Size dependent growth - SPL-ethz/CAT GitHub Wiki

On this page, general hints are given about the loaded values and functions in this demo case. If you want an overview and explanation of the resulting plots, click here.

Initial settings

The first field specifies the initial particle size distribution. Clicking on "Edit" opens a window which shows a preview of the chosen distribution. Moreover, the underlying grid can be specified by setting the number of grid points and the distance of the so called pivot elements. Something special for this case is the use of a logarithmic grid. In the second field the initial seed mass is set. The third field asks for the initial mass of the continuous medium, which gives the total mass of solvent and antisolvent.

In the last field the initial concentration is set. Note that the concentration is defined as

and therefore it is dimensionless.

Process settings

In the first field the temperature profile is set. The default profile is pieceswise linear. In the second field the profile for the antisolvent is defined. However, in this case, the antisolvent is kept constant and therefore the slope is zero. The profiles will be plotted automatically by solving the system.

Thermodynamics and substance properties

Note that the solubility function is an anonymous function with up to two variables. The two variables are temperature (T) and antisolvent mass fraction (xm). However, the default function loaded in this case is a function of temperature only.

The shape factor for a cube is 1 (default). For a sphere it would be Pi/6 (where the characteristic length is the diameter).

Kinetics

The growth rate is defined according to formula

In this case, it depends on the size L of the crystal.

The nucleation rate in this case is set to zero.