1. Comprehensive fault ride-through scheme for doubly-fed induction generators
- Author
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Liangzhong Yao, Fan Cheng, Chunxia Wei, Yan Li, and Lijun Xie
- Subjects
Computer science ,Stator ,wind farm ,wind power plants ,wind energy penetration ,rotor crowbar scheme ,Energy Engineering and Power Technology ,voltage dips ,Fault (power engineering) ,stators ,law.invention ,Control theory ,law ,voltage disturbance scenarios ,wind turbines ,hardware protection devices ,power generation faults ,Crowbar ,stator series impedance scheme ,Rotor (electric) ,large-grid-voltage drop situations ,Induction generator ,General Engineering ,continuous operation ,uninterrupted operation ,power grids ,induction generator FRT issues ,Overcurrent ,power transmission faults ,rotors ,Electric power transmission ,comprehensive FRT scheme ,lcsh:TA1-2040 ,auxiliary hardware circuit ,FRT ability ,asynchronous generators ,comprehensive fault ride-through scheme ,terminal voltage ,lcsh:Engineering (General). Civil engineering (General) ,electricity transmission grids ,Software ,fault situation ,Voltage ,voltage recovery - Abstract
With the growth of wind energy penetration in electricity transmission grids, fault ride-through (FRT) ability is required in order to maintain the uninterrupted operation of wind farm in voltage disturbance scenarios. For widespread used doubly-fed induction generator FRT issues, an auxiliary hardware circuit is adopted in large-grid-voltage drop situations. Among all hardware protection devices, the rotor crowbar scheme can suppress rotor overcurrent immediately, while the stator series impedance scheme has the advantage of increasing voltage during voltage dips. A comprehensive FRT scheme based on series impedance and rotor crowbar is proposed. Also, the simulation results show that the proposed method can keep the continuous operation of wind farm during fault situation and recovery, also suppress the overcurrent during voltage recovery and improve the terminal voltage.
- Published
- 2019
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