Electromechanical Analysis of DFIG under Single Phasing Fault and Air-Gap Eccentricity Fault

2021 Innovations in Power and Advanced Computing Technologies (i-PACT) Pub Date : 2021-11-27 DOI:10.1109/i-PACT52855.2021.9696479

Patel Darsh Devangbhai, Akshat H. Mutta, Arnav V. Jain, Tanmay Motharkar, R. R. Singh

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Abstract

The wind energy industries adapt doubly-fed induction generators (DFIGs) for their dynamic performance and cost-effectiveness. Despite the relative robustness of this machine, it undergoes several faults that decrease its performance. In this paper, an electromechanical analysis is performed on the DFIG, operating under air-gap eccentricity fault and rotor single phasing fault using Ansys Maxwell software. The eccentricity fault and single phasing fault are formed in Ansys Maxwell at distinct levels and phases. Under these fault conditions, the electrical and mechanical characteristics of the generator, such as torque, rpm, stator currents, and flux, are studied and compared to the stable generator The loss effects of these abnormalities on various generator elements, such as the core and windings, are analyzed and reported. These analyses will help us to examine the dynamic behavior of DFIG under rotor single phasing and air-gap eccentricity faults. This analysis will help the designers to build a robust system.

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单相故障和气隙偏心故障下DFIG的机电分析

风能行业采用双馈感应发电机(DFIGs)，以满足其动态性能和成本效益。尽管这台机器相对坚固，但它也出现了一些降低性能的故障。本文利用Ansys Maxwell软件对DFIG在气隙偏心故障和转子单相故障下的运行情况进行了机电分析。在Ansys Maxwell中，偏心断层和单相断层在不同的水平和阶段形成。在这些故障条件下，研究了发电机的电气和机械特性，如转矩、转数、定子电流和磁通，并与稳定的发电机进行了比较。分析和报告了这些异常对各种发电机元件(如铁芯和绕组)的损耗影响。这些分析将有助于我们研究转子单相和气隙偏心故障下DFIG的动态特性。这种分析将帮助设计者构建一个健壮的系统。

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2021 Innovations in Power and Advanced Computing Technologies (i-PACT)

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