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Fault Ride-Through Capability of Full-Power Converter Wind Turbine 被引量:1
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作者 A.S. Makinen O. Raipala K. Maki S. Repo H. Tuusa 《Journal of Energy and Power Engineering》 2010年第10期29-45,共17页
In order to ensure power system stability, modern wind turbines are required to be able to endure deep voltage dips. The specifications that determine the voltage dip versus time are called fault r/de-through (FRT) ... In order to ensure power system stability, modern wind turbines are required to be able to endure deep voltage dips. The specifications that determine the voltage dip versus time are called fault r/de-through (FRT) requirements. The purpose of this paper is not only to examine the FRT behavior of a full-power converter wind turbine but also to combine the power system viewpoint to the studies. It is not enough for the turbine to be FRT capable; the loss of mains (LOM) protection of the turbine must also be set to allow the FRT. Enabling FRT, however, means that the LOM protection settings must be loosen, which may sometimes pose a safety hazard. This article introduces unique real-time simulation environment and proposes an FRT method for a wind turbine that also takes the operation of LOM protection relay into account. Simulations are carried out using the simulation environment and results show that wind turbine is able to ride-through a symmetrical power system fault. 展开更多
关键词 Wind turbine (WT) RTDS DSPACE fault ride-through (FRT) loss of mains (LOM) relay generator side converter(GSC) network side converter (NSC).
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Influence of DFIG Wind Turbine Protection and Control during Voltage Dip on Circuit Breaker Operation
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作者 Anssi Salomo Makinen Ontrei Raipala Sami Repo Heikki Tuusa 《Journal of Energy and Power Engineering》 2013年第1期126-138,共13页
This paper analyzes a DFIG (doubly fed induction generator) WT (wind turbine) fault current after a symmetrical network voltage dip. The goal is to identify the factors determining how fast the first zero crossing... This paper analyzes a DFIG (doubly fed induction generator) WT (wind turbine) fault current after a symmetrical network voltage dip. The goal is to identify the factors determining how fast the first zero crossings of the fault current occur. This is an important subject because the ftmdamental property of the CB (circuit breaker) is that it breaks the current when the current is very near zero. The study was conducted using a hardware-in-the-loop test environment constructed using two real time simulators (dSPACE and RTDS) and a commercial protection relay. It is found that the reactive current injection during a voltage dip demanded by the grid codes enhances the operation of the WT protection because the zero crossings of the currents through CB are attained earlier. In addition, the size of the crowbar resistance has a significant influence on the zero crossings. 展开更多
关键词 DFIG reactive current circuit breaker loss of mains relay protection.
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