xtending wind turbine operational conditions; a comparison of set point adaptation and LQG individual pitch control for highl turbulent wind

Extreme wind conditions can cause excessive loading on the turbine. This not only results in higher design loads, but when these conditions occur in practice, will also result in higher maintenance cost. Although there are already effective methods of dealing with gusts, other extreme conditions sho...

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Veröffentlicht in:	Journal of physics. Conference series 2014-01, Vol.524, p.1-13
Hauptverfasser:	Engels, W P, Subhani, S, Zafar, H, Savenije, F
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Fatigue (materials) Interprocessor communication Invariants Maintenance costs Turbines Turbulent wind Wind turbines
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creator	Engels, W P Subhani, S Zafar, H Savenije, F
description	Extreme wind conditions can cause excessive loading on the turbine. This not only results in higher design loads, but when these conditions occur in practice, will also result in higher maintenance cost. Although there are already effective methods of dealing with gusts, other extreme conditions should also be examined. This paper examines two methods to deal with extreme loads in a case of extreme turbulent wind. One method is derating the turbine, the other method is an individual pitch control (IPC) algorithm. Then, the IPC algorithm is proposed. This algorithm is a linear quadratic Gaussian (LQG) controller based on a time invariant model, defined in the fixed reference frame that includes the first tower and blade modes. The effect of this algorithm on fatigue loads and pitch effort is examined and compared with the fatigue loads and pitch effort of reference IPC. Finally, the methods are compared in non-linear aero-elastic simulations with extreme turbulent wind.
doi_str_mv	10.1088/1742-6596/524/1/012058
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subjects	Algorithms Fatigue (materials) Interprocessor communication Invariants Maintenance costs Turbines Turbulent wind Wind turbines
title	xtending wind turbine operational conditions; a comparison of set point adaptation and LQG individual pitch control for highl turbulent wind
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