Observer-Based Disturbance Accommodation Control Strategy for Useful Lifetime Control and Structural Load Mitigation of Wind Turbines ()
Affiliation(s)
1Department of Mechatronic Engineering, Pan African University Institute for Basic Sciences, Technology and Innovation,
Nairobi, Kenya.
2Department of Mechatronic Engineering, Jomo Kenyatta University of Agriculture and Technology, Nairobi, Kenya.
3Department of Mechanical Engineering, Jomo Kenyatta University of Agriculture and Technology, Nairobi, Kenya.
ABSTRACT
Wind turbines undergo degradation due to various factors
which induce stress, thereby leading to fatigue damage
to various wind turbine components. In addition, the current increase in demand for electrical power has led to the development of large wind turbines, which result in increased structural loads, therefore, increasing the possibility
of early failure due to fatigue load. This paper proposes a proportional integral
observer (PI-Observer) based disturbance accommodation controller (DAC) with individual
pitch control (IPC) for load mitigation to reduce components’ damage and ensure
the wind turbine is operational for the expected lifetime. The results indicate
a reduction in blades’ bending moments with a standard deviation of 15.9%, which positively impacts several other wind turbine subsystems. Therefore,
the lifetime control strategy demonstrates effective structural load mitigation
without compromise on power generation, thus, achieving a nominal lifetime control to inhibit premature failure.
Share and Cite:
Goboza, R. , Njiri, J. and Kimotho, J. (2022) Observer-Based Disturbance Accommodation Control Strategy for Useful Lifetime Control and Structural Load Mitigation of Wind Turbines.
Journal of Power and Energy Engineering,
10, 31-55. doi:
10.4236/jpee.2022.107003.
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