Sage Journals: Discover world-class research

Abstract

Bioreactor processes based on substrate concentration have both highly non-linear behaviour and parameter uncertainties mostly bounded with physical and biological constraints, which make them a subject area of sliding mode control. This work deals with sliding mode control of a fermentation process in a continuous stirred bioreactor. A new sliding surface is defined using angular information as a function of time that provides adjustable continuous movement of the sliding surface. Computer simulations are presented to show the effectiveness and efficiency of the proposed method and to make a quantitative comparison with the conventional sliding mode controller having a constant sliding surface. The excess amount of substrate concentration in the mixture causes undesired by-product information. Therefore, the substrate concentration should not stay above its desired value for a long time. It is shown in the simulations that the performance of the proposed method, especially in regard to the settling time of the substrate concentration and reaching time, is improved. It is also shown that different system state trajectories could be obtained with the proposed method by adjusting the defined parameters of the angular information.

Keywords

bioreactor control fermentation process substrate concentration sliding mode control sliding surface design.

Get full access to this article

View all access options for this article.

References

Bartoszewicz, A. 1995: A comment on ‘A time varying sliding surface for fast and robust tracking control of second-order uncertain systems’ . Automatica 31, 1893-95.

Bartoszewicz, A. and Nowacka, A. 2006: Optimal design of the shifted switching planes for VSC of a third-order system. Transactions of the Institute of Measurement and Control 28, 335-52.

Bastin, G. and Van Impe, J.F. 1995: Nonlinear and adaptive control in biotechnology: a tutorial . European Journal of Control 1, 37-53.

Chen, C.T. and Peng, S.T. 2004: A nonlinear control scheme for imprecisely known processes using the sliding mode and neural fuzzy techniques. Journal of Process Control 14, 501-15.

Derdiyok, A. and Levent, M. 2000: Sliding mode control of a bioreactor. Korean Journal of Chemical Engineering 17, 619-24.

Dochain, D. 2008: Automatic control of bioprocesses. ISTE/Hermes Science Publishing.

Efe, M.O. 2002: A novel error critic for variable structure control with an ADALINE. Transactions of the Institute of Measurement and Control 24, 403-15.

Efe, M.O. 2007: MIMO variable structure controller design for a bioreactor benchmark process. ISA Transactions 46, 459-69.

Georgieva, O. , Hristozov, I. , Pencheva, T. , Tzonkov, S. and Hitzmann, B. 2003: Mathematical modelling and variable structure control systems for fed-batch fermentation of Escherichia coli. Chemical and Biochemical Engineering Quarterly 17, 293-99.

10.

Georgieva, P.G. and Ignatova, M.N. 2000: Implementation of robust control theory to a continuous stirred tank bioreactor. Bioprocess and Biosystems Engineering 22, 563-68.

11.

Henson, M.A. 2006: Biochemical reactor modeling and control. IEEE Control Systems Magazine 26, 54-62.

12.

Hung, J.Y. , Gao, W. and Hung, J.C. 1993: Variable structure control. A survey. IEEE Transactions on Industrial Electronics 40, 2-22.

13.

Iglesias, E. , García, Y. , Sanjuan, M. , Camacho, O. and Smith, C. 2007: Fuzzy surface-based sliding mode control. ISA Transactions 46, 73-83.

14.

Kaynak, O. , Erbatur, K. and Ertugrul, M. 2001: The fusion of computationally intelligent methodologies and sliding-mode control - a survey. IEEE Transactions on Industrial Electronics 48, 4-17.

15.

McGookin, E.W. , Murray-Smith, D.J. , Li, Y. and Fossen, T.I. 2000: The optimization of a tanker autopilot control system using genetic algorithms. Transactions of the Institute of Measurement and Control 22, 141-78.

16.

Nagy, Z.K. 2007: Model based control of a yeast fermentation bioreactor using optimally designed artificial neural networks. Chemical Engineering Journal 127, 95-109.

17.

Ramaswamy, S. , Cutright, T.J. and Qammar, H.K. 2005: Control of a continuous bioreactor using model predictive control. Process Biochemistry 40, 2763-70.

18.

Selisteanu, D. , Petre, E. and Rasvan, V.B. 2007: Sliding mode and adaptive sliding-mode control of a class of nonlinear bioprocesses. International Journal of Adaptive Control and Signal Processing 21, 795-822.

19.

Simeonov, I.S. 1999: Mathematical modeling and parameters estimation of anaerobic fermentation processes. Bioprocess Engineering 21, 377-81.

20.

Szederkényi, G. , Kristensen, N.R. , Hangos, K.M. and Jørgensen, S.B. 2002: Nonlinear analysis and control of a continuous fermentation process. Computers and Chemical Engineering 26, 656-70.

21.

Tham, H.J. , Ramachandran, K.B. and Hussain, M.A. 2003: Sliding mode control for a continuous bioreactor. Chemical and Biochemical Engineering Quarterly 17, 267-75.

22.

Tokat, S. , Eksin, I. , Guzelkaya, M. and Soylemez, M.T. 2003: Design of a sliding mode controller with a nonlinear time-varying sliding surface. Transactions of the Institute of Measurement and Control 25, 145-62.

23.

Ul-Haq, I. and Mukhtar, H. 2006: Fuzzy logic control of bioreactor for enhanced biosynthesis of alkaline protease by an alkalophilic strain of bacillus. Current Microbiology 52, 149-52.

24.

Utkin, V.I. 2004: Sliding mode control. In Sabanovic, A., Fridman, L. & Spurgeon, S., editors. Variable structure systems: from principles to implementation. IEE Press, 3-17, IEE Control Series 66.

25.

Yu, X. , Dunnigan, M.W. and Williams, B.W. 2001: Comparative study of sliding mode speed and position control of a vector-controlled induction machine. Transactions of the Institute of Measurement and Control 23, 83-101.

26.

Zhang, J.G. , Jiang, K. , Chen, Z.M. and Zhao, Z. 2006: Global robust fuzzy sliding mode control for a class of non-linear system. Transactions of the Institute of Measurement and Control 28, 219-27.

27.

Zlateva, P. 1997: Sliding mode control of fermentation processes. Bioprocess Engineering 16, 383-87.

Sliding mode controlled bioreactor using a time-varying sliding surface

Abstract

Keywords

Get full access to this article

References