5.8.4 Output Variables
This section explains the outputs that are obtained from the Multicomponent Mixing module. They are categorized as follows:
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Note: In order to display the contours and X-Y plots, or to write the outputs into an ascii file, the outputs on each Geometric entity (such as Boundary, Volume, Interface or Points) need to be activated in the Model Tab of the Properties Panel. |
Primary Variables
Primary Variables are the fundamental variables that characterize the physical process in the module. They are usually obtained by directly solving transport equations or through physical constitutions. The primary variables can be displayed in the GUI Viewing Window for selected Geometric Entities as well as written to the ascii file Filename_points.txt. They can also be viewed as X-Y Plots for Point Probes.
For the Multicomponent Mixing module, a list of Primary Variables is shown in the table below:
| Multicomponent Mixing Module Primary Variables | |||||
|---|---|---|---|---|---|
| Label in Results Panel Variables List | Label in GUI X-Y Plot Menu | Label in points.txt | Definition | Units | Display/Output Options |
| Concentration [Component Name] | [Component Name] Concentration | C_ | Concentration | - | At a Point and in the GUI Display Window |
Table 5.35 - Multicomponent Mixing module primary variables
Primary Variables are automatically activated for selected Geometric Entities, including Boundaries, Derived Surfaces, Interfaces, Streamline, Particles and/or Volumes, depending on the modules selected.
Property Variables
Property Variables are the physical properties for the fluid(s) and solid(s) in the domain. They are required as a part of the solution. They may be displayed in the GUI Viewing Window for selected Geometric Entities as well as written to the ascii file Filename_points.txt (when activated). They can also be viewed as X-Y Plots for Point Probes.
For the Multicomponent Mixing module, a list of Property Variables is shown in the table below:
| Multicomponent Mixing Module Physical Properties | |||||
|---|---|---|---|---|---|
| Label in Results Panel Variables List | Label in GUI X-Y Plot Menu | Label in points.txt | Definition | Units | Display/ Output Options |
| Thermodiffusion Coeff. | Thermodiffusion Coeff. | soretDiff_ | Thermodiffusion Coefficient | kg/m-s | At a Point and in the GUI Display Window |
| Diffusivity | Diffusivity | D_ | Diffusivity | kg/m-s | At a Point and in the GUI Display Window |
Table 5.36 - Multicomponent Mixing module physical properties
As shown in Figure 5.194, Property Variables are automatically activated for output on selected Geometric Entities, including Boundaries, Derived Surfaces, Interfaces, Streamline, Particles and/or Volumes, depending on the modules selected. For Point Probes, however, explicit activation is required. The X-Y plots as shown in Figure 5.195 and Figure 5.196 respectively.
Derived Variables
Derived Variables are engineering data computed from the Primary Variables. While not required as a part of the solution, they provide valuable information for analysis of the results. They can be displayed in the GUI Viewing Window for selected Geometric Entities as well as written to the ascii file Filename_points.txt (when activated). They can also be viewed as X-Y Plots for Point Probes.
A list of the Derived Variables for the Multicomponent Mixing module is shown below:
| Multicomponent Mixing Module Derived Variables | ||||
|---|---|---|---|---|
| Label in Results Panel Variables List | Label in GUI X-Y Plot Menu | Label in points.txt | Units | Display/Output Options |
| Number Density | Number Density | nD_ | m3 | At a Point and in the GUI Display Window |
| Kinematic Diffusivity | Kinematic Diffusivity | diffkinematic_ | m2/s | At a Point and in the GUI Display Window |
| Kinematic Thermodiffusion Coeff. | Kinematic Thermodiffusion Coeff. | soretDiffKinematic_ | m2/s | At a Point and in the GUI Display Window |
Table 5.37 - Multicomponent Mixing module derived variables
As shown in Figure 5.197., Derived Variables are automatically activated for output on selected Geometric Entities, including Boundaries, Derived Surfaces, Interfaces and/or Volumes, depending on the modules selected. For Point Probes, however, explicit activation is required.
Figure 5.197 - Output activation for Points-Derived Variables
Integrated Quantities
An Integrated Output is the averaged or total value of a variable over a Boundary, Interface or Volume. When available and activated, the integrated quantities can be stored in the ascii file Filename_integrals.txt as well as be displayed in the GUI using X-Y Plots.
To access the variables listed below using expressions, the syntax given under Expressions column in Table 5.38 is used with a suffix “@boundary or volume name” such as massconc_O2 = component.O2.ms@pipe.
A table of the Integrated Quantities for the Multicomponent Mixing module is shown below:
| Multicomponent Mixing Module Integrated Quantities | ||||||
|---|---|---|---|---|---|---|
| Label in Properties Panel Output Choices | Label in GUI X-Y Plot Menu | Label in integral.txt | Units | Definition | Relevant Geometric Entity | Expressions |
| Component [Name]: Vol Avg Concentration | Component [Name]: Concentration | s_[Name]_ | - | Volume averaged concentration of the component | Volume | component[.subname].s |
| Component [Name]: Mass Avg Concentration | Component [Name]: Mass Average Concentration | ms_[Name]_ | - | Mass averaged concentration of the component | Volume | component[.subname].ms |
| Component [Name]: Species Mass | Component [Name]: Species Mass | s_m_tot_[Name]_ | kg | Total Mass of the Component | Volume | component[.subname].s_m_tot |
For selected Volumes, the integrated outputs must be explicitly activated as shown in Figure 5.198.
Figure 5.198 - Output activation-Integrated quantities