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An active network control method using distributed energy resources in microgrids is shown. Some features of the system were outlined. And also, power system stabilizer to compensate for the fluctuation of active power in microgrid is proposed. The microgrid with these new techniques can contribute to efficient operation of DGs and stable power supply for customers.
This paper proposes a multi-agent approach to microgrid power system operation. The proposed method consists of several Loads Agents (LAGs) , Generator Agents (GAGs) and a single Microgrid Control Agent (MAG). The target of this study is to maximize revenue from the microgrid. To demonstrate its capability, the proposed electricity trading algorithm is applied to a model system. The simulation results...
This paper presents a real time simulator to verify performance of demand and supply controller in microgrid. It is based on a power flow algorithm which is called Backward Forward Sweep method. As this method needs the slack node which is defined as constant voltage source, it is difficult to solve the problem where the microgrid is islanded from the electric power network. The method proposed here...
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