Endusa Billy Muhando scite author profile

With the increasing trend of connecting high penetrations of wind energy conversion systems (WECSs) to the transmission networks comes the challenge of updating the grid code for the connection of megawatt-class wind turbines. Starting with each WECS entity in the wind farm, the specifications would require the ability to complement some of the power system control services-voltage and frequency control-currently carried out by conventional synchronous generation. This paper investigates output power stability of a WECS in a highly fluctuating wind environment. Based on a performability model, a control strategy is devised for maximizing energy conversion in low to medium winds, and maintaining rated output in above rated winds while keeping torsional torque fluctuations to a minimum. Control is exercised via collective blade pitch control as well as generator torque control. The fundamental philosophy behind the proposed control strategy for the wind turbine coupled to an asynchronous doubly fed induction generator is general and can be easily extended to other WECS configurations.Index Terms-Aerodynamic conversion, blade pitch regulation, doubly fed induction generator (DFIG), drive-train torsional torque, linear quadratic Gaussian (LQG), modeling, wind energy conversion system (WECS).

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Gain scheduling control of variable speed WTG under widely varying turbulence loading

Muhando

Senjyu

Urasaki

et al. 2007

Renewable Energy

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Sensor-less maximum power point tracking control for wind generation system with squirrel cage induction generator

et al. 2009

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Disturbance rejection by dual pitch control and self-tuning regulator for wind turbine generator parametric uncertainty compensation

Muhando

Senjyu

Yona

et al. 2007

IET Control Theory Appl.

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