Control of Fuel Cell Power Systems
Principles, Modeling, Analysis and Feedback Design
(Sprache: Englisch)
The series Advances in Industrial Control aims to report and encourage technology transfer in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. New theory, new controllers, actuators,...
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The series Advances in Industrial Control aims to report and encourage technology transfer in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. New theory, new controllers, actuators, sensors, new industrial processes, computer meth ods, new applications, new philosophies ... , new challenges. Much of this development work resides in industrial reports, feasibility study papers and the reports of advanced collaborative projects. The series offers an opportu nity for researchers to present an extended exposition of such new work in all aspects of industrial control for wider and rapid dissemination. Fuel cell power systems is a new and exciting industrial area which is re ceiving considerable commercial investment as a future energy technology. The IEEE Spectrum magazine New Year issue of 2004 cited this area as one whose development and progress should be observed closely over the coming years. Successful application of fuel cell technology will depend on many fac tors not the least of which being how consistently their performance can be controlled. This Advances in Industrial Control monograph by Jay Pukrush pan, Anna Stefanopoulou and Huei Peng is a timely contribution to the area. As the authors so rightly say in their Preface, control engineers have different requirements from modelling, experimental studies and simulation work for designing a good control system and this monograph presents a control-orien tated approach to these topics in the fuel cell power system field.
The problem of greenhouse gas (particularly carbon dioxide) release during power generation in fixed and mobile systems is widely acknowledged. Fuel cells are electrochemical devices offering clean and efficient energy production by the direct conversion of gaseous fuel into electricity. As such, they are under active study for commercial stationary power generation, residential applications and in transportation. The control of fuel cell systems under a variety of environmental conditions and over a wide operating range is a crucial factor in making them viable for extensive use in every-day technology.
In Control of Fuel Cell Power Systems the application of fuel cells in automotive powertrains is emphasized because of the significance of the contribution to global CO2 emissions made by ground vehicle propulsion and because of the challenge presented by the accompanying control problems. The authors' comprehensive control-oriented approach provides:
- An overview of the underlying physical principles and the main control objectives and difficulties associated with the implementation of fuel cell systems.
- System-level dynamic models derived from the physical principles of the processes involved.
- Formulation, in-depth analysis and detailed control design for two critical control problems, namely, the control of the cathode oxygen supply for a high-pressure direct hydrogen fuel cell system and control of the anode hydrogen supply from a natural gas fuel processor system.
- Multivariable controllers that attenuate restraints resulting from lack of sensor fidelity or actuator authority.
- Real-time observers for stack variables that confer redundancy in fault detection processes.
- Examples of the assistance of control analysis in fuel cell redesign and performance improvement.
- Downloadable SIMULINK® model of a fuel cell for immediate use supplemented by sample MATLAB® files with which to run it and reproduce some of the book plots.
Primarily intended for researchers and students with a control background looking to expand their knowledge of fuel cell technology, Control of Fuel Cell Power Systems will also appeal to practicing fuel cell engineers through the simplicity of its models and the application of control algorithms in concrete case studies. The thorough coverage of control design will be of benefit to scientists dealing with the electrochemical, materials and fluid-dynamic aspects of fuel cells.
In Control of Fuel Cell Power Systems the application of fuel cells in automotive powertrains is emphasized because of the significance of the contribution to global CO2 emissions made by ground vehicle propulsion and because of the challenge presented by the accompanying control problems. The authors' comprehensive control-oriented approach provides:
- An overview of the underlying physical principles and the main control objectives and difficulties associated with the implementation of fuel cell systems.
- System-level dynamic models derived from the physical principles of the processes involved.
- Formulation, in-depth analysis and detailed control design for two critical control problems, namely, the control of the cathode oxygen supply for a high-pressure direct hydrogen fuel cell system and control of the anode hydrogen supply from a natural gas fuel processor system.
- Multivariable controllers that attenuate restraints resulting from lack of sensor fidelity or actuator authority.
- Real-time observers for stack variables that confer redundancy in fault detection processes.
- Examples of the assistance of control analysis in fuel cell redesign and performance improvement.
- Downloadable SIMULINK® model of a fuel cell for immediate use supplemented by sample MATLAB® files with which to run it and reproduce some of the book plots.
Primarily intended for researchers and students with a control background looking to expand their knowledge of fuel cell technology, Control of Fuel Cell Power Systems will also appeal to practicing fuel cell engineers through the simplicity of its models and the application of control algorithms in concrete case studies. The thorough coverage of control design will be of benefit to scientists dealing with the electrochemical, materials and fluid-dynamic aspects of fuel cells.
Inhaltsverzeichnis zu „Control of Fuel Cell Power Systems “
1 Background and Introduction.- 2 Fuel Cell System Model: Auxiliary Components.- 3 Fuel Cell System Model: Fuel Cell Stack.- 4 Fuel Cell System Model: Analysis and Simulation.- 5 Air Flow Control for Fuel Cell Cathode Oxygen Reactant.- 6 Natural Gas Fuel Processor System Model.- 7 Control of Natural Gas Fuel Processor.- 8 Closing Remarks.- A Miscellaneous Equations, Tables, and Figures.- A.1 FCS Air Flow Control Design.- A.2 FPS Control Design.- References.
Autoren-Porträt von Jay T. Pukrushpan, Anna G. Stefanopoulou, Huei Peng
Anna Stephanopoulou is becoming well-known among control engineers - she is now a regular on meeting program committees and as a session organizer for such leading conferences as American Control Conference and IFAC World Congress. She has also recently been appointed Associate Editor of the journal IEEE Control Systems Technology. She has previously been employed in the prestigious engineering faculty at UC Santa Barbara and at Ford Motor Company. She has received prizes for her work in automotive powertrain control, making her an ideal author for this type of monograph within the Advances in Industrial Control series.
Bibliographische Angaben
- Autoren: Jay T. Pukrushpan , Anna G. Stefanopoulou , Huei Peng
- 2010, XVII, 161 Seiten, Masse: 15,9 x 23,7 cm, Kartoniert (TB), Englisch
- Verlag: Springer, Berlin
- ISBN-10: 1849969280
- ISBN-13: 9781849969284
Sprache:
Englisch
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