Long-term monitoring of relict wells: the development of a real-time acoustic-chemical lander for Project Greensand
Long-term monitoring of relict wells: the development of a real-time acoustic-chemical lander for Project Greensand
The worldwide development of marine carbon capture and storage complexes necessitates sophisticated monitoring tools capable of detecting real-time changes. In coastal seas, there are growing tensions between wind farm developments and proposed carbon capture and storage complexes which underlie them. 3D seismic reflection surveys are not thought to be possible within the boundaries of wind farms, and while 4D seismic reflection can sometimes track large scale sub-surface gas migration, they struggle to detect small scale leaks and are expensive and environmentally unfriendly.
One of the most likely leakage pathways are relict wells which could be pathways for the rapid ascent of buried CO2 to the seabed. As the location of relict wells in storage sites is well known it is possible to design a Measurement, Monitoring and Verification plan which incorporates a small number of landers to continuously monitor these “higher risk zones” throughout a complex’s life. Here we describe a lander developed as part of Project Greensand Phase 2, a large-scale CCS initiative offshore Denmark, and present results from a dockside experiment. The lander comprises chemical sensors to monitor pH, nitrate, alkalinity, local currents, and the salinity; a multibeam echosounder which can detect CO2 bubble streams; battery and communication equipment.
CCS, Carbon, chemical sensors, Acoustic imaging
Roche, Ben
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Schaap, Allison
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Morris, Andrew
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Bull, Jonathan
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White, Paul
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Eikeland, Anna Zink
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Frederiksen, Maj
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Roche, Ben
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Schaap, Allison
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Morris, Andrew
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Bull, Jonathan
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White, Paul
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Eikeland, Anna Zink
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Frederiksen, Maj
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Roche, Ben, Schaap, Allison, Morris, Andrew, Bull, Jonathan, White, Paul, Eikeland, Anna Zink and Frederiksen, Maj
(2023)
Long-term monitoring of relict wells: the development of a real-time acoustic-chemical lander for Project Greensand.
GET 2023: 4th EAGE Global Energy Transition Conference and Exhibition, , Paris, France.
14 - 17 Nov 2023.
5 pp
.
(In Press)
Record type:
Conference or Workshop Item
(Paper)
Abstract
The worldwide development of marine carbon capture and storage complexes necessitates sophisticated monitoring tools capable of detecting real-time changes. In coastal seas, there are growing tensions between wind farm developments and proposed carbon capture and storage complexes which underlie them. 3D seismic reflection surveys are not thought to be possible within the boundaries of wind farms, and while 4D seismic reflection can sometimes track large scale sub-surface gas migration, they struggle to detect small scale leaks and are expensive and environmentally unfriendly.
One of the most likely leakage pathways are relict wells which could be pathways for the rapid ascent of buried CO2 to the seabed. As the location of relict wells in storage sites is well known it is possible to design a Measurement, Monitoring and Verification plan which incorporates a small number of landers to continuously monitor these “higher risk zones” throughout a complex’s life. Here we describe a lander developed as part of Project Greensand Phase 2, a large-scale CCS initiative offshore Denmark, and present results from a dockside experiment. The lander comprises chemical sensors to monitor pH, nitrate, alkalinity, local currents, and the salinity; a multibeam echosounder which can detect CO2 bubble streams; battery and communication equipment.
Text
Roche_EAGE_GET_2023_Paper_for_Pure
- Accepted Manuscript
More information
Accepted/In Press date: November 2023
Venue - Dates:
GET 2023: 4th EAGE Global Energy Transition Conference and Exhibition, , Paris, France, 2023-11-14 - 2023-11-17
Keywords:
CCS, Carbon, chemical sensors, Acoustic imaging
Identifiers
Local EPrints ID: 482477
URI: http://eprints.soton.ac.uk/id/eprint/482477
PURE UUID: 67f7f9c4-a608-4c4f-8280-7a5badbc8ff3
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Date deposited: 09 Oct 2023 16:39
Last modified: 18 Mar 2024 02:39
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Contributors
Author:
Ben Roche
Author:
Allison Schaap
Author:
Andrew Morris
Author:
Anna Zink Eikeland
Author:
Maj Frederiksen
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