中国电机工程学报2024,Vol.44Issue(24):9583-9593,中插7,12.DOI:10.13334/j.0258-8013.pcsee.231428
基于机会约束的贯通式同相牵引供电系统分布式优化运行策略
Distributed Optimal Operation of Continuous Co-phase Traction Power System via Chance-constraint
摘要
Abstract
"Power source-traction network-energy storage-train"flexible operation of electrified railways is achieved through the continuous co-phase traction power supply system(CC-TPSS).However,the strong uncertainty of traction load flow and the high synchronization requirement of centralized dispatch pose significant challenges to the coordinated operation of multiple traction substations(TSSs).This article first establishes a mathematical model of the CC-TPSS composed of multiple TSSs based on the operating characteristics of energy storage and power flow controllers(PFCs).Then,the traction load's power is treated as a random variable,and chance-constrained power flow conditions for portraying the probabilistic features are subsequently formulated,while the scenario method is used to convert the CC into deterministic constraints.Meanwhile,the voltage unbalance compensation and security boundary of system operation are also considered.Furthermore,a multi-substation coordinated stochastic optimization method is proposed to minimize daily electricity cost,while the decoupling and distributed solving of the CC-TPSS is achieved using the synchronous alternating direction multiplier method(SADMM).The numerical results demonstrate that the proposed method enables complete decentralized autonomy among the TSSs,and leads to reduction in daily electricity cost of more than 20%for each traction substation.关键词
贯通式同相牵引供电/分布式优化运行策略/机会约束/不确定性Key words
continuous co-phase traction power supply system/distributed optimal operation strategy/chance constraint/uncertainty分类
信息技术与安全科学引用本文复制引用
陈民武,陈垠宇,徐烈,崔明建..基于机会约束的贯通式同相牵引供电系统分布式优化运行策略[J].中国电机工程学报,2024,44(24):9583-9593,中插7,12.基金项目
国家自然科学基金项目(52277126) (52277126)
四川省科技创新创业苗子工程培育项目(MZGC20230005) (MZGC20230005)
成都国佳电气工程有限公司(NEEC-2019-A03).Project Supported by National Natural Science Foundation of China(52277126) (NEEC-2019-A03)
Sichuan Science and Technology Innovation and Entrepreneurship Miaozi Project(MZGC20230005) (MZGC20230005)
Chengdu Guojia Electrical Engineering Company Ltd.(NEEC-2019-A03). 感谢国家留学基金委(CSC NO.202207000086)对本研究的支持. (NEEC-2019-A03)
