Optimizing the Generation and Transmission Capacity of Offshore Wind Parks under Weather Uncertainty

arXiv - QuantFin - Economics Pub Date : 2023-11-29 DOI:arxiv-2311.17981

David Kröger, Jan Peper, Nils Offermann, Christian Rehtanz

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Abstract

Offshore wind power in the North Sea is considered a main pillar in Europe's future energy system. A key challenge lies in determining the optimal spatial capacity allocation of offshore wind parks in combination with the dimensioning and layout of the connecting high-voltage direct current grid infrastructure. To determine economically cost optimal configurations, we apply an integrated capacity and transmission expansion problem within a pan-European electricity market and transmission grid model with a high spatial and temporal granularity. By conducting scenario analysis for the year 2030 with a gradually increasing CO2 price, possible offshore expansion paths are derived and presented. Special emphasis is laid on the effects of weather uncertainty by incorporating data from 21 historical weather years in the analysis. Two key findings are (i) an expansion in addition to the existing offshore wind capacity of 0 GW (136 EUR/tCO2), 12 GW (159 EUR/tCO2) and 30 GW (186 EUR/tCO2) dependent on the underlying CO2 price. (ii) A strong sensitivity of the results towards the underlying weather data highlighting the importance of incorporating multiple weather years.

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天气不确定条件下海上风电场发电和输电能力优化研究

北海的海上风电被认为是欧洲未来能源系统的主要支柱。一个关键的挑战在于确定海上风电场的最佳空间容量分配，并结合连接的高压直流电网基础设施的尺寸和布局。为了确定经济上成本最优的配置，我们在一个具有高空间和时间粒度的泛欧电力市场和输电网模型中应用了一个综合容量和传输扩展问题。通过对二氧化碳价格逐渐上升的2030年进行情景分析，推导并提出了可能的海上扩张路径。通过在分析中纳入21个历史天气年的数据，特别强调了天气不确定性的影响。两个关键发现是:(i)根据潜在的二氧化碳价格，在现有的0吉瓦(136欧元/吨二氧化碳)、12吉瓦(159欧元/吨二氧化碳)和30吉瓦(186欧元/吨二氧化碳)海上风电容量的基础上进行扩张。(ii)结果对基础天气资料的敏感度较强，突出了结合多个天气年的重要性。

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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arXiv - QuantFin - Economics

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