custom_constitutive/bingham_3d_law.h"
#include "custom_constitutive/euler_2d_law.h"
#include "custom_constitutive/euler_3d_law.h"
#include "custom_constitutive/herschel_bulkley_3d_law.h"
#include "custom_constitutive/newtonian_2d_law.h"
#include "custom_constitutive/newtonian_3d_law.h"
#include "custom_constitutive/newtonian_two_fluid_2d_law.h"
#include "custom_constitutive/newtonian_two_fluid_3d_law.h"
#include "custom_constitutive/newtonian_temperature_dependent_2d_law.h"
#include "custom_constitutive/newtonian_temperature_dependent_3d_law.h"
#include "custom_conditions/wall_laws/linear_log_wall_law.h"
#include "custom_conditions/wall_laws/navier_slip_wall_law.h"
#include "custom_elements/vms_adjoint_element.h"
#include "custom_elements/fluid_adjoint_element.h"
#include "custom_elements/data_containers/qs_vms/qs_vms_adjoint_element_data.h"
#include "custom_conditions/adjoint_monolithic_wall_condition.h"
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Classes

class  Kratos::KratosFluidDynamicsApplication
 Main class of the Fluid Dynamics Application. More...
 

Namespaces

 Kratos
 REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.