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For researchers and practitioners, an accessible and integrated treatment of hydrodynamic control of wave energy devices.
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For researchers and practitioners, an accessible and integrated treatment of hydrodynamic control of wave energy devices.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 381
- Erscheinungstermin: 26. September 2016
- Englisch
- Abmessung: 268mm x 177mm x 24mm
- Gewicht: 971g
- ISBN-13: 9781107079700
- ISBN-10: 1107079705
- Artikelnr.: 45154604
- Verlag: Cambridge University Press
- Seitenzahl: 381
- Erscheinungstermin: 26. September 2016
- Englisch
- Abmessung: 268mm x 177mm x 24mm
- Gewicht: 971g
- ISBN-13: 9781107079700
- ISBN-10: 1107079705
- Artikelnr.: 45154604
Umesh Korde is the Richard and Elizabeth Henes Chair Professor in Wave Energy at Michigan Technological University. He is the author of numerous research publications and teaches graduate courses focusing on the hydrodynamics and control of wave energy devices. Korde also works on research in smart structures and acoustics. A focal area of his current research has been new techniques for modeling and control, including novel ways to utilize existing approaches. He is an associate editor for the journal Ocean Engineering and is a Fellow of the American Society of Mechanical Engineers (ASME).
Part I. Introduction: 1. Wave energy conversion
Part II. The Basics: 2. Introduction to control engineering
3. Bodies oscillating in air
4. Bodies oscillating in water
Part III. The Hydrodynamics: 5. Nature of the wave input
6. A closer look at wave energy hydrodynamics
Part IV. Velocity Control Using a Hydrodynamic Model: 7. Reactive control in time domain
8. A causal real-time controller for WECs
Part V. Control by Optimizing a Performance Index: 9. Non-reactive switching control
10. Optimal numerical control of wave energy converters
11. Control strategies for WEC arrays
12. Wave forecasting for control
Part VI. Towards Overall WEC System Hydrodynamic Optimisation: 13. Position and force constraint analysis and optimisation
14. Interaction between control and optimum system design
Part VII. In Closing: 15. Conclusion
Bibliography
Index.
Part II. The Basics: 2. Introduction to control engineering
3. Bodies oscillating in air
4. Bodies oscillating in water
Part III. The Hydrodynamics: 5. Nature of the wave input
6. A closer look at wave energy hydrodynamics
Part IV. Velocity Control Using a Hydrodynamic Model: 7. Reactive control in time domain
8. A causal real-time controller for WECs
Part V. Control by Optimizing a Performance Index: 9. Non-reactive switching control
10. Optimal numerical control of wave energy converters
11. Control strategies for WEC arrays
12. Wave forecasting for control
Part VI. Towards Overall WEC System Hydrodynamic Optimisation: 13. Position and force constraint analysis and optimisation
14. Interaction between control and optimum system design
Part VII. In Closing: 15. Conclusion
Bibliography
Index.
Part I. Introduction: 1. Wave energy conversion
Part II. The Basics: 2. Introduction to control engineering
3. Bodies oscillating in air
4. Bodies oscillating in water
Part III. The Hydrodynamics: 5. Nature of the wave input
6. A closer look at wave energy hydrodynamics
Part IV. Velocity Control Using a Hydrodynamic Model: 7. Reactive control in time domain
8. A causal real-time controller for WECs
Part V. Control by Optimizing a Performance Index: 9. Non-reactive switching control
10. Optimal numerical control of wave energy converters
11. Control strategies for WEC arrays
12. Wave forecasting for control
Part VI. Towards Overall WEC System Hydrodynamic Optimisation: 13. Position and force constraint analysis and optimisation
14. Interaction between control and optimum system design
Part VII. In Closing: 15. Conclusion
Bibliography
Index.
Part II. The Basics: 2. Introduction to control engineering
3. Bodies oscillating in air
4. Bodies oscillating in water
Part III. The Hydrodynamics: 5. Nature of the wave input
6. A closer look at wave energy hydrodynamics
Part IV. Velocity Control Using a Hydrodynamic Model: 7. Reactive control in time domain
8. A causal real-time controller for WECs
Part V. Control by Optimizing a Performance Index: 9. Non-reactive switching control
10. Optimal numerical control of wave energy converters
11. Control strategies for WEC arrays
12. Wave forecasting for control
Part VI. Towards Overall WEC System Hydrodynamic Optimisation: 13. Position and force constraint analysis and optimisation
14. Interaction between control and optimum system design
Part VII. In Closing: 15. Conclusion
Bibliography
Index.