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State Estimation for Distribution Grids with a Single Point Grounded Neutral Conductor

Andreas Kotsonias, Markos Asprou, Lenos Hadjidemetriou, Elias Kyriakides

2020IEEE Transactions on Instrumentation and Measurement26 citationsDOIOpen Access PDF

Abstract

Distribution system state estimation (DSSE) has been enabled by the deployment of smart meters and is currently the subject of active research, focused mainly in medium-voltage distribution grids (MVDGs). This article proposes a modified weighted least-squares (WLS) DSSE for low-voltage distribution grids (LVDGs) where the neutral conductor is grounded only at the MV-LV substation. DSSE methods developed for MVDGs are not applicable in such systems due to the significant voltage drop across the neutral conductor. The proposed DSSE includes the neutral voltage in the state vector, and the measurement functions are modified accordingly. To address any convergence issues and to enhance the accuracy of the proposed DSSE, virtual measurements are introduced for the neutral voltage. The effectiveness of the proposed DSSE is illustrated in a real LVDG and in the IEEE European low-voltage test feeder under different operating conditions, smart meter classes, and system layouts. In addition, a Monte Carlo analysis is performed for highlighting the importance of the proposed modifications to the WLS DSSE. Among others, the analysis indicates that the proposed method converged in all trials, despite including the neutral voltage in the state vector.

Topics & Concepts

VoltageConductorConvergence (economics)Thévenin's theoremComputer scienceVoltage dropMonte Carlo methodElectronic engineeringEngineeringElectrical engineeringMathematicsEquivalent circuitStatisticsGeometryEconomic growthEconomicsOptimal Power Flow DistributionPower System Optimization and StabilityWater Systems and Optimization