Authors

Björn Liljegren-Sailer, Nicole Marheineke

Abstract

Aiming for an efficient simulation of gas networks with active elements a structure-preserving model order reduction (MOR) approach is presented. Gas networks can be modeled by partial differential algebraic equations. We identify connected pipe subnetworks that we discretize in space and explore with index and decoupling concepts for differential algebraic equations. For the arising input-output system we derive explicit decoupled representations of the strictly proper part and the polynomial part, only depending on the topology. The proper part is characterized by a port-Hamiltonian form that allows for the development of reduced models that preserve passivity, stability and locally mass. The approach is exemplarily used for an open-loop MOR on a network with a nonlinear active element.

Citation

  • ISBN: 9783319630816
  • Publisher: Springer International Publishing
  • DOI: 10.1007/978-3-319-63082-3_69
  • Note: European Consortium for Mathematics in Industry

BibTeX

@inbook{Liljegren_Sailer_2017,
  title={{A Structure-Preserving Model Order Reduction Approach for Space-Discrete Gas Networks with Active Elements}},
  ISBN={9783319630823},
  ISSN={2198-3283},
  DOI={10.1007/978-3-319-63082-3_69},
  booktitle={{Progress in Industrial Mathematics at ECMI 2016}},
  publisher={Springer International Publishing},
  author={Liljegren-Sailer, Björn and Marheineke, Nicole},
  year={2017},
  pages={439--446}
}

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References