河南理工大学学报(自然科学版)2024,Vol.43Issue(3):125-134,10.DOI:10.16186/j.cnki.1673-9787.2022110061
基于退役电池分级互备自适应控制的一次调频
Primary frequency modulation based on retired battery with hierarchical backup and adaptive control
摘要
Abstract
Objectives Under the goal of carbon peaking and carbon neutrality,a large number of new en-ergy is connected to the grid,resulting in a decrease in the equivalent inertia of the power system and an in-crease in the uncertainty of power supply,which has brought challenges to the frequency security of the power grid.In recent years,battery energy storage has received extensive attention in the field of power grid frequency modulation due to its fast response and flexible regulation.Considering the rapid development of new energy vehicles at present,a large number of automotive batteries are being retired.Taking into ac-count the cost associated with battery configuration,how to make full use of retired battery in participating in grid frequency regulation applications under the premise of safe utilization was a research-worthy issue,and this article conducted an in-depth study on this matter.Methods Firstly,the AGC model of retired bat-teries participating in the primary frequency modulation of power grid was constructed,and the influence of the charge and discharge depth of retired batteries on their remaining life was analyzed to determine the SOC threshold range of their operation.Secondly,by designing the proportional coefficient of output,the ad-vantages of virtual inertia and virtual droop were maximized,and the retired battery SOC was used as the switching condition for hierarchical adaptive control.Then,the frequency deviation distribution coefficient was introduced to make another group of retired battery participate in the standby coordination,so as to avoid the frequent switching of charging and discharging states of one group of batteries,which would dam-age the remaining service life of the battery.Results Finally,by constructing a simulation model in MATLAB/Simulink,setting multiple sets of parameters for comparison,the results demonstrated that the ra-tional utilization of retired battery can successfully substitute for new batteries in participating in grid fre-quency control,which provided effective support for the stability and secure operation of the grid.Conclu-sions Under the proposed approach,retired batteries can effectively reduce the maximum frequency devia-tion of the grid,avoiding over-limit SOC and secondary frequency drops.At the same time,this approach significantly reduced the number of charge-discharge switchings of retired battery during load fluctuations,which was beneficial for extending the remaining lifespan of the battery.关键词
退役电池/荷电状态/一次调频/分级互备/自适应控制Key words
retired battery/state of charge/primary frequency modulation/hierarchical backup/adaptive con-trol分类
信息技术与安全科学引用本文复制引用
赵熙临,陈潇..基于退役电池分级互备自适应控制的一次调频[J].河南理工大学学报(自然科学版),2024,43(3):125-134,10.基金项目
国家自然科学基金资助项目(61603127) (61603127)
