Multiscale characterisation of chimneys/pipes: Fluid escape structures within sedimentary basins. (March 2021)

Record Type:: Journal Article
Title:: Multiscale characterisation of chimneys/pipes: Fluid escape structures within sedimentary basins. (March 2021)
Main Title:: Multiscale characterisation of chimneys/pipes: Fluid escape structures within sedimentary basins
Authors:: Robinson, Adam H.
Callow, Ben
Böttner, Christoph
Yilo, Naima
Provenzano, Giuseppe
Falcon-Suarez, Ismael H.
Marín-Moreno, Héctor
Lichtschlag, Anna
Bayrakci, Gaye
Gehrmann, Romina
Parkes, Lou
Roche, Ben
Saleem, Umer
Schramm, Bettina
Waage, Malin
Lavayssière, Aude
Li, Jianghui
Jedari-Eyvazi, Farid
Sahoo, Sourav
Deusner, Christian
Kossel, Elke
Minshull, Timothy A.
Berndt, Christian
Bull, Jonathan M.
Dean, Marcella
James, Rachael H.
Chapman, Mark
Best, Angus I.
Bünz, Stefan
Chen, Baixin
… (more)
Abstract:: Highlights: The STEMM-CCS & CHIMNEY projects conducted a novel field experiment in the North Sea. Subsurface fluid flow below active pockmarks in shallow sediment overburden assessed. Seismic chimneys/pipes characterised using a new multi-scale, multi-method approach. Method capabilities, co-dependencies and required future developments explained. New method approach integrates into risk-based frameworks for CO2 storage operations. Abstract: Evaluation of seismic reflection data has identified the presence of fluid escape structures cross-cutting overburden stratigraphy within sedimentary basins globally. Seismically-imaged chimneys/pipes are considered to be possible pathways for fluid flow, which may hydraulically connect deeper strata to the seabed. The properties of fluid migration pathways through the overburden must be constrained to enable secure, long-term subsurface carbon dioxide (CO2 ) storage. We have investigated a site of natural active fluid escape in the North Sea, the Scanner pockmark complex, to determine the physical characteristics of focused fluid conduits, and how they control fluid flow. Here we show that a multi-scale, multi-disciplinary experimental approach is required for complete characterisation of fluid escape structures. Geophysical techniques are necessary to resolve fracture geometry and subsurface structure (e.g., multi-frequency seismics) and physical parameters of sediments (e.g., controlled source electromagnetics) across a wide range of … (more)
Is Part Of:: International journal of greenhouse gas control. Volume 106(2021)
Journal:: International journal of greenhouse gas control
Issue:: Volume 106(2021)
Issue Display:: Volume 106, Issue 2021 (2021)
Year:: 2021
Volume:: 106
Issue:: 2021
Issue Sort Value:: 2021-0106-2021-0000
Page Start:
Page End:
Publication Date:: 2021-03
Subjects:: Chimneys -- Pipes -- Overburden -- CO2 sequestration -- Geological storage -- North Sea
Greenhouse gases -- Environmental aspects -- Periodicals
Air -- Purification -- Technological innovations -- Periodicals
Gaz à effet de serre -- Périodiques
Gaz à effet de serre -- Réduction -- Périodiques
Air -- Purification -- Technological innovations
Greenhouse gases -- Environmental aspects
Periodicals
363.73874605
Journal URLs:: http://rave.ohiolink.edu/ejournals/issn/17505836/ ↗
http://www.sciencedirect.com/science/journal/17505836 ↗
http://www.elsevier.com/journals ↗
DOI:: 10.1016/j.ijggc.2020.103245 ↗
Languages:: English
ISSNs:: 1750-5836
Deposit Type:: Legaldeposit
View Content:: Available online (eLD content is only available in our Reading Rooms) ↗
Physical Locations:: British Library DSC - 4542.268600
British Library DSC - BLDSS-3PM
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Ingest File:: 16171.xml