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Houston Geological Society Bulletin

Abstract


Houston Geological Society Bulletin, Volume 37, No. 2, October 1994. Pages 12-12.

Abstract: Application of Previous Hit3-DNext Hit Seismic on Morrow Channel Sandstones, Second Wind and Jace Fields, Cheyenne and Kiowa Counties, Colorado

By

Mark P. Germinario, Sherrie R. Cronin, and John R. Suydam
Union Pacific Resources, Fort Worth, Texas

Two Previous Hit3-DNext Hit seismic surveys have been shot by Union Pacific Resources (UPRC) to extend fields producing from Pennsylvanian Morrow channel sands. The target fields were Jace and Second Wind, both located near the Colorado-Kansas border in a Morrow channels consisting of fluvial valley-fill sandstone and shales which have incised into the underlying lower Morrow carbonates. This shale-sand and carbonate interface provides sufficient acoustic contrast to make the incisions interpretable on 2-D seismic data. The sinuous nature of the valleys, the erratic Morrow structure and the distribution of the 2-D data are interpretive challenges that are significantly reduced by the Previous Hit3-DNext Hit seismic data.

The Jace and Second Wind surveys had full-fold coverage of 5 square miles and 2.8 square miles, respectively. The surveys had similar acquisition parameters resulting in 20-fold subsurface data using 75 by 75-foot bin size. At Jace, the Previous Hit3-DNext Hit survey indicated an absence of channel where 2-D data had shown potential valley incision, thus saving UPRC from drilling several dry holes. At Second Wind, the Previous Hit3-DNext Hit interpretation clearly defined the limits and geometry of the valley and uncovered a complex series of fault blocks cutting the valley. The subsequent drilling encountered a thick channel sandstone at the predicted structural elevation.

In the Morrow Stateline trend, Previous Hit3-DNext Hit seismic data has proven its ability to provide a more accurate "picture" of the Morrow valley geometry, therefore, reducing the risk of near-miss non-sand valley wells. Many of the Morrow structural complications, particularly the tracking of faults and their influence on the valley system, are more clearly understood on a Previous Hit3-DTop data set.

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