Fault Analysis using SFCL in the Convertor System at the Load Line

SMART MOVES JOURNAL IJOSCIENCE Pub Date : 2021-08-28 DOI:10.24113/ijoscience.v7i8.405

S. Baghel, Sanjeev Jarring

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Abstract

Among many renewable energy sources, solar energy is considered one of the most promising resources for large-scale electricity generation. Here propose resistive SFCL if a fault occurs in a simple low voltage (LV) network. To assess the impact of SFCL in the power system under study, the space-time approach is used to evaluate the short-circuit current in force and spurious control strategies are suggested to achieve the goal. The results complement the feasibility of the proposed A-ACO-based rationalization control for transmission activity according to the limiting circuit and fault current analyzer. The second model of the bastard chassis concludes that the chassis with residual current limiting circuit and analyzer reduces the expansion of the residual current and prevents the voltage from dropping to zero, that no artificial and temporal innovation is used as before. Intelligence-based computer procedures further shorten the working time, which also makes the frame more efficient, as the voltage is restored to its typical value in a short time if the test frame is played for 1 second in a MATLAB climate / SIMULINK. The time taken by the ACO algorithm to restore normal operating conditions in the line was 0.197 seconds, 0.206 seconds and 0.27 seconds for LLLG, LLG and LG errors, respectively.

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载重线变流器系统的SFCL故障分析

在众多可再生能源中，太阳能被认为是大规模发电最有前途的资源之一。本文提出了在简单低压(LV)网络中发生故障时的电阻式SFCL。为了评估SFCL对所研究电力系统的影响，采用空时方法对短路有效电流进行评估，并提出了实现目标的虚差控制策略。结果表明，根据限流电路和故障电流分析仪提出的基于a - aco的输电活度合理化控制是可行的。杂种底盘的第二种模型得出结论:带有限流电路和分析仪的底盘减少了剩余电流的膨胀，防止了电压降至零，没有像以前那样进行人工和时间的创新。基于智能的计算机程序进一步缩短了工作时间，这也使帧更高效，因为如果在MATLAB气候/ SIMULINK中播放1秒测试帧，电压将在短时间内恢复到其典型值。对于LLG、LLG和LG误差，蚁群算法恢复线路正常运行状态的时间分别为0.197秒、0.206秒和0.27秒。

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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SMART MOVES JOURNAL IJOSCIENCE

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