A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS

Offshore CCS (Carbon Capture and Storage) is an attractive option to clamp down on carbon emissions. Two major advantages are 1) existing infrastructure for injection and 2) well characterized reservoirs due to previous oil and gas operations. One of the biggest concerns is the possibility of leakag...

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Bibliographic Details
Main Author: Ramachandran, Hariharan
Format: Book Part
Language:English
Published: SINTEF Academic Press 2021
Subjects:
CO2 leakage
Hydrates
Offshore CCS
Modeling
Leakage risk
Leakage flux
VDP::Teknologi: 500
Sleipner
Snøhvit
Online Access:https://hdl.handle.net/11250/2786461
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record_format openpolar
spelling ftsintef:oai:sintef.brage.unit.no:11250/2786461 2023-05-15T18:20:13+02:00 A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS Ramachandran, Hariharan 2021 application/pdf https://hdl.handle.net/11250/2786461 eng eng SINTEF Academic Press TCCS–11. CO2 Capture, Transport and Storage. Trondheim 22nd–23rd June 2021. Short Papers from the 11th International Trondheim CCS Conference SINTEF Proceedings;7 urn:isbn:978-82-536-1714-5 urn:issn:2387-4295 https://hdl.handle.net/11250/2786461 CC BY 4.0 https://creativecommons.org/licenses/by/4.0/ © 2021 The Authors. Published by SINTEF Academic Press. CC-BY CO2 leakage Hydrates Offshore CCS Modeling Leakage risk Leakage flux VDP::Teknologi: 500 Chapter Peer reviewed Conference object 2021 ftsintef 2021-10-06T22:37:10Z Offshore CCS (Carbon Capture and Storage) is an attractive option to clamp down on carbon emissions. Two major advantages are 1) existing infrastructure for injection and 2) well characterized reservoirs due to previous oil and gas operations. One of the biggest concerns is the possibility of leakage. Leakage is likely when CO2 plume encounters improperly abandoned wellbores, pre-existing conductive faults, or reactivated faults amongst others. The hazard of leakage strongly depends on the leakage fluxes and rates. Hydrates may form and throttle leakage if the pressuretemperature conditions within the pathway reach hydrate stable conditions. Thus, a useful component of risk assessment is to model CO2 leakage and assess potential for hydrate formation conditions. In this short paper, we describe a model for flow of CO2 along a leakage pathway. We assume single phase flow of CO2 with variable fluid properties and a continuous leakage pathway with constant thickness. These assumptions help obtain worst-case estimates of leakage fluxes and rates. Expected leakage fluxes and rates are estimated along with the effect of pathway permeability and reservoir overpressure on it. Pressure-temperature conditions are checked if they fall within the CO2 hydrate stable conditions for typical Norwegian Continental Shelf (NCS) Storage projects (Sleipner, Snøhvit and Aurora projects). Formed hydrates reduce the permeability of the pathway and has the potential to temporarily block leakage or redirect leakage in different directions. The aim of this study is to understand the relationship between pathway properties, regional conditions, leakage pressure profile and hydrate formation on leakage fluxes and rates. publishedVersion Book Part Snøhvit SINTEF Open (Brage) Sleipner ENVELOPE(-41.417,-41.417,63.883,63.883)
institution Open Polar
collection SINTEF Open (Brage)
op_collection_id ftsintef
language English
topic CO2 leakage
Hydrates
Offshore CCS
Modeling
Leakage risk
Leakage flux
VDP::Teknologi: 500
spellingShingle CO2 leakage
Hydrates
Offshore CCS
Modeling
Leakage risk
Leakage flux
VDP::Teknologi: 500
Ramachandran, Hariharan
A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS
topic_facet CO2 leakage
Hydrates
Offshore CCS
Modeling
Leakage risk
Leakage flux
VDP::Teknologi: 500
description Offshore CCS (Carbon Capture and Storage) is an attractive option to clamp down on carbon emissions. Two major advantages are 1) existing infrastructure for injection and 2) well characterized reservoirs due to previous oil and gas operations. One of the biggest concerns is the possibility of leakage. Leakage is likely when CO2 plume encounters improperly abandoned wellbores, pre-existing conductive faults, or reactivated faults amongst others. The hazard of leakage strongly depends on the leakage fluxes and rates. Hydrates may form and throttle leakage if the pressuretemperature conditions within the pathway reach hydrate stable conditions. Thus, a useful component of risk assessment is to model CO2 leakage and assess potential for hydrate formation conditions. In this short paper, we describe a model for flow of CO2 along a leakage pathway. We assume single phase flow of CO2 with variable fluid properties and a continuous leakage pathway with constant thickness. These assumptions help obtain worst-case estimates of leakage fluxes and rates. Expected leakage fluxes and rates are estimated along with the effect of pathway permeability and reservoir overpressure on it. Pressure-temperature conditions are checked if they fall within the CO2 hydrate stable conditions for typical Norwegian Continental Shelf (NCS) Storage projects (Sleipner, Snøhvit and Aurora projects). Formed hydrates reduce the permeability of the pathway and has the potential to temporarily block leakage or redirect leakage in different directions. The aim of this study is to understand the relationship between pathway properties, regional conditions, leakage pressure profile and hydrate formation on leakage fluxes and rates. publishedVersion
format Book Part
author Ramachandran, Hariharan
author_facet Ramachandran, Hariharan
author_sort Ramachandran, Hariharan
title A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS
title_short A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS
title_full A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS
title_fullStr A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS
title_full_unstemmed A Model to Estimate CO2 Leakage and Identify CO2 Hydrate Stable Conditions for Offshore CCS
title_sort model to estimate co2 leakage and identify co2 hydrate stable conditions for offshore ccs
publisher SINTEF Academic Press
publishDate 2021
url https://hdl.handle.net/11250/2786461
long_lat ENVELOPE(-41.417,-41.417,63.883,63.883)
geographic Sleipner
geographic_facet Sleipner
genre Snøhvit
genre_facet Snøhvit
op_relation TCCS–11. CO2 Capture, Transport and Storage. Trondheim 22nd–23rd June 2021. Short Papers from the 11th International Trondheim CCS Conference
SINTEF Proceedings;7
urn:isbn:978-82-536-1714-5
urn:issn:2387-4295
https://hdl.handle.net/11250/2786461
op_rights CC BY 4.0
https://creativecommons.org/licenses/by/4.0/
© 2021 The Authors. Published by SINTEF Academic Press.
op_rightsnorm CC-BY
_version_ 1766197707533189120

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