Enhancement of Dynamic Modeling for LVRT Capability in DFIG-Based Wind Turbines

Doesoglu M. Kenan

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Enhancement of Dynamic Modeling for LVRT Capability in DFIG-Based Wind Turbines

机译：基于DFIG的风力涡轮机中LVRT能力动态建模的动态建模

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Low-voltage ride through (LVRT) is important for system compensation and reliable operation of the system during balance and unbalanced voltage dips. In this study, a new LVRT capability method was developed using active and passive compensator in doubly fed induction generator (DFIG)-based wind turbines. While the active compensator provides the control of the rotor-side converter and grid-side converters of DFIG, the passive compensator decreases the stator and rotor over currents and injects reactive power into the network to support the grid voltage DFIG. Besides, rotor electromotive force is developed to improve LVRT capability against not only symmetrical but also asymmetrical faults of DFIG. It was found that the system became stable in a short time and oscillations damped using active and passive compensator modeling.

机译：低压乘发通透（LVRT）对于系统补偿和系统在平衡和不平衡电压倾斜期间的系统补偿和可靠运行非常重要。在本研究中，使用双馈感应发电机（DFIG）的风力涡轮机中的主动和无源补偿器开发了一种新的LVRT能力方法。虽然有源补偿器提供了DFIG的转子侧转换器和栅极转换器的控制，但是无源补偿器将定子和转子在电流上减小并将无功功率注入网络以支持电网电压DFIG。此外，开发转子电动势以提高LVRT能力，不仅是对称的，而且是DFIG的不对称断层。发现系统在短时间内变得稳定，并且振荡使用主动和无源补偿器建模阻尼。

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来源
《Iranian Journal of Science and Technology, Transactions of Electrical Engineering》 |2020年第4期|1345-1356|共12页
作者
Doesoglu M. Kenan;
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作者单位

Duzce Univ Fac Technol Elect Elect Engn Dept TR-81620 Konuralp Duzce Turkey;

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原文格式 PDF
正文语种 eng
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关键词
LVRT; DFIG; Active compensator; Passive compensator;

机译：LVRT;DFIG;有源补偿器;被动补偿器;

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专利

1. Robust Active Disturbance Rejection Control for LVRT capability enhancement of DFIG-based wind turbines [J] . Beltran-Pulido Andres, Cortes-Romero John, Coral-Enriquez Horacio Control Engineering Practice . 2018,第AUGa期

机译：基于DFIG的风力发电机的LVRT功能增强的鲁棒主动干扰抑制控制
2. Enhancing the HVRT and LVRT Capabilities of DFIG-based Wind Turbine in an Islanded Microgrid [J] . A. Safaei, S. H. Hosseinian, H. Askarian Abyaneh Engineering Technology and Applied Science Research . 2017,第6期

机译：在孤岛微电网中增强基于DFIG的风力涡轮机的HVRT和LVRT功能
3. Enhancing LVRT Capability of DFIG-Based Wind Turbine Systems with SMES Series in the Rotor Side [J] . Xiao Zhou, Yuejin Tang, Jing Shi, International Journal of Rotating Machinery . 2017,第期

机译：在转子侧中SMES系列增强了基于DFIG的风力涡轮机系统的LVRT能力
4. Enhancement of LVRT Capability of DFIG-based Wind Turbines by Superconducting Fault Current Limiter [C] . Pouya Zolfi, Sajjad Tohidi, Mehdi Abapour Iranian Conference on Electrical Engineering . 2018

机译：通过超导故障限流器增强基于双馈风力发电机的LVRT能力
5. Determining Wind Turbine Drivetrain Test Bench Capability to Replicate Dynamic Loads: Evaluation Methods and Their Validation [D] . Giguere, Philippe 2019

机译：确定风力发电机组动力传动台测试台复制动态载荷的能力：评估方法及其验证
6. LVRT capability enhancement of DFIG based wind turbine with coordination control of dynamic voltage restorer and inductive fault current limiter [O] . Dongyin Zhang, Hanping Xu, Li Qiao, 2012

机译：动态电压恢复器和感应故障限流器的协调控制，增强了基于双馈风力发电机的LVRT功能
7. Enhancing the HVRT and LVRT Capabilities of DFIG-based Wind Turbine in an Islanded Microgrid [O] . A. Safaei, S. H. Hosseinian, H. Askarian Abyaneh 2017

机译：在岛状微电网中提高基于DFIG的风力涡轮机的HVRT和LVRT能力

Enhancement of Dynamic Modeling for LVRT Capability in DFIG-Based Wind Turbines

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