Weitere Kapitel dieses Buchs durch Wischen aufrufen
The main purpose is to present the actual development and experimental validation of SOSM controllers, previously reviewed and analysed in this book. As anticipated, the controllers are designed and implemented in the real FC-based generation workbench introduced and modelled in the previous chapter. Three control set-ups based onSuper-Twisting,Twisting andSub-Optimal algorithms are developed. Power conversion optimisation of the laboratory PEM fuel cell system is sought via oxygen stoichiometry regulation. In the implementation, the effect of practical problems such as saturation and possible wind-up are taken into account.
There is also a second intention for this chapter. Taking advantage of the consecutive steps required to present the development of the aforementioned actual FC controllers, it is aimed to provide a condensed recapitulation of the concepts and design procedures reviewed and elaborated along the previous chapters. The objective is twofold. On the one hand, this endows the chapter with a certain degree of self-containment, improving its readability by sparing the reader from awkward goings and comings. On the other hand, the goal is to summarise the successive stages of the FC-SOSM control design process presented in this book, into one concise format. This would offer a unified abridged design guideline to develop proficient practical SOSM controllers for efficiency optimisation of FC generation systems.
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Fridman L, Levant A (2002) Higher order sliding modes. In: Sliding mode control in engineering, Dekker, New York, pp 53–101 (Chap 3)
Kunusch C (2009) Modelling and nonlinear control of PEM fuel cell systems. Phd thesis, Electrical Department, National University of La Plata, Argentina (in Spanish)
Kunusch C, Puleston PF, Mayosky MA, Husar A (2011) Control-oriented modelling and experimental validation of a PEMFC generation system. IEEE Trans Energy Convers 26(3):851–861 CrossRef
Kunusch C, Puleston PF, Mayosky MA, Dávila A (2010) Efficiency optimisation of an experimental PEM fuel cell system via super twisting control. In: Proceedings of IEEE 11th international workshop on variable structure systems, Mexico City, June 26–28
- SOSM Controller for the PEMFC-Based Generation System. Design and Implementation
- Springer London
- Chapter 6