Towards a pan-European energy balancing market: Exercise on coupling the United Kingdom and Continental Europe

11th International Conference on the European Energy Market (EEM14) Pub Date : 2014-05-28 DOI:10.1109/EEM.2014.6861278

C. Concha, J. D. de Haan, A. Virag, M. Gibescu, W. Kling

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引用次数: 6

Abstract

Increasing levels of wind power generation in the coming years will displace conventional generation, impacting the need for balancing reserves. The upcoming integration of pan-European balancing markets seeks to increase collaboration between areas for optimal provision of services. The challenge of increased variability due to wind and other renewables could be tackled by the exchange of balancing services among regional groups within the larger interconnected system. In this work, load-frequency control models of the United Kingdom and Continental Europe were developed in the MATLAB/Simulink environment and a worst-case event for the UK in the year 2020 is chosen for analysis. Fast control actions are then exchanged between the power systems of UK and Continental Europe. The performance of the coupled system in terms of frequency deviation is evaluated and compared to the decoupled situation. The results show that the frequency response improves, with lower maximum deviations. A cross-border balancing arrangement also leads to less deployment of reserves for UK.

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迈向泛欧能源平衡市场:英国与欧洲大陆耦合的实践

未来几年风力发电水平的提高将取代传统发电，从而影响平衡储备的需求。即将到来的泛欧平衡市场一体化旨在加强各地区之间的合作，以提供最佳的服务。风能和其他可再生能源带来的变异性增加的挑战可以通过在更大的互联系统内的区域集团之间交换平衡服务来解决。在这项工作中，在MATLAB/Simulink环境中开发了英国和欧洲大陆的负载频率控制模型，并选择了2020年英国的最坏情况进行分析。然后在英国和欧洲大陆的电力系统之间交换快速控制动作。从频率偏差的角度对耦合系统的性能进行了评估，并与解耦情况进行了比较。结果表明，频率响应得到改善，最大偏差减小。跨境平衡安排还会减少对英国的外汇储备部署。

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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11th International Conference on the European Energy Market (EEM14)

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