An approach to the development of turbine loads in accordance with IEC 1400-1 and ISO 2394

37th Aerospace Sciences Meeting and Exhibit

Volumn , Issue , 1999, Pages

  McCoy, Timothy J ^a   Malcolm, David J ^a   Griffin, Dayton A ^a  

^a Kamzin Technology Inc   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

AEROSPACE ENGINEERING; DESIGN; STANDARDS; TURBOGENERATORS; TURBULENCE MODELS;

DESIGN STANDARD; EXTREME WIND CONDITIONS; LOAD COMBINATION; POWER PRODUCTION; TURBINE DESIGNS; TURBINE LOADS; ULTIMATE LOADS; WIND TURBINE GENERATOR SYSTEMS;

WIND TURBINES;

EID: 84983162476     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (13)

1. International Electrotechnical Commission, Wind Turbine Generator Systems, Part 1: Safety Requirements. IEC 1400-1, ed. 2, 1998 Draft.
2. International Organization for Standardization, General Principles on Reliability for Structures. ed. 2, ISO 2394, 1986 (Addendum 1, 1988).
3. Wilson, R. E., Freeman, L. N., Walker, S. N., and Harman, C. R., Fast Advanced Dynamics Code, Two-Bladed Teetered Hub Version 2.4 User’s Manual. Final Report, National Renewable Energy Laboratory, Golden, CO, 1996.
4. Hansen, A. C, User’s Guide to the Wind Turbine Dynamics Computer Programs Yawdyn and Aerodyn for ADAMS®, Version 9.6. Salt Lake City, Utah: University of Utah, June, 1996.
5. Elliot, A. S., and Wright A. D., ADAMS/WT: An Industry-Specific Interactive Modeling Interface for Wind Turbine Analysis. Wind Energy 1994, American Society of Mechanical Engineers, January 26, 1994.
6. Kelley, N. D., The Identification of Inflow Fluid Dynamics Parameters that can be used to Scale Fatigue Loading Spectra of Wind Turbine Structural Components. Wind Energy 1994, American Society of Mechanical Engineers, Houston, TX, January, 1994.
7. Veers, P. S. and Winterstein, S. R, Application of Measured Loads to Wind Turbine Fatigue and Reliability Analysis. 1997 ASME Wind Energy Symposium, Reno, NV, January, 1997.
8. Butterfield, C. P., et. al., Design Loads Analysis Guideline. National Wind Technology Center, Boulder, CO, January, 1998, Draft.
9. Canadian Institute of Steel Construction, Handbook of Steel Construction. 3rd ed., 1980.
10. American Society for Metals, Atlas of Fatigue Curves. 1986.
11. Spera, D. A., Structural Properties of Laminated Douglas Fir/Epoxy Composite Material. NASA RP-1236, May 1990.
12. McCoy, T. J., Loads Measurements on theAWT-26 Prototype Wind Turbine. Wind Energy 1995, American Society of Mechanical Engineers, Houston, TX, January, 1995.
13. Canadian Standards Association, Guidelines for the Development of Limit States Design, CSA Special Publication S408-1981.