Impact of voltage dip induced delayed active power recovery on wind integrated power systems

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Title: Impact of voltage dip induced delayed active power recovery on wind integrated power systems
Authors: Z.H. Rather, D. Flynn
Rather, Zakir H.
Flynn, Damian
Permanent link: http://hdl.handle.net/10197/9042
Date: Apr-2017
Abstract: Installed wind power capacity is increasing rapidly in many power systems around the world, with challenging penetration targets set at national, and/or regional level. Wind power, particularly at higher penetration levels, introduces various grid issues, with frequency and voltage stability being particularly critical concerns. Voltage dip induced frequency stability following a network fault in such systems is one potential risk that has so far received limited attention by the research community. With state of the art modelling, the potential impact of a delayed active power recovery from wind generation following a network fault induced voltage dip is investigated. The subsequent voltage oscillations introduced by wind turbines, exacerbating frequency stability, are also examined. Analysis is carried out for a wide range of wind penetration levels and system scenarios, with the results demonstrated on the New England benchmark system.
Funding Details: Science Foundation Ireland
Type of material: Journal Article
Publisher: Elsevier
Copyright (published version): 2017 Elsevier
Keywords: Power system dynamics;Wind power generation;Wind generator modelling
DOI: 10.1016/j.conengprac.2017.01.003
Language: en
Status of Item: Peer reviewed
Appears in Collections:ERC Research Collection
Electrical and Electronic Engineering Research Collection

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