Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation

Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation

The Lobodice underground gas storage (UGS) is developed in a natural aquifer reservoir located in the Central Moravian part of the Carpathian Foredeep in the Czech Republic. In order to learn more about the UGS geological structure a 3D seismic survey was performed in 2009. The reservoir is rather s...

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Main Authors: Lukáš KOPAL, Pavel ČÍŽEK, Ján MILIČKA
Format: Article
Language:English
Published: Earth Science Institute, Slovak Academy of Sciences, Slovakia 2016-06-01
Series:Contributions to Geophysics and Geodesy
Subjects:
underground gas storage, 3d seismic acquisition and processing, 3d seismic interpretation
Online Access:https://journal.geo.sav.sk/cgg/article/view/149
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spelling doaj-93385e127a264b2fae816a49e0bad1352020-11-25T02:45:03ZengEarth Science Institute, Slovak Academy of Sciences, SlovakiaContributions to Geophysics and Geodesy1338-05402016-06-0146212513510.1515/congeo-2016-0009149Geological model of Lobodice underground gas storage facility based on 3D seismic interpretationLukáš KOPAL0Pavel ČÍŽEK1Ján MILIČKA2RWE Gas Storage, s.r.o., Prosecká 855/63 190 00 Praha 9, Czech RepublicRWE Gas Storage, s.r.o., Prosecká 855/63 190 00 Praha 9, Czech RepublicFaculty of Natural Sciences, Comenius University, Bratislava, Slovak RepublicThe Lobodice underground gas storage (UGS) is developed in a natural aquifer reservoir located in the Central Moravian part of the Carpathian Foredeep in the Czech Republic. In order to learn more about the UGS geological structure a 3D seismic survey was performed in 2009. The reservoir is rather shallow, 400–500 m below the surface. This article describes the process workflow from the 3D seismic field data acquisition to the creation of the geological model. The outcomes of this workflow define the geometry of the UGS reservoir, its tectonics and the sealing features of the structure. Better geological knowledge of the reservoir will reduce the risks involved in the localization of new wells for increasing UGS withdrawal rates.https://journal.geo.sav.sk/cgg/article/view/149underground gas storage, 3d seismic acquisition and processing, 3d seismic interpretation
collection DOAJ
language English
format Article
sources DOAJ
author Lukáš KOPAL
Pavel ČÍŽEK
Ján MILIČKA
spellingShingle Lukáš KOPAL
Pavel ČÍŽEK
Ján MILIČKA
Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation
Contributions to Geophysics and Geodesy
underground gas storage, 3d seismic acquisition and processing, 3d seismic interpretation
author_facet Lukáš KOPAL
Pavel ČÍŽEK
Ján MILIČKA
author_sort Lukáš KOPAL
title Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation
title_short Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation
title_full Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation
title_fullStr Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation
title_full_unstemmed Geological model of Lobodice underground gas storage facility based on 3D seismic interpretation
title_sort geological model of lobodice underground gas storage facility based on 3d seismic interpretation
publisher Earth Science Institute, Slovak Academy of Sciences, Slovakia
series Contributions to Geophysics and Geodesy
issn 1338-0540
publishDate 2016-06-01
description The Lobodice underground gas storage (UGS) is developed in a natural aquifer reservoir located in the Central Moravian part of the Carpathian Foredeep in the Czech Republic. In order to learn more about the UGS geological structure a 3D seismic survey was performed in 2009. The reservoir is rather shallow, 400–500 m below the surface. This article describes the process workflow from the 3D seismic field data acquisition to the creation of the geological model. The outcomes of this workflow define the geometry of the UGS reservoir, its tectonics and the sealing features of the structure. Better geological knowledge of the reservoir will reduce the risks involved in the localization of new wells for increasing UGS withdrawal rates.
topic underground gas storage, 3d seismic acquisition and processing, 3d seismic interpretation
url https://journal.geo.sav.sk/cgg/article/view/149
work_keys_str_mv AT lukaskopal geologicalmodeloflobodiceundergroundgasstoragefacilitybasedon3dseismicinterpretation
AT pavelcizek geologicalmodeloflobodiceundergroundgasstoragefacilitybasedon3dseismicinterpretation
AT janmilicka geologicalmodeloflobodiceundergroundgasstoragefacilitybasedon3dseismicinterpretation
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