综合能源系统中的近海市场设计:面向 2050 年的北海地区案例研究

Juan Gea-Bermúdez, Lena Kitzing, and Dogan Keles
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摘要

摘要:海上电网由多个相互影响的输电和发电装置组成,连接多个国家的海岸,预计将在具有成本效益的能源转型中发挥重要作用。这种扩展到新物理空间的大规模新基础设施需要新的海上能源市场设计。今天有关这些设计的决策将影响未来离岸电网的整体价值潜力。本文研究了不同的可能市场配置及其对运营成本、所需拥堵管理以及价格和排放的影响。我们采用了先进的综合能源系统优化技术,并将其应用于 2050 年前北海地区的一个研究案例。我们的分析证实了众所周知的节点定价概念,即最理想的市场配置。与其他市场设计相比,节点定价最大限度地降低了成本(低 0.2-1.6 亿欧元/年)和二氧化碳排放量(低 0.6-5.6 百万吨/年)。不同市场设计的性能在很大程度上受到离岸电网整体结构和能源系统其他部分的影响。例如,灵活性选项有助于缩小不同设计之间的差距。但结果是稳健的:离岸电网中的节点定价是具有成本效益的能源过渡到碳中和的最佳市场配置。
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Offshore Market Design in Integrated Energy systems: A Case Study on the North Sea Region towards 2050
Abstract: Offshore grids, with multiple interacting transmission and generation units connecting to the shores of several countries, are expected to have an important role in the cost-effective energy transition. Such massive new infrastructure expanding into a new physical space will require new offshore energy market designs. Decisions on these designs today will influence the overall value potential of offshore grids in the future. This paper investigates different possible market configurations and their impacts on operational costs and required congestion management, as well as prices and emissions. We use advanced integrated energy system optimisation, applied to a study case on the North Sea region towards 2050. Our analysis confirms the well-known concept of nodal pricing as the most preferable market configuration. Nodal pricing minimises costs (0.2-1.6 b€/year lower) and CO2 emissions (0.6-5.6 Mton/year lower) with respect to alternative market designs investigated. The performance of the different market designs is highly influenced by the overall architecture of the offshore grid, and the rest of the energy system. E.g., flexibility options help reducing the spread between the designs. But the results are robust: nodal pricing in offshore grids emerges as the preferable market configuration for a cost-effective energy transition to carbon neutrality.
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