Power Hardware in Loop Experimentation for Asymmetrical Fault Ride Through analysis of Grid Connected DFIG Wind Turbine

机译：通过并网双馈风力发电机组分析非对称故障的电力硬件回路试验

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The popularity of wind turbine generator (WTG) in the field of harnessing maximum renewable-based generation has promoted doubly-fed induction generator (DFIG) based WTG in the power sector. Nevertheless, DFIG-WTG is highly influenced by the grid disturbances which further affects its fault ride through capabilities. Majority research work is focused on the symmetrical fault analysis. However, the asymmetrical fault has more pernicious influences on the DFIG system. This paper compares both the symmetrical and asymmetrical fault effect on the DFIG-WTG and presents a clear distinction on their impact. Further, power hardware in loop (PHIL) investigation is carried out to support the theoretical analysis. The system considered here is a 2.2 kW rated DFIG-WTG hardware setup, is connected to the distribution network which is simulated in real time digital simulator (RTDS), via a power amplifier. The experimentation results imply that the asymmetrical fault has a fatal impact on the DFIG wind system. Henceforth, it requires to develop a cost-effective technique to improve its fault ride through.

机译：在利用最大的基于可再生能源的发电领域，风力涡轮发电机（WTG）的普及推动了电力行业中基于双馈感应发电机（DFIG）的WTG的发展。然而，DFIG-WTG受到电网干扰的极大影响，这进一步影响了其故障穿越能力。大多数研究工作集中在对称故障分析上。但是，非对称故障对DFIG系统的影响更大。本文比较了对称断层和非对称断层对DFIG-WTG的影响，并对它们的影响进行了明确区分。此外，进行了电源硬件环路（PHIL）研究以支持理论分析。此处考虑的系统是额定功率为2.2 kW的DFIG-WTG硬件设置，该系统连接到配电网络，该配电网络通过功率放大器在实时数字仿真器（RTDS）中进行仿真。实验结果表明，非对称断层对双馈风力发电系统具有致命的影响。今后，它需要开发一种经济有效的技术来改善其故障穿越能力。

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《IEEE International Conference on Power Electronics, Smart Grid and Renewable Energy》|2020年|1-6|共6页
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M V Gururaj; Rashmi Prasad; Narayana Prasad Padhy;
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Doubly fed induction generators; Rotors; Circuit faults; Hardware; DC motors; Stators; Wind turbines;

机译：双馈感应发电机;转子;电路故障;硬件;直流电动机;定子;风力发电机;

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1. Fault Ride-Through of a DFIG Wind Turbine Using a Dynamic Voltage Restorer During Symmetrical and Asymmetrical Grid Faults [J] . Wessels C., Gebhardt F., Fuchs F. W. Power Electronics, IEEE Transactions on . 2011,第3期

机译：对称和非对称电网故障期间使用动态电压恢复器的双馈风力发电机组的故障穿越
2. Ride-Through Capability of Grid-Connected Brushless Cascade DFIG Wind Turbines in Faulty Grid Conditions—A Comparative Study [J] . Gowaid I.A., Abdel-Khalik A.S., Massoud A.M., Sustainable Energy, IEEE Transactions on . 2013,第4期

机译：并网无刷叶栅双馈风力发电机在故障电网条件下的穿越能力-比较研究
3. Power hardware in the loop validation of fault ride through of VSC HVDC connected offshore wind power plants [J] . Ranjan SHARMA, Qiuwei WU, Seung Tae CHA, Journal of Modern Power Systems and Clean Energy . 2014,第6期

机译：VSC HVDC连接的海上风力发电厂故障穿越回路验证中的电源硬件
4. Integral terminal sliding mode control to provide fault ride-through capability to a grid connected wind turbine driven DFIG [C] . Morshed Mohammad Javad, Fekih Afef IEEE International Conference on Industrial Technology . 2015

机译：集成终端滑模控制，可为并网的风力涡轮机驱动的DFIG提供故障穿越功能
5. Novel sensorless generator control and grid fault ride-through strategies for variable-speed wind turbines and implementation on a new real-time simulation platform. [D] . Yang, Sheng. 2010

机译：适用于变速风力涡轮机的新型无传感器发电机控制和电网故障穿越策略，以及在新的实时仿真平台上的实现。
6. Differential Evolution Based IDWNN Controller for Fault Ride-Through of Grid-Connected Doubly Fed Induction Wind Generators [O] . N. Manonmani, V. Subbiah, L. Sivakumar 2015

机译：基于差分进化的IDWNN控制器用于并网双馈感应风力发电机的故障穿越
7. Fault Ride-Through of a DFIG Wind Turbine Using a Dynamic Voltage Restorer During Symmetrical and Asymmetrical Grid Faults [O] . Christian Wessels, Fabian Gebhardt, Friedrich Wilhelm Fuchs 2011

机译：在对称和不对称电网故障期间使用动态电压恢复器的DFIG风力涡轮机的故障驾驶

Power Hardware in Loop Experimentation for Asymmetrical Fault Ride Through analysis of Grid Connected DFIG Wind Turbine

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