An adaptive relaying for the protection of a wind farm interconnected with distribution networks

Jang, Sung-Il; Choi, Jae Ho; Kim, J.W.; Choi, DongHee

doi:10.1109/tdc.2003.1335238

Cited by 31 publications

(13 citation statements)

References 4 publications

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“…Thus, the setting of wind farm collector network instantaneous protection should not only consider its short circuit current characteristics, but also require installing directional element if necessary [28,29]. An adaptive protection method based on short circuit current characteristics is presented in [30,31], which counters for different wind power output, short circuit current level and wind farm types. However, the presented researches have little consideration on LVRT control strategy for wind farm protection configuration and coordination.…”

Section: Research Status Of Wind Farm Protection Configurationmentioning

confidence: 99%

Research on the protection coordination of permanent magnet synchronous generator based wind farms with low voltage ride through capability

Tao

Chen

et al. 2017

Prot Control Mod Power Syst

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To coordinate the protection of PMSG (permanent magnet synchronous generator), collector circuits and outgoing lines, a comprehensive and improved protection method of PMSG based wind farms with LVRT (low voltage ride through) capability is proposed. The proposed method includes adding a short time delay to the collector network current protection zone I and a directional protective relaying to the collector network protection, installing grounding transformers and zero sequence current protection, and generator low-voltage protection action improvement. A LVRT scheme consisting of variable resistance dumping circuit, grid side dynamic reactive power control and reactive power compensation control is proposed. The fault characteristics of PMSG based wind farms are analyzed, and a PMSG based wind farm in Dabancheng, Xinjiang, is used as an example to analyze typical wind farm protection configuration, the setting values considering LVRT requirements, and the coordination problems. Finally, an improved wind farm protection coordination methodology is proposed and its validity is verified by simulation.

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Section: Research Status Of Wind Farm Protection Configurationmentioning

confidence: 99%

Research on the protection coordination of permanent magnet synchronous generator based wind farms with low voltage ride through capability

Tao

Chen

et al. 2017

Prot Control Mod Power Syst

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“…Training function is ''scaled conjugate gradient back propagation''. 2 The diagram of 3rd neural network is shown in Fig. 9.…”

Section: Tablementioning

confidence: 99%

“…Obviously, the transmission system that connects such farms will be exposed to such a continuously changing environment. In most papers, topics related to protection of wind farms have discussed about over-current relay setting in distribution systems and adaptive schemes are proposed for distribution systems connected with wind generators [2,3]. The protection of transmission line connected to wind farms is discussed in [4].…”

Section: Introductionmentioning

confidence: 99%

A novel method for adaptive distance protection of transmission line connected to wind farms

Sadeghi

2012

International Journal of Electrical Power & Energy Systems

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“…They can successfully protect a wind turbine when an internal fault occurs. The proper delayed operation time of an over-current relay that is used in neighboring distribution feeders that are connected to a wind farm interconnected has been studied [2] by undertaking a case study. In that study, the simulation considered the various fault conditions and the power output of the wind farm demonstrated that the setting of the optimal operating time of the over-current relay could improve the operational reliability and stability of the wind farm.…”

Section: Introductionmentioning

confidence: 99%

Adaptive Setting and Simulation of Distance Protection Relay in a Long Transmission System Connected to an Offshore Wind Farm

Wu¹,

Lin²,

Lee³

et al. 2016

JOCET

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Abstract-Offshore wind power has become the focus of the world's renewable energy development. In Taiwan, several demonstration offshore wind turbines will be scheduled to be established by 2015, and more than 300MW capacity of offshore wind farm to be installed by 2020. As the penetration level of wind energy increases, more reliable protection systems for offshore wind farms are required. The wind farm protection system is usually divided into different protection zones including the wind farm area, wind farm collection system, wind farm interconnection system and the utility area. Different protective zones have different protection schemes and relay settings. This project has proposed an adaptive distance relay that protects submarine cables between an offshore wind farm and an AC grid. The double-circuit submarine cables that connect offshore wind farm in Penghu and Taiwan grid will be utilized as an example. First, the apparent impedance of the relay is mathematically derived using a detailed equivalent circuit model, and the characteristic trip boundaries of the relay in various scenarios are obtained. The nonlinear characteristics of the trip boundaries that are used in a typical distance relay with four protection zones will be discussed. Furthermore, the effects of the uncontrollable factors on the performance of a distance relay have been considered into the simulations. These system disturbances include wind speed variation, system short circuit faults, or system component failures. These case studies have been presented using the simulation package to evaluate the feasibility of the distance relay setting that is developed in this project.Index Terms-Offshore wind power, protection system, distance relay.

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An adaptive relaying for the protection of a wind farm interconnected with distribution networks

Cited by 31 publications

References 4 publications

Research on the protection coordination of permanent magnet synchronous generator based wind farms with low voltage ride through capability

Research on the protection coordination of permanent magnet synchronous generator based wind farms with low voltage ride through capability

A novel method for adaptive distance protection of transmission line connected to wind farms

Adaptive Setting and Simulation of Distance Protection Relay in a Long Transmission System Connected to an Offshore Wind Farm

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