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基于数据驱动的配电网-用户能源协同管理策略OA

Data-Driven Collaborative Management Strategy for Distribution Network-User Energy Coordination

中文摘要英文摘要

传统的家庭能源管理系统主要关注用户家庭自身的能源管理,通常忽视了用户舒适度及其与配电网的双向互动潜力.为进一步提升家庭能源管理的智能化水平,该文提出了一种双层架构的家庭能源管理策略,其中上层考虑了配电网的系统运行约束和成本,下层尽可能考虑满足用户的用电偏好及用电成本要求,在基于配电网互动的前提下,实现家庭能源最优管理.针对常规配电网潮流计算和室内热响应算法在精确建模方面的不足和局限性,引入了长短期记忆递归神经网络(LSTM)和在线顺序超限学习机(OS-ELM)两种数据驱动方法达到更准确评估配电网状态和室内热动态的目标(LSTM用于潮流估计,OS-ELM用于热响应估计),并利用高效的自然聚合算法(NAA)来提升优化过程的求解速度和准确率.为评估所提算法的有效性和科学性,对上层所提出的LSTM模型、下层所提出的动态热估计算法和总体双层能源管理算法设计了详尽的对比实验进行分析.最终,基于IEEE 33节点系统的实验验证表明,该文提出的LSTM潮流估计和OS-ELM热响应估计方法的精度显著优于传统方法,所提策略在降低用户用电成本、保障配电网安全运行及提升用户舒适度方面均显著优于传统方法,验证了其有效性和优越性.该方法为解决高渗透率分布式能源社区中源荷协同优化问题提供了有效的技术支撑,具有较好的工程应用前景.

Traditional home energy management systems focus predominantly on managing energy within the household itself,often neglecting user comfort and the potential for bidirectional interaction with the distribution network.To further enhance the intelligence of home energy management,this paper proposes a two-layer hierarchi-cal home energy management strategy.The upper layer considers system operational constraints and costs of the distribution network,whereas the lower layer aims to satisfy user electricity preferences and cost requirements as much as possible.Based on interaction with the distribution network,this strategy achieves optimal household ener-gy management.To address the deficiencies and limitations of conventional distribution network power flow cal-culation and indoor thermal response algorithms in accurate modeling,two data-driven methods are introduced,namely the long short-term memory recurrent neural network(LSTM)and the online sequential extreme learning ma-chine(OS-ELM).These methods aim to more accurately assess distribution network status and indoor thermal dy-namics(LSTM for power flow estimation,OS-ELM for thermal response estimation).In addition,an efficient natural aggregation algorithm(NAA)is utilized to improve the solution speed and accuracy of the optimization process.To evaluate the effectiveness and scientific validity of the proposed algorithms,detailed comparative experiments are designed for the LSTM model in the upper layer,the dynamic thermal estimation algorithm proposed in the lower layer,and the overall two-layer energy management algorithm.Finally,experimental validation based on the IEEE 33-node system ultimately demonstrates that the proposed LSTM power flow estimation and OS-ELM-based thermal response estimation methods achieve significantly higher accuracy than conventional methods.The proposed stra-tegy also outperforms traditional approaches remarkably in reducing users'electricity costs,ensuring distribution network security,and improving user comfort,thereby verifying its effectiveness and superiority.This method pro-vides an effective technical support for addressing source-load coordinated optimization problems in communities with high penetration of distributed energy resources,and exhibits promising prospects for engineering applications.

边瑞恩;刘亚东

上海交通大学 电气工程学院,上海 200241||南方电网供应链集团有限公司,广东 广州 510630上海交通大学 电气工程学院,上海 200241

信息技术与安全科学

用户偏好数据驱动家庭能源管理热效应估计

user preferencesdata-drivenhome energy managementthermal effect estimation

《华南理工大学学报(自然科学版)》 2026 (3)

10-20,11

贵州省高等学校创新团队(黔教技[2023]064号)Supported by the Innovation Team of Guizhou Province's Higher Education Institutions(QJJ[2023]064)

10.12141/j.issn.1000-565X.250222

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