Your search keyword '"Frdric Schneider"' showing total 2 results

1. The Vocontian Aptian and Albian Syndepositional Clastic Sills and Dikes

Author

Olivier Parize, Alain Trouiller, Rosalie Vandromme Grard Fris, Chantal de Fouquet, Frdric Schneider, Bernard Beaudoin, Faouzi Hadj-Hassen, Kun Su, Sylvain Eckert, and Michel Tijani

Subjects

Dike, geography, geography.geographical_feature_category, Aptian, Sill, Lithology, Outcrop, Clastic rock, Bedrock, Geochemistry, Geomorphology, Geology, Turbidite

Abstract

Shaly formations are the focus of many research programs and consortia sponsored by petroleum companies and/or waste management organizations; given that they act as seals for oil- or gas-bearing reservoirs or as host rock for underground waste disposals, their integrity (e.g., the possible presence of water-bearing fractures) is a critical factor in risk assessment. To model their rheological properties through time, the observed clastic injectites are used as markers of their mechanical evolution. Aptian–Albian marly formations of the Vocontian Basin (southeast France) are the basis of this study; massive turbidite systems associated with large-scale clastic injectite networks have been described in exceptional outcrops. Field data have permitted the identification of early fracturing in the host formation; the injection of sand is an early event, contemporaneous with the deposition of massive sand bodies. The paleocompaction curve has been calculated, and the porosity evolution of the sediments has been restored from sea floor to about 500 m (1640 ft) burial. Then, the original configuration of dikes can be reconstituted. Boundary conditions of various numerical modeling have been derived from this extensive reliable data set. Numerical static simulations of the behavior of marly formations are presented, testing the possible function of heterogeneous lithology, bedrock geometry, or loading by sudden massive sand deposition; they indicate that early fracturing is physically possible in the presented scenarios. The next step will be to simulate in dynamic conditions the opening and filling of some of these cracks by hydrofracturing. We dedicate this chapter to the memory of our colleague and friend, Stephen T. Horseman.

Published

2007

2. A Methodological Approach to Clastic Injectites

Author

Grard Fris, Patrice Imbert, Olivier Parize, Jean-Loup Rubino, Frdric Schneider, Bernard Beaudoin, Jean-Michel Champanhet, Richard Labourdette, and Benot Paternoster

Subjects

geography, Paleontology, Dike, geography.geographical_feature_category, Aptian, Sill, Outcrop, Clastic rock, Facies, Field analysis, Channel (geography), Seismology, Geology

Abstract

Hardly detected with logs and recognized with difficulty on cores, clastic injectites (sills and dikes) can be troublemakers in oil-field development. Moreover, they provide a precious record of early fracturation. To predict their geometry, extension, and relationship to their feeders, field analysis of selected analog outcrops is conducted to propose some simple rules. In southeast France, the Aptian–Albian formation provides exceptional outcrops (Bevons, Rosans, and Nyons) where it is possible to characterize large sets of injectites: dikes and sills are associated in the same metric-to-kilometric network. The injection occurred per ascensum (more frequently) or per descensum, during or after the sand deposition. Specific geometric-based field methods have been developed to analyze the geometry based on the best conditions. A three-dimensional (3-D) model of the Rosans area injectite network has been built through gOcad™ tool using outcrop analysis and an original, very high-resolution two-dimensional seismic acquisition (0.6 km2; 0.23 mi2). This field analysis, the seismic survey, and the 3-D modeling provide some keys to consider possible occurrences of injectites and associated facies related to a turbiditic channel fill. We dedicate this article to the memory of our colleagues and friends G. P. Allen and D. Claude.

Published

2007