| Description |
1 online resource |
| Series |
IET Energy Engineering Series ; 125 |
|
IET energy engineering series ; 125.
|
| Contents |
Intro -- Contents -- Preface -- List of acronyms -- 1. Aerodynamics: turning wind into mechanical motion / Martin O.L. Hansen -- 1.1 Introduction -- 1.2 Steady blade element momentum method -- 1.3 Unsteady BEM -- 1.4 Lifting line model and explaining Prandtl's tip-loss correction -- 1.5 Limitations to the simpler aerodynamic models -- References -- 2. Wind turbine aero-servo-elasticity and dynamics / Morten Hartvig Hansen -- 2.1 Aero-servo-elastic modeling -- 2.2 Modal dynamics -- 2.3 Aeroelastic stability -- References -- 3. Rotor design and analysis / Carlo L. Bottasso and Pietro Bortolotti |
|
3.1 The design process -- 3.2 Simulation models -- 3.3 Multidisciplinary design optimization -- 3.4 Applications -- Acknowledgment -- References -- 4. Drivetrain analysis for reliable design / Zhiwei Zhang, Yi Guo and Christopher K. Baker -- 4.1 Introduction -- 4.2 Gearbox -- 4.3 Main shaft and bearing -- 4.4 Summary -- Acknowledgement -- References -- 5. Offshore turbines with bottom-fixed or floating substructures / Denis Matha, Frank Lemmer and Michael Muskulus -- 5.1 Introduction -- 5.2 Ocean wave modeling -- 5.3 Wave-structure interaction -- 5.4 Limitations and current developments |
|
7.3 Wind turbine design optimization -- 7.4 Wind power plant design optimization -- 7.5 Managing the design process: standards, frameworks, and data management -- 7.6 Conclusions -- Acknowledgment -- References -- 8. Wind plant electrical systems: electrical generation, machines, power electronics, and collector systems / Eduard Muljadi, Robert Mark Nelms and Vahan Gevorgian -- 8.1 Introduction -- 8.2 Wind energy conversion -- 8.3 Types of wind-turbine generator -- 8.4 Collector systems (5 pages) -- 8.5 Power plant -- 8.6 Appendix I (from [10]) -- Acknowledgment -- References |
|
9. Grid modeling with wind plants / Nicholas W. Miller -- 9.1 Modeling the regional/national/international grid with wind plants -- 9.2 Bulk power systems -- 9.3 Scenario development: preparatory stage -- 9.4 Capacity-value analysis -- 9.5 Hourly production simulation -- 9.6 Grid modeling and bulk system dynamics -- 9.7 Mitigation and synthesis -- 9.8 Discussion and recommendations -- References -- Index |
| Summary |
The book consists of 9 chapters and covers the following topics: aerodynamics; wind turbine aero-servo-elasticity; rotor design; drivetrain analysis; offshore turbines; wind turbine control; systems engineering; wind plant electrical systems and grid modeling |
| Bibliography |
References-6. Wind turbine control design / Alan Wright, Paul Fleming, Andrew Scholbrock, Kathryn Johnson, Lucy Pao, and Jan-Willem van Wingerden-6.1 Wind turbine controls introduction-6.2 Modeling for controller development-6.3 Basic operational controller design-6.4 Advanced controller design methods-6.5 Special topics-6.6 Summary-Acknowledgment-References-7. Systems engineering and optimization of wind turbines and power plants / Andrew Ning, Katherine Dykes, and Julian Quick-7.1 Introduction-7.2 Optimization-based design |
| Notes |
Print version record |
| Subject |
Wind power -- Computer simulation
|
|
Wind power plants -- Computer simulation
|
|
Wind power -- Computer simulation
|
|
aerodynamics.
|
|
elasticity.
|
|
offshore installations.
|
|
power generation control.
|
|
power grids.
|
|
power system simulation.
|
|
power transmission (mechanical)
|
|
rotors (mechanical)
|
|
systems engineering.
|
|
wind power.
|
|
wind power plants.
|
|
wind turbines.
|
| Form |
Electronic book
|
| Author |
Veers, Paul S., editor.
|
| ISBN |
1785615246 |
|
9781785615245 |
|
