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Autori principali: Kiran, Saleha, Hussain, Farhan, Ahmad, Mian Ilyas
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.19826
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author Kiran, Saleha
Hussain, Farhan
Ahmad, Mian Ilyas
author_facet Kiran, Saleha
Hussain, Farhan
Ahmad, Mian Ilyas
contents Energy distribution networks are crucial for human societies and since they often cover large geographical areas, their physical analysis is challenging. Modeling and simulation can be used to analyze such complex energy networks. In this paper, we performed discretization on the underlying partial differential equations of a pipeline and identified the complete network model for the gas, water and power distribution network. The discretized network model can be represented in a unified state-space form, that is, a specific matrix vector form for a set of differential-algebraic equations (DAEs). Due to the size and complexity of these models, their simulation can be computationally expensive. To address this issue, we applied model order reduction to the original unified mathematical model, constructing a reduced-order model that approximates the behavior of the original model with minimal computational cost. Specifically, we utilize the tangential iterative rational Krylov algorithm (tIRKA) which ensure that the interpolation condition of the linear part of the original and the reduced nonlinear unified models are interpolating along the predefined tangent directions. A specific scenario of the energy network is simulated with and without model order reduction and the behaviour is observed in terms of its performance.
format Preprint
id arxiv_https___arxiv_org_abs_2503_19826
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Computationally Efficient Analysis of Energy Distribution Networks using Finite Volume Method and Interpolatory Model Order Reduction
Kiran, Saleha
Hussain, Farhan
Ahmad, Mian Ilyas
Analysis of PDEs
Energy distribution networks are crucial for human societies and since they often cover large geographical areas, their physical analysis is challenging. Modeling and simulation can be used to analyze such complex energy networks. In this paper, we performed discretization on the underlying partial differential equations of a pipeline and identified the complete network model for the gas, water and power distribution network. The discretized network model can be represented in a unified state-space form, that is, a specific matrix vector form for a set of differential-algebraic equations (DAEs). Due to the size and complexity of these models, their simulation can be computationally expensive. To address this issue, we applied model order reduction to the original unified mathematical model, constructing a reduced-order model that approximates the behavior of the original model with minimal computational cost. Specifically, we utilize the tangential iterative rational Krylov algorithm (tIRKA) which ensure that the interpolation condition of the linear part of the original and the reduced nonlinear unified models are interpolating along the predefined tangent directions. A specific scenario of the energy network is simulated with and without model order reduction and the behaviour is observed in terms of its performance.
title Computationally Efficient Analysis of Energy Distribution Networks using Finite Volume Method and Interpolatory Model Order Reduction
topic Analysis of PDEs
url https://arxiv.org/abs/2503.19826