Difference between revisions of "Thermodynamics"
| Line 2: | Line 2: | ||
| − | == General Thermodynamics and | + | == General Thermodynamics and Fundamentals == |
* [[Conversion of Assays and Pseudo-components to OLI Species]] | * [[Conversion of Assays and Pseudo-components to OLI Species]] | ||
* [[Electrical Conductivity and Ionic Radii]] | * [[Electrical Conductivity and Ionic Radii]] | ||
* [[H3OION in MSE databank]] | * [[H3OION in MSE databank]] | ||
* [[Heat Capacity]] | * [[Heat Capacity]] | ||
| + | * [[How is pH calculated when there is no H ion?]] | ||
== OLI Modeling == | == OLI Modeling == | ||
Revision as of 08:20, 24 May 2016
OLI Thermodynamics and Concepts section will help provide users with an insight about basic concepts OLI software and the engine is built on.
Contents
General Thermodynamics and Fundamentals
- Conversion of Assays and Pseudo-components to OLI Species
- Electrical Conductivity and Ionic Radii
- H3OION in MSE databank
- Heat Capacity
- How is pH calculated when there is no H ion?
OLI Modeling
- How to calculate fugacities when no vapor phase is present
- Reaction Kinetics Overview in OLI Software (PDF, 2.5 MB)
- Scaling Tendencies
- Sparingly Soluble Organics
- Standard Liquid Volume
- TRANGE
- True Species vs Apparent species
Data Regression
- ASAP variable list
- Mixed Solvent Electrolyte ( MSE) model Regression Parameters
- Traditional Regression Parameters
