Journal of the Korean Society of Mineral and Energy Resources Engineers ISSN:2288-0291(Print) 2288-2790(Online) 한국자원공학회지

Boot-Handford, M.E., Abanades, J.C., Anthony, E.J., Blunt, M.J., Brandani, S., Mac Dowell, N., ... and Fennell, P.S., 2014. Carbon capture and storage update, Energy & Environmental Science, 7(1), 1p.

Cho, Y.J., Oh, J.W., and Park, S.E., 2024. Current Status and Suitability Analysis of Smeaheia Carbon Capture and Storage Project in Norway (in Korea), Journal of the Korean Institute of Mineral and Energy Resources Engineers, 61(5), p.1-2.

Crosera, A., 2022. Transboundary Carbon Capture and Storage (CCS) networks in the European context: the "Northern Lights" case study, Master's Thesis, UiT Norges Arktiske Universitet, p.10-16.

Einen, C., Jordal, A.B.K., Rohde, D., and Roussanaly, S., 2020. Forstudie: CCS i Midt-Norge, SINTEF Rapport, p.8-10.

Fuss, S. and Johnsson, F., 2021. The BECCS implementation gap - A Swedish case study, Frontiers in Energy Research, 8, 553400, p.6-7.

Gaurina-Međimurec, N., Novak-Mavar, K., and Majić, M., 2018. Carbon capture and storage (CCS): Technology, projects and monitoring review, The Mining-Geology-Petroleum Engineering Bulletin, 33(2), p.5-7.

Gough, C. and Upham, P., 2010. Biomass energy with carbon capture and storage (BECCS): a review, Tyndall Centre for Climate Change Research, Working Paper, p.4-9.

Haszeldine, R.S., 2009. Carbon capture and storage: how green can black be?, Science, 325(5948), 1p.

Holden, N., 2021. Structural characterization and across-fault seal assessment of the Aurora CO₂ storage site, Master's thesis, 104p.

Holden, N., Osmond, J.L., Mulrooney, M.J., Braathen, A., Skurtveit, E., and Sundal, A., 2022. Structural characterization and across-fault seal assessment of the Aurora CO₂ storage site, northern North Sea, Petroleum Geoscience, 28(4), petgeo2022-036, 3p.

IEA (International Energy Agency), 2024.11.19., https://www.iea.org/reports/ccus-in-clean-energy-transitions

Jackson, W.A., Hampson, G.J., Jacquemyn, C., Jackson, M.D., Petrovskyy, D., Geiger, S., ... and Sousa, M.C., 2022. A screening assessment of the impact of sedimentological heterogeneity on CO₂ migration and stratigraphic-baffling potential: Johansen and Cook formations, Northern Lights project, offshore Norway, International Journal of Greenhouse Gas Control, 120, 103762, 8p.

Jordal, K., Langørgen, Ø., Kim, D., Finotti, F., Roussanaly, S., Marsh, N., and Voldsund, M., 2023. The CCS Midt-Norge cluster: industrial CCS collaboration for exploring synergies and common interests, 4p.

Karlsson, S., Normann, F., and Johnsson, F., 2024. Cost-optimal CO₂ capture and transport infrastructure - A case study of Sweden, International Journal of Greenhouse Gas Control, 132, 104055, 1p.

Krüger, T., 2015. Das Hegemonieprojekt der ökologischen Modernisierung: Die Konflikte um Carbon Capture and Storage (CCS) in der internationalen Klimapolitik, transcript Verlag, 129p.

Lee, Y.J., Kang, H.Y., Park, Y.G., Han, A.R., Lee, J.Y., and Oh, J.W., 2024. Analysis on Seismic Interpretation for Overseas Large-scale CO₂ Storage Considering Geological History Related to Plate Tectonics, Geophysics and Geophysical Exploration, 27(1), 4p.

Lefvert, A., and Grönkvist, S., 2024. Lost in the scenarios of negative emissions: The role of bio energy with carbon capture and storage (BECCS), Energy Policy, 184, 113882, 4p.

Liu, H., Consoli, C., and Zapantis, A., 2018. October, Overview of Carbon Capture and Storage (CCS) facilities globally, In 14th Greenhouse Gas Control Technologies Conference Melbourne, 2p.

Løge, M.B., 2022. Reservoir characterization and sedimentological interpretations at the Aurora CO₂ storage site: seismic facies analysis and clinoform decompaction, Master's thesis, 9p.

Marashi, S.V., 2022. Northern lights project: aurora model investigation with sensitivity studies and using different simulation methods, Master's thesis, NTNU, p.1-2.

Meneguolo, R., Sundal, A., Martinius, A.W., Veselovsky, Z., Cullum, A., and Milovanova, E., 2022. Impact of the lower Jurassic Dunlin Group depositional elements on the Aurora CO₂ storage site, EL001, northern North Sea, Norway, International Journal of Greenhouse Gas Control, 119, 103723, 14p.

Northern Lights, 2024.11.19., https://norlights.com/what-we-do/reports/

Osmond, J.L., Mulrooney, M.J., Holden, N., Skurtveit, E., Faleide, J.I., and Braathen, A., 2022. Structural traps and seals for expanding CO₂ storage in the northern Horda platform, North Sea, AAPG Bulletin, 106(9), p.1711-1752.

Psarras, P., Krutka, H., Fajardy, M., Zhang, Z., Liguori, S., Dowell, N.M., and Wilcox, J., 2017. Slicing the pie: how big could carbon dioxide removal be?, Wiley Interdisciplinary Reviews: Energy and Environment, 6(5), e253, p.7-8.

Rahman, M.J., Fawad, M., Jahren, J., and Mondol, N.H., 2022. Top seal assessment of Drake Formation shales for CO₂ storage in the Horda Platform area, offshore Norway, International Journal of Greenhouse Gas Control, 119, 103700, p.4-5.

Sundal, A., Nystuen, J.P., Rørvik, K.L., Dypvik, H., and Aagaard, P., 2016. The Lower Jurassic Johansen Formation, northern North Sea - depositional model and reservoir characterization for CO₂ storage, Marine and Petroleum Geology, 77, p.1399-1400.

Wang, R., 2023. Status and perspectives on CCUS clusters and hubs, Unconventional Resources, 100065, 4p.

Wettestad, J., Inderberg, T.H.J., and Gulbrandsen, L.H., 2024. Exploring paths and innovation in Norwegian carbon capture and storage policy, Environmental Policy and Governance, 34(2), 128p.