基于智能计量净需求数据的米后太阳能发电和负荷的区域尺度行为预测

IF 2.1 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Ayumu Miyasawa, Shogo Akira, Yu Fujimoto, Yasuhiro Hayashi
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引用次数: 2

摘要

当地能源自给自足,即控制电力供应和需求,使分布式能源(DERs)产生的电力根据电力供需预测在当地消耗,减轻了电力系统的负担,并有助于智能城市中分布式能源的有效利用。然而,广泛使用的智能电表无法测量电表背后的纯需求和产消者的发电量。无需额外计量的纯需求和发电量预测有助于智能城市的先进供需控制,包括需求响应。本研究提出了一种通过关注从智能电表观察到的净需求分布信息来预测表后纯需求和发电的时空行为的方法;该方法首先利用基于持续回归模型和非参数回归模型的组合预测器预测净需求的时空分布,然后根据智能电表数据的区域尺度行为提取邻近纯用户的需求预测结果,分别估计表后纯需求和发电量。模拟结果表明,该方法的准确度与直接测量纯需求和发电量的预测相当,而无需安装额外的电表。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Forecast of area-scale behaviours of behind-the-metre solar power and load based on smart-metering net demand data

Forecast of area-scale behaviours of behind-the-metre solar power and load based on smart-metering net demand data

Local energy self-sufficiency, in which the supply and demand of electricity are controlled such that the generated power from distributed energy resources (DERs) is consumed locally based on a power supply-and-demand forecast, mitigates the burden on the power system and contributes to the efficient use of DERs in smart cities. However, widely available smart metres cannot measure behind-the-metre pure demand and generation from prosumers. Pure demand and generation forecasts without additional metering contribute to advanced supply-and-demand control in smart cities, including demand response. This study proposes a method of forecasting spatio-temporal behaviours of behind-the-metre pure demand and generation by focussing on the information of net demand distribution observable from the smart metres; the proposed method initially predicts the spatio-temporal net demand distribution with a combined forecaster based on the persistence and non-parametric regression models, and then separately estimates the behind-the-metre pure demand and generation by using demand forecast result of neighbouring pure-consumers extracted by considering the area-scale behaviours of the smart metering data. The simulation results demonstrate that the proposed method provides accuracy comparable to forecasts conducted by directly measuring pure demand and generation, without requiring the installation of additional metres.

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来源期刊
IET Smart Cities
IET Smart Cities Social Sciences-Urban Studies
CiteScore
7.70
自引率
3.20%
发文量
25
审稿时长
21 weeks
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