TWO NONLINEAR OBSERVERS BASED SLIDING MODE CONTROLLER FOR A MULTIVARIABLE CONTINUOUS STIRRED TANK REACTOR, 35-43.

Mokhtar Khenfer,∗ Bachir Daaou,∗ and Mohamed Bouhamida∗

References

1. [1] M.P. Di Ciccio, M. Bottini, P. Pepe, and P.U. Foscolo, Observer-based nonlinear control law for a continuous stirred tankreactor with recycle, Chemical Engineering Science, 66, 2011,4780–4797.
2. [2] C.M. Florez and J. Villa, Sensor based state estimation for:Stirred tank reactors in chemical industry and for PMUsin angle controlled power systems. Sensors (IBERSENSOR),IEEE 9th Ibero-American Congress on Sensors, 2014, 1–4.
3. [3] P. Dost´al, M. Kubalˇc´ık, V. Bob´al, and J. Vojtˇeˇsek, Nonlinearadaptive control of a chemical reactor, Control & Automa-tion (MED), 2011 19th Mediterranean Conference on ControlAutomation (MED), 2011, 600–605.
4. [4] J. Mohd Ali, N. Ha Hoang, M.A. Hussain, and D. Dochain,Review and classification of recent observers applied in chemicalprocess systems, Computers and Chemical Engineering, 76,2015, 27–41.
5. [5] R. Aris and N. R. Amundson, An analysis of chemical reactorstability and control-I: The possibility of local control, withperfect or imperfect control mechanisms, Chemical EngineeringScience, 7(3), 1958, 121–131.
6. [6] R. Aris and N. R. Amundson, An analysis of chemical reactorstability and control-II: The evolution of proportional control,Chemical Engineering Science, 7(3), 1958, 132–147.
7. [7] R. Aris and N. R. Amundson, An analysis of chemical reactorstability and control-III: The principles of programming reactorcalculations. Some extensions, Chemical Engineering Science,7(3), 1958, 148–155.
8. [8] J. `Alvarez, Application of nonlinear system transformationsto control design for a chemical reactor, IEE Proceedings D –Control Theory and Applications, 135(2), 1988, 90–94.
9. [9] J. Z´avack´a, M. Bakoˇsov´a and K. Matejikov´a, Robust PIcontroller design for a continuous stirred tank reactor with42multiple steady-states, International Conference on ProcessControl (PC), Slovakia, 2013, 468–473.
10. [10] W. Chang, Nonlinear CSTR control system design using anartificial bee colony algorithm, Simulation Modelling Practiceand Theory, 31, 2013, 1–9.
11. [11] M. Bouhamida, B. Daaou, A. Mansouri, and M. Chenafa,Observer-based input-output linearization control of a multi-variable continuous chemical reactor, The Korean Mathemati-cal Society, 49(3), 2012, 641–658.
12. [12] M.J. Kurtz, M.A. Henson, Nonlinear output feedback control ofchemical reactors, American Control Conference, Proceedings,4, 1995, 2667–2671.
13. [13] M. Li and P.D. Christofides, An input/output approach to theoptimal transition control of a class of distributed chemicalreactors, Proceedings of American Control Conference, 2007,2042–2047.
14. [14] F. Viel, F. Jadot, and G. Bastin, Global stabilization of exother-mic chemical reactors under input constraints, Automatica,33(8), 1997, 1437–1448.
15. [15] H. Hoang, F. Couenne, C. Jallut, and Y. Le Gorrec, Thermody-namic approach for Lyapunov based control, IFAC ProceedingsVolumes, 42(11), 2009, 357–362.
16. [16] H. Hoang, F. Couenne, Y. Le Gorrec, and D. Dochain, Thermo-dynamics based stabilization of CSTR networks, 51st IEEE-CDC, Hawaii, USA, 2012, 6352–6357.
17. [17] A. Favache and D. Dochain, Thermodynamics and chemicalsystems stability: The CSTR case study revisited, Journal ofProcess Control, 19(3), 2009, 371–379.
18. [18] M. Primucci and M. Basualdo, Thermodynamic predictivefunctional control applied to CSTR with jacket system, IFACProceedings Volumes, 35(1), 2002, 361–366.
19. [19] W. Zhou, B. Hamroun, F. Couenne, and Y. Le Gorrec,Generalized availability function for the control of ChemicalReactors, Proceedings of the 33rd Chinese Control Conference,China, 2014, 3505–3510.
20. [20] J.P. Garc´ıa-Sandoval, V. Gonz´alez-´Alvarez, and C. Calder´on,Stability analysis and passivity properties for a class of chemicalreactors: Internal entropy production approach, Computersand Chemical Engineering, 75, 2015, 184–195.
21. [21] R. Aguilar-Lopez and J. Alvarez-Ramirez, Sliding-mode con-trol scheme for a class of continuous chemical reactors, IEEProceedings – Control Theory and Applications, 149(4), 2002,263–268.
22. [22] B.J. Parvat and S.D. Ratnaparkhi, A second order slidingmode controller applications in industrial process, InternationalJournal of Engineering Trends and Technology (IJETT), 19(4),2015, 217–222.
23. [23] D. Zhao, Q. Zhu, and J. Dubbeldam, Terminal sliding modecontrol for continuous stirred tank reactor, Chemical Engi-neering Research and Design, 94, 2015, 266–274.
24. [24] C. Martinez-Chitoy, J. De Leon-Morales, and R. Martinez-Guerra, Estimation and nonlinear control of a class of contin-uous stirred tank reactors: A differential algebraic approach,Proceedings of the American Control Conference, 5, 1997,3390–3394.
25. [25] R. Aguilar, R. Mart´ınez-Guerra, and A. Poznyak, Reactionheat estimation in continuous chemical reactors using highgain observers, Chemical Engineering Journal, 87(3), 2002,351–356.
26. [26] B. Daaou, A. Mansouri, M. Bouhamida, and M. Chenafa,A robust nonlinear observer for state variables estimationin multi-input multi-output chemical reactors, InternationalJournal of Chemical Reactor Engineering, 6(1), 2008, 1–20.
27. [27] R. Aguilar-L´opez, G. Soto-Cort´es, M.I. Ner´ıa-Gonz´alez, andR. Escarela-P´erez, Tracking unmodelled signals of nonlinearsystems via robust sliding mode observer: application toreacting systems, Journal of Applied Research and Technology,5(1), 2007, 10–21.
28. [28] R. Martinez-Guerra, R. Aguilar, and A. Poznyak, A newrobust sliding-mode observer design for monitoring in chemicalreactors, Journal of Dynamic Systems, Measurement andControl, 126(3), 2004, 473–478.
29. [29] B.G. Osorio, H.B. Castro, and J.D. S´anchez Torres, Stateand unknown input estimation in a CSTR using higher-ordersliding mode observer, Proc. IEEE Colombian Conf. Autom.Control Ind Appl., 2011, 1–5.
30. [30] H.A. Botero, E. Jim´enez-Rodr´ıguez, O. Jaramillo, and J.D.S.Torres, Robust estimation for a CSTR using a high order slidingmode observer and an observer-based estimator, Revista ION,29(2), 2016, 101–112.
31. [31] P.F. Puleston, F. Valenciaga, Chattering reduction in a ge-ometric sliding mode method. A robust low-chattering con-troller for an autonomous wind system, Control and IntelligentSystems, 37(1), 2009, 39–45.
32. [32] S. Lee, Y. Yee, and M. Park, An observer design for MIMOnonlinear systems, Transactions on Control, Automation, andSystems Engineering, 4(3), 2002, 189–194.
33. [33] F. Plestan, J. Davins-Valldaura, S. Moussaoui, and G. Pita-Gil,Sliding mode observer design for the road curvature estimationin Traffic Jam Pilot system, 14th International Workshop onVariable Structure Systems, 2016, 302–307.
34. [34] K.C. Veluvolu, Y.C. Soh, and W. Cao, Robust observer withsliding mode estimation for nonlinear uncertain systems, IETControl Theory & Applications, 1(5), 2007, 1533–1540.
35. [35] V.I. Utkin, Sliding modes in control and optimization(Germany: Springer-Verlllg Berlin, 1992).

Important Links:

• Abstract
• DOI: 10.2316/J.2020.201-0031
• From Journal (201) Mechatronic Systems and Control - 2020

Go Back