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Autores principales: Hyett, Criston, Pagnier, Laurent, Alisse, Jean, Goldshtein, Igal, Saban, Lilah, Ferrando, Robert, Chertkov, Michael
Formato: Preprint
Publicado: 2023
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Acceso en línea:https://arxiv.org/abs/2310.18507
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author Hyett, Criston
Pagnier, Laurent
Alisse, Jean
Goldshtein, Igal
Saban, Lilah
Ferrando, Robert
Chertkov, Michael
author_facet Hyett, Criston
Pagnier, Laurent
Alisse, Jean
Goldshtein, Igal
Saban, Lilah
Ferrando, Robert
Chertkov, Michael
contents In many power systems, particularly those isolated from larger intercontinental grids, operational dependence on natural gas becomes pivotal, especially during fluctuations or unavailability of renewables coupled with uncertain consumption patterns. Efficient orchestration and inventive strategies are imperative for the smooth functioning of these standalone gas-grid systems. This paper delves into the challenge of synchronized dynamic and stochastic optimization for independent transmission-level gas-grid systems. Our approach's novelty lies in amalgamating the staggered-grid method for the direct assimilation of gas-flow PDEs with an automated sensitivity analysis facilitated by SciML/Julia, further enhanced by an intuitive linkage between gas and power grids via nodal flows. We initiate with a single pipe to establish a versatile and expandable methodology, later showcasing its effectiveness with increasingly intricate examples.
format Preprint
id arxiv_https___arxiv_org_abs_2310_18507
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Differentiable Simulator For Dynamic & Stochastic Optimal Gas & Power Flows
Hyett, Criston
Pagnier, Laurent
Alisse, Jean
Goldshtein, Igal
Saban, Lilah
Ferrando, Robert
Chertkov, Michael
Optimization and Control
In many power systems, particularly those isolated from larger intercontinental grids, operational dependence on natural gas becomes pivotal, especially during fluctuations or unavailability of renewables coupled with uncertain consumption patterns. Efficient orchestration and inventive strategies are imperative for the smooth functioning of these standalone gas-grid systems. This paper delves into the challenge of synchronized dynamic and stochastic optimization for independent transmission-level gas-grid systems. Our approach's novelty lies in amalgamating the staggered-grid method for the direct assimilation of gas-flow PDEs with an automated sensitivity analysis facilitated by SciML/Julia, further enhanced by an intuitive linkage between gas and power grids via nodal flows. We initiate with a single pipe to establish a versatile and expandable methodology, later showcasing its effectiveness with increasingly intricate examples.
title Differentiable Simulator For Dynamic & Stochastic Optimal Gas & Power Flows
topic Optimization and Control
url https://arxiv.org/abs/2310.18507