CO2 storage Environmental Baseline

Bodil Wesenberg Lauridsen; Katrine Elnegaard Hansen; L.T. Prins; Rishmita Mukherjee; Hans Røy; Paul Cornils Knutz

CO2 storage Environmental Baseline

Bodil Wesenberg Lauridsen, Katrine Elnegaard Hansen, L.T. Prins, Rishmita Mukherjee, Hans Røy, Paul Cornils Knutz

Publikation: Konferencebidrag › Abstract ved konference › peer review

Resumé

A main concern and hazard associated with offshore CO2 storage is leakage through the overburden sediments reaching the seabed and into the water column. We hypothesize that an early indicator of CO2 leakage from a CCS reservoir will be increased methane in the surface sediments, with thermogenic/long chain molecular signatures. In the SEABAS research study, we have tested the possibilities for proxy-based identification and development of toolboxes for identifying both methane and CO2 seepages in the abandoned reservoirs and at possible CO2 storage sites in the Danish North Sea. We propose that such a comprehensive seabed baseline analyses based on multiple tools is carried out prior to storage.

Originalsprog	Engelsk
Status	Udgivet - okt. 2024
Begivenhed	PACE Technical presentations: Legacy Wells and Monitoring - The University of Texas at Austin, Austin, USA Varighed: 16 okt. 2024 → 17 okt. 2024

Konference

Konference	PACE Technical presentations
Land/Område	USA
By	Austin
Periode	16/10/24 → 17/10/24

Programområde

Programområde 3: Energiressourcer
Programområde 5: Natur og klima

Citationsformater

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title = "CO2 storage Environmental Baseline",

abstract = "A main concern and hazard associated with offshore CO2 storage is leakage through the overburden sediments reaching the seabed and into the water column. We hypothesize that an early indicator of CO2 leakage from a CCS reservoir will be increased methane in the surface sediments, with thermogenic/long chain molecular signatures. In the SEABAS research study, we have tested the possibilities for proxy-based identification and development of toolboxes for identifying both methane and CO2 seepages in the abandoned reservoirs and at possible CO2 storage sites in the Danish North Sea. We propose that such a comprehensive seabed baseline analyses based on multiple tools is carried out prior to storage.",

author = "Lauridsen, {Bodil Wesenberg} and Hansen, {Katrine Elnegaard} and L.T. Prins and Rishmita Mukherjee and Hans R{\o}y and Knutz, {Paul Cornils}",

year = "2024",

month = oct,

language = "English",

note = "PACE Technical presentations ; Conference date: 16-10-2024 Through 17-10-2024",

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TY - CONF

T1 - CO2 storage Environmental Baseline

AU - Lauridsen, Bodil Wesenberg

AU - Hansen, Katrine Elnegaard

AU - Prins, L.T.

AU - Mukherjee, Rishmita

AU - Røy, Hans

AU - Knutz, Paul Cornils

PY - 2024/10

Y1 - 2024/10

N2 - A main concern and hazard associated with offshore CO2 storage is leakage through the overburden sediments reaching the seabed and into the water column. We hypothesize that an early indicator of CO2 leakage from a CCS reservoir will be increased methane in the surface sediments, with thermogenic/long chain molecular signatures. In the SEABAS research study, we have tested the possibilities for proxy-based identification and development of toolboxes for identifying both methane and CO2 seepages in the abandoned reservoirs and at possible CO2 storage sites in the Danish North Sea. We propose that such a comprehensive seabed baseline analyses based on multiple tools is carried out prior to storage.

AB - A main concern and hazard associated with offshore CO2 storage is leakage through the overburden sediments reaching the seabed and into the water column. We hypothesize that an early indicator of CO2 leakage from a CCS reservoir will be increased methane in the surface sediments, with thermogenic/long chain molecular signatures. In the SEABAS research study, we have tested the possibilities for proxy-based identification and development of toolboxes for identifying both methane and CO2 seepages in the abandoned reservoirs and at possible CO2 storage sites in the Danish North Sea. We propose that such a comprehensive seabed baseline analyses based on multiple tools is carried out prior to storage.

M3 - Abstract at conference

T2 - PACE Technical presentations

Y2 - 16 October 2024 through 17 October 2024

ER -