Short-term interval prediction strategy of photovoltaic power based on meteorological reconstruction with spatiotemporal correlation and multi-factor interval constraints

IF 9 1区 工程技术 Q1 ENERGY & FUELS
Mao Yang, Yue Jiang, Wei Zhang, Yi Li, Xin Su
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引用次数: 0

Abstract

Short-term photovoltaic (PV) power interval prediction provides a basis for day-ahead power dispatching and generation planning. However, the current gridded numerical weather prediction (NWP) has poor matching in specific PV stations, and the lack of consideration of PV power mutation characteristics and historical correlation in interval prediction, which further limit the improvement of PV power prediction accuracy. In this regard, this paper proposes a novel short-term interval prediction strategy for PV power. Based on the second-order extended hidden Markov model (HMM), the key meteorological elements of the PV station with poor matching are reconstructed. In the interval prediction, the trend mutation and historical correlation characteristics of the PV sequence are fully considered, and a PV power interval prediction method that combines three factors such as trend change, time correlation and numerical mutation is proposed. The proposed method is applied to a PV station in Jilin, China. The results show that compared with other methods, the RMSE of the proposed method is reduced by 5.3 % on average, and the CWC is reduced by at least 2.1 %, which verifies the effectiveness of the proposed method.
基于时空相关气象重构和多因素区间约束的光伏发电短期区间预测策略
短期光伏(PV)功率区间预测为日前电力调度和发电规划提供了依据。然而,目前的网格化数值天气预报(NWP)对特定光伏电站的匹配性较差,且在区间预测中缺乏对光伏功率突变特性和历史相关性的考虑,这进一步限制了光伏功率预测精度的提高。为此,本文提出了一种新颖的光伏功率短期区间预测策略。基于二阶扩展隐马尔可夫模型(HMM),对匹配度较差的光伏电站的关键气象要素进行重构。在区间预测中,充分考虑了光伏序列的趋势突变和历史相关性特征,提出了一种结合趋势变化、时间相关性和数值突变三个因素的光伏功率区间预测方法。将所提出的方法应用于中国吉林的一个光伏电站。结果表明,与其他方法相比,所提方法的 RMSE 平均降低了 5.3%,CWC 至少降低了 2.1%,验证了所提方法的有效性。
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来源期刊
Renewable Energy
Renewable Energy 工程技术-能源与燃料
CiteScore
18.40
自引率
9.20%
发文量
1955
审稿时长
6.6 months
期刊介绍: Renewable Energy journal is dedicated to advancing knowledge and disseminating insights on various topics and technologies within renewable energy systems and components. Our mission is to support researchers, engineers, economists, manufacturers, NGOs, associations, and societies in staying updated on new developments in their respective fields and applying alternative energy solutions to current practices. As an international, multidisciplinary journal in renewable energy engineering and research, we strive to be a premier peer-reviewed platform and a trusted source of original research and reviews in the field of renewable energy. Join us in our endeavor to drive innovation and progress in sustainable energy solutions.
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