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首页> 外文期刊>Proceedings of the IEEE >Cyber–Physical Modeling of Distributed Resources for Distribution System Operations
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Cyber–Physical Modeling of Distributed Resources for Distribution System Operations

机译:配电系统操作的分布式资源的网络物理建模

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摘要

Cosimulation platforms are necessary to study the interactions of complex systems integrated in future smart grids. The Virtual Grid Integration Laboratory (VirGIL) is a modular cosimulation platform designed to study interactions between demand-response (DR) strategies, building comfort, communication networks, and power system operation. This paper presents the coupling of power systems, buildings, communications, and control under a master algorithm. There are two objectives: first, to use a modular architecture for VirGIL, based on the functional mockup interface (FMI), where several different modules can be added, exchanged, and tested; and second, to use a commercial power system simulation platform, familiar to power system operators, such as DIgSILENT PowerFactory. This will help reduce the barriers to the industry for adopting such platforms, investigate and subsequently deploy DR strategies in their daily operation. VirGIL further introduces the integration of the quantized state system (QSS) methods for simulation in this cosimulation platform. Results on how these systems interact using a real network and consumption data are also presented.
机译:协同仿真平台对于研究集成在未来智能电网中的复杂系统之间的相互作用是必不可少的。虚拟电网集成实验室(VirGIL)是一个模块化的协同仿真平台,旨在研究需求响应(DR)策略,建筑物舒适度,通信网络和电力系统运行之间的相互作用。本文介绍了在主算法下的电力系统,建筑物,通信和控制的耦合。有两个目标:首先,基于功能模型接口(FMI)为VirGIL使用模块化体系结构,可以在其中添加,交换和测试几个不同的模块;其次,要使用电力系统运营商熟悉的商用电力系统仿真平台,例如DIgSILENT PowerFactory。这将有助于减少行业采用此类平台,调查并随后在其日常运营中部署灾难恢复策略的障碍。 VirGIL还引入了量化状态系统(QSS)方法的集成,以在此协同仿真平台中进行仿真。还介绍了有关这些系统如何使用真实网络和消费数据进行交互的结果。

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