CO2 storage potential in Denmark ‒ Scientific results and perspectives from investigations of selected geological structures in the CCS2022‒2024 project

Ulrik Gregersen; Marie Keiding; Michael B.W. Fyhn; Tanni Abramovitz; Morten Bjerager; Henrik Vosgerau; Florian W.H. Smit; Anders Mathiesen; Finn Mørk; Thomas Funck; Niels H. Schovsbo; Henrik I. Petersen; Lars H. Nielsen; Karen Dybkjær; Bodil W. Lauridsen; Emma Sheldon; Gunver K. Pedersen; Carsten M. Nielsen; Erik S. Rasmussen; Alireza Malehmir; Myrto Papadopoulou; Samuel Zappalá; Magdalena Markovic; Michael Westgate; Jolanta Putnaite; Emmanouil Konstantinidis; Kristina Kucinskaite; Axel Erhardt; Egon Nørmark

CO₂ storage potential in Denmark ‒ Scientific results and perspectives from investigations of selected geological structures in the CCS2022‒2024 project

Ulrik Gregersen, Marie Keiding, Michael B.W. Fyhn, Tanni Abramovitz , Morten Bjerager, Henrik Vosgerau, Florian W.H. Smit, Anders Mathiesen, Finn Mørk, Thomas Funck, Niels H. Schovsbo, Henrik I. Petersen, Lars H. Nielsen, Karen Dybkjær, Bodil W. Lauridsen, Emma Sheldon, Gunver K. Pedersen, Carsten M. Nielsen, Erik S. Rasmussen, Alireza MalehmirMyrto Papadopoulou, Samuel Zappalá, Magdalena Markovic, Michael Westgate, Jolanta Putnaite, Emmanouil Konstantinidis, Kristina Kucinskaite, Axel Erhardt, Egon Nørmark

Publikation: Konferencebidrag › Abstract ved konference

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Resumé

Geological storage of CO₂ is an important method for reducing greenhouse gasses as described by UN’s Climate Panel (IPCC, 2005) and is a part of the Danish Government’s climate efforts following the Danish Climate Act from 2020 with an aim of net zero emission of greenhouse gas in 2050. Therefore, GEUS has investigated large deep structures for potential CO2 storage in a comprehensive three-year research project (Gregersen et al., 2025). This CCS2022–2024 project was carried out for five onshore structures (the Stenlille, Havnsø, Rødby, Gassum and Thorning structures) and three offshore-nearshore structures (the Inez, Lisa and Jammerbugt structures) (Figure 1). New seismic surveys were acquired in collaboration with partners mainly from Uppsala University (onshore) and BGR and Aarhus University (offshore). The subsequent investigations describe and define the structures with their geometry, larger faults, key reservoirs and seal formations, as a thorough initial maturation for the authorities. Reports, assessments and data are publicly available. The reports, the new seismic data and seismic interpretations provided new knowledge of the structures, most of which were poorly known previously. The significant new scientific key results of this major project are presented.

Originalsprog	Engelsk
Antal sider	5
Status	Udgivet - 2025
Begivenhed	13th Trondheim CCS Conference - NTNU Gløshaugen Campus, Trondheim, Norge Varighed: 16 jun. 2025 → 19 jun. 2025 Konferencens nummer: 13

Konference

Konference	13th Trondheim CCS Conference
Forkortet titel	TCCS-13
Land/Område	Norge
By	Trondheim
Periode	16/06/25 → 19/06/25

Programområde

Programområde 3: Energiressourcer

FN’s Verdensmål

Dette resultat bidrager til følgende verdensmål

Adgang til dokumentet

AbstractForlagets udgivne version, 583 KBLicens: Ikke-specificeret
PresentationLicens: Ikke-specificeret

Citationsformater

@conference{df5a2bbdd3c048678f55d4066954738d,

title = "CO2 storage potential in Denmark ‒ Scientific results and perspectives from investigations of selected geological structures in the CCS2022‒2024 project",

abstract = "Geological storage of CO2 is an important method for reducing greenhouse gasses as described by UN{\textquoteright}s Climate Panel (IPCC, 2005) and is a part of the Danish Government{\textquoteright}s climate efforts following the Danish Climate Act from 2020 with an aim of net zero emission of greenhouse gas in 2050. Therefore, GEUS has investigated large deep structures for potential CO2 storage in a comprehensive three-year research project (Gregersen et al., 2025). This CCS2022–2024 project was carried out for five onshore structures (the Stenlille, Havns{\o}, R{\o}dby, Gassum and Thorning structures) and three offshore-nearshore structures (the Inez, Lisa and Jammerbugt structures) (Figure 1). New seismic surveys were acquired in collaboration with partners mainly from Uppsala University (onshore) and BGR and Aarhus University (offshore). The subsequent investigations describe and define the structures with their geometry, larger faults, key reservoirs and seal formations, as a thorough initial maturation for the authorities. Reports, assessments and data are publicly available. The reports, the new seismic data and seismic interpretations provided new knowledge of the structures, most of which were poorly known previously. The significant new scientific key results of this major project are presented.",

author = "Ulrik Gregersen and Marie Keiding and Fyhn, {Michael B.W.} and Tanni Abramovitz and Morten Bjerager and Henrik Vosgerau and Smit, {Florian W.H.} and Anders Mathiesen and Finn M{\o}rk and Thomas Funck and Schovsbo, {Niels H.} and Petersen, {Henrik I.} and Nielsen, {Lars H.} and Karen Dybkj{\ae}r and Lauridsen, {Bodil W.} and Emma Sheldon and Pedersen, {Gunver K.} and Nielsen, {Carsten M.} and Rasmussen, {Erik S.} and Alireza Malehmir and Myrto Papadopoulou and Samuel Zappal{\'a} and Magdalena Markovic and Michael Westgate and Jolanta Putnaite and Emmanouil Konstantinidis and Kristina Kucinskaite and Axel Erhardt and Egon N{\o}rmark",

year = "2025",

language = "English",

note = "13th Trondheim CCS Conference, TCCS-13 ; Conference date: 16-06-2025 Through 19-06-2025",

}

Gregersen, U , Keiding, M , Fyhn, MBW , Abramovitz , T , Bjerager, M , Vosgerau, H , Smit, FWH , Mathiesen, A , Mørk, F , Funck, T , Schovsbo, NH , Petersen, HI , Nielsen, LH , Dybkjær, K , Lauridsen, BW , Sheldon, E , Pedersen, GK , Nielsen, CM , Rasmussen, ES, Malehmir, A, Papadopoulou, M, Zappalá, S, Markovic, M, Westgate, M, Putnaite, J, Konstantinidis, E, Kucinskaite, K, Erhardt, A & Nørmark, E 2025, 'CO₂ storage potential in Denmark ‒ Scientific results and perspectives from investigations of selected geological structures in the CCS2022‒2024 project', 13th Trondheim CCS Conference, Trondheim, Norge, 16/06/25 - 19/06/25.

TY - CONF

T1 - CO2 storage potential in Denmark ‒ Scientific results and perspectives from investigations of selected geological structures in the CCS2022‒2024 project

AU - Gregersen, Ulrik

AU - Keiding, Marie

AU - Fyhn, Michael B.W.

AU - Abramovitz , Tanni

AU - Bjerager, Morten

AU - Vosgerau, Henrik

AU - Smit, Florian W.H.

AU - Mathiesen, Anders

AU - Mørk, Finn

AU - Funck, Thomas

AU - Schovsbo, Niels H.

AU - Petersen, Henrik I.

AU - Nielsen, Lars H.

AU - Dybkjær, Karen

AU - Lauridsen, Bodil W.

AU - Sheldon, Emma

AU - Pedersen, Gunver K.

AU - Nielsen, Carsten M.

AU - Rasmussen, Erik S.

AU - Malehmir, Alireza

AU - Papadopoulou, Myrto

AU - Zappalá, Samuel

AU - Markovic, Magdalena

AU - Westgate, Michael

AU - Putnaite, Jolanta

AU - Konstantinidis, Emmanouil

AU - Kucinskaite, Kristina

AU - Erhardt, Axel

AU - Nørmark, Egon

N1 - Conference code: 13

PY - 2025

Y1 - 2025

N2 - Geological storage of CO2 is an important method for reducing greenhouse gasses as described by UN’s Climate Panel (IPCC, 2005) and is a part of the Danish Government’s climate efforts following the Danish Climate Act from 2020 with an aim of net zero emission of greenhouse gas in 2050. Therefore, GEUS has investigated large deep structures for potential CO2 storage in a comprehensive three-year research project (Gregersen et al., 2025). This CCS2022–2024 project was carried out for five onshore structures (the Stenlille, Havnsø, Rødby, Gassum and Thorning structures) and three offshore-nearshore structures (the Inez, Lisa and Jammerbugt structures) (Figure 1). New seismic surveys were acquired in collaboration with partners mainly from Uppsala University (onshore) and BGR and Aarhus University (offshore). The subsequent investigations describe and define the structures with their geometry, larger faults, key reservoirs and seal formations, as a thorough initial maturation for the authorities. Reports, assessments and data are publicly available. The reports, the new seismic data and seismic interpretations provided new knowledge of the structures, most of which were poorly known previously. The significant new scientific key results of this major project are presented.

AB - Geological storage of CO2 is an important method for reducing greenhouse gasses as described by UN’s Climate Panel (IPCC, 2005) and is a part of the Danish Government’s climate efforts following the Danish Climate Act from 2020 with an aim of net zero emission of greenhouse gas in 2050. Therefore, GEUS has investigated large deep structures for potential CO2 storage in a comprehensive three-year research project (Gregersen et al., 2025). This CCS2022–2024 project was carried out for five onshore structures (the Stenlille, Havnsø, Rødby, Gassum and Thorning structures) and three offshore-nearshore structures (the Inez, Lisa and Jammerbugt structures) (Figure 1). New seismic surveys were acquired in collaboration with partners mainly from Uppsala University (onshore) and BGR and Aarhus University (offshore). The subsequent investigations describe and define the structures with their geometry, larger faults, key reservoirs and seal formations, as a thorough initial maturation for the authorities. Reports, assessments and data are publicly available. The reports, the new seismic data and seismic interpretations provided new knowledge of the structures, most of which were poorly known previously. The significant new scientific key results of this major project are presented.

M3 - Abstract at conference

T2 - 13th Trondheim CCS Conference

Y2 - 16 June 2025 through 19 June 2025

ER -