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Hauptverfasser: Ali, Ali Mohamed, Raeisi, Yaser, Grammatikos, Plouton, Pavanello, Davide, Roduit, Pierre, Sossan, Fabrizio
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2507.08684
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author Ali, Ali Mohamed
Raeisi, Yaser
Grammatikos, Plouton
Pavanello, Davide
Roduit, Pierre
Sossan, Fabrizio
author_facet Ali, Ali Mohamed
Raeisi, Yaser
Grammatikos, Plouton
Pavanello, Davide
Roduit, Pierre
Sossan, Fabrizio
contents The integration of PV systems and increased electrification levels present significant challenges to the traditional design and operation of distribution grids. This paper presents a methodology for extracting, validating, and adapting grid data from a distribution system operator's (DSO) database to facilitate large-scale grid studies, including load flow and optimal power flow analyses. The validation process combines rule-based sanity checks and offline automated power flow analyses to ensure data consistency and detect potential errors in the grid database, allowing for their correction. As a practical application, the paper proposes a method to assess the PV hosting capacity of distribution grids, with a focus on ensuring fairness in their spatial distribution. By incorporating fairness criteria into the analyses, we quantify the costs (in terms of missed revenues from selling PV generation) associated with spatial fairness.
format Preprint
id arxiv_https___arxiv_org_abs_2507_08684
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Large-Scale Processing and Validation of Grid Data for Assessing the Fair Spatial Distribution of PV Hosting Capacity
Ali, Ali Mohamed
Raeisi, Yaser
Grammatikos, Plouton
Pavanello, Davide
Roduit, Pierre
Sossan, Fabrizio
Systems and Control
The integration of PV systems and increased electrification levels present significant challenges to the traditional design and operation of distribution grids. This paper presents a methodology for extracting, validating, and adapting grid data from a distribution system operator's (DSO) database to facilitate large-scale grid studies, including load flow and optimal power flow analyses. The validation process combines rule-based sanity checks and offline automated power flow analyses to ensure data consistency and detect potential errors in the grid database, allowing for their correction. As a practical application, the paper proposes a method to assess the PV hosting capacity of distribution grids, with a focus on ensuring fairness in their spatial distribution. By incorporating fairness criteria into the analyses, we quantify the costs (in terms of missed revenues from selling PV generation) associated with spatial fairness.
title Large-Scale Processing and Validation of Grid Data for Assessing the Fair Spatial Distribution of PV Hosting Capacity
topic Systems and Control
url https://arxiv.org/abs/2507.08684