--> Abstract: The Origin and Distribution of Quartz Cementation in the Jurassic Norphlet Sandstone in Mobile Bay: An Evaluation of Thermal Convection as a Mass-Transfer Mechanism, by T. R. Taylor, G. A. Wilson, R. J. Stancliffe, and J. F. McNutt; #90937 (1998).
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Abstract: The Origin and Distribution of Previous HitQuartzNext Hit Cementation in the Jurassic Norphlet Sandstone in Mobile Bay: An Evaluation of Thermal Convection as a Mass-Transfer Mechanism

TAYLOR, THOMAS R., and GLENN A. WILSON, Shell E&P Technology; RICHARD J. STANCLIFFE, Shell Offshore Inc.; JOE F. MCNUTT, Woodside Offshore Petroleum; C. E. HARVIE, Shell Offshore Inc.

Summary

Within Norphlet Fm. gas reservoirs in Mobile Bay (offshore Alabama, USA), Previous HitquartzNext Hit cement is concentrated at the top of the section forming a low porosity “tight zone” of widely variable thickness. Detailed petrographic analysis and fluid inclusion microthermometry indicate that Previous HitquartzNext Hit cement formed late in the paragenetic sequence under deep burial conditions.

Thermal convection of formation water represents a potentially attractive model to explain the observed distribution of Previous HitquartzNext Hit cement. To test this model, we calculated a time-dependent heat flow model for a single large gas field using finite element modeling techniques and applied the results to calculate the rate of Previous HitquartzNext Hit precipitation that could result from this process. These calculations indicate that, given the timing of Previous HitquartzTop cementation and reasonable assumptions of permeability, the process of thermal convection is probably not sufficient to account for the observed volume of cement.

AAPG Search and Discovery Article #90937©1998 AAPG Annual Convention and Exhibition, Salt Lake City, Utah