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The Impact of Broadband Wavelets on Thin Bed Reservoir CharacterisationNormal access

Authors: E. Zabihi Naeini, M. Sams and K. Waters
Event name: 78th EAGE Conference and Exhibition 2016 - Workshops
Session: WS01-How Can Broadband Seismic Data Improve Reservoir Characterization?
Publication date: 31 May 2016
DOI: 10.3997/2214-4609.201601636
Organisations: EAGE
Language: English
Info: Extended abstract, PDF ( 2.76Mb )
Price: € 20

Summary:
Broadband re-processed seismic data from the NW Shelf of Australia were inverted using a standard approach to wavelet estimation. The inversion method applied was a facies-based deterministic inversion where the low-frequency model is a product of the inversion process itself, constrained by input trends, the resultant facies distribution and the match to the seismic. The results identified the presence of a gas reservoir that had recently been confirmed through drilling. The reservoir is thin, with up to 15 ms of maximum thickness. The bandwidth of the seismic data is approximately 5-70 Hz and the well data used to extract the wavelet was only 400 ms long. As such there was little control on the lowest frequencies of the wavelet. Wavelets were then estimated using a variety of new techniques that attempt to address the limitations of short well-log segments and low frequency seismic. The revised inversion produced similar results but showed greater continuity and an extension of the reservoir at one flank. These differences could be traced back to the low frequency component of the inversion results and suggest that subtle variations in the low frequency component of wavelets can have an impact on seismic reservoir characterisation of thin beds.


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