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.
Namespaces | Functions | Variables
lagrangian_sessile_droplet_test.py File Reference

Namespaces

 lagrangian_sessile_droplet_test
 

Functions

def lagrangian_sessile_droplet_test.PrintResults (model_part)
 

Variables

 lagrangian_sessile_droplet_test.domain_size = ProjectParameters.domain_size
 setting the domain size for the problem to be solved More...
 
dictionary lagrangian_sessile_droplet_test.variables_dictionary
 defining variables to be used More...
 
 lagrangian_sessile_droplet_test.lagrangian_model_part = ModelPart("LagrangianPart");
 
 lagrangian_sessile_droplet_test.SolverType = problem_settings.SolverType
 importing the solvers needed More...
 
 lagrangian_sessile_droplet_test.fluid_only_model_part = ModelPart("FluidOnlyPart");
 
 lagrangian_sessile_droplet_test.element_type = problem_settings.lagrangian_element
 Choosing element type for lagrangian_model_part. More...
 
 lagrangian_sessile_droplet_test.SolverSettings = ProjectParameters.FluidSolverConfiguration
 
 lagrangian_sessile_droplet_test.solver_lagr = import_solver(SolverSettings)
 
bool lagrangian_sessile_droplet_test.compute_reactions = False
 
 lagrangian_sessile_droplet_test.gid_mode = GiDPostMode.GiD_PostBinary
 
 lagrangian_sessile_droplet_test.deformed_mesh_flag = WriteDeformedMeshFlag.WriteDeformed
 
 lagrangian_sessile_droplet_test.write_conditions = WriteConditionsFlag.WriteConditions
 
 lagrangian_sessile_droplet_test.multifile = MultiFileFlag.SingleFile
 
string lagrangian_sessile_droplet_test.input_file_name = "90deg_1mm_2"
 
 lagrangian_sessile_droplet_test.gid_io = GidIO(input_file_name,gid_mode,multifile,deformed_mesh_flag, write_conditions)
 
 lagrangian_sessile_droplet_test.model_part_io_structure = ModelPartIO(input_file_name)
 
 lagrangian_sessile_droplet_test.box_corner1 = Vector(3);
 
 lagrangian_sessile_droplet_test.box_corner2 = Vector(3);
 
string lagrangian_sessile_droplet_test.outstring2 = "convergence_info.txt"
 
 lagrangian_sessile_droplet_test.outputfile1 = open(outstring2, 'w')
 
 lagrangian_sessile_droplet_test.add_nodes = problem_settings.adaptive_refinement
 
 lagrangian_sessile_droplet_test.bulk_modulus = problem_settings.bulk_modulus
 
 lagrangian_sessile_droplet_test.density = problem_settings.density
 
 lagrangian_sessile_droplet_test.FSI = problem_settings.FSI
 
int lagrangian_sessile_droplet_test.eul_model_part = 0
 
float lagrangian_sessile_droplet_test.gamma = 0.072
 
float lagrangian_sessile_droplet_test.contact_angle = 45.0
 
float lagrangian_sessile_droplet_test.zeta_dissapative_JM = 1.0
 
float lagrangian_sessile_droplet_test.zeta_dissapative_BM = 0.0
 
float lagrangian_sessile_droplet_test.zeta_dissapative_SM = 0.0
 
 lagrangian_sessile_droplet_test.lag_solver = solver_lagr.CreateSolver(lagrangian_model_part, SolverSettings, eul_model_part, gamma, contact_angle, zeta_dissapative_JM, zeta_dissapative_BM, zeta_dissapative_SM)
 the dissipative force is added utilizing the power law model, utilizing the capillary number when the velocity is the tangential component at the contact line, More...
 
bool lagrangian_sessile_droplet_test.reform_dofs_at_each_step = False
 
 lagrangian_sessile_droplet_test.pDiagPrecond = DiagonalPreconditioner()
 
 lagrangian_sessile_droplet_test.alpha_shape
 
 lagrangian_sessile_droplet_test.echo_level
 
bool lagrangian_sessile_droplet_test.Multifile = True
 
 lagrangian_sessile_droplet_test.Dt = ProjectParameters.Dt
 
 lagrangian_sessile_droplet_test.Nsteps = ProjectParameters.nsteps
 
 lagrangian_sessile_droplet_test.final_time = ProjectParameters.max_time
 
 lagrangian_sessile_droplet_test.output_time = ProjectParameters.output_time
 
 lagrangian_sessile_droplet_test.time = ProjectParameters.Start_time
 
int lagrangian_sessile_droplet_test.out = 0
 
int lagrangian_sessile_droplet_test.step = 0
 
 lagrangian_sessile_droplet_test.res_name1 = str("water")