atest-flatplate2d-scalar-neumann Namespace Reference

Variables
tuple	root = cf.Core.root()
tuple	env = cf.Core.environment()
tuple	model = root.create_component('NavierStokes', 'cf3.solver.ModelUnsteady')
	Global confifuration. More...
tuple	domain = model.create_domain()
tuple	physics = model.create_physics('cf3.UFEM.NavierStokesPhysics')
tuple	solver = model.create_solver('cf3.UFEM.Solver')
tuple	ic = solver.create_initial_conditions()
tuple	nstokes = solver.add_unsteady_solver('cf3.UFEM.NavierStokes')
tuple	scalaradv = solver.add_unsteady_solver('cf3.UFEM.ScalarAdvection')
tuple	blocks = domain.create_component('blocks', 'cf3.mesh.BlockMesh.BlockArrays')
tuple	points = blocks.create_points(dimensions = 2, nb_points = 12)
tuple	block_nodes = blocks.create_blocks(6)
tuple	block_subdivs = blocks.create_block_subdivisions()
tuple	gradings = blocks.create_block_gradings()
tuple	inlet_patch = blocks.create_patch_nb_faces(name = 'inlet', nb_faces = 2)
tuple	bottom_patch1 = blocks.create_patch_nb_faces(name = 'bottom1', nb_faces = 1)
tuple	bottom_patch2 = blocks.create_patch_nb_faces(name = 'bottom2', nb_faces = 1)
tuple	bottom_patch3 = blocks.create_patch_nb_faces(name = 'bottom3', nb_faces = 1)
tuple	outlet_patch = blocks.create_patch_nb_faces(name = 'outlet', nb_faces = 2)
tuple	top_patch = blocks.create_patch_nb_faces(name = 'top', nb_faces = 3)
tuple	mesh = domain.create_component('Mesh', 'cf3.mesh.Mesh')
list	u_in = [1., 0.]
list	u_wall = [0., 0.]
int	phi_in = 100
int	phi_wall = 200
tuple	bc = nstokes.get_child('BoundaryConditions')
tuple	bc_wall_flux = bc.create_bc_action(region_name = 'bottom1', builder_name = 'cf3.UFEM.BCNeumannConstant')
tuple	time = model.create_time()
float	final_end_time = 0.1
float	save_interval = 0.01
int	current_end_time = 0
int	iteration = 0

Variable Documentation

tuple bc = nstokes.get_child('BoundaryConditions')

Definition at line 116 of file atest-flatplate2d-scalar-neumann.py.

tuple bc_wall_flux = bc.create_bc_action(region_name = 'bottom1', builder_name = 'cf3.UFEM.BCNeumannConstant')

Definition at line 131 of file atest-flatplate2d-scalar-neumann.py.

tuple block_nodes = blocks.create_blocks(6)

Definition at line 48 of file atest-flatplate2d-scalar-neumann.py.

tuple block_subdivs = blocks.create_block_subdivisions()

Definition at line 57 of file atest-flatplate2d-scalar-neumann.py.

tuple blocks = domain.create_component('blocks', 'cf3.mesh.BlockMesh.BlockArrays')

Definition at line 31 of file atest-flatplate2d-scalar-neumann.py.

tuple bottom_patch1 = blocks.create_patch_nb_faces(name = 'bottom1', nb_faces = 1)

Definition at line 78 of file atest-flatplate2d-scalar-neumann.py.

tuple bottom_patch2 = blocks.create_patch_nb_faces(name = 'bottom2', nb_faces = 1)

Definition at line 81 of file atest-flatplate2d-scalar-neumann.py.

tuple bottom_patch3 = blocks.create_patch_nb_faces(name = 'bottom3', nb_faces = 1)

Definition at line 84 of file atest-flatplate2d-scalar-neumann.py.

int current_end_time = 0

Definition at line 142 of file atest-flatplate2d-scalar-neumann.py.

tuple domain = model.create_domain()

Definition at line 19 of file atest-flatplate2d-scalar-neumann.py.

tuple env = cf.Core.environment()

Definition at line 8 of file atest-flatplate2d-scalar-neumann.py.

float final_end_time = 0.1

Definition at line 140 of file atest-flatplate2d-scalar-neumann.py.

tuple gradings = blocks.create_block_gradings()

Definition at line 65 of file atest-flatplate2d-scalar-neumann.py.

tuple ic = solver.create_initial_conditions()

Definition at line 24 of file atest-flatplate2d-scalar-neumann.py.

tuple inlet_patch = blocks.create_patch_nb_faces(name = 'inlet', nb_faces = 2)

Definition at line 74 of file atest-flatplate2d-scalar-neumann.py.

int iteration = 0

Definition at line 143 of file atest-flatplate2d-scalar-neumann.py.

tuple mesh = domain.create_component('Mesh', 'cf3.mesh.Mesh')

Definition at line 96 of file atest-flatplate2d-scalar-neumann.py.

tuple model = root.create_component('NavierStokes', 'cf3.solver.ModelUnsteady')

Global confifuration.

Definition at line 18 of file atest-flatplate2d-scalar-neumann.py.

tuple nstokes = solver.add_unsteady_solver('cf3.UFEM.NavierStokes')

Definition at line 27 of file atest-flatplate2d-scalar-neumann.py.

tuple outlet_patch = blocks.create_patch_nb_faces(name = 'outlet', nb_faces = 2)

Definition at line 87 of file atest-flatplate2d-scalar-neumann.py.

int phi_in = 100

Definition at line 103 of file atest-flatplate2d-scalar-neumann.py.

int phi_wall = 200

Definition at line 104 of file atest-flatplate2d-scalar-neumann.py.

tuple physics = model.create_physics('cf3.UFEM.NavierStokesPhysics')

Definition at line 20 of file atest-flatplate2d-scalar-neumann.py.

tuple points = blocks.create_points(dimensions = 2, nb_points = 12)

Definition at line 32 of file atest-flatplate2d-scalar-neumann.py.

tuple root = cf.Core.root()

Definition at line 7 of file atest-flatplate2d-scalar-neumann.py.

float save_interval = 0.01

Definition at line 141 of file atest-flatplate2d-scalar-neumann.py.

tuple scalaradv = solver.add_unsteady_solver('cf3.UFEM.ScalarAdvection')

Definition at line 28 of file atest-flatplate2d-scalar-neumann.py.

tuple solver = model.create_solver('cf3.UFEM.Solver')

Definition at line 21 of file atest-flatplate2d-scalar-neumann.py.

tuple time = model.create_time()

Definition at line 136 of file atest-flatplate2d-scalar-neumann.py.

tuple top_patch = blocks.create_patch_nb_faces(name = 'top', nb_faces = 3)

Definition at line 91 of file atest-flatplate2d-scalar-neumann.py.

list u_in = [1., 0.]

Definition at line 101 of file atest-flatplate2d-scalar-neumann.py.

list u_wall = [0., 0.]

Definition at line 102 of file atest-flatplate2d-scalar-neumann.py.