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Design, Control and Monitoring of Tidal Stream Turbine Systems.

EBSCOhost Academic eBook Collection (North America) Available online

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Format:
Book
Author/Creator:
Benbouzid, Mohamed.
Contributor:
Benbouzid, Mohamed, editor.
Series:
Energy Engineering Series
Language:
English
Subjects (All):
Renewable energy sources.
Physical Description:
1 online resource (158 pages)
Edition:
1st ed.
Place of Publication:
Stevenage : Institution of Engineering & Technology, 2023.
System Details:
Mode of access: World Wide Web.
Summary:
An authoritative overview of the technology for tidal energy generation as reliable clean power source, this book presents the principles, conversion drivetrain design options, control, resilience and fault-tolerant control, monitoring as well as the specific issue of biofouling.
Contents:
Intro
Title
Copyright
Contents
About the editor
Introduction
1 Tidal stream turbine generator and drivetrain design options
1.1 Possible TST drivetrain options
1.1.1 Behavior of a tidal turbine in terms of torque/speed
1.1.2 Drivetrain options and generator configurations
1.1.3 Power harnessing general strategy
1.1.4 Turbine control options
1.2 TST generator design
1.2.1 Design criteria
1.2.2 Possible generator type depending of the drivetrain options
1.2.3 Generator and drive flux weakening specifications for fixed pitch turbine
1.2.4 Focus on direct-drive PM generators dedicated to TST
1.3 Summary and conclusion
References
2 Tidal stream turbine control
2.1 Overview of control system
2.1.1 PID control
2.1.2 Sliding mode control
2.2 Mathematical modelling
2.2.1 Tidal resource model
2.2.2 Tidal turbine model
2.2.3 Modeling of the generator
2.2.4 Modeling of DFIG
2.2.5 Modeling of PMSG
2.3 Controller development for TST
2.3.1 HOSMC for DFIG-based TST
2.3.2 HOSMC for PMSG-based TST
2.3.3 HOSMC for DSPMG-based TST
2.4 Conclusion
3 Tidal stream turbine fault-tolerant control
3.1 Introduction
3.2 Fundamentals on faults resilience
3.2.1 Basic concepts on fault tolerance
3.2.2 Marine current turbines failures
3.2.3 Diagnosis and fault tolerance property
3.3 Fault-tolerant systems at design stage
3.3.1 Redundancy
3.3.2 Intrinsic resilient systems
3.4 Fault-tolerant control
3.4.1 Active fault-tolerant control system
3.4.2 Passive fault-tolerant control system
3.4.3 Hybrid fault-tolerant control system
3.5 Tidal stream turbines magnets fault-tolerant control case study
3.5.1 Tidal turbine overview
3.5.2 Magnetic equivalent circuit model for magnets failure modeling.
3.5.3 Sliding mode-based magnet failure-resilient control
3.5.4 Simulation results
3.6 Tidal stream turbines sensors fault-tolerant control case study
3.6.1 Flow-meter FTC
3.6.2 Rotor speed/position sensor FTC
3.6.3 Comparison criteria
3.6.4 Main simulation results
3.7 Conclusions and perspectives
4 Tidal stream turbine monitoring and fault diagnosis
4.1 Introduction
4.1.1 Tidal stream turbine challenges
4.2 Condition monitoring and fault diagnosis in TST
4.2.1 Failure modes
4.2.2 Condition monitoring
4.3 Fault detection and diagnosis in TST
4.4 Tidal stream turbine faults
4.4.1 Impact of imbalance fault
4.4.2 Current signal model
4.4.3 MSCA-based imbalance fault detection
4.4.4 Image processing-based imbalance fault detection
4.5 Summary and conclusion
5 Biofouling issue in tidal stream turbines
5.1 Introduction
5.2 Biofouling development
5.2.1 Characterization
5.2.2 Development
5.3 Biofouling characterization and estimation
5.3.1 Some hydrodynamic aspects to understand the effect of biofouling on tidal turbines power
5.3.2 Comparison of the influence of biofouling in tidal turbines with icing in wind turbines
5.4 Biofouling impact on tidal stream turbines hydrodynamic and electric performance
5.4.1 Biofouling detection techniques briefly
5.5 Conclusions and perspectives
Conclusion
Index.
Notes:
Includes index.
Includes bibliographical references and index.
Description based on publisher supplied metadata and other sources.
Other Format:
Print version: Benbouzid, Mohamed Design, Control and Monitoring of Tidal Stream Turbine Systems
ISBN:
9781839534218
1839534214
OCLC:
1389611674

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