Mechanical impact of wind turbine frequency support strategies

New regulations require wind power plants to contribute to grid frequency control. Wind turbine droop control, inertia emulation and the use of a washout filter are compared in this paper in order to ascertain the influence of such methods on the mechanical components of the wind turbine. When wind...

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Hauptverfasser:	Aparicio, N., Conca de la Asuncion, C., Blasco-Gimenez, R., Ano-Villalba, S., Belenguer, E.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Control methods for electrical systems Emulation Frequency control Generators Load modeling Power systems Wind energy Wind power generation Wind turbines
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creator	Aparicio, N. Conca de la Asuncion, C. Blasco-Gimenez, R. Ano-Villalba, S. Belenguer, E.
description	New regulations require wind power plants to contribute to grid frequency control. Wind turbine droop control, inertia emulation and the use of a washout filter are compared in this paper in order to ascertain the influence of such methods on the mechanical components of the wind turbine. When wind generators operate below rated power, these methods use the stored kinetic energy to provide extra energy during a short period of time and hence enhance overall system frequency response. This paper includes the evaluation of the impact on the wind turbines of the aforementioned technologies, in a variety of scenarios, with a detailed model of the wind turbine. It is concluded that techniques that include a washout filter have similar performance to inertia emulation, but with without exciting lightly damped drive train modes.
doi_str_mv	10.1109/EPE.2013.6634650
format	Conference Proceeding
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Wind turbine droop control, inertia emulation and the use of a washout filter are compared in this paper in order to ascertain the influence of such methods on the mechanical components of the wind turbine. When wind generators operate below rated power, these methods use the stored kinetic energy to provide extra energy during a short period of time and hence enhance overall system frequency response. This paper includes the evaluation of the impact on the wind turbines of the aforementioned technologies, in a variety of scenarios, with a detailed model of the wind turbine. It is concluded that techniques that include a washout filter have similar performance to inertia emulation, but with without exciting lightly damped drive train modes.</abstract><pub>IEEE</pub><doi>10.1109/EPE.2013.6634650</doi><tpages>7</tpages></addata></record>
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subjects	Control methods for electrical systems Emulation Frequency control Generators Load modeling Power systems Wind energy Wind power generation Wind turbines
title	Mechanical impact of wind turbine frequency support strategies
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