Dokumente > Weggeschleuderte Rotorfragmente > Permitting setbacks requirements for wind turbines in California
Prepared by:
Scott Larwood and C. P. van Dam
California Wind Energy Collaborative
Davis, California
Prepared for:
California Energy Commission
Public Interest Energy Research (PIER) Program
November 2006
The California Wind Energy Collaborative was tasked to look at barriers to new wind energy development in the state. Planning commissions in the state have developed setback standards to reduce the risk of damage or injury from fragments resulting from wind turbine rotor failures. These standards are usually based on overall turbine height. With the trend toward larger capacity, taller towers and longer blades, modern wind turbines can be "squeezed out" of parcels thus reducing the economic viability of new wind developments.
Current setback standards and their development are reviewed. The rotor failure probability is discussed and public domain statistics are reviewed. The available documentation shows rotor failure probability in the 1-in-1000 per turbine per year range. The analysis of the rotor fragment throw event is discussed in simplified terms. The range of the throw is highly dependent on the release velocity, which is a function of the turbine tip speed. The tip speed of wind turbines does not tend to increase with turbine size, thus offering possible relief to setback standards. Six analyses of rotor fragment risks were reviewed. The analyses do not particularly provide guidance for setbacks. Recommendations are made to use models from previous analyses for developing setbacks with an acceptable hazard probability.
Link: http://www.energy.ca.gov/pier/project_reports/CEC-500-2005-184.html
Courtesy of Lisa Linowes, president of Industrial Wind Action Group www.windaction.org
About the report she said: "I've had several conversations with the author, Scott Larwood, and he acknowledged the study did NOT consider: