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Crosswell Seismic in Carbonate Reservoirs – Examples of High-Resolution Previous HitReservoirNext Hit Delineation*

By

Paul M. (Mitch) Harris1

 

Search and Discovery Article #40307 (2008)

Posted September 3, 2008

 

*Adapted from oral presentation at AAPG International Conference & Exhibition, Barcelona, Spain, September 21-24, 2003. See companion article, "Carbonate Previous HitReservoirNext Hit Delineation from Seismic Data – Examples of Crosswell Seismic," Search and Discovery Article #40299 (2008).
Click to view list of articles adapted from presentations by P.M. (Mitch) Harris or by his co-workers and him at AAPG meetings from 2000 to 2008.

 

1 ChevronTexaco E & P Technology Company, San Ramon, CA ([email protected])

 

Abstract

Crosswell seismic tomography provides better Previous HitreservoirNext Hit resolution than surface 2D or even 3D data; therefore, there should be value added in Previous HitreservoirNext Hit delineation. Examples of crosswell seismic data from two U.S. Permian Basin fields illustrate the resolution and some potential applications of this type of data: (1) defining greater geologic detail between wells (heterogeneity of Previous HitreservoirNext Hit), (2) recognizing laterally continuous zones for improved development (well positioning, completions, injection), and (3) input for Previous HitreservoirNext Hit models (layering and assigning porosity).

In the first example, the producing formation is limestone with minor dolomite and shale. 3D seismic and downhole log data suggest lateral discontinuities, but details are ambiguous due to the poor resolution. Crosswell data defines the nature of some of the Previous HitreservoirNext Hit discontinuity, in that clinoforms which are imaged can potentially isolate Previous HitreservoirNext Hit compartments. A comparison with outcrop facies geometries provides some sense of the Previous HitreservoirNext Hit facies to be expected between wells.

The second example is a Previous HitdiageneticallyNext Hit Previous HitcomplexNext Hit cyclic shelf dolomite. Variations in amplitude on the crosswell data are the most striking lateral features, and nearly every positive-amplitude event coincides with a significant increase in velocity on sonic logs. Both the seismic and log data respond to the same diagenetic overprint and its resulting petrophysical characteristics; therefore, log-derived facies relate to the crosswell data better than core lithofacies. Comparing crosswell data with geostatistical porosity models to further analyze the potential imaging of lateral porosity variation suggests lateral changes in porosity of less than 56 m but more than 15 m are being imaged.

 

 

 

References

Eisenberg, R.A., and P.M. Harris, 1994, Application of chemostratigraphy to differentiating bounding stratigraphic surfaces: AAPG 1994 Annual Meeting Abstracts, p. 143.

Martin, R.L., C.L. Welch, G.D. Hinterlong, J. Meyer and R. Evans, 2002, Using crosswell seismic tomography to provide better Previous HitreservoirNext Hit resolution in the Wolfcamp Formation in Lea County, New Mexico: in The Permian Basin; Preserving Our Past – Securing Our Future, West Texas Geological Society #02-111, p. 25-34.

Tucker, K.E., P.M. Harris, and R.C. Nolen-Hoeksema, 1998, Geologic investigation of cross-well seismic response in a carbonate Previous HitreservoirTop, McElroy field, West Texas: AAPG Bulletin, v. 82/8, p. 1483-1503.

 

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