《电力自动化设备》

引用本文:	呙金瑞,张智俊,窦春霞.基于信息间隙决策理论与动态分时电价的电动汽车接入虚拟电厂双层经济调度策略[J].电力自动化设备,2022,42(10):
	GUO Jinrui,ZHANG Zhijun,DOU Chunxia.Bi-level economic dispatch strategy for electric vehicles connecting to virtual power plant based on information gap decision theory and dynamic time-of-use price[J].Electric Power Automation Equipment,2022,42(10):

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基于信息间隙决策理论与动态分时电价的电动汽车接入虚拟电厂双层经济调度策略
呙金瑞^1,2, 张智俊^1,2, 窦春霞¹
1.南京邮电大学碳中和先进技术研究院，江苏南京 210023;2.南京邮电大学自动化学院、人工智能学院，江苏南京 210023

摘要:

针对虚拟电厂(VPP)因分布式电源出力的间隙性以及规模化电动汽车(EV)无序充电行为导致的功率波动问题，将信息间隙决策理论(IGDT)与动态分时电价(DTOUP)模型相结合，提出了一种EV接入VPP的双层经济调度策略，并综合考虑了柔性负荷的灵活性，以保证VPP能够经济、有效地运行。上层采用IGDT对分布式电源出力的间隙性进行鲁棒建模。为了灵活地引导EV聚合商(EVA)进行充放电规划，提出了基于“车-路”信息融合驱动的EV充电模型，并设计了基于模糊隶属度函数的DTOUP模型与整体最优指标，以提高EVA与VPP整体的经济效益。下层结合DTOUP与“车-路”信息，构建了以EVA与VPP交互成本和EV里程焦虑成本最小化为目标的EVA优化调度模型。算例仿真结果验证了所提策略的有效性。

关键词: 虚拟电厂电动汽车信息间隙决策理论动态分时电价双层经济调度 “车-路”信息融合灵活性

DOI：10.16081/j.epae.202208001

分类号:U491.8;TM734

基金项目:江苏省重点研发计划项目(BE2020001?4)

Bi-level economic dispatch strategy for electric vehicles connecting to virtual power plant based on information gap decision theory and dynamic time-of-use price

GUO Jinrui^1,2, ZHANG Zhijun^1,2, DOU Chunxia¹

1.Institute of Carbon Neutral Advanced Technology, Nanjing University of Posts and Telecommunications, Nanjing 210023, China;2.College of Automation & Artificial Intelligence, Nanjing University of Posts and Telecommunications, Nanjing 210023, China

Abstract:

In order to solve the power fluctuation problem of VPP(Virtual Power Plant) caused by the intermittency of distributed generation output and the disordered charging behavior of large-scale EVs(Electric Vehicles),by combining the IGDT(Information Gap Decision Theory) with the DTOUP(Dynamic Time-Of-Use Price) model, a bi-level economic dispatch strategy for EVs connecting to VPP is proposed, and the flexibility of flexible load is taken into account to ensure that the VPP can operate economically and effectively. In the upper level, IGDT is used to robustly model the intermittency of distributed generation output. In order to flexibly guide EVA(Electric Vehicle Aggregator) in charging and discharging planning, the EV charging model driven by “EV-road” information fusion is proposed, and the DTOUP model based on fuzzy membership function and the overall optimal index are designed to improve the overall economic benefits of EVA and VPP. In the lower level, combining DTOUP and “EV-road” information, the EVA optimal dispatch model is constructed with the goal of minimizing the interaction cost between EVA and VPP and the EV range anxiety cost. Simulative results verify the effectiveness of the proposed strategy.

Key words: virtual power plant electric vehicles information gap decision theory dynamic time-of-use price bi-level economic dispatch “EV-road” information information fusion flexibility

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