1. Assessment of the geothermal/geopressure potential of the Gulf Coastal Plan of Alabama. Final report
- Author
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E.A. Mancini, D.J. Benson, G.V. Wilson, and G.C. Wang
- Subjects
geography ,geography.geographical_feature_category ,business.industry ,Coastal plain ,Geothermal energy ,Well logging ,Geochemistry ,Sedimentary basin ,Geothermal exploration ,Stratigraphy ,Carbonate rock ,business ,Geomorphology ,Geothermal gradient ,Geology - Abstract
Geothermal and geopressure as well as geologic and geophysical data were studied to evaluate the potential for future development of geothermal resources underlying the Alabama Coastal Plain. Wire-line log data compiled and interpreted from more than 1300 oil and gas test wells included maximum recorded temperatures, mud weights, rock resistivities as related to geopressure, formation tops, fault locations, and depths to basement rock. The Alabama Coastal Plain area is underlain by a conduction dominated, deep sedimentary basin where geothermal gradients are low to moderate (1.0 to 1.8/sup 0/F/100 feet). In some areas of southwest Alabama, abnormally high temperatures are found in association with geopressured zones within the Haynesville Formation of Jurassic age; however, rocks of poor reservoir quality dominate this formation, with the exception of a 200-square-mile area centered in southernmost Clarke County where a porous and permeable sand unit is encased within massive salt deposits of the lower Haynesville. The results of a petrograhic study of the Smackover Formation, which underlies the Haynesville, indicate that this carbonate rock unit has sufficient porosity in some areas to be considered a potential geothermal reservoir. Future development of geothermal resources in south Alabama will be restricted to low or moderate temperature, non-electricmore » applications, which constitute a significant potential energy source for applications in space heating and cooling and certain agricultural and industrial processes.« less
- Published
- 1980