Raju Wagle, Gioacchino Tricarico, P. Sharma, Charu Sharma, J. Rueda, F. Gonzalez-Longatt
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引用次数: 1
摘要
随着可再生能源并网的兴起,现有的配电网面临着各种各样的技术障碍,其中之一就是对配电网进行实时监测和控制的建模。本研究利用台风HIL与OpenDSS的网络物理联合仿真,设计并分析了一种新型的有源配电网智能逆变器实时无功补偿网络物理测试系统。试验台是一个两层系统,包括物理层和控制层。物理层由Typhoon HIL 604代表,控制层由Typhoon HIL、OpenDSS和Python软件代表。控制论层用于实时建模、设计和控制智能逆变器的无功功率。所考虑的配电网是CIGRE中压配电网。实时仿真结果验证了该测试平台在实时无功控制中的适用性。
A testbed for modelling Active Distribution Systems using Cyber-Physical Co-simulation
With the rise of integration of renewable energy sources, existing electric power distribution networks are facing a variety of technical obstacles, one of which is modelling of the distribution networks for real-time network monitoring and control. This research designs and analyzes a novel cyber-physical test system for real-time reactive power compensation from smart inverters in the active distribution network using cyber-physical co-simulation between the Typhoon HIL and OpenDSS. The testbed is a two-layer system, with a physical and cybernetic layer. The physical layer is represented by Typhoon HIL 604 and the cybernetic layer is represented by software from Typhoon HIL, OpenDSS, and Python. The cybernetic layer is used to model, design, and control the reactive power from the smart inverter in real-time. The distribution network considered is a CIGRE MV distribution network. Real-time simulation results demonstrate the applicability of the proposed test platform in real-time reactive power control.
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