Sorption

Sorption:

defines a porous material's absorption/exsorption behavior under partially saturated flow conditions; and
is used in the analysis of coupled wetting liquid flow and porous medium stress (Coupled pore fluid diffusion and stress analysis).

The following topics are discussed:

Sorption
Defining absorption and exsorption
Defining the behavior between absorption and exsorption
Elements

Sorption

A porous medium becomes partially saturated when the total pore liquid pressure, $u_{w}$ , becomes negative (see Effective stress principle for porous media). Negative values of $u_{w}$ represent capillary effects in the medium. For $u_{w} < 0$ it is known that the saturation lies within certain limits that depend on the value of the capillary pressure, $- u_{w}$ (see Continuity statement for the wetting liquid phase in a porous medium). Typical forms of these limits are shown in Figure 1. We write these limits as $s^{a} \leq s \leq s^{e}$ , where $s^{a} (u_{w})$ is the limit at which absorption will occur (so that $\dot{s} > 0$ ), and $s^{e} (u_{w})$ is the limit at which exsorption will occur (so that $\dot{s} < 0$ ). The transition between absorption and exsorption and vice versa takes place along “scanning” curves (discussed below). These curves are approximated by the single straight line shown in Figure 1.

Figure 1. Typical absorption and exsorption behaviors.

When partial saturation is included in the analysis of flow through a porous medium, the absorption behavior, the exsorption behavior, and the scanning behavior (between absorption and exsorption) should each be defined. Each of these behaviors is discussed below. If sorption is not defined at all, Abaqus/Standard assumes fully saturated flow ( $s = 1.0$ ) for all values of $u_{w}$ .

Strongly unsymmetric partially saturated flow coupled equations result from the definition of sorption. Therefore, Abaqus/Standard automatically uses its unsymmetric matrix storage and solution scheme (see Defining an analysis) if you request partially saturated analysis (i.e., if sorption is defined).

Defining absorption and exsorption

Absorption and exsorption behaviors are defined by specifying the pore liquid pressure, $u_{w}$ (negative “capillary tension”), as a function of saturation. In most physical cases the wetting liquid cannot be driven to zero saturation; to achieve zero saturation, the data would have to define $u_{w} \to - \infty$ as $s \to 0.0$ . Absorption and exsorption data can be defined in either a tabular form or an analytical form.

Tabular form

By default, you define the absorption and exsorption behaviors by specifying $u_{w}$ as a tabular function of s, where $0^{+} \leq s \leq 1.0$ .

Input File Usage

Use the following options:

SORPTION, TYPE=ABSORPTION, LAW=TABULAR
SORPTION, TYPE=EXSORPTION, LAW=TABULAR

If the SORPTION option is used only once, the behavior defined is taken as the behavior for absorption and exsorption.

Abaqus/CAE Usage

Property module: material editor: OtherPore FluidSorption
Absorption: Law: Tabular
Exsorption: toggle on Include exsorption: Law: Tabular

Analytical form

The absorption and exsorption behaviors can be defined by the following analytical form:

\begin{matrix} u_{w} = \frac{1}{B} \ln [\frac{(s - s_{0})}{(1 - s_{0}) + A (1 - s)}] for s_{1} \leq s < 1, \\ u_{w} = {u_{w} |}_{s_{1}} - {\frac{d u_{w}}{d s} |}_{s_{1}} (s_{1} - s) for s_{0} \leq s < s_{1}, \end{matrix}

where $A, B$ are positive material constants and $s_{0}, s_{1}$ are parameters used to define the lower bound of the saturation values of interest (see Figure 2).

Figure 2. Logarithmic form of absorption and exsorption behaviors.

Input File Usage

Use the following options:

SORPTION, TYPE=ABSORPTION, LAW=LOG
SORPTION, TYPE=EXSORPTION, LAW=LOG

If the SORPTION option is used only once, the behavior defined is taken as the behavior for absorption and exsorption.

Abaqus/CAE Usage

Property module: material editor: OtherPore FluidSorption
Absorption: Law: Log
Exsorption: toggle on Include exsorption: Law: Log

Defining the behavior between absorption and exsorption

The behavior between absorption and exsorption is defined by a scanning line of user-specified constant slope, ${(d u_{w} / d s) |}_{s}$ . This slope should be larger than the slope of any segment of the absorption or exsorption behaviors.

If absorption and exsorption behaviors are defined with no scanning line, the slope of the scanning line is taken as 1.05 times the largest value of $d u_{w} / d s$ given in the absorption and exsorption behavior definitions.

Input File Usage

SORPTION, TYPE=SCANNING

This must be a repeated use of the SORPTION option for the same material.

Abaqus/CAE Usage

Property module: material editor: OtherPore FluidSorption: Exsorption: toggle on Include exsorption and Include scanning: Slope  ${(d u_{w} / d s) |}_{s}$

Elements

Sorption can be used only in elements that allow for pore pressure (see Choosing the appropriate element for an analysis type).