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The AAPG/Datapages Combined Publications Database

Houston Geological Society Bulletin

Abstract


Houston Geological Society Bulletin, Volume 39, No. 5, January 1997. Pages 10-10.

Abstract: Previous Hit3-DNext Hit Seismic Lithology Previous HitAnalysisNext Hit Utilizing Extended Previous HitAVONext Hit: A Case Study

By

James DiSiena
Geophysical Development Corporation

In this Gulf of Mexico case study, extended Amplitude Versus Offset (Previous HitAVONext Hit) Previous HitanalysisNext Hit enables the generation of sand and gas reservoir maps not obtainable from conventional Previous Hit3-DNext Hit data. This seismic lithology interpretation is the result of calibrating the Previous Hit3-DNext Hit/Previous HitAVONext Hit response to lithology and pore fluid variations.

  1. Previous HitAnalysisNext Hit of well data provides lithology, velocity, and density control necessary to estimate Poisson's ratio, as well as rock property variations from wet to gas-filled conditions.
  2. Previous HitAVONext Hit modeling based on these variations yields the anticipated seismic lithologic response, thereby linking the log properties to the Previous Hit3-DNext Hit seismic interpretation.
  3. Processing to recover the "extended" Previous HitAVONext Hit response from data with source-to- receiver offsets out to two times the target depth enables lithologic mapping when supported by the above calibration.

The reservoir sands range from 6,000 to 13,000 feet in depth, lying above and below geopressure. Conventional seismic Previous HitanalysisNext Hit associates the amplitude of the reflections to the contrast in acoustic impedance, the product of velocity and density. On the log data, the target sands appear to have little contrast in acoustic impedance with their encasing shales. Because of this low contrast, the amplitudes on the seismic stack sections show little to no discrimination between sand-shale lithologic variations or pore fluid variations.

A two-term model for the seismic amplitude provides the basis for unraveling the complex Previous HitAVONext Hit responses of lithologic variations and gas sands. The first term, the Normal Incidence reflectivity (NI) responds to changes in acoustic impedance. The second term, defined as the Poisson reflectivity (PR), relates to changes in Poisson's ratio. Crossplots show that even when the sands have the same acoustic impedance as the encasing shales, Poisson's ratio discriminates between them. To obtain a robust estimate of PR (called model-based PR or MBPR), the Previous HitAVONext Hit processing incorporates corrections for anisotropy, which extends the Previous HitAVONext Hit Previous HitanalysisNext Hit out to very far offset traces. Finally, a view of the lithostratigraphic properties develops by displaying the NI and MBPR estimates from the Previous Hit3-DNext Hit seismic data with a novel color crossplotting method. Unlike the stack amplitude, distinct reservoir features appear in the seismic crossplot volume. After calibration, these Previous Hit3-DTop crossplot sections provide maps of reservoir quality sands and potential pay intervals, as well as the stratigraphic setting.

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