Affiliation:
1. NL JV DA, Norway
2. Equinor ASA, Norway
3. A/S Norske Shell, Norway
4. TotalEnergies EP Norge AS, Norway
Abstract
The Northern Lights full-scale commercial CO
2
transport and storage project is open to multi-industry capture plants, in a business still under development. The geological sequestration concept of a sloping saline aquifer raised several subsurface challenges related to timeline, data availability and development constrains, which all affected the decision process. The subsurface focus on storage security required the different disciplines to perform adjustments to the established workflows available from the hydrocarbon industry. A risk management-focused approach, front-end loading and early emphasis on containment were paramount. Here we share the experience from the Northern Lights subsurface maturation process and highlight the crucial contribution from the different disciplines in a challenging new industry.
Publisher
Geological Society of London
Reference21 articles.
1. Baines, S.J., Worden, R.H. and Jackson, R.E. 2009. Geological Storage of Carbon Dioxide XV, Association of Environmental Engineering and Geologists, 115–116.
2. Building confidence in CCS: From Sleipner to the Northern Lights Project
3. Planning deep subsurface CO2 storage monitoring for the Norwegian full-scale CCS project
4. Climate Change and the Role of Carbon Capture and Storage in Mitigation
5. Gassnova 2012. Conclusions and recommendations. Geological Storage of CO2 from Mongstad. Interim Report Johansen Formation, Report TL02-GTL-Z-RA-0001, 231–232, Gassnova.
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