def __init__(self, model, custom_settings): super().__init__(model, custom_settings) ## Get domain size self.domain_size = self.settings["domain_size"].GetInt() ## Set the fluid dynamics solver from KratosMultiphysics.FluidDynamicsApplication import python_solvers_wrapper_fluid self.fluid_solver = python_solvers_wrapper_fluid.CreateSolverByParameters( self.model, self.settings["fluid_domain_solver_settings"] ["fluid_solver_settings"], "OpenMP") # Set the fluid and solid heat solvers from KratosMultiphysics.ConvectionDiffusionApplication import python_solvers_wrapper_convection_diffusion self.fluid_thermal_solver = python_solvers_wrapper_convection_diffusion.CreateSolverByParameters( self.model, self.settings["fluid_domain_solver_settings"] ["thermal_solver_settings"], "OpenMP") self.solid_thermal_solver = python_solvers_wrapper_convection_diffusion.CreateSolverByParameters( self.model, self.settings["solid_domain_solver_settings"] ["thermal_solver_settings"], "OpenMP")
def __init__(self, model, custom_settings): super(CoupledThermoMechanicalSolver, self).__init__(model, custom_settings) ## Get domain size self.domain_size = self.settings["domain_size"].GetInt() from KratosMultiphysics.StructuralMechanicsApplication import python_solvers_wrapper_structural self.structural_solver = python_solvers_wrapper_structural.CreateSolverByParameters(self.model, self.settings["structural_solver_settings"],"OpenMP") from KratosMultiphysics.ConvectionDiffusionApplication import python_solvers_wrapper_convection_diffusion self.thermal_solver = python_solvers_wrapper_convection_diffusion.CreateSolverByParameters(self.model,self.settings["thermal_solver_settings"],"OpenMP")
def __init__(self, model, custom_settings): self._validate_settings_in_baseclass = True super(CoupledPfemFluidThermalSolver, self).__init__(model, custom_settings) # Get domain size self.domain_size = self.settings["domain_size"].GetInt() from KratosMultiphysics.PfemFluidDynamicsApplication import python_solvers_wrapper_pfem_fluid self.fluid_solver = python_solvers_wrapper_pfem_fluid.CreateSolverByParameters(self.model,self.settings["fluid_solver_settings"],"OpenMP") from KratosMultiphysics.ConvectionDiffusionApplication import python_solvers_wrapper_convection_diffusion self.thermal_solver = python_solvers_wrapper_convection_diffusion.CreateSolverByParameters(self.model,self.settings["thermal_solver_settings"],"OpenMP")
def __init__(self, model, custom_settings): super(CoupledThermoMechanicalSolver, self).__init__(model, custom_settings) default_settings = KratosMultiphysics.Parameters(""" { "solver_type" : "ThermoMechanicallyCoupled", "domain_size" : -1, "echo_level": 0, "structural_solver_settings": { "solver_type": "Static", "model_part_name" : "Structure", "domain_size" : 2, "echo_level" : 1, "analysis_type" : "non_linear", "model_import_settings": { "input_type": "mdpa", "input_filename": "unknown_name" }, "material_import_settings" : { "materials_filename" : "StructuralMaterials.json" } }, "thermal_solver_settings": { "solver_type": "Transient", "analysis_type": "linear", "model_import_settings": { "input_type": "use_input_model_part" }, "material_import_settings": { "materials_filename": "ThermalMaterials.json" } } } """) ## Overwrite the default settings with user-provided parameters self.settings.ValidateAndAssignDefaults(default_settings) ## Get domain size self.domain_size = self.settings["domain_size"].GetInt() from KratosMultiphysics.StructuralMechanicsApplication import python_solvers_wrapper_structural self.structural_solver = python_solvers_wrapper_structural.CreateSolverByParameters(self.model, self.settings["structural_solver_settings"],"OpenMP") from KratosMultiphysics.ConvectionDiffusionApplication import python_solvers_wrapper_convection_diffusion self.thermal_solver = python_solvers_wrapper_convection_diffusion.CreateSolverByParameters(self.model,self.settings["thermal_solver_settings"],"OpenMP")