Dynamics and Control of Ocean Wave Energy Converters Theory and Applications
Auteurs : Abdelkhalik Ossama, Zou Shangyan
Dynamics and Control of Ocean Wave Energy Converters: Theory and Applications outlines the fundamental theory and applications of wave energy production techniques, with detailed explanations of the dynamics and hydrodynamics of wave energy converters. Methods and models of control are described next, including essential techniques from systems response and PID control to state space realization. Next, advanced reactive control techniques, such as Latching Control, Bang-Bang Control, and advanced optimal control algorithms, will be outlined. The final chapters show how to calculate optimal estimation for wave energy conversion using techniques such as Kalman Filters and Extended Kalman filters. Providing a range of problems and case studies to enhance understanding, this book will take readers from the essentials of wave energy conversion to advanced control techniques for responsive energy production.
Shangyan Zou is a Postdoctoral Researcher in the School of Civil and Construction Engineering at Oregon State University. Prior to joining Oregon State University, he was a postdoctoral research associate at Iowa State University. Dr. Zou received his Ph.D. in mechanical engineering from Michigan Technological University. His research interests are in the areas of optimal control and wave energy conversion.
- Outlines the fundamentals of wave energy conversion, including theory and converter options
- Presents the techniques and applications of control techniques for wave energy conversion
- Offers case studies and examples of real-world applications, analysis, and modeling, including for non-linear and complex hydrodynamics
- Provides problem questions at the end of each chapter to allow readers to test their knowledge and confirm understanding
Date de parution : 11-2024
Ouvrage de 250 p.
15x22.8 cm
Thème de Dynamics and Control of Ocean Wave Energy Converters :
Mots-clés :
Wave Energy Conversion; Modeling; Control System Design; Hydrodynamics Modelling of Wave Energy Converters; Wave Structure Interactions; Dynamics and Control; Optimal Control; Controlling Oscillations; Frequency Domain Analysis; State Space Representation; Time domain analysis; Wave energy converters; Marine renewable energy