Hybrid European MV-LV Network Models for Smart Distribution Network Modelling

TL;DR

This paper introduces two detailed hybrid European MV-LV distribution network models with over 80,000 nodes, designed to support smart control algorithms and energy system integration, available in OpenDSS format.

Contribution

It presents large-scale, integrated MV-LV network models combining generic MV and real LV data, with a preconditioning step to reduce complexity while preserving accuracy.

Findings

Models are publicly available for download.

Case studies demonstrate system flexibility and control strategies.

Voltage data analysis confirms heterogeneity of systems.

Abstract

A pair of European-style, integrated MV-LV circuits are presented, created by combining generic MV and real LV networks. The two models have 86,000 and 113,000 nodes, and are made readily available for download in the OpenDSS file format. Primary substation tap change controls and MV-LV feeders are represented as three-phase unbalanced distribution network models, capturing the coupling of voltages at the MV level. The assumptions made in constructing the models are outlined, including a preconditioning step that reduces the number of nodes by more than five times without affecting the solution. Two flexibility-based case studies are presented, with TSO-DSO and peer-peer-based smart controls considered. The demonstration of the heterogeneous nature of these systems is corroborated by the analysis of measured LV voltage data. The models are intended to aid the development of algorithms for maximising the benefits of smart devices within the context of whole energy systems.