Scaled_Nat_Conv

Syntax

Bc No_Coverage_Flux For Energy [{of} SpeciesName | {in} MaterialPhaseName | {ls} {a | b | c}] {on} Mesh Extent Name [Touching TouchingMeshExtent | Opposing OpposingMeshExtent] = Scaled_Nat_Conv [Using Data Specification Data Spec Name] [Power_Output = power_output | Flux_Output = flux_output | Toggle = toggle | Multiplier = multiplier | Scaling_Field = scaling_field | Scaling = scaling | Global_Var = global_var | Time_Function = time_function]

Summary

Scaled natural convection energy flux

Description

Flux is given by:

$(M)(SC)(GV)(f)fcn(t) h \left( T - T_{ref} \right)$

M is given by MULTIPLIER, SC by SCALING, GV by the value of the global variable with name GLOBAL_VAR, fcn is a function with name TIME_FUNCTION, and f is a field with name SCALING_FIELD. $h$ and $T_{ref}$ are taken from the HEAT TRANSFER COEFFICIENT and BC REFERENCE TEMPERATURE expressions.

The following options are present in most boundary conditions/sources. The meaning of each option is as follows:

Power_Output: If specified, the total (integrated) power of the given BC/Src is calculated and stored into the global variable name specified as the power_output argument.
Flux_Output: If specified, the average flux of the given BC/Src is calculated and stored into the global variable name specified as the flux_output argument.
Toggle: If given, specifies which toggle block controls whether this BC is active or not.

Parameter	Value	Default
{of}	{of \| species \| subindex}	–
SpeciesName	string	–
{in}	{in \| material_phase}	–
MaterialPhaseName	string	–
{ls}	{levelset_phase \| ls}	–
{on}	{@ \| at \| for \| in \| on \| over}	–
Mesh Extent Name	string	–
TouchingMeshExtent	string	–
OpposingMeshExtent	string	–
Data Spec Name	string	–
power_output	“string”	–
flux_output	“string”	–
toggle	“string”	–
multiplier	real	1
scaling_field	“string”	–
scaling	real	1
global_var	“string”	–
time_function	“string”	–