Porous Media Transport Properties
Use this node to model the concentration of diluted species transported through interstices in porous media. A part form convection and diffusion, the node contains functionality to include species evolution through adsorption, dispersion, and reaction.
Model Inputs
The temperature model input is always available. Select the source of the Temperature. For User defined, enter a value or expression for the temperature in the input field. This input option is always available.
You can also select the temperature solved for by a Heat Transfer interface added to the model component. These physics interfaces are available for selection in the Temperature list.
Matrix Properties
Use the Porous material list to define a material specifying the matrix properties on the current selection. By default the Domain material is used.
Specify the Porosity, εp (dimensionless) of the porous matrix. This is by default taken From material. Select User defined to instead enter a different value.
Convection
If transport by convection is active, the velocity field of the solvent needs to be specified. Select the source of the Velocity field. For User defined, enter values or expressions for the velocity components in the input fields. This input option is always available.
You can also select the velocity field solved for by a Fluid Flow interface added to the model component. These physics interfaces are available for selection in the Velocity field list.
Diffusion
Select a Fluid material (when available and applicable).
Specify the Fluid diffusion coefficient DF,i (SI unit: m2/s). Enter a value or expression for each of the species in the corresponding input field. The default is 1·10-9 m2/s.
Select the Effective diffusivity model: Millington and Quirk model (the default), Bruggeman model, Tortuosity model, or User defined. For Tortuosity model, enter a value for the tortuosity τF,i (dimensionless). The default is 1.
Migration in Electric Field
This section is available when the Migration in electric field check box is selected. From the Electric potential list, select the source of the electric field.
Enter a value or expression for the Electric potential V, which is User defined; this input option is always available.
By default the Mobility is set to be calculated based on the species effective diffusivity and the temperature using the Nernst-Einstein relation. For User defined, and under Mobility, select the appropriate scalar or tensor type — Isotropic, Diagonal, Symmetric, or Anisotropic — and type in the value of expression of the effective mobility ume,c.
Enter the Charge number zc for each species.
Dispersion
This section is available when the Dispersion in porous media check box is selected on the Settings window for the physics interface.
Select the Specify dispersion for each species individually check box to specify the dispersion tensor DD (SI unit: m2/s) for each species separately. The default is to use the same dispersion tensor DD for all species.
Select an option from the Dispersion tensor list — User defined (the default) or Dispersivity. For User defined, use it to specify the dispersion components as user-defined constants or expressions. Select Isotropic, Diagonal, Symmetric, or Anisotropic based on the properties of the dispersion tensor.
Select Dispersivity when Convection has been added as the transport mechanism. Specify the dispersivities (SI unit: m) to define the dispersion tensor DD (SI unit: m2/s) together with the velocity field u. Select an option from the Dispersivity model list: Isotropic (the default) or Transverse isotropic based on the properties of the porous media. For isotropic porous media, specify the longitudinal and transverse dispersivities. For transverse isotropic porous media, specify the longitudinal, horizontal transverse, and vertical transverse dispersivities.