Spatial Weather, Socio-Economic and Political Risks in Probabilistic Load Forecasting

Monika Zimmermann, Florian Ziel
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Abstract

Accurate forecasts of the impact of spatial weather and pan-European socio-economic and political risks on hourly electricity demand for the mid-term horizon are crucial for strategic decision-making amidst the inherent uncertainty. Most importantly, these forecasts are essential for the operational management of power plants, ensuring supply security and grid stability, and in guiding energy trading and investment decisions. The primary challenge for this forecasting task lies in disentangling the multifaceted drivers of load, which include national deterministic (daily, weekly, annual, and holiday patterns) and national stochastic weather and autoregressive effects. Additionally, transnational stochastic socio-economic and political effects add further complexity, in particular, due to their non-stationarity. To address this challenge, we present an interpretable probabilistic mid-term forecasting model for the hourly load that captures, besides all deterministic effects, the various uncertainties in load. This model recognizes transnational dependencies across 24 European countries, with multivariate modeled socio-economic and political states and cross-country dependent forecasting. Built from interpretable Generalized Additive Models (GAMs), the model enables an analysis of the transmission of each incorporated effect to the hour-specific load. Our findings highlight the vulnerability of countries reliant on electric heating under extreme weather scenarios. This emphasizes the need for high-resolution forecasting of weather effects on pan-European electricity consumption especially in anticipation of widespread electric heating adoption.
概率负荷预测中的空间天气、社会经济和政治风险
准确预测空间天气以及泛欧社会经济和政治风险对中期每小时电力需求的影响,对于在固有的不确定性中做出战略决策至关重要。最重要的是,这些预测对发电厂的运营管理、确保供应安全和电网稳定以及指导能源交易和投资决策至关重要。这项预测任务的主要挑战在于将多方面的负荷驱动因素区分开来,其中包括全国性的确定性因素(日、周、年和节假日模式)以及全国性的随机天气和自回归效应。为了应对这一挑战,我们提出了一个可解释的每小时负荷概率中期预测模型,该模型除了捕捉所有确定性影响外,还捕捉了负荷中的各种不确定性。该模型由可解释的广义相加模型(GAMs)构建而成,能够分析每种综合效应对具体国家负荷的传导。我们的研究结果凸显了在极端天气情况下依赖电加热的国家的脆弱性。这强调了高分辨率预测天气对全欧洲电力消费影响的必要性,尤其是在电采暖被广泛采用的情况下。
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