典型文献
Energy Savings Estimation of a Distribution System in Presence of Intelligent Volt-VAr Control Based on IEEE Std.1547-2018
文献摘要:
In the present scenario,many solar photovoltaic(SPV)systems have been installed in the distribution network,most of them are operating at the unity power factor,which does not provide any reactive power support.In future distribution grids,there will be significant advances in operating strategies of SPV systems with the introduction of smart inverter functions.The new IEEE Std.1547-2018 incorporates dynamic Volt/VAr control(VVC)for smart inverters.These smart inverters can inject or absorb reactive power and maintain voltages at points of common coupling(PCCs)based on local voltage measurements.With multiple inverter-interfaced SPV systems connected to the grid,it becomes a necessary task to develop local,distributed or hybrid VVC algorithms for maximization of energy savings.This paper aims to estimate substation energy savings through centralized and decentralized control of inverters of SPV system alongside various VVC devices.Control strategies of each SPV inverter have been accomplished in compliance with IEEE Std.1547-2018.Time-series simulations are carried out on the modified IEEE-123 node test system.By utilizing smart inverters in traditional SPV systems,considerable energy savings can be obtained.These savings can be further increased by incorporating optimal intelligent VVC characteristics(IVVCC).Results show that just by allowing smart inverters on a predefined IVVCC(as per IEEE Std.1547-2018),a reduction of 11.69%in reactive demand and 5.63%in active demand have been acquired when compared with a conventional SPV system.Reactive energy demand is additionally reduced to 48.42%by considering cen-tralized control of VVC devices alongside optimal IVVCC.
文献关键词:
中图分类号:
作者姓名:
Saran Satsangi;G.B.Kumbhar
作者机构:
Department of Electrical Engineering,Indian Institute of Technology Roorkee,Roorkee,Uttarakhand,India
文献出处:
引用格式:
[1]Saran Satsangi;G.B.Kumbhar-.Energy Savings Estimation of a Distribution System in Presence of Intelligent Volt-VAr Control Based on IEEE Std.1547-2018)[J].中国电机工程学会电力与能源系统学报(英文版),2022(05):1477-1486
A类:
Savings,VAr,IVVCC,tralized
B类:
Energy,Estimation,Distribution,System,Presence,Intelligent,Volt,Control,Based,IEEE,Std,present,scenario,many,solar,photovoltaic,SPV,systems,have,been,installed,distribution,network,most,them,operating,unity,power,which,does,not,provide,reactive,support,future,grids,there,will,significant,advances,strategies,introduction,smart,functions,new,incorporates,dynamic,control,inverters,These,inject,absorb,maintain,voltages,points,common,coupling,PCCs,local,measurements,With,multiple,interfaced,connected,becomes,necessary,task,develop,distributed,hybrid,algorithms,maximization,energy,savings,This,paper,aims,estimate,substation,through,decentralized,alongside,various,devices,each,accomplished,compliance,Time,series,simulations,carried,out,modified,node,test,By,utilizing,traditional,considerable,obtained,further,increased,by,incorporating,optimal,intelligent,characteristics,Results,show,that,just,allowing,predefined,reduction,demand,acquired,when,compared,conventional,Reactive,additionally,reduced,considering
AB值:
0.49545
相似文献
机标中图分类号,由域田数据科技根据网络公开资料自动分析生成,仅供学习研究参考。
