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Depositional Setting, Structural Style, and Sandstone... in...Geothermal Areas, Texas Gulf Coast. Digital Download

RI0134D

Depositional Setting, Structural Style, and Sandstone Distribution in Three Geopressured Geothermal Areas, Texas Gulf Coast, by C. D. Winker, R. A. Morton, T. E. Ewing, and D. D. Garcia. 60 p., 49 figs., 8 tables, 1983. doi.org/10.23867/RI0139D. Digital Version.

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RI0134D. Depositional Setting, Structural Style, and Sandstone Distribution in Three Geopressured Geothermal Areas, Texas Gulf Coast, by C. D. Winker, R. A. Morton, T. E. Ewing, and D. D. Garcia. 60 p., 49 figs., 8 tables, 1983. doi.org/10.23867/RI0139D. Downloadable PDF.


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ABSTRACT
Three areas in the Texas Gulf Coastal Plain were studied using electric logs and seismic reflection data to interpret their depositional and structural history and to compare their potential as geopressured-geothermal reservoirs. The Cuero study area, on the lower Wilcox (upper Paleocene) growth-fault trend, is characterized by closely and evenly spaced, subparallel, down-to-the-basin growth faults, relatively small expansion ratios, and minor block rotation. Distributary-channel sandstones in the geopressured lower Wilcox Group of the South Cook fault block appear to be the best geothermal aquifers in the Cuero area. The Blessing study area, on the lower Frio (Oligocene) growth-fault trend, shows wider and more variable fault spacing and much greater expansion ratios and block rotation, particularly during early Frio time. Thick geopressured sandstone aquifers are laterally more extensive in the Blessing area than in the Cuero area. The Pleasant Bayou study area, like the Blessing area, is on the Frio growth-fault trend, and its early structural development was similar; rapid movement of widely spaced faults resulted in large expansion ratios and major block rotation. However, a late-stage pattern of salt uplift and withdrawal complicated the structural style. Thick geopressured lower Frio sandstone aquifers are highly permeable and laterally extensive, as in the Blessing area.


In all three areas, geopressured aquifers were created where early, rapid movement along down-to-the-basin growth faults juxtaposed shallow-water sands against older shales, probably deposited in slope environments. Major transgressions followed the deposition of reservoir sands and probably also influenced the hydraulic isolation that allowed the buildup of abnormal pressures. Of the three areas, the Pleasant Bayou area has the best potential for geothermal energy production because of larger fault block area, greater thickness and lateral continuity of individual sandstones, and higher formation temperatures and pressures.


Keywords: geopressure, geothermal energy, Gulf Coastal Plain, Texas, seismic surveys, structural geology, Tertiary, clastic sediments


CONTENTS

ABSTRACT

INTRODUCTION

REGIONAL SETTING

METHODS OF INVESTIGATION

Stratigraphic correlation

Sandstone facies and continuity

Intervalvelocities and seismic interpretation

Structural interpretation

 

CUERO AREA

Stratigraphy

Interval velocities

Lower Wilcox sandstone facies

Structure


BLESSING AREA

Stratigraphy

Interval velocities

Lower Frio sandstone facies

Structure

 

PLEASANT BAYOU AREA

Stratigraphy

Interval velocities

Lower Frio sandstone facies

Structure

 

COMPARISON OF THE GEOTHERMAL ENERGY POTENTIAL OF THE THREE AREAS

ACKNOWLEDGMENTS

REFERENCES

 

Figures

1. Location of areas studied for this report in relation to geothermal exploration trends, Texas Gulf Coast

2. Location of Cuero study area in relation to regional facies, net-sandstone distribution, and geopressure in the lower Wilcox Group in Texas

3. Location of Blessing and Pleasant Bayou study areas in relation to regional depositional systems of the Oligocene Frio Formation in Texas

4. Location of the three study areas in relation to regional post-Edwards shelf-margin trends and shelf-margin delta complexes in the northwestern Gulf of Mexico Basin

5. Schematic cross section, central Texas Gulf Coast, showing relationship among major growth faults, expansion of section, sand depocenters, and top of geopressure

6. Time-depth curves for wells in the Cuero study area, comparing results from velocity surveys with velocity analyses and acoustic logs

7. Data base map, Cuero study area

8. Structural dip sections of the Cuero study area

9. Stratigraphic dip section (B-B') and strike section (C-C') of the lower Wilcox Group illustrating typical log facies in the Cuero area

10. Interval velocities based on velocity surveys from five wells

11. Seismic section (migrated) illustrating overall structural style of the study area

12. Seismic section (migrated) with orientation nearer to true structural dip than in figure 11

13. Lower Wilcox section in the type well, with supplementary data

14. Lower Wilcox paleogeography of the Cuero study area derived from electric-log analysis of facies

15. Geographic distribution of log patterns of three geopressured lower Wilcox sandstone aquifers in the South Cook fault block

16. Structure map of top of Wilcox Group (TW marker)

17. Structure map of top of lower Wilcox Group (D4' marker)

18. Seismic section UT-2 (migrated) crossing the South Cook fault block

19. Seismic section UT-3 (migrated)

20. Seismic section UT-4 (migrated)

21. Sequential isopach maps illustrating post-D4' structural evolution of the Cuero study area

22. Data base map, Blessing study area

23. Structural dip section. Blessing area

24. Stratigraphic sections of the lower Frio Anomalina bilateralis zone in the Blessing area

25. Interval velocities based on velocity surveys of six wells in the Blessing area

26. Geographic distribution of electric-log patterns in two lower Frio geopressured sandstone aquifers in the western part of the Blessing fault block

27. Single-fold seismic section illustrating typical structural style of the Blessing area

28. Twelve-fold seismic section (unmigrated) illustrating structural style

29. Structure map on B3 marker (upper Frio Formation), Blessing area

30. Structure map on B5 marker (lower Frio Formation), Blessing area

31. Sequential isopach maps of the Blessing area illustrating structural evolution

32. Data base map, Pleasant Bayou study area

33. Structural dip section across Chocolate Bayou field illustrating electric-log character of the correlation marker and informal stratigraphic units in the Pleasant Bayou study area

34. Stratigraphic dip section of the lower Frio Anomalina bilateralis zone across Chocolate Bayou field

35. Stratigraphic strike section of the lower Frio Anomalina bilateralis zone in the East Chocolate Bayou fault block, including the Pleasant Bayou No. 2 geothermal well

36. Interval velocities based on velocity surveys of five wells in the Pleasant Bayou study area

37. Geographic distribution of electric-log patterns of the geopressured 'A' sand, lower Frio Formation, East and South Chocolate Bayou fault blocks

38. Geographic distribution of electric-log patterns of the geopressured 'C' sand, lower Frio Formation, East and South Chocolate Bayou fault blocks

39. Geographic distribution of electric-log patterns of the geopressured 'D' sand, lower Frio Formation, East and South Chocolate Bayou fault blocks

40. Six-fold seismic strike section (unmigrated}, East Chocolate Bayou fault block

41. Twelve-fold seismic dip section (migrated) crossing East and South Chocolate Bayou fields

42. Structure on T2 horizon (top of Cibicides hazzardi zone), upper Frio Formation, Pleasant Bayou area

43. Structure on T5 horizon (top of Anomalina bilateralis zone}, lower Frio Formation

44. Twelve-fold seismic section (unmigrated} south of Danbury Dome

45. Twelve-fold seismic section (unmigrated) east of Danbury Dome

46. Twelve-fold seismic section (migrated) east of Danbury Dome

47. Sequential isopach maps of the Pleasant Bayou area illustrating structural evolution during Frio and post-Frio time

48. Dip sections of the three study areas illustrating contrast of structural styles

49. Distribution of optimum geopressured sandstone facies in the three study areas

 

Tables

1. Approximate stratigraphic correlation of electric-log and seismic correlation markers and informal stratigraphic units in four geothermal study areas

2. Characteristics of informal stratigraphic units in the Cuero area

3. Electric-log analysis of facies in the lower Wilcox (unit 6), used for paleogeographic mapping in the Cuero area

4. Characteristics of informal stratigraphic units in the Blessing area

5. Electric-log analysis of facies in the Anomalina bilateralis zone (unit 6), lower Frio Formation, Blessing area

6. Characteristics of informal stratigraphic units in the Pleasant Bayou area

7. Electric-log analysis of facies in the Anomalina bilateralis zone, lower Frio Formation, Pleasant Bayou area

8. Reservoir parameters for three geothermal areas in the Texas Gulf Coast


Citation
Winker, C. D., Morton, R. A., Ewing, T. E., and Garcia, D. D., 1983, Depositional Setting, Structural Style, and Sandstone Distribution in Three Geopressured Geothermal Areas, Texas Gulf Coast: The University of Texas at Austin, Bureau of Economic Geology, Report of Investigations No. 134, 60 p.

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