1. Introduction to process modeling. History, model structure, available commercial software.
2. Aspen Plus – user interface, basic inputs, library of unit operation models
3. Physical properties of involved components, thermodynamic models, basic property analysis of individual compounds.
4. Diffusion separation processes, model RadFrac.
5. Chemical reactors, overview of available models, application example.
6. Sensitivity analysis, design and simulation calculation.
7. External calculation using Fortran or MS Excel.
8. Heat exchangers, design and simulation calculation.
9. Pressure changers, Compressors, Pumps, pipelines.
10. Models of manipulators.
11. Solid handling models, separators, filters, dryers, etc.
12. User defined functions, hierarchy, complex approach to the process modeling.
13. Real time modeling and optimization, Aspen on line.
14. Course recapitulation.
2. Aspen Plus – user interface, basic inputs, library of unit operation models
3. Physical properties of involved components, thermodynamic models, basic property analysis of individual compounds.
4. Diffusion separation processes, model RadFrac.
5. Chemical reactors, overview of available models, application example.
6. Sensitivity analysis, design and simulation calculation.
7. External calculation using Fortran or MS Excel.
8. Heat exchangers, design and simulation calculation.
9. Pressure changers, Compressors, Pumps, pipelines.
10. Models of manipulators.
11. Solid handling models, separators, filters, dryers, etc.
12. User defined functions, hierarchy, complex approach to the process modeling.
13. Real time modeling and optimization, Aspen on line.
14. Course recapitulation.