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The AAPG/Datapages Combined Publications Database

GCAGS Transactions

Abstract


Gulf Coast Association of Geological Societies Transactions
Vol. 56 (2006), Pages 909-909

Abstract: Depth Imaging of the Drake Structure in the Ultra-Deep Shelf Previous HitPlayNext Hit of the Gulf of Mexico

George Zemlicka1, Robert J. Bruce2, Peter Gale3, John E. G. Savage4, Karen L. Sherlock5, Dong-Sheng Li6, Mike Plumlee7, William J. Schneider8, Glen Denyer9, Randol Haworth10, Jay Menard11, Ricardo J. De Campos12

Abstract

The offshore Gulf of Mexico ultra-deep shelf Previous HitplayNext Hit has recently generated exploration interest due to numerous large undrilled structures, potential for huge gas reserves, and close proximity to existing infrastructure. The Miocene and Paleogene reservoir targets are updip and downdip of productive equivalents and often beneath shallower producing fields. A critical element of exploiting the Previous HitplayNext Hit is to obtain accurate and high quality depth imaging of the prospect trap to validate the initial time structure interpretation, refine prospect reserve estimates, and high-grade exploration well locations. A common Previous HitplayNext Hit trap type is a 3-way dip closure against a fault or salt weld, with a 4-way closure component.

The Drake prospect, in the South Marsh Island protraction area, is representative of a typical ultra-deep shelf prospect. The trap is interpreted as 3-way dip against a steeply-dipping weld, with over 24,000 acres of structural closure. The primary target is the Paleogene, thickened within the core of the structure, at drill depths of 30,000 ft. The mean reserves are estimated in excess of 1.7 trillion cubic feet of gas.

BHP Billiton, seismic contractor Fairfield, and partners Newfield and Petrobras have completed a proprietary pre-stack depth-migration project, covering the Drake structure. The key to the high quality depth image was the construction of a detailed velocity model, with sediment velocities derived from tomography and migration velocity Previous HitanalysisTop, and inclusion of a number of salt bodies and velocity variations across a composite weld surface.

The current depth imaging results show the steeply-dipping to overturned trap-defining weld and the low-reflectivity lower Paleogene section in marked contrast to the high amplitude reflectors of the surrounding section. The depth imaging is currently being used to refine an exploration well location designed to test the Drake prospect.


 

Acknowledgments and Associated Footnotes

1 BHP Billiton Petroleum (Americas) Inc., 1360 Post Oak Blvd., Suite 150, Houston, TX 77056-3020

2 BHP Billiton Petroleum (Americas) Inc., 1360 Post Oak Blvd., Suite 150, Houston, TX 77056-3020

3 BHP Billiton Petroleum (Americas) Inc., 1360 Post Oak Blvd., Suite 150, Houston, TX 77056-3020

4 BHP Billiton Petroleum (Americas) Inc., 1360 Post Oak Blvd., Suite 150, Houston, TX 77056-3020

5 BHP Billiton Petroleum (Americas) Inc., 1360 Post Oak Blvd., Suite 150, Houston, TX 77056-3020

6 Fairfield Industries Inc., 14100 SW Freeway, Suite 100, Sugarland, TX 77478

7 Fairfield Industries Inc., 14100 SW Freeway, Suite 100, Sugarland, TX 77478

8 Fairfield Industries Inc., 14100 SW Freeway, Suite 100, Sugarland, TX 77478

9 Newfield Exploration Co., 363 N. Sam Houston Pkwy. East, Suite 2020, Houston, TX 77060

10 Newfield Exploration Co., 363 N. Sam Houston Pkwy. East, Suite 2020, Houston, TX 77060

11 Fairfield Industries Inc., 14100 SW Freeway, Suite 100, Sugarland, TX 77478

12 Petrobras America Inc., 10777 Westheimer Rd., Suite 1200, Houston, TX 77042

Copyright © 2007 by The Gulf Coast Association of Geological Societies