Wind Energy Engineering
A Handbook for Onshore and Offshore Wind Turbines

Covers a wide spectrum of topics in the field of wind turbines (offshore and onshore) as written by world authorities

Trevor Letcher (Edited by)

9780323993531, Elsevier Science

Hardback, published 11 May 2023

586 pages, 130 illustrations (80 in full color)
23.5 x 19 x 3.3 cm, 1.84 kg

Wind Energy Engineering: A Handbook for Onshore and Offshore Wind Turbines, Second Edition continues to be the most advanced, up-to-date and research-focused text on all aspects of wind energy engineering. Covering a wider spectrum of topics in the field of wind turbines (offshore and onshore), this new edition includes new intelligent turbine designs and optimization, current challenges and efficiencies, remote sensing and smart monitoring, and key areas of advancement, such as floating wind turbines. Each chapter includes a research overview with a detailed analysis and new case studies looking at how recent research developments can be applied.

1. Why Wind Energy?
2. History of Harnessing Wind Power
3. Wind Power Fundamentals
4. Estimation of Wind Energy Potential and Prediction of Wind Power
5. Global Potential for Wind Generated Electricity
6. Achieving Carbon Neutrality: The Future of Wind Energy Development in China
7. Vertical wind speed profiles in atmospheric boundary layer flows
8. Wind Turbine Technologies
9. Small scale wind turbines
10. Civil Engineering aspects of a wind farm and wind turbine structures
11. Aerodynamics and the design of horizontal axis wind turbines
12. Civil Engineering challenges associated with design of Offshore Wind Turbines with special reference to China
13. Numerical methods for SSI analysis of Offshore Wind Turbine Foundations
14. Reliability of Wind Turbines
15. Practical method to estimate foundation stiffness for design of offshore wind turbines
16. Physical Modelling of Offshore Wind Turbine Model for Prediction of Prototype Response
17. Seismic Design and Analysis of Offshore Wind Turbines
18. Seismic Hazards associated with Offshore Wind Farms
19. Some Challenges and Opportunities around Lifetime Performance and Durability of wind turbines
20. A Review of Wind Power in Grid Codes: current state and future challenges
21. Intelligent design and optimization of Wind Turbines
22. Wind and Hybrid Power Systems: Reliability Based Assessment
23. Multi-fidelity simulation tools for modern wind turbines
24. Environmental and structural safety issues related to wind energy
25. Innovative Foundation Design for OWTS
26. Gravity Based Foundation (GBF) for offshore wind turbines
27. Greenhouse Gas Emissions from Storing Energy from Wind Turbines
28. Climate Change Effects on Offshore Wind Turbines
29. Life cycle assessment: meta-analysis of cumulative energy demand and greenhouse gas emissions for wind energy technologies
30. Wind turbines and landscape
31. Acoustics and Noise Emissions including Porus Material for Trailing Edge Noise Abatement for Wind Turbines
32. Global Rare Earth Supply, Life Cycle and Wind Energy
33. Short-term power prediction and downtime classification
34. Levelized Cost Of Energy (UK Offshore Wind Power) Drivers, Challenges, Opportunities and Practice 2010 to 2020
35. Certification of new foundations for offshore wind turbines

Subject Areas: Alternative & renewable energy sources & technology [THX], Electric motors [THRM]