配电网中控制器交互测试的联合仿真装置

2018 Workshop on Modeling and Simulation of Cyber-Physical Energy Systems (MSCPES) Pub Date : 2018-04-10 DOI:10.1109/MSCPES.2018.8405402

Jorge Velasquez, F. Castro, D. Babazadeh, S. Lehnhoff, T. Kumm, Daniel Heuberger, Riccardo Treydel, Tim Lüken, S. Garske, L. Hofmann

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引用次数: 1

摘要

信息和通信技术对于充分挖掘分散能源的潜力是必要的。然而，将这些新技术集成到现有基础设施中将是具有挑战性的，因为其复杂性无法仅通过传统工具和方法进行分析。为此，从评估系统动态稳定性的角度对多种控制策略的相互作用进行了系统测试。该方法考虑了系统操作员的主要需求，并使用联合仿真框架集成不同的仿真工具。已经开发并测试了主要控制器的模型，以确定可能的控制器冲突或操作效率低下。研究的主要用例是中压电网的电压和无功控制。

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Co-simulation set-up for testing controller interactions in distribution networks

Information and Communication Technologies are necessary to tap the full potential of decentralized energy resources. However, the integration of these novel technologies to the existing infrastructure will prove challenging considering a level of complexity that cannot be analyzed via conventional tools and methods alone. For this reason, the interaction of multiple control strategies from the perspective of assessing the dynamic stability of the system are tested systematically. The approach takes into consideration the main requirements of the system operator and uses a co-simulation framework to integrate different simulation tools. Models for the main controllers have been developed and tested to identify possible controller conflicts or operational inefficiencies. The main use case under study is voltage and reactive power control in an MV grid.

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2018 Workshop on Modeling and Simulation of Cyber-Physical Energy Systems (MSCPES)

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