Advanced reprocessing and imaging: enhancing legacy surveys

Dominic Fell; Shane Westlake; Richard Patenall; Jennifer Badry

doi:10.1071/ASEG2016ab219

25th International Conference and Exhibition – Interpreting the Past, Discovering the Future

ISSN: 2202-0586
E-ISSN:

oa Advanced reprocessing and imaging: enhancing legacy surveys
Authors Dominic Fell^a, Shane Westlake^b, Richard Patenall^c and Jennifer Badry^d
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^a WesternGeco, Perth, , Australia, [email protected] ^b Finder Exploration, Perth, , Australia, [email protected] ^c WesternGeco, Perth, , Australia, [email protected] ^d Formerly WesternGeco, Perth, , Australia, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2016, Issue 25th International Conference and Exhibition – Interpreting the Past, Discovering the Future, Dec 2016, p. 1 - 5
DOI: https://doi.org/10.1071/ASEG2016ab219
- Published online: 01 Dec 2016

Abstract

This work demonstrates how fully utilizing a modern reprocessing and depth imaging sequence significantly enhances seismic data quality, thereby extracting additional value from older seismic datasets. Using an example from the northern Browse basin, a case study is presented in which the combination of broadband processing, advanced demultiple techniques and anisotropic earth model building produce significant uplift in the imaging results from what is a historically challenging basin for successful seismic data.

The reprocessing sequence was undertaken in two phases. The first phase focused on lowering the noise levels and extending the useful bandwidth of the conventionally acquired seismic data using deghosting techniques. This was combined with 2D and 3D surface demultiple techniques to produce a dataset with low noise levels and a broad signal spectrum for migration. These data were subsequently input to the second phase of the reprocessing which focused on deriving a detailed and accurate earth model. Further anisotropy analysis and well calibration routines were performed to calibrate the earth model to the well data.

The final imaging was performed using TTI Kirchhoff prestack depth migration and comparisons were made to the previous time domain imaging results undertaken in 2010.

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References

Bakulin, A., M. Woodward, Y. Liu, O. Zdraveva, D. Nichols and K. Osypov, 2010, Application of steering filters to localized anisotropic tomography with well data: 80th Annual International Meeting, SEG, Expanded Abstracts, 4286-4290.
Clapp, R. G., B.Biondi, and J.F. Claerbout, 2004, Incorporating geologic information into reflection tomography: Geophysics, 69, no. 2, 533-546.
Fell, D., K. Dyal, and R. Henderson, 2013, Advances in velocity modelling and imaging techniques in the Taranaki Basin: Presented at the 23rd Annual International Meeting, ASEG.
Woodward, M., P. Farmer, D. Nichols and S. Charles, 1998, Automated 3D tomographic velocity analysis of residual move-out in prestack depth migrated common image point gathers: 68th Annual International Meeting, SEG, Expanded Abstracts, 1218-1221.
Zdraveva, O., S. Hydal and M. Woodward, 2013, Tomography with geological constraints: an alternative solution for resolving of carbonates: Presented at the 83rd Annual International Meeting, SEG.

/content/journals/10.1071/ASEG2016ab219

Article Type: Research Article

Keyword(s): anisotropy; broadband; demultiple; tomography; velocity modelling

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