A Linearized Numerical Solution for Steady-State Simulations of Gas Networks

A Linearized Numerical Solution for Steady-State Simulations of Gas Networks

Considering the changes of gas transmission system (hereinafter – GTS) brought about by diversification of gas suppliers, new interconnections with European GTS and implementation of an open electricity market and then an open gas market, a steady-state GTS modelling tool has been developed for futu...

Full description

Bibliographic Details
Main Authors: Zalitis I., Dolgicers A., Zemite L., Ganter S., Kopustinskas V., Vamanu B., Bode I., Kozadajevs J.
Format: Article
Language:English
Published: Sciendo 2021-06-01
Series:Latvian Journal of Physics and Technical Sciences
Subjects:
modelling
natural gas
steady state
transmission system
Online Access:https://doi.org/10.2478/lpts-2021-0022
id doaj-f6a2914c212f4949a545421aed6981c2
record_format Article
spelling doaj-f6a2914c212f4949a545421aed6981c22021-09-06T19:22:27ZengSciendoLatvian Journal of Physics and Technical Sciences2255-88962021-06-0158313715310.2478/lpts-2021-0022A Linearized Numerical Solution for Steady-State Simulations of Gas NetworksZalitis I.0Dolgicers A.1Zemite L.2Ganter S.3Kopustinskas V.4Vamanu B.5Bode I.6Kozadajevs J.7Riga Technical University, Institute of Power Engineering,, 12-1 Azenes Str., Riga, LV-1048, LatviaRiga Technical University, Institute of Power Engineering,, 12-1 Azenes Str., Riga, LV-1048, LatviaRiga Technical University, Institute of Power Engineering,, 12-1 Azenes Str., Riga, LV-1048, LatviaFraunhofer Institute for High-Speed Dynamics Am Klingelberg 1, Efringen-Kirchen, 79588, GermanyEuropean Commission, Joint Research Centre (JRC), Ispra, ItalyEuropean Commission, Joint Research Centre (JRC), Ispra, ItalyRiga Technical University, Institute of Power Engineering,, 12-1 Azenes Str., Riga, LV-1048, LatviaRiga Technical University, Institute of Power Engineering,, 12-1 Azenes Str., Riga, LV-1048, LatviaConsidering the changes of gas transmission system (hereinafter – GTS) brought about by diversification of gas suppliers, new interconnections with European GTS and implementation of an open electricity market and then an open gas market, a steady-state GTS modelling tool has been developed for future implementation in the risk and resilience analysis and potentially operational planning for different GTS or other purposes. The developed method combines the linearized hydraulic conductivity approach with a technique, derived from a linear electrical circuit analysis and an additional pressure change term for modelling of active non-pipeline elements of GTS. This method also takes into consideration operational limits of compressors and pressure regulators and changes in compressibility factor and gas viscosity based on the gas composition, temperature and pressure. The paper includes part of the results obtained from a validation case study performed for the presented method.https://doi.org/10.2478/lpts-2021-0022modellingnatural gassteady statetransmission system
collection DOAJ
language English
format Article
sources DOAJ
author Zalitis I.
Dolgicers A.
Zemite L.
Ganter S.
Kopustinskas V.
Vamanu B.
Bode I.
Kozadajevs J.
spellingShingle Zalitis I.
Dolgicers A.
Zemite L.
Ganter S.
Kopustinskas V.
Vamanu B.
Bode I.
Kozadajevs J.
A Linearized Numerical Solution for Steady-State Simulations of Gas Networks
Latvian Journal of Physics and Technical Sciences
modelling
natural gas
steady state
transmission system
author_facet Zalitis I.
Dolgicers A.
Zemite L.
Ganter S.
Kopustinskas V.
Vamanu B.
Bode I.
Kozadajevs J.
author_sort Zalitis I.
title A Linearized Numerical Solution for Steady-State Simulations of Gas Networks
title_short A Linearized Numerical Solution for Steady-State Simulations of Gas Networks
title_full A Linearized Numerical Solution for Steady-State Simulations of Gas Networks
title_fullStr A Linearized Numerical Solution for Steady-State Simulations of Gas Networks
title_full_unstemmed A Linearized Numerical Solution for Steady-State Simulations of Gas Networks
title_sort linearized numerical solution for steady-state simulations of gas networks
publisher Sciendo
series Latvian Journal of Physics and Technical Sciences
issn 2255-8896
publishDate 2021-06-01
description Considering the changes of gas transmission system (hereinafter – GTS) brought about by diversification of gas suppliers, new interconnections with European GTS and implementation of an open electricity market and then an open gas market, a steady-state GTS modelling tool has been developed for future implementation in the risk and resilience analysis and potentially operational planning for different GTS or other purposes. The developed method combines the linearized hydraulic conductivity approach with a technique, derived from a linear electrical circuit analysis and an additional pressure change term for modelling of active non-pipeline elements of GTS. This method also takes into consideration operational limits of compressors and pressure regulators and changes in compressibility factor and gas viscosity based on the gas composition, temperature and pressure. The paper includes part of the results obtained from a validation case study performed for the presented method.
topic modelling
natural gas
steady state
transmission system
url https://doi.org/10.2478/lpts-2021-0022
work_keys_str_mv AT zalitisi alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT dolgicersa alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT zemitel alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT ganters alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT kopustinskasv alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT vamanub alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT bodei alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT kozadajevsj alinearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT zalitisi linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT dolgicersa linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT zemitel linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT ganters linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT kopustinskasv linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT vamanub linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT bodei linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
AT kozadajevsj linearizednumericalsolutionforsteadystatesimulationsofgasnetworks
_version_ 1717772089964888064

Similar Items