Wind energy systems: Optimising design and construction for safe and reliable operation provides a comprehensive review of the latest developments in the design, construction and operation of large-scale wind energy systems, including in offshore and other problematic environments.
Part one provides detailed coverage of wind resource assessment and siting methods relevant to wind turbine and wind farm planning, as well as aeroelastics, aerodynamics, and fatigue loading that affect the safety and reliability of wind energy systems. This coverage is extended in part two, where the design and development of individual components is considered in depth, from wind turbine rotors to drive train and control systems, and on to tower design and construction. Part three explores operation and maintenance issues, such as reliability and maintainability strategies and condition monitoring systems, before discussing performance assessment and optimisation routes for wind energy systems in low wind speed environments and cold climates. Part four reviews offshore wind energy systems development, from the impact of environmental loads such as wind, waves and ice, to site specific construction and integrated wind farm planning, and of course the critical issues and strategies for offshore operation and maintenance.
With its distinguished editors and international teams of contributors, Wind energy systems is a standard reference for wind power engineers, technicians and manufacturers, as well as researchers and academics involved in this expanding field.
- Reviews the latest developments in the design, construction and operation of large-scale wind energy systems
- Offers detailed coverage of wind resource assessment and siting methods relevant to wind turbine and wind farm planning
- Explores operation and maintenance issues, such as reliability and maintainability strategies and condition monitoring systems
Sørensen, Jens NProfessor Jens Nørkær Sørensen is Head of Fluid Mechanics at the Department of Mechanical Engineering, Technical University of Denmark (DTU), and is noted for his research in fluid dynamics and the aerodynamics and aero-acoustics of wind turbines.