Development of Condition Monitoring System with Control Functions for Wind Turbines
As an effort to promote wind power industry in Korea,
Korea South-East Power Corporation has been developing 22MW
YeungHeung wind farm consisting of nine 2 to 3MW wind turbines
supplied by three manufacturers. To maximize its availability and
reliability and to solve the difficulty of operating three kinds of
SCADA systems, Korea Electric Power Corporation has been
developing a condition monitoring system integrated with control
functions. This paper presents the developed condition monitoring
system and its application to YeungHeung wind test bed, and the
design of its control functions.
[1] C. C. Ciang, J. -R. Lee, and H. -J. Bang, "Structural health monitoring for
a wind turbine: a review of damage detection methods," Measurement
Science and Technology, vol. 19, no. 12, 122001, October, 2008.
[2] Felanalys, Database of failures for Swedish wind power turbines 1997
-2005, used with permission from Swedpower AB.
[3] R. W. Hyers, et al., " Condition monitoring and prognosis of utility scale
wind turbines," Energy Materials, vol. 1, no. 3, 2006, pp. 187-203.
[4] C. J. Crabtree, " Survey of commercially available condition monitoring
systems for wind turbines," Durham University, May, 2010.
[5] US Department of Energy, Energy efficiency and renewable energy:
ÔÇÿWind power today: federal wind program highlights-,
DOE/GO-102005-2115, April 2005.
[6] GL, Guideline for the certification of condition monitoring systems for
wind turbines, Germanischer Lloyd, Hamburg, May 2007.
[7] C. Jakobsen, et al., Insurance of wind turbines, IMIA, IMIA-WGP5(99)E,
July, 1999, p. 11.
[8] C. McGowin, Condition monitoring of wind turbines, EPRI Technical
Report, March, 2006, p. 6-1.
[1] C. C. Ciang, J. -R. Lee, and H. -J. Bang, "Structural health monitoring for
a wind turbine: a review of damage detection methods," Measurement
Science and Technology, vol. 19, no. 12, 122001, October, 2008.
[2] Felanalys, Database of failures for Swedish wind power turbines 1997
-2005, used with permission from Swedpower AB.
[3] R. W. Hyers, et al., " Condition monitoring and prognosis of utility scale
wind turbines," Energy Materials, vol. 1, no. 3, 2006, pp. 187-203.
[4] C. J. Crabtree, " Survey of commercially available condition monitoring
systems for wind turbines," Durham University, May, 2010.
[5] US Department of Energy, Energy efficiency and renewable energy:
ÔÇÿWind power today: federal wind program highlights-,
DOE/GO-102005-2115, April 2005.
[6] GL, Guideline for the certification of condition monitoring systems for
wind turbines, Germanischer Lloyd, Hamburg, May 2007.
[7] C. Jakobsen, et al., Insurance of wind turbines, IMIA, IMIA-WGP5(99)E,
July, 1999, p. 11.
[8] C. McGowin, Condition monitoring of wind turbines, EPRI Technical
Report, March, 2006, p. 6-1.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:61144", author = "Joon-Young Park and Beom-Joo Kim and Jae-Kyung Lee", title = "Development of Condition Monitoring System with Control Functions for Wind Turbines", abstract = "As an effort to promote wind power industry in Korea,
Korea South-East Power Corporation has been developing 22MW
YeungHeung wind farm consisting of nine 2 to 3MW wind turbines
supplied by three manufacturers. To maximize its availability and
reliability and to solve the difficulty of operating three kinds of
SCADA systems, Korea Electric Power Corporation has been
developing a condition monitoring system integrated with control
functions. This paper presents the developed condition monitoring
system and its application to YeungHeung wind test bed, and the
design of its control functions.", keywords = "condition monitoring, control function, reliability,wind turbine", volume = "5", number = "9", pages = "1911-6", }