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Main Authors: de Carvalho, Wilhiam, Capitanescu, Florin, Rasic, Cyril, Toubeau, Jean-François, Vallée, François
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.07989
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author de Carvalho, Wilhiam
Capitanescu, Florin
Rasic, Cyril
Toubeau, Jean-François
Vallée, François
author_facet de Carvalho, Wilhiam
Capitanescu, Florin
Rasic, Cyril
Toubeau, Jean-François
Vallée, François
contents This paper provides an in-depth analysis on how different aspects of the dynamic operating envelope (DOE) formulation impact the computation and allocation of network capacity. We show that the envelopes are significantly affected by the power flow model (non-linear or linear), binding network constraint (thermal or voltage) and by the calculation case (import or export envelope). We also propose a novel DOE algorithm (LACE) that presents transparent and scalable computation that is useful for larger networks or to act in tandem with other optimization engines. We run numerical simulations with different test feeders, including a realistic low-voltage feeder with real-world data from Belgium. This paper provides crucial insights and tools to distribution system operators (DSOs), stakeholders and academics alike to make sure DOE calculation achieves desirable and efficient outcome.
format Preprint
id arxiv_https___arxiv_org_abs_2605_07989
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Allocation of Dynamic Operating Envelopes in Radial Distribution Networks
de Carvalho, Wilhiam
Capitanescu, Florin
Rasic, Cyril
Toubeau, Jean-François
Vallée, François
Systems and Control
This paper provides an in-depth analysis on how different aspects of the dynamic operating envelope (DOE) formulation impact the computation and allocation of network capacity. We show that the envelopes are significantly affected by the power flow model (non-linear or linear), binding network constraint (thermal or voltage) and by the calculation case (import or export envelope). We also propose a novel DOE algorithm (LACE) that presents transparent and scalable computation that is useful for larger networks or to act in tandem with other optimization engines. We run numerical simulations with different test feeders, including a realistic low-voltage feeder with real-world data from Belgium. This paper provides crucial insights and tools to distribution system operators (DSOs), stakeholders and academics alike to make sure DOE calculation achieves desirable and efficient outcome.
title Allocation of Dynamic Operating Envelopes in Radial Distribution Networks
topic Systems and Control
url https://arxiv.org/abs/2605.07989