Modelling the Evolution of Wind and Solar Power Infeed Forecasts

UNSW: Centre for Energy & Environmental Markets (Topic) Pub Date : 2020-05-14 DOI:10.2139/ssrn.3600775

Wei Li, Florentina Paraschiv

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引用次数: 7

Abstract

Abstract With the increasing integration of wind and photovoltaic power in the whole European power system, there is a longing for detecting how to trade energy in the ever-changing intraday market from electric power industries. Intraday trading becomes even more relevant in the wake of the European Cross-Border Intraday (XBID) project, which aims at integrating electricity trading across Europe. Therefore, optimal trading strategies to address forecast fluctuations in renewables output are growingly required to be designed. In this study, we model, simulate and predict the evolution of wind and PV infeed forecasting errors over eight days preceding the start of a given quarter-hourly delivery period and updated in 15-min steps. We test comparatively the performance of several stochastic and probabilistic models, and recommend their complementary use, depending on the frequency in which forecast values are adjusted. Since ex-ante updated forecasting errors of renewables infeed are usually not available to researchers, simulations based on our proposed models break the ground for further applications to intraday pricing and optimization.

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风能和太阳能的演化模型输入预测

随着风电和光伏发电在整个欧洲电力系统中的整合程度越来越高，电力行业对如何在瞬息万变的日内市场中进行能源交易产生了渴望。在欧洲跨境即日交易(XBID)项目之后，即日交易变得更加重要，该项目旨在整合整个欧洲的电力交易。因此，越来越需要设计最优交易策略来应对可再生能源产量的预测波动。在本研究中，我们建立模型，模拟和预测风电和光伏输入预测误差在给定的四分之一小时交付周期开始前8天内的演变，并以15分钟的步骤更新。我们比较测试了几种随机和概率模型的性能，并根据预测值调整的频率推荐它们的互补使用。由于研究人员通常无法获得可再生能源输入的事前更新预测误差，因此基于我们提出的模型的模拟为进一步应用于日内定价和优化奠定了基础。

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UNSW: Centre for Energy & Environmental Markets (Topic)

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