Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers

The increasing concentration of greenhouse gases in the atmosphere and hydrosphere is causing changes to global climate. Geological carbon sequestration is a proven technology for reducing anthropogenic emissions in the atmosphere. However, leakage of CO2 along natural fluid pathways, which are imag...

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Bibliographic Details
Main Author:	Schramm, Bettina
Other Authors:	Berndt, Christian, Krastel-Gudegast, Sebastian
Format:	Doctoral or Postdoctoral Thesis
Language:	English
Published:	2023
Subjects:	thesis ddc:550 3D seismic travel time forward modelling and inversion fluid flow conduits ocean bottom seismometers Lunde Svalbard Svalbard margin
Online Access:	https://nbn-resolving.org/urn:nbn:de:gbv:8:3-2024-00007-8 https://macau.uni-kiel.de/receive/macau_mods_00004288 https://macau.uni-kiel.de/servlets/MCRFileNodeServlet/macau_derivate_00005540/Dissertation.pdf

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record_format	openpolar
spelling	ftunivkiel:oai:macau.uni-kiel.de:macau_mods_00004288 2024-06-23T07:57:05+00:00 Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers Schramm, Bettina Berndt, Christian Krastel-Gudegast, Sebastian 2023 https://nbn-resolving.org/urn:nbn:de:gbv:8:3-2024-00007-8 https://macau.uni-kiel.de/receive/macau_mods_00004288 https://macau.uni-kiel.de/servlets/MCRFileNodeServlet/macau_derivate_00005540/Dissertation.pdf eng eng https://nbn-resolving.org/urn:nbn:de:gbv:8:3-2024-00007-8 https://macau.uni-kiel.de/receive/macau_mods_00004288 https://macau.uni-kiel.de/servlets/MCRFileNodeServlet/macau_derivate_00005540/Dissertation.pdf https://rightsstatements.org/page/InC/1.0/ info:eu-repo/semantics/openAccess thesis ddc:550 3D seismic travel time forward modelling and inversion fluid flow conduits ocean bottom seismometers dissertation Text doc-type:PhDThesis 2023 ftunivkiel 2024-06-12T14:18:00Z The increasing concentration of greenhouse gases in the atmosphere and hydrosphere is causing changes to global climate. Geological carbon sequestration is a proven technology for reducing anthropogenic emissions in the atmosphere. However, leakage of CO2 along natural fluid pathways, which are imaged as seismic pipes and chimneys, may affect storage formation integrity. These fluid flow conduits are observed in marine basins globally, passing vertically through kilometres of sedimentary overburden. However, the nature and physical properties of fluid flow conduits are currently poorly understood. In this thesis, I characterise active fluid conduits in the Central North Sea and at the Svalbard Margin, as well as analogous onshore in Varna, Bulgaria. I present three-dimensional seismic P-wave travel time tomographies using ocean bottom seismometers to constrain the geometry, the geophysical properties and the material inside of fluid flow conduits. A key aim is to compare fluid flow conduits in marine basins based on the studies of a pipe structure beneath the Scanner Pockmark, Central North Sea, and a chimney below the Lunde Pockmark, Svalbard Margin. My results imply a diverse range of the internal structures of fluid flow conduits. The analysis of the 3D P-wave velocity demonstrates that fluid flow conduits are fundamentally different in their geophysical and hydraulic characteristics depending on depth and the geological setting. The results of my thesis highlight the complexity in evaluating fluid flow conduits, the necessity of their detailed assessment for any offshore carbon storage site selection, and the necessity to investigate their potential to function as pathways for CO2 and to ensure the integrity of the reservoir for CO2 sequestration. Doctoral or Postdoctoral Thesis Svalbard Svalbard margin Lunde MACAU: Open Access Repository of Kiel University Lunde ENVELOPE(50.467,50.467,-66.967,-66.967) Svalbard
institution	Open Polar
collection	MACAU: Open Access Repository of Kiel University
op_collection_id	ftunivkiel
language	English
topic	thesis ddc:550 3D seismic travel time forward modelling and inversion fluid flow conduits ocean bottom seismometers
spellingShingle	thesis ddc:550 3D seismic travel time forward modelling and inversion fluid flow conduits ocean bottom seismometers Schramm, Bettina Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers
topic_facet	thesis ddc:550 3D seismic travel time forward modelling and inversion fluid flow conduits ocean bottom seismometers
description	The increasing concentration of greenhouse gases in the atmosphere and hydrosphere is causing changes to global climate. Geological carbon sequestration is a proven technology for reducing anthropogenic emissions in the atmosphere. However, leakage of CO2 along natural fluid pathways, which are imaged as seismic pipes and chimneys, may affect storage formation integrity. These fluid flow conduits are observed in marine basins globally, passing vertically through kilometres of sedimentary overburden. However, the nature and physical properties of fluid flow conduits are currently poorly understood. In this thesis, I characterise active fluid conduits in the Central North Sea and at the Svalbard Margin, as well as analogous onshore in Varna, Bulgaria. I present three-dimensional seismic P-wave travel time tomographies using ocean bottom seismometers to constrain the geometry, the geophysical properties and the material inside of fluid flow conduits. A key aim is to compare fluid flow conduits in marine basins based on the studies of a pipe structure beneath the Scanner Pockmark, Central North Sea, and a chimney below the Lunde Pockmark, Svalbard Margin. My results imply a diverse range of the internal structures of fluid flow conduits. The analysis of the 3D P-wave velocity demonstrates that fluid flow conduits are fundamentally different in their geophysical and hydraulic characteristics depending on depth and the geological setting. The results of my thesis highlight the complexity in evaluating fluid flow conduits, the necessity of their detailed assessment for any offshore carbon storage site selection, and the necessity to investigate their potential to function as pathways for CO2 and to ensure the integrity of the reservoir for CO2 sequestration.
author2	Berndt, Christian Krastel-Gudegast, Sebastian
format	Doctoral or Postdoctoral Thesis
author	Schramm, Bettina
author_facet	Schramm, Bettina
author_sort	Schramm, Bettina
title	Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers
title_short	Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers
title_full	Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers
title_fullStr	Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers
title_full_unstemmed	Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers
title_sort	seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers
publishDate	2023
url	https://nbn-resolving.org/urn:nbn:de:gbv:8:3-2024-00007-8 https://macau.uni-kiel.de/receive/macau_mods_00004288 https://macau.uni-kiel.de/servlets/MCRFileNodeServlet/macau_derivate_00005540/Dissertation.pdf
long_lat	ENVELOPE(50.467,50.467,-66.967,-66.967)
geographic	Lunde Svalbard
geographic_facet	Lunde Svalbard
genre	Svalbard Svalbard margin Lunde
genre_facet	Svalbard Svalbard margin Lunde
op_relation	https://nbn-resolving.org/urn:nbn:de:gbv:8:3-2024-00007-8 https://macau.uni-kiel.de/receive/macau_mods_00004288 https://macau.uni-kiel.de/servlets/MCRFileNodeServlet/macau_derivate_00005540/Dissertation.pdf
op_rights	https://rightsstatements.org/page/InC/1.0/ info:eu-repo/semantics/openAccess
_version_	1802650542787264512

Seismic travel time forward modelling and inversion of fluid flow conduits in marine sediments using ocean bottom seismometers

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