The geological CO sub(2) storage capacity of the Jeju Basin, offshore southern Korea, estimated using the storage efficiency

The geological CO sub(2) storage capacity of the Jeju Basin, offshore southern Korea, estimated using the storage efficiency

We estimated the storage capacity for geological CO sub(2) sequestration of the Jeju Basin off southern Korea, northern East China Sea using the storage efficiency and a deterministic, volumetric method. We analyzed seismic and well-log data to get the geological parameters and used the storage effi...

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Bibliographic Details
Published in:International journal of greenhouse gas control Vol. 23; pp. 22 - 29
Main Authors: Lee, Gwang H, Lee, Bumsuk, Kim, Han-Joon, Lee, Keumsuk, Park, Myong-ho
Format: Journal Article
Language:English
Published: 01-04-2014
Subjects:
INW, Donghai Sea
INW, Korea, Rep
Online Access:Get full text
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Summary:We estimated the storage capacity for geological CO sub(2) sequestration of the Jeju Basin off southern Korea, northern East China Sea using the storage efficiency and a deterministic, volumetric method. We analyzed seismic and well-log data to get the geological parameters and used the storage efficiency parameters for deep saline, nonmarine sediments in open systems. The time interval of the basin fill from 1.2 to 2.8 s two-way traveltime was selected for the depth zone for CO sub(2) storage. This interval corresponds to the depth range of about 1200 m to about 3900 m and occurs mostly below the Late-Miocene unconformity which largely separates the thin nonmarine to shallow-marine sediments above and the thicker nonmarine sediments below. The time interval was divided into eight layers of equal time thickness of 0.2 s two-way traveltime to determine the representative porosity and the in situ pressure, temperature, and density of CO sub(2) for different depth ranges. The estimated geological CO sub(2) storage capacities for the rock volume in the eight-layer interval range from about 23.5 x 10 super(12) kg (23.5 Gt) to about 687.0 x 10 super(12) kg (687 Gt) with an average of about 196.0 x 10 super(12) kg (196.0 Gt).
Bibliography:ObjectType-Article-2
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ISSN:1750-5836
DOI:10.1016/j.ijggc.2014.01.014