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Bibliographic Details
Main Authors: Brändle, Jan, Rousseau, Julie, Nahata, Pulkit, Hug, Gabriela
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.13449
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author Brändle, Jan
Rousseau, Julie
Nahata, Pulkit
Hug, Gabriela
author_facet Brändle, Jan
Rousseau, Julie
Nahata, Pulkit
Hug, Gabriela
contents The growing integration of distributed renewable generation and the electrification of heating and transportation are rapidly increasing the number of flexible devices within modern distribution grids. Leveraging the aggregated flexibility of these small-scale distributed resources is essential to maintaining future grid-wide stability. This work uses the Swiss distribution grid of Walenstadt as a case study to provide insights into the aggregated flexibility potential of distribution grids. It demonstrates that incorporating devices such as heat pumps and photovoltaic systems significantly enhances distribution grid flexibility. It investigates the time-varying nature of aggregated flexibility and highlights how it can vary seasonally. Furthermore, simulations of future scenarios reveal that aggregated flexibility does not increase linearly or monotonically with higher levels of flexible device penetration. This is primarily due to the overloading of individual feeders, which underscores the impact of grid topology and network constraints on the aggregated flexibility potential.
format Preprint
id arxiv_https___arxiv_org_abs_2510_13449
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle On the Flexibility Potential of a Swiss Distribution Grid: Opportunities and Limitations
Brändle, Jan
Rousseau, Julie
Nahata, Pulkit
Hug, Gabriela
Systems and Control
The growing integration of distributed renewable generation and the electrification of heating and transportation are rapidly increasing the number of flexible devices within modern distribution grids. Leveraging the aggregated flexibility of these small-scale distributed resources is essential to maintaining future grid-wide stability. This work uses the Swiss distribution grid of Walenstadt as a case study to provide insights into the aggregated flexibility potential of distribution grids. It demonstrates that incorporating devices such as heat pumps and photovoltaic systems significantly enhances distribution grid flexibility. It investigates the time-varying nature of aggregated flexibility and highlights how it can vary seasonally. Furthermore, simulations of future scenarios reveal that aggregated flexibility does not increase linearly or monotonically with higher levels of flexible device penetration. This is primarily due to the overloading of individual feeders, which underscores the impact of grid topology and network constraints on the aggregated flexibility potential.
title On the Flexibility Potential of a Swiss Distribution Grid: Opportunities and Limitations
topic Systems and Control
url https://arxiv.org/abs/2510.13449