自动发电控制与储能的多时段鲁棒协同调度OACSCDCSTPCD
Multi-timescale robust dispatching for coordinated automatic generation control and energy storage
随着未来可再生能源发电的大规模接纳,自动发电控制(AGC)调节能力逐步递减,亟需储能等主动设备予以配合.当前计及储能的调度中,决策方法往往忽视了储能应对风光间歇性的作用.储能利用其快速调节的优势,在自动发电控制的基础上能更好地消除可再生能源的间歇性.因此,本文提出了一种两阶段鲁棒的优化调度模型,在该模型中储能参与消除可再生能源间歇性的影响,并将储能与AGC机组在控制中的动作轨迹抽象为任意两个时刻之间的过程.该模型充分利用储能的快速调节能力,弥补了…查看全部>>
The increasing penetration of renewable energy into power grids is reducing the regulation capacity of automatic generation control (AGC). Thus, there is an urgent demand to coordinate AGC units with active equipment such as energy storage. Current dispatch decision-making methods often ignore the intermittent effects of renewable energy. This paper proposes a two-stage robust optimization model in which energy storage is used to compensate for the intermitt…查看全部>>
Yiran Ma;Xueshan Han;Ming Yang;Wei-Jen Lee
School of Electrical Engineering, Shandong University, No. 17923 Jingshi Road, Jinan 250061, P.R. ChinaSchool of Electrical Engineering, Shandong University, No. 17923 Jingshi Road, Jinan 250061, P.R. ChinaSchool of Electrical Engineering, Shandong University, No. 17923 Jingshi Road, Jinan 250061, P.R. ChinaThe University of Texas at Arlington 701 S. Nedderman Drive Arlington, TX 76019
自动发电控制储能间歇性协同调度鲁棒优化
Automatic generation controlEnergy storageIntermittencyCoordinated dispatchingRobust optimization
《全球能源互联网(英文)》 2020 (4)
355-364,10
This work was supported by Theoretical study of power system synergistic dispatch National Science Foundation of China (51477091).
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