Data-driven control, optimization, and decision-making in active power distribution networks

IF 10.1 1区工程技术 Q1 ENERGY & FUELS

Applied Energy Pub Date : 2025-06-25 DOI:10.1016/j.apenergy.2025.126253

Nanpeng Yu , Shaorong Zhang , Jingtao Qin , Patricia Hidalgo-Gonzalez , Roel Dobbe , Yang Liu , Anamika Dubey , Yubo Wang , John Dirkman , Haiwang Zhong , Ning Lu , Emily Ma , Zhaohao Ding , Di Cao , Junbo Zhao , Yuanqi Gao

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引用次数: 0

Abstract

This paper reviews the burgeoning field of data-driven algorithms and their application in solving increasingly complex decision-making, optimization, and control problems within active distribution networks. By summarizing a wide array of use cases, including network reconfiguration and restoration, crew dispatch, Volt-Var control, dispatch of distributed energy resources, and optimal power flow, we underscore the versatility and potential of data-driven approaches to improve active distribution system operations. The categorization of these algorithms into four main groups-mathematical optimization, end-to-end learning, learning-assisted optimization, and physics-informed learning-provides a structured overview of the current state of research in this domain. Additionally, we delve into enhanced algorithmic strategies such as non-centralized methods, robust and stochastic methods, and online learning, which represent significant advancements in addressing the unique challenges of active distribution systems. The discussion extends to the critical role of datasets and test systems in fostering an open and collaborative research environment, essential for the validation and benchmarking of novel data-driven solutions. In conclusion, we outline the primary challenges that must be navigated to bridge the gap between theoretical research and practical implementation, alongside the opportunities that lie ahead. These insights aim to pave the way for the development of more resilient, efficient, and adaptive active distribution networks, leveraging the full spectrum of data-driven algorithmic innovations.

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有功配电网的数据驱动控制、优化和决策

本文综述了数据驱动算法的新兴领域及其在解决日益复杂的决策、优化和控制问题中的应用。通过总结广泛的用例，包括网络重构和恢复、机组调度、伏特-无控制、分布式能源调度和最优潮流，我们强调了数据驱动方法的多功能性和潜力，以改善主动配电系统的运行。这些算法分为四大类——数学优化、端到端学习、学习辅助优化和物理信息学习——为该领域的研究现状提供了一个结构化的概述。此外，我们还深入研究了增强的算法策略，如非集中式方法、鲁棒和随机方法以及在线学习，这些方法在解决主动配电系统的独特挑战方面取得了重大进展。讨论扩展到数据集和测试系统在促进开放和协作研究环境中的关键作用，这对于新型数据驱动解决方案的验证和基准测试至关重要。最后，我们概述了必须克服的主要挑战，以弥合理论研究与实际实施之间的差距，以及未来的机遇。这些见解旨在为开发更具弹性、效率和适应性的主动配电网络铺平道路，充分利用数据驱动的算法创新。

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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来源期刊

Applied Energy 工程技术-工程：化工

CiteScore

21.20

自引率

10.70%

发文量

1830

审稿时长

41 days

期刊介绍： Applied Energy serves as a platform for sharing innovations, research, development, and demonstrations in energy conversion, conservation, and sustainable energy systems. The journal covers topics such as optimal energy resource use, environmental pollutant mitigation, and energy process analysis. It welcomes original papers, review articles, technical notes, and letters to the editor. Authors are encouraged to submit manuscripts that bridge the gap between research, development, and implementation. The journal addresses a wide spectrum of topics, including fossil and renewable energy technologies, energy economics, and environmental impacts. Applied Energy also explores modeling and forecasting, conservation strategies, and the social and economic implications of energy policies, including climate change mitigation. It is complemented by the open-access journal Advances in Applied Energy.