Wavelet-Based Auto-Reclosing Technique for TCSC Compensated Lines Connecting Windfarm

2018 20th National Power Systems Conference (NPSC) Pub Date : 2018-12-01 DOI:10.1109/NPSC.2018.8771764

Biswajit Sahoo, S. Samantaray

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引用次数: 1

Abstract

Auto-reclosing improves system stability by fast restoration of the line in case of arcing faults. Conventional techniques using harmonics of voltage and current have disadvantages in series-compensation environments because of associated dynamics and control mechanisms. Again, the auto-reclosing process can be affected for systems having large scale windfarm which are very sensitive to grid disturbances. This research work proposes a technique for adaptive autoreclosing in case of phase-to-earth faults for TCSC compensated transmission line connected to windfarm. A technique is devised that utilizes the cumulative sum of wavelet energy (CSW) calculated using wavelet coefficients to derive an index (FTI) which distinguishes between permanent and transient faults. Another extinction index (AEI) is computed using CSW during the secondary arc to identify the arc extinction. This parameter is used to change the dead time set for the recloser and thus, reclosing during fault process is avoided. The performance evaluation of the proposed scheme on the real-time digital simulator (RTDS) platform with shunt compensation and neutral reactor, demonstrates its real-time applicability.

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基于小波的TCSC补偿线路连接风电场自动重合闸技术

自动重合闸通过在电弧故障时快速恢复线路，提高了系统的稳定性。由于相关的动力学和控制机制，使用电压和电流谐波的传统技术在串联补偿环境中存在缺点。同样，对于对电网干扰非常敏感的大型风电场系统，自动重合闸过程可能会受到影响。本研究提出了一种连接风电场的TCSC补偿输电线路在相地故障情况下的自适应自合闸技术。设计了一种利用小波系数计算的小波能量累加和来获得区分永久故障和暂态故障的指标的方法。在二次电弧过程中，利用CSW计算消光指数(AEI)来识别电弧消光。该参数用于改变重合闸的死死时间，从而避免故障过程中重合闸。在具有并联补偿和中性电抗器的实时数字仿真平台上对该方案进行了性能评估，验证了该方案的实时性。

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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2018 20th National Power Systems Conference (NPSC)

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