Artificial intelligence-based methods for renewable power system operation

Yuanzheng Li, Yizhou Ding, Shangyang He, Fei Hu, Juntao Duan, Guanghui Wen, Hua Geng, Zhengguang Wu, Hoay Beng Gooi, Yong Zhao, Chenghui Zhang, Shengwei Mei, Zhigang Zeng
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Abstract

Carbon neutrality goals are driving the increased use of renewable energy (RE). Large-scale use of RE requires accurate energy generation forecasts; optimized power dispatch, which minimizes costs while satisfying operational constraints; effective system control to ensure a stable power supply; and electricity markets that support bidding and trading decisions associated with RE. However, the uncertainties in RE generation make renewable power systems challenging to operate. For example, the intermittent nature of wind power can make it difficult to balance the supply and demand of electricity in real time; therefore, traditional power sources could be needed to meet the demand, which can increase electricity prices. This Review outlines the potential of artificial intelligence-based methods for supporting renewable power system operation. We discuss the ability of machine learning, deep learning and reinforcement learning methods to facilitate power system forecasts, dispatch, control and markets to support the use of RE. We also emphasize the applicability of these techniques to different operational problems. Finally, we discuss potential trends in renewable power system development and approaches to address the associated operational challenges such as the increasingly distributed nature of RE installations, diversification of energy storage systems and growing market complexity. The increasing integration of renewable energy technologies into power systems poses challenges owing to the large uncertainties associated with renewable energy production. This Review investigates the ability of artificial intelligence-based methods to improve forecasts, dispatch, control and electricity markets in renewable power systems.

Abstract Image

Abstract Image

基于人工智能的可再生能源电力系统运行方法
碳中和目标正在推动可再生能源(RE)使用的增加。大规模使用可再生能源需要准确的发电量预测;优化电力调度,在满足运行约束的同时最大限度地降低成本;有效的系统控制,以确保稳定的电力供应;以及支持与可再生能源相关的投标和交易决策的电力市场。然而,可再生能源发电的不确定性使可再生能源发电系统的运行面临挑战。例如,风力发电的间歇性使其难以实时平衡电力供需;因此,可能需要传统电力资源来满足需求,这可能会提高电价。本综述概述了基于人工智能的方法在支持可再生电力系统运行方面的潜力。我们讨论了机器学习、深度学习和强化学习方法促进电力系统预测、调度、控制和市场的能力,以支持可再生能源的使用。我们还强调了这些技术对不同运行问题的适用性。最后,我们讨论了可再生能源电力系统发展的潜在趋势,以及应对相关运行挑战的方法,例如可再生能源装置日益分布式化、储能系统多样化以及市场复杂性不断增加。由于可再生能源生产具有很大的不确定性,可再生能源技术日益融入电力系统带来了挑战。本综述研究了基于人工智能的方法在改善可再生能源电力系统的预测、调度、控制和电力市场方面的能力。
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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