S.W.H. de Haan scite author profile

Abstract-The increasing penetration of variable-speed wind turbines in the electricity grid will result in a reduction of the number of connected conventional power plants. This will require changes in the way the grid frequency is controlled. In this letter, a method is proposed to let variable-speed wind turbines emulate inertia and support primary frequency control. The required power is obtained from the kinetic energy stored in the rotating mass of the turbine blades.

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Ridethrough of Wind Turbines with Doubly-Fed Induction Generator During a Voltage Dip

Morren

Haan

2005

IEEE Trans. On Energy Conversion

764

318

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Abstract-In this paper, a solution is described that makes it possible for wind turbines using doubly-fed induction generators to stay connected to the grid during grid faults. The key of the solution is to limit the high current in the rotor in order to protect the converter and to provide a bypass for this current via a set of resistors that are connected to the rotor windings. With these resistors, it is possible to ride through grid faults without disconnecting the turbine from the grid. Because the generator and converter stay connected, the synchronism of operation remains established during and after the fault and normal operation can be continued immediately after the fault has been cleared. An additional feature is that reactive power can be supplied to the grid during long dips in order to facilitate voltage restoration. A control strategy has been developed that takes care of the transition back to normal operation. Without special control action, large transients would occur.

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Inertial response of variable speed wind turbines

Morren

Pierik

Haan

2006

Electric Power Systems Research

413

236

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General Model for Representing Variable-Speed Wind Turbines in Power System Dynamics Simulations

Slootweg

Haan

Polinder

et al. 2002

IEEE Power Eng. Rev.

185

208

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Abstract-A tendency to erect ever more wind turbines can be observed in order to reduce the environmental consequences of electric power generation. As a result of this, in the near future, wind turbines may start to influence the behavior of electric power systems by interacting with conventional generation and loads. Therefore, wind turbine models that can be integrated into power system simulation software are needed.In this contribution, a model that can be used to represent all types of variable speed wind turbines in power system dynamics simulations is presented. First, the modeling approach is commented upon and models of the subsystems of which a variable speed wind turbine consists are discussed. Then, some results obtained after incorporation of the model in PSS/E, a widely used power system dynamics simulation software package, are presented and compared with measurements.

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General model for representing variable speed wind turbines in power system dynamics simulations

Slootweg

Haan

Polinder

et al. 2003

IEEE Trans. Power Syst.

829

195

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S.W.H. de Haan

Wind Turbines Emulating Inertia and Supporting Primary Frequency Control

Ridethrough of Wind Turbines with Doubly-Fed Induction Generator During a Voltage Dip

Inertial response of variable speed wind turbines

General Model for Representing Variable-Speed Wind Turbines in Power System Dynamics Simulations

General model for representing variable speed wind turbines in power system dynamics simulations

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