Harmonic Allocation Allowing for Uncertainty of Distributed Generation in MV/LV Power Systems

2020 19th International Conference on Harmonics and Quality of Power (ICHQP) Pub Date : 2020-07-01 DOI:10.1109/ICHQP46026.2020.9177895

J. David, V. Gosbell, D. Robinson, S. Perera, S. Elphick

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引用次数: 1

Abstract

A key component to management of harmonic voltage levels in MV and LV distribution systems is the allocation of harmonic emissions to MV and LV customers. The principals of harmonic emission allocations outlined in IEC Technical Report 61000-3-6 are relatively straight forward to apply when both the capacity of the network and the extent of all future load connections are known. However, allocations are made more complex when distributed generation, typically power electronic based, are added to the mix of customer connections. This added complexity is due to distributed generation potentially impacting the hosting capacity of the network, i.e. enabling more customer connections, and the uncertainty for network planners in quantifying the likelihood of future distributed generation connections, given the prolific growth of renewables. This paper introduces a tapered probabilistic approach for network planners to undertake harmonic emission allocations for MV and LV networks which are likely to host significant levels of renewable based distribution generation. The method is demonstrated using a simplified network model.

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考虑分布式发电不确定性的中低压电力系统谐波分配

管理中低压配电系统谐波电压水平的一个关键组成部分是分配给中低压用户的谐波排放。IEC技术报告61000-3-6中概述的谐波发射分配原则在网络容量和所有未来负载连接的范围都已知的情况下相对直接地适用。然而，当分布式发电(通常是基于电力电子)被添加到客户连接的组合中时，分配变得更加复杂。这种增加的复杂性是由于分布式发电可能会影响网络的承载能力，即实现更多的客户连接，以及考虑到可再生能源的快速增长，网络规划者在量化未来分布式发电连接的可能性时存在不确定性。本文介绍了一种锥形概率方法，用于网络规划者对中压和低压网络进行谐波排放分配，这些网络可能承载大量基于可再生能源的配电发电。用一个简化的网络模型对该方法进行了验证。

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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2020 19th International Conference on Harmonics and Quality of Power (ICHQP)

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