Author:
Bakošová Monika,Oravec Juraj,Matejičková Katarína
Abstract
AbstractThe paper addresses an approach to robust stabilization of chemical continuous stirred tank reactors. State feedback was used for the stabilization and the feedback controller was designed using the robust model-based predictive control algorithm in which the symmetric constraints on input and output variables are taken into account. The known strategy was modified by adding integral action to the controller. Parameters of robust feedback controllers with and without integral action were found as solutions of a constrained optimization problem solved on the infinite prediction horizon. The possibility to stabilize chemical reactors with uncertainty using the robust model-based predictive control has been verified by simulations and compared with the optimal linear quadratic control and the model-based predictive control. The obtained results confirm that the robust model-based predictive control provides better results than other approaches.
Publisher
Springer Science and Business Media LLC
Subject
Materials Chemistry,Industrial and Manufacturing Engineering,General Chemical Engineering,Biochemistry,General Chemistry
Reference20 articles.
1. Linear - quadratic LQ state - feedback regulator for discrete - time state - space system Documentation Center Retrieved from www mathworks com help control ref dlqr html;MathWorks;October,2012
2. The port Hamiltonian approach to modelling and control of Continuous Stirred Tank Reactors;Hoag;Journal of Process Control,2011
3. A hybrid formulation and design of model predictive control for systems under actuator saturation and backlash;Zabiri;Journal of Process Control,2006
4. Optimal transition and robust control design for exothermic continuous reactors;Flores;AIChE Journal,2005
5. Accuracy of mathematical model with regard to safety analysis of chemical reactors;Molnár;Chemical Papers,2002
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