English

Reliability Assessment for Distribution Systems with Embedded Microgrids

Systems and Control 2023-02-21 v2 Systems and Control

Abstract

The electrical distribution system is moving toward a more decentralized, complex, and dynamic system. The system is experiencing a higher penetration of distributed energy resources, flexible resources, and active end-users, leading to an active distribution system. If these components are used actively, they can have a positive effect on the distribution system's reliability. This paper aims to investigate how a microgrid with renewable energy sources and energy storage might influence the reliability of electricity supply in a radially operated distribution system. The reliability is investigated from both the distribution system and the microgrid perspective with the application of different scenarios. The study includes an extensive sensitivity analysis. In this study, we use our developed reliability assessment tool for distribution networks. The tool is an open available software where the example network and datasets are embedded. The reliability assessment tool is based on Monte Carlo simulations where load flow calculations are included to capture the behavior of the system and system components. In this paper, the reliability tool is extended to include microgrids and microgrid controller opportunities that handle interaction strategies with the distribution network. The model is demonstrated on the IEEE 33-bus network. The result is confirmed through statistical testing showing the statistical significance of providing support from the microgrid on the distribution system's reliability.

Keywords

Cite

@article{arxiv.2111.07674,
  title  = {Reliability Assessment for Distribution Systems with Embedded Microgrids},
  author = {Stine Fleischer Myhre and Olav Bjarte Fosso and Oddbjørn Gjerde and Poul Einar Heegaard},
  journal= {arXiv preprint arXiv:2111.07674},
  year   = {2023}
}

Comments

13 pages, 14 figures

R2 v1 2026-06-24T07:38:36.164Z