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Wind Energy Design 2nd edition [Kõva köide]

(University of Notre Dame, USA), (University of Notre Dame, USA)
  • Formaat: Hardback, 400 pages, kõrgus x laius: 234x156 mm, 38 Tables, black and white; 172 Line drawings, black and white; 39 Halftones, black and white; 211 Illustrations, black and white
  • Ilmumisaeg: 30-Sep-2025
  • Kirjastus: CRC Press
  • ISBN-10: 1041007523
  • ISBN-13: 9781041007524
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Wind Energy Design 2nd edition
  • Formaat: Hardback, 400 pages, kõrgus x laius: 234x156 mm, 38 Tables, black and white; 172 Line drawings, black and white; 39 Halftones, black and white; 211 Illustrations, black and white
  • Ilmumisaeg: 30-Sep-2025
  • Kirjastus: CRC Press
  • ISBN-10: 1041007523
  • ISBN-13: 9781041007524
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781041007524.html

Wind Energy Design provides an understanding of how wind farm design impacts wind turbine performance and offers rigorous design optimization coverage. It explores the blade design features, including aerodynamics, structures, and environmental impact, that yield an efficient rotor.

Demonstrating how theoretical aspects can be applied to produce a new conceptual wind energy design, the book addresses topics on wind characteristics and modeling, rotor aerodynamics, lightweight and flexible structures, wind farm aerodynamics, wind turbine control, acoustics, energy storage, and economics. The new edition features new sections on minimizing the costs of electricity and wind farm design for maximum energy capture. It includes a new case study on deployable wind turbines for defense and disaster response missions.

This book is intended for upper-level undergraduate engineering students taking courses in Renewable Energy, Wind Power, Energy Systems, and Energy Conversion.

Instructors will be able to utilize a Solutions Manual and Figure Slides for their course.



Wind Energy Design provides an understanding of how wind farm design impacts wind turbine performance and offers rigorous design optimization coverage. It explores the blade design features, including aerodynamics, structures, and environmental impact, that yield an efficient rotor.

1. Introduction.
2. Wind Regimes.
3. Introduction to Aerodynamics.
4.
Aerodynamic Performance.
5. Horizontal Wind Turbine Rotor Design.
6. Wind
Turbine Control.
7. Structural Design.
8. Wind Farms.
9. Wind Turbine
Acoustics.
10. Wind Energy Storage.
11. Economics.
12. Design Summary and
Trade Study.
13. New Concepts.
14. Capstone Design - Deployable Wind Turbines
for Disaster Response Missions.
15. Appendix.
Dr. Thomas C. Corke is the Clark Chair Professor of Engineering in the Aerospace and Mechanical Engineering Department at the University of Notre Dame. He is currently the Director of the Hypersonics Systems Initiative at the University, and an Advisor to the Vice-President for Research. Dr. Corke is the Founding Director of the Notre Dame Institute for Flow Physics and Control (FlowPAC), a position he held for 18 years. He was also the third Director of the Notre Dame Hessert Laboratory for Aerospace Research, a position he held for 15 years, and under his direction significantly expanded the number of fluid dynamic research facilities through the addition of the 70,000 sqft White Field Laboratory. Dr. Corke is internationally recognized for his research in the areas of fluid instabilities and transition to turbulence, control of turbulent boundary layers, flow visualization techniques and flow control. He has been developing plasma actuators for more than 30 years and is considered a leading authority on plasma flow control, in which he holds 41 U.S. and International patents. In support of his hypersonic systems research, he has recently completed a large Mach 10 Quiet Wind Tunnel.