中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
1期
60-67
,共8页
颜伟%段磊%杨焕燕%赵霞%余娟
顏偉%段磊%楊煥燕%趙霞%餘娟
안위%단뢰%양환연%조하%여연
三相四线制%状态估计%智能电表量测%抗差最小二乘%指数型权函数
三相四線製%狀態估計%智能電錶量測%抗差最小二乘%指數型權函數
삼상사선제%상태고계%지능전표량측%항차최소이승%지수형권함수
three-phase four-wire system%state estimation%smart meter measurement%robustified least squares%exponential weighted function
在高级量测体系环境下,为提高配网状态估计性能,提出一种三相四线制配网的抗差状态估计方法。该方法完全采用智能电表量测的实际三相电压电流幅值和功率实时量测,以三相四线制配网节点注入电流方程为基础,建立指数加权最小二乘抗差估计模型。模型中将零注入功率方程同时作为虚拟量测方程和等式约束,目标函数中采用标准化残差的指数型权函数,以改善状态估计的收敛性和抗差性;而且该模型不存在系统中性点电位均为零和电源端点三相电压对称且已知的假设条件。最后,IEEE13节点修正系统的仿真结果表明,提出模型方法的估计结果精度高,且具有良好的收敛性和抗差性。
在高級量測體繫環境下,為提高配網狀態估計性能,提齣一種三相四線製配網的抗差狀態估計方法。該方法完全採用智能電錶量測的實際三相電壓電流幅值和功率實時量測,以三相四線製配網節點註入電流方程為基礎,建立指數加權最小二乘抗差估計模型。模型中將零註入功率方程同時作為虛擬量測方程和等式約束,目標函數中採用標準化殘差的指數型權函數,以改善狀態估計的收斂性和抗差性;而且該模型不存在繫統中性點電位均為零和電源耑點三相電壓對稱且已知的假設條件。最後,IEEE13節點脩正繫統的倣真結果錶明,提齣模型方法的估計結果精度高,且具有良好的收斂性和抗差性。
재고급량측체계배경하,위제고배망상태고계성능,제출일충삼상사선제배망적항차상태고계방법。해방법완전채용지능전표량측적실제삼상전압전류폭치화공솔실시량측,이삼상사선제배망절점주입전류방정위기출,건립지수가권최소이승항차고계모형。모형중장령주입공솔방정동시작위허의량측방정화등식약속,목표함수중채용표준화잔차적지수형권함수,이개선상태고계적수렴성화항차성;이차해모형불존재계통중성점전위균위령화전원단점삼상전압대칭차이지적가설조건。최후,IEEE13절점수정계통적방진결과표명,제출모형방법적고계결과정도고,차구유량호적수렴성화항차성。
With the development of advanced metering infrastructure (AMI), a new robust state estimation method for three-phase four-wire distribution system was proposed to improve the performance of state estimation in this paper. According to the actual three-phase voltage and current as well as power measurements in real-time from smart meters, the exponential weighted function least squares estimation model was proposed, which was based on the current injection equation in three-phase four-wire distribution network. With no assumptions of zero potential of neutral voltage and known three-phase voltage balanced in the substation, the proposed model could enhance the convergence and robustness performance of state estimation significantly by employing the exponential weighted function of standardized residual and handling zero-injection equations as virtual measurement equations and equality constraints. The simulation results for modified IEEE13 node test system have indicated that the proposed method is efficient, robust and accurate.
