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.
Variables
face_heat Namespace Reference

Variables

int domain_size = 2
 
 model_part = ModelPart("FluidPart")
 
 SolverSettings = ProjectParameters.SolverSettings2
 
 solver_constructor = __import__(SolverSettings.solver_type)
 
string input_file_name = "face_heat"
 
 gid_mode = GiDPostMode.GiD_PostBinary
 
 multifile = MultiFileFlag.MultipleFiles
 
 deformed_mesh_flag = WriteDeformedMeshFlag.WriteUndeformed
 
 write_conditions = WriteConditionsFlag.WriteElementsOnly
 
 gid_io = GidIO(input_file_name, gid_mode, multifile, deformed_mesh_flag, write_conditions)
 
 model_part_io_fluid = ModelPartIO(input_file_name)
 
float mesh_name = 0.0
 
 conv_diff_solver = solver_constructor.CreateSolver(model_part, SolverSettings)
 
float conductivity = 25.0
 
float density = 900.0
 
float specific_heat = 2400.0
 
float temperature = 298.0
 
 Dt = ProjectParameters.Dt
 
 full_Dt = Dt
 
float initial_Dt = 0.01 * full_Dt
 
 Nsteps = ProjectParameters.nsteps
 
 final_time = ProjectParameters.max_time
 
 output_time = ProjectParameters.output_time
 
 output_step = ProjectParameters.output_step
 
 time = ProjectParameters.Start_time
 
int out = 0
 
int step = 0
 

Variable Documentation

◆ conductivity

float face_heat.conductivity = 25.0

◆ conv_diff_solver

face_heat.conv_diff_solver = solver_constructor.CreateSolver(model_part, SolverSettings)

◆ deformed_mesh_flag

face_heat.deformed_mesh_flag = WriteDeformedMeshFlag.WriteUndeformed

◆ density

float face_heat.density = 900.0

◆ domain_size

int face_heat.domain_size = 2

◆ Dt

face_heat.Dt = ProjectParameters.Dt

◆ final_time

face_heat.final_time = ProjectParameters.max_time

◆ full_Dt

face_heat.full_Dt = Dt

◆ gid_io

◆ gid_mode

face_heat.gid_mode = GiDPostMode.GiD_PostBinary

◆ initial_Dt

float face_heat.initial_Dt = 0.01 * full_Dt

◆ input_file_name

string face_heat.input_file_name = "face_heat"

◆ mesh_name

float face_heat.mesh_name = 0.0

◆ model_part

face_heat.model_part = ModelPart("FluidPart")

◆ model_part_io_fluid

face_heat.model_part_io_fluid = ModelPartIO(input_file_name)

◆ multifile

face_heat.multifile = MultiFileFlag.MultipleFiles

◆ Nsteps

int face_heat.Nsteps = ProjectParameters.nsteps

◆ out

int face_heat.out = 0

◆ output_step

int face_heat.output_step = ProjectParameters.output_step

◆ output_time

face_heat.output_time = ProjectParameters.output_time

◆ solver_constructor

face_heat.solver_constructor = __import__(SolverSettings.solver_type)

◆ SolverSettings

face_heat.SolverSettings = ProjectParameters.SolverSettings2

◆ specific_heat

float face_heat.specific_heat = 2400.0

◆ step

int face_heat.step = 0

◆ temperature

float face_heat.temperature = 298.0

◆ time

int face_heat.time = ProjectParameters.Start_time

◆ write_conditions

face_heat.write_conditions = WriteConditionsFlag.WriteElementsOnly