跨境能源储备协同优化配置的市场设计

I. Vokony, P. Sőrés, B. Nemeth, B. Hartmann
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引用次数: 0

摘要

为了实现其能源目标,欧盟(EU)需要通过初步改善其跨境电力互联来建立一个地域广阔的市场。匈牙利项目侧重于这一主题。一个基于电力进出口的大市场可以提高竞争水平,通过为客户创造替代路线来提高欧盟的电力供应安全,并将更多的可再生能源纳入能源市场。电力在会员国之间的流动应尽可能像目前在会员国内部流动一样容易,以便增加可持续性潜力和真正的竞争,并推动能源系统的经济效率。为此,促进区域跨境电力传输(FARCROSS)旨在通过连接能源价值链的主要利益相关者并展示集成硬件和软件解决方案来应对这一挑战,这些解决方案将有助于“解锁”跨境电力流动和区域合作的资源。该项目的目标是在从ATC向基于流量的机制过渡的同时,优化可用跨境储备采购能力的使用,同时实现能源互联储备和平衡能力,以实现储备市场耦合,并创造最先进的技术来实现市场耦合平台。
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Market Design for Cross-Border Co-Optimised Energy-Reserve Allocation
To achieve its energy goals, the European Union (EU) needs to establish a geographically large market by initially improving its cross-border electricity interconnections. The Hungarian project focuses on this topic. A geographically large market, based on imports and exports of electricity, could increase the level of competition, boost the EU’s security of electricity supply through creating alternative routes to the customers and integrate more renewables into energy markets. Electricity should, as far as possible, flow between Member States as easily as it currently flows within Member States, in order to increase sustainability potential and real competition, as well as to drive economic efficiency of the energy system. To this end, Facilitating Regional CROSS-border Electricity Transmission (FARCROSS) aims to address this challenge by connecting major stakeholders of the energy value chain and demonstrating integrated hardware and software solutions that will facilitate the “unlocking” of the resources for the cross-border electricity flows and regional cooperation. The targets of the project are to optimise the usage of the available cross-border capacity for reserve procurement while transitioning from ATC to Flow-based mechanism, to achieve simultaneous interconnector reservation for energy and balancing capacity to enable reserve market coupling and to create state-of-art technologies to materialise market coupling platforms.
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来源期刊
Renewable Energy and Power Quality Journal
Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology
CiteScore
0.70
自引率
0.00%
发文量
147
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