可调度发电
整数规划
弹性(材料科学)
电力系统
计算机科学
线性规划
可靠性工程
节点(物理)
数学优化
分布式计算
工程类
功率(物理)
分布式发电
电气工程
算法
热力学
可再生能源
物理
结构工程
量子力学
数学
作者
Bo Chen,Zhigang Ye,Chen Chen,Jianhui Wang
标识
DOI:10.1109/tpwrs.2018.2885322
摘要
Large-scale blackouts and extreme weather events in recent decades raise the concern for improving the resilience of electric power infrastructures. Distribution service restoration (DSR), a fundamental application in outage management systems, provides restoration solutions for system operators when power outages happen. As distribution generators (DGs) and remotely controllable devices are increasingly installed in distribution systems, an advanced DSR framework is needed to perform optimally coordinated restoration that can achieve maximal restoration performance. This paper introduces a DSR modeling framework, which can generate optimal switching sequences and estimated time of restoration in the presence of remotely controllable switches, manually operated switches, and dispatchable DGs. Two mathematical models, a variable time step model and a fixed time step model, are presented and compared. The proposed models are formulated as a mixed-integer linear programming model, and their effectiveness is evaluated via the IEEE 123 node test feeder.
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