OLI Supplied Databanks
For version 11.5 of the common components of the OLI Software, here is a list of the OLI Supplied databanks. The aqueous thermodynamic framework databank PUBLIC and the MSE thermodynamic framework Databank MSEPUB are also part of the commonly distributed files. Each is the default databank in the respective thermodynamic framework.
The keyword <none> means no corresponding databank for that thermodynamic framework.
| Database Name | AQ Thermodynamic Framework | MSE Thermodynamic Framework | Description |
|---|---|---|---|
| Alloys | Yes | <none> | This contains special solids that are like alloys. Such an example is CuNi alloys. This is an AQ thermodynamic framework only databank. There is no corresponding MSE databank |
| Ceramics | Yes | <none> | This contains special solids that are like ceramics. This was to support work done for the ceramics lab at the Rutgers University. This is an AQ thermodynamic framework only databank. There is no corresponding MSE databank |
| Corrosion | Yes | Yes | This contains special elements to generate Pourbaix diagrams. Some of the species have had their Gibbs Free Energy of Formation values adjusted to match traditional Pourbaix Diagrams. It is not recommended for use with OLI Flowsheet |
| Ion Exchange | Yes | <none> | This contains ion-exchanging resins. This is an AQ thermodynamic framework-only databank. There is no corresponding MSE databank |
| Geochemical | Yes | Yes | This contains minerals that are primarily found in geothermal applications. These minerals typically do not reform under traditional chemical process conditions. |
| Low Temperature | Yes | <none> | This databank contains minerals that form below 0 oC (273.15 K). This is an AQ thermodynamic framework-only databank. There is no corresponding MSE databank |
| Surface Complexation Double-Layer Model | Yes | Yes | This databank contains surface species following Dzombak's model for Double-layers capacitance. |
| Urea | <none> | Urea (MSE) | This databank contains surface species that support the high-temperature formation of urea. It is not recommended unless urea is known to form from NH3 and CO2. Generally, such formations are kinetically limited. This is an MSE thermodynamic framework-only databank. There is no corresponding AQ databank |
