Transient performance improvement of DFIG-based wind farm by H-bridge fault current limiter

Applied Research Pub Date : 2023-12-15 DOI:10.1002/appl.202300078

Md. Arafat Hossain, Jakir Hasan, Arghya Das Upadhay, Md. Yah-Ya Ul Haque, Md. Rashidul Islam

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Abstract

Despite the unique advantages a doubly fed induction generator (DFIG) offers to the grid-integrated renewable energy systems, they have a limitation of being susceptible to grid fault as their stator windings are directly connected to the grid. The fault current limiters (FCLs) provide a sustainable solution by enhancing the fault ride-through capability and thus it improve the transient performance of a DFIG. In this work, a multi-inductor-based H-bridge fault current limiter (HBFCL) is proposed to augment the transient performance of a DFIG. The operational efficacy of the HBFCL is evaluated through the administration of both symmetrical and asymmetrical fault scenarios. The effectiveness of the HBFCL is further investigated by comparing the performance of the HBFCL with that of the bridge-type series dynamic braking resistor (BSDBR). Both the graphical and numerical interpretations of the simulation result assert that the HBFCL improves the transient performance of a DFIG-based wind farm and outweighs the performance of the BSDBR in all aspects.

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利用 H 桥故障电流限制器改善基于 DFIG 的风电场的瞬态性能

尽管双馈感应发电机（DFIG）为并网可再生能源系统提供了独特的优势，但由于其定子绕组直接与电网相连，因此存在易受电网故障影响的局限性。故障限流器（FCL）通过增强故障穿越（FRT）能力提供了一种可持续的解决方案，从而改善了双馈发电机的瞬态性能。在这项工作中，提出了一种基于多电感的 H 桥故障限流器，以增强双馈发电机的瞬态性能。通过对对称和非对称故障场景的管理，对 HBFCL 的运行功效进行了评估。通过比较 HBFCL 与桥式串联动态制动电阻器 (BSDBR) 的性能，进一步研究了 HBFCL 的有效性。仿真结果的图形和数值解释都表明，HBFCL 改善了基于 DFIG 的 WF 的瞬态性能，并在各方面都优于 BSDBR 的性能。本文受版权保护，保留所有权利。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Applied Research

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0.70

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