Title
Identifying hidden risk elements for CO2 storage from reprocessed seismic data
Author
Carpentier, S.F.A.
Abidin, H.
Steeghs, P.
Veldkamp, J.G.
Publication year
2018
Abstract
CO2 storage needs economic business cases through cost-effective exploration and production and needs license-to-operate through public support. Re-interpretation and reprocessing of vintage geophysical data is a means to achieve cost-effective exploration whereas de-risking and conformance control of storage operations is a means to obtain public support. Seismic exploration should identify risk elements for CO2 storage such as the risk of leakage, risk of pressure build-ups or drops, unexpected increase or decrease of storage capacity and spill points to name a few. These risks elements are often caused by hidden features such as a failing overburden seal, closed or open faults in either reservoir or seal and high- or low-permeability streaks in the reservoir. We have investigated a seismic reprocessing workflow for imaging and de-risking CO2 storage reservoirs and seals. The workflow includes statics, demultiple, velocity modeling, Prestack Time Migration, high resolution sparse spike deconvolution and Non Local Means filtering. Non Local Means filtering increases signal to noise ratio while preserving edges and the sparse spike deconvolution produces results with superior vertical and lateral resolution. This workflow manages at low cost to considerably de-risk the CO2 storage reservoirs and seals by identifying previously hidden faults, seal-reservoir contacts and thin reservoir streaks. © 2018 European Association of Geoscientists and Engineers, EAGE. All rights reserved.
Subject
Carbon dioxide
Cost effectiveness
Costs
Faulting
Image denoising
Low permeability reservoirs
Petroleum reservoir engineering
Seismic prospecting
Seismology
Signal to noise ratio
Conformance control
Exploration and productions
Lateral resolution
License to operate
Non-local means filtering
Prestack time migration
Seismic exploration
Storage operations
Digital storage
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TNO identifier
865914
Publisher
European Association of Geoscientists and Engineers, EAGE
ISBN
9789462822702
Source
5th CO2 Geological Storage Workshop, 5th CO2 Geological Storage Workshop, 21 November 2018 through 23 November 2018
Document type
conference paper