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The AAPG/Datapages Combined Publications Database

AAPG Bulletin

Abstract


Volume: 64 (1980)

Issue: 5. (May)

First Page: 766

Last Page: 766

Title: Effective Stress and Abnormally High Fluid Pressure: ABSTRACT

Author(s): William J. Plumley

Article Type: Meeting abstract

Abstract:

Published hypotheses of the causes of abnormally high fluid pressure have not explored explicitly the relation between the present effective stress (^sfgrp) and the maximum effective stress (^sfgrm) to which a sediment has been exposed during its history. In basins where sediments are at their maximum burial depth, the present effective stress can be used to evaluate quantitatively different hypotheses for abnormal fluid pressure development. The underlying assumption of this approach to hypothesis testing is that shale porosity is principally a function of maximum effective stress.

"Nonequilibrium compaction" as a cause of abnormally high fluid pressure requires that ^sfgrp = ^sfgrm and predicts porosities that are higher than would be obtained if another cause, such as "aquathermal pressuring" or "clay transformation" (which require that ^sfgrp < ^sfgrm), were the predominant mechanism producing the same abnormally high fluid pressure. Observed porosities in Gulf Coast high-pressure shale formations commonly are too low to be solely the result of nonequilibrium compaction. In two field examples, shale porosities predicted with the nonequilibrium compaction model are about 20 porosity units higher than porosities determined from ^ggr - ^ggr density logs and cores. In one example, a combined mechanism of nonequilibri m compaction and clay transformation is one possible, and internally consistent, interpretation of the fluid pressure and porosity data. In the other example, the fluid pressure and porosity data are consistent with clay transformation being the mechanism for the generation of the abnormally high fluid pressure, but are not consistent with the nonequilibrium compaction model.

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