1 / 14

Dynamic Modeling and Model Predictive Control for Packed Reactive Distillation Processes

Dynamic Modeling and Model Predictive Control for Packed Reactive Distillation Processes. Presented by: Sebastien Lextrait Advisor: Dr. Thomas F. Edgar. Overview. Introduction Control Issues My Research Objectives Implementation Aspects Conclusions. Introduction. Drawbacks

kato
Download Presentation

Dynamic Modeling and Model Predictive Control for Packed Reactive Distillation Processes

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Dynamic Modeling and Model Predictive Control for Packed Reactive Distillation Processes Presented by: Sebastien Lextrait Advisor: Dr. Thomas F. Edgar

  2. Overview • Introduction • Control Issues • My Research Objectives • Implementation Aspects • Conclusions

  3. Introduction • Drawbacks • Complex dynamic behavior • Reduced operability and controllability • Active areas of research • Design methods • Analyses of behavior • Control schemes

  4. Control Issues • Objectives • Reactant conversion • Final product purity • Problems • Transition between multiple steady states • Non-minimum phase behavior

  5. Control Issues • Control strategy literature • Difficulties with traditional controllers • Purity and reactant conversion • Multiple steady states • Limitations of traditional feedback controllers • Advanced control schemes • Dynamic matrix control method • Output feedback control scheme for some high index DAEs • Nonlinear model predictive control strategy

  6. Control Issues • Investigation of MPC control strategy • Performance dependence on model complexity • Problem formulation • On-line implementation not addressed • Computational time • Experimental validation of proposed control schemes

  7. My Research Objectives • Four main objectives • Develop dynamic models of different complexity • Model validation and behavior analysis • Investigation of MPC strategy • On-line controller implementation and experimental validation

  8. My Research Objectives • Develop dynamic models of different complexity • Equilibrium versus rate-based • Physical properties • Hydraulic model (liquid holdup, vapor holdup, vapor pressure drop) • Catalyst description (diffusion limitations)

  9. My Research Objectives • Model validation and behavior analysis • Experimental data • Steady-state • Dynamic • Study the effect of modeling assumptions on the overall model behavior • Computational time • Response accuracy

  10. My Research Objectives • Investigation of MPC strategy • Nonlinear programming problem (simultaneous approach) • Investigate state estimation and observer issues for this process • NMPC versus PID and linear MPC • Commercial Software Packages

  11. My Research Objectives • On-line controller implementation and experimental validation • Numerical simulations • Real-time optimization issues • Pilot Plant Testing • Interface NOVA to Fisher Rosemount DeltaV distributed control system

  12. Implementation Aspects • NOVAoptimization and DAE system • Flexible environment • Optimization and simulation of DAEs • Nonlinear constrained optimization problems • Large-scale problems • Method of weighted residuals on finite elements

  13. Implementation Aspects • On-line controller implementation

  14. Conclusions • Dynamic modeling of packed reactive distillation required • Investigation of MPC strategy for this non-traditional chemical process • Adapt control scheme for on-line use • Validation with experimental data

More Related