Monitoring of Low Voltage Distribution Grid Considering the Neutral Conductor

TL;DR

This paper evaluates the limitations of the conventional Weighted Least Squares (WLS) State Estimation method for Low Voltage Distribution Grids, and proposes a new approach that accounts for neutral conductor effects, significantly improving monitoring accuracy.

Contribution

The paper introduces a novel WLS State Estimation methodology that considers neutral conductor effects, enhancing accuracy in low voltage distribution grid monitoring.

Findings

Conventional WLS SE performs poorly under asymmetrical load conditions.

The new methodology outperforms the traditional approach in accuracy.

Performance is highly dependent on operating conditions of the LVDG.

Abstract

The most widely used method for monitoring Low Voltage Distribution Grids (LVDGs) is the three phase Weighted Least Squares (WLS) State Estimation (SE), which was initially developed for Medium Voltage Distribution Grids (MVDGs). This methodology is implicitly applied in LVDGs with an assumption that the neutral conductor represents a zero potential across the whole system. However, this assumption is often not valid for LVDGs as the consumers loads are highly asymmetrical and the neutral conductor is usually grounded only at the MV-LV transformer substation. Therefore, if this method is applied for the monitoring of LVDGs it may deteriorate the performance of the WLS SE leading to inaccurate results. In this paper, an investigation is initially conducted in order to evaluate the performance of the conventional WLS SE methodology when applied for the monitoring of LVDGs. The results of this study indicate that the performance of this methodology is not consistent and is highly affected by the operating conditions of the LVDG. In view of these results, a new methodology is proposed and developed that takes into consideration the effect of the neutral conductor and as a result an outstanding performance is achieved compared to the conventional methodology.