Variables
Problem_Parameter Namespace Reference

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Variables

DocInfo Doc_info
 Doc info object. More...
 
double Re =0.0
 Reynolds number. More...
 
double Ca = 10.0
 Capillary number. More...
 
double Nu =0.3
 Pseudo-solid Poisson ratio. More...
 
double Radius = 0.25
 Initial radius of bubble. More...
 
double Volume = -MathematicalConstants::Pi*Radius*Radius
 Volume of the bubble (negative because it's outside the fluid!) More...
 
double Inflow_veloc_magnitude = 0.0
 Scaling factor for inflow velocity (allows it to be switched off to do hydrostatics) More...
 
double Length = 3.0
 Length of the channel. More...
 
ConstitutiveLaw * Constitutive_law_pt =0
 Constitutive law used to determine the mesh deformation. More...
 
ofstream Trace_file
 Trace file. More...
 
ofstream Norm_file
 File to document the norm of the solution (for validation purposes – triangle doesn't give fully reproducible results so mesh generation/adaptation may generate slightly different numbers of elements on different machines!) More...
 
double Viscosity_ratio = 10.0
 Viscosity ratio of the droplet to the surrounding fluid. More...
 

Detailed Description

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Namespace for Problem Parameter

Variable Documentation

◆ Ca

double Problem_Parameter::Ca = 10.0

◆ Constitutive_law_pt

ConstitutiveLaw * Problem_Parameter::Constitutive_law_pt =0

◆ Doc_info

DocInfo Problem_Parameter::Doc_info

◆ Inflow_veloc_magnitude

double Problem_Parameter::Inflow_veloc_magnitude = 0.0

Scaling factor for inflow velocity (allows it to be switched off to do hydrostatics)

Definition at line 392 of file adaptive_bubble_in_channel.cc.

Referenced by BubbleInChannelProblem< ELEMENT >::complete_problem_setup(), DropInChannelProblem< ELEMENT >::complete_problem_setup(), and main().

◆ Length

double Problem_Parameter::Length = 3.0

◆ Norm_file

ofstream Problem_Parameter::Norm_file

File to document the norm of the solution (for validation purposes – triangle doesn't give fully reproducible results so mesh generation/adaptation may generate slightly different numbers of elements on different machines!)

Definition at line 407 of file adaptive_bubble_in_channel.cc.

Referenced by BubbleInChannelProblem< ELEMENT >::doc_solution(), DropInChannelProblem< ELEMENT >::doc_solution(), and main().

◆ Nu

double Problem_Parameter::Nu =0.3

Pseudo-solid Poisson ratio.

Definition at line 381 of file adaptive_bubble_in_channel.cc.

Referenced by main().

◆ Radius

double Problem_Parameter::Radius = 0.25

Initial radius of bubble.

Initial radius of drop.

Definition at line 384 of file adaptive_bubble_in_channel.cc.

Referenced by BubbleInChannelProblem< ELEMENT >::BubbleInChannelProblem(), and DropInChannelProblem< ELEMENT >::DropInChannelProblem().

◆ Re

double Problem_Parameter::Re =0.0

◆ Trace_file

ofstream Problem_Parameter::Trace_file

◆ Viscosity_ratio

double Problem_Parameter::Viscosity_ratio = 10.0

Viscosity ratio of the droplet to the surrounding fluid.

Definition at line 375 of file adaptive_drop_in_channel.cc.

Referenced by DropInChannelProblem< ELEMENT >::complete_problem_setup().

◆ Volume

double Problem_Parameter::Volume = -MathematicalConstants::Pi*Radius*Radius

Volume of the bubble (negative because it's outside the fluid!)

Volume of the interface (Negative because the constraint is computed from the bulk side)

Definition at line 388 of file adaptive_bubble_in_channel.cc.

Referenced by BubbleInChannelProblem< ELEMENT >::BubbleInChannelProblem(), DropInChannelProblem< ELEMENT >::create_volume_constraint_elements(), and BubbleInChannelProblem< ELEMENT >::doc_solution().