An Improved Analytical Method For Optimal Sizing And Placement Of Power Electronic Based Distributed Generation Considering Harmonic Limits

2019 IEEE PES/IAS PowerAfrica Pub Date : 2019-08-01 DOI:10.1109/PowerAfrica.2019.8928658

A. S. Abubakar, A. Olaniyan, Abdulwahab Ibrahim, S. H. Sulaiman

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引用次数: 5

Abstract

The progress in technology to integrate renewable energy sources to the grid and the concern for the environment has led to the proliferation of power electronic based distributed generation (PEB-DG) in the distribution system. The presence of PEB-DG in the distribution system offers numerous benefits such as the reduction in power loss, improvement of voltage profile and power quality. However, the increased penetration of PEB-DG may result in increased harmonics content which could exceed the IEEE 519-2014 standard for harmonic limits. This work presents an improved analytical algorithm for optimal sizing and placement of PEB-DG on the standard IEEE 69 with background harmonics. The active power loss in the network before the PEB- DG allocation was 244kW. The application of the proposed method obtained an optimal PEB-DG size of 1387 kW at bus 61 of the network. Therefore, the active power loss was reduced to 103 kW indicating a 57.8% reduction. There was also significant improvement in the bus voltage profile and the total harmonic voltage distortion of the network was within the acceptable limit.

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一种考虑谐波极限的电力电子分布式发电优化尺寸和布局的改进分析方法

随着可再生能源并网技术的进步和对环境的关注，电力电子分布式发电(PEB-DG)在配电系统中的应用日益广泛。PEB-DG在配电系统中的存在提供了许多好处，如减少功率损耗，改善电压分布和电能质量。然而，PEB-DG渗透的增加可能导致谐波含量增加，可能超过IEEE 519-2014标准的谐波限值。本文提出了一种改进的解析算法，用于在具有背景谐波的标准IEEE 69上优化PEB-DG的尺寸和位置。PEB- DG分配前的电网有功损耗为244kW。应用该方法获得了网络61总线上最佳PEB-DG尺寸为1387 kW。因此，有功功率损耗减少到103 kW，减少了57.8%。母线电压分布也有显著改善，电网总谐波电压畸变在可接受范围内。

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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2019 IEEE PES/IAS PowerAfrica

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