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Technical Abstract

Resolving 4D Overburden Changes with Full-Waveform Inversion

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4D time-lapse seismic imaging is typically performed using the same velocity model to migrate the baseline and monitor data. However, in complex cases where one producing reservoir sits above another, significant changes in the properties of the overlying reservoir can result in a 4D signal with associated 4D coda immediately below it, which would mask the 4D signal of reservoirs underneath. Resolving such an issue requires that the baseline and monitor data be migrated with separate models. We demonstrate how we have used a visco-acoustic full-waveform inversion to resolve 4D changes in velocity and absorption within an overburden gas-charged channel. The resulting 4D image shows minimisation of 4D coda below the overburden channel and the unveiling of 4D signals at deeper targets of interest.
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Publications

EAGE - European Association of Geoscientists and Engineers

Authors

Ololade Bukola, Bingmu Xiao, James Sinden (CGG) ; Edith Miller, Peter Nevill (Chevron Technology Centre) ; Lydia Novakovic (Chevron North America Exploration and Production)

Month

May

Copyright

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