标准家庭负荷的近似有功功率分布

2016 International Conference on Probabilistic Methods Applied to Power Systems (PMAPS) Pub Date : 2016-10-01 DOI:10.1109/PMAPS.2016.7764082

Robert Brandalik, Dominik Waeresch, W. Wellssow

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引用次数: 1

摘要

在低压电网中，光伏发电系统的大量馈电会导致电压值和线路负荷的增加。虽然电压值的上升可以被限制，例如通过带有有载分接开关的配电变压器(dt)，但由于缺乏网络可观察性，网络运营商甚至无法检测到高线路负载。低压状态估计(SE)系统可以提供一种确定所需网络状态和线路负载的方法。测量的运行网络变量，例如光伏系统的电压值和功率值，可以用作SE的输入数据。然而，由于无法获得家庭的电力测量数据，因此必须大致确定家庭负荷。本文根据现场试验数据，给出了标准家庭负荷的近似有功功率分布。对于统计误差服从高斯分布的低压电网，它们是产生必要有功功率伪值(appv)的一种创新方法。尽管aapd很简单，但在当前计算中产生的错误是可以接受的。

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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Approximate active power distributions for standard household loads

The large feed-ins of photovoltaic (PV) systems in low voltage (LV) grids result in increasing voltage magnitudes and line loadings. While the rise of voltage magnitudes can be limited e.g. by distribution transformers (DTs) with on-load tap changers, high line loadings cannot even be detected by network operators due to a lack of network observability. LV state estimation (SE) systems can provide a way to determine the required network states and line loadings. Measured operational network variables, e.g. voltage magnitudes and power values of PV systems, can be used as input data for the SE. Nevertheless, power measurements of households are not available and thus the household loads have to be approximately determined. This paper presents approximate active power distributions (AAPDs) for standard household loads, derived on the basis of field-trial data. They are an innovative way for the necessary generation of active power pseudo-values (APPVs) for LV SE with statistical errors following a Gaussian distribution. Despite the simplicity of the AAPDs the errors made within the current calculation is acceptable.

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2016 International Conference on Probabilistic Methods Applied to Power Systems (PMAPS)

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