智能电网可靠性和效率最大化的通信辅助混合控制策略初探

A. Shahid
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引用次数: 10

摘要

通过在电网中加入传感和通信技术,使电网在拓扑结构上具有一定的可操作性和灵活性,从而实现电网的智能化。现代电力系统的特点是具有连续和离散动力的高度集成、灵活的网络化和通信网络物理基础设施。由于这些系统的复杂性而产生的问题可以通过设计基于任何时刻可用信息的功率控制算法来潜在地解决。混合控制是一种发展中的技术,它主要针对系统在不同工况和不同运行状态下的控制。考虑到智能电网的混合性和复杂性,本文提出了一种独特的智能电网建模和控制方法。建立了基于通信辅助混合控制策略的智能电网模型。通过反馈机制将潮流管理信息更新给运营商,以达到理想的效率和可靠性标准。
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A preliminary communication-assisted hybrid control strategy for maximum reliability and efficiency in smart grids
The grid is becoming smart by adding sensing and communication technologies to it with a certain degree of operability and flexibility in topology. The hallmark of modern power systems is a highly integrated, flexible networked and communicative cyber-physical infrastructure having both continuous and discrete dynamics. Issues arising due to the complexity of these systems can be potentially solved by designing power control algorithms based on the information available at any instant of time. One of the developing technique is hybrid control which is mainly featured for a system under different operating conditions and in different operating states. This paper presents a unique approach for modeling and control of a smart grid considering its hybrid and complex nature. A model of smart grid has been developed with communication-assisted hybrid control strategy. The information on power flow management is updated to the operator through a feedback mechanism in order to meet desirable efficiency and reliability standards.
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