7.16.1.20.46. Pid_Controlled_Bidirectional
- Syntax
Source For Energy [ SpeciesName | MaterialPhaseName | ] MeshPartIdentifier = Pid_Controlled_Bidirectional [Power_Output = power_output | Toggle = toggle | P = p | I = i | D = d | T_I = t_i | T_D = t_d | Band = Band | Filter_Tau = Filter_Tau | Filter_Number = Filter_Number | Setpoint_Function_Name = Setpoint_Function_Name | Control_Variable = Control_Variable | Enable_Clamping = enable_clamping | Max_Cooling_Power = Max_Cooling_Power | Max_Heating_Power = Max_Heating_Power]
- Summary
This is similar to PID_Controlled, however, the source is applied to cool and heat the volume instead of just heating it. Max_Cooling_Power and Max_Heating_Power should be positive values. See description for PID_CONTROLLED at Pid_Controlled for more details
- Description
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.
- Toggle
If given, specifies which toggle block controls whether this BC is active or not.
Parameter |
Value |
Default |
|---|---|---|
{of | species | subindex} |
– |
|
SpeciesName |
string |
– |
{in | material_phase} |
– |
|
MaterialPhaseName |
string |
– |
{levelset_phase | ls} |
– |
|
MeshPartIdentifier |
string |
– |
power_output |
“string” |
– |
toggle |
“string” |
– |
p |
real |
0 |
i |
real |
0 |
d |
real |
0 |
t_i |
real |
0 |
t_d |
real |
0 |
Band |
real |
0 |
Filter_Tau |
real |
1 |
Filter_Number |
real |
1 |
Setpoint_Function_Name |
“string” |
– |
Control_Variable |
“string” |
– |
enable_clamping |
integer |
– |
Max_Cooling_Power |
real |
– |
Max_Heating_Power |
real |
– |