An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions

An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions

Capturing the past and present hydro-mechanical behavior of passive margin sediments raises noticeable interest, notably in geo-hazard risk assessment and hydrocarbon exploration. In this work, we aim at assessing the stress states undergone by these sedimentary deposits through geological time. To...

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Main Authors: Antoine Bouziat, Nicolas Guy, Jérémy Frey, Daniele Colombo, Priscille Colin, Marie-Christine Cacas-Stentz, Tristan Cornu
Format: Article
Language:English
Published: MDPI AG 2019-11-01
Series:Geosciences
Subjects:
basin modelling
hydro-mechanical coupling
passive margins
rock failure
Online Access:https://www.mdpi.com/2076-3263/9/11/469
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spelling doaj-0984f9aae8d24f359d0b44301b1a70232020-11-24T21:55:32ZengMDPI AGGeosciences2076-32632019-11-0191146910.3390/geosciences9110469geosciences9110469An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure PredictionsAntoine Bouziat0Nicolas Guy1Jérémy Frey2Daniele Colombo3Priscille Colin4Marie-Christine Cacas-Stentz5Tristan Cornu6IFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, 92852 Rueil-Malmaison, FranceIFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, 92852 Rueil-Malmaison, FranceIFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, 92852 Rueil-Malmaison, FranceIFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, 92852 Rueil-Malmaison, FranceTotal ABK, East Tower, Mall Street 10, Abu Dhabi 4058, UAEIFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, 92852 Rueil-Malmaison, FranceTotal SA, CSTJF, Avenue Larribau, 64000 Pau, FranceCapturing the past and present hydro-mechanical behavior of passive margin sediments raises noticeable interest, notably in geo-hazard risk assessment and hydrocarbon exploration. In this work, we aim at assessing the stress states undergone by these sedimentary deposits through geological time. To do so, we use an iterative coupling between a basin simulator and a finite element mechanical solver. This method conciliates a computation of the full stress tensors with a dynamic and geologically detailed modelling of the sedimentation. It is carried out on a dedicated set of 2D synthetic basin models, designed to be representative of siliciclastic deposition in passive margins and integrating variations in their geological history. Contrary to common assumptions in operational basin modelling studies, our results imply that passive margin sedimentary wedges are multidimensional mechanical systems, which endure significant non-vertical stress without external tectonic input. Our results also highlight the variability of the stress states through space and time, with a strong control from the geometry and lithological heterogeneities of the deposits. Lastly, we used the simulation results to predict a location and timing for the development of weakness zones in the sedimentary stacks, as privileged areas for rock failure. The outcome underlines the influence of the basal tilt angle, with a slight tilt impacting the wedges stability to a similar extent as a substantial increase in sedimentation rate. Altogether, this study emphasizes the need for careful consideration of non-vertical stresses in basin simulations, including in passive tectonic contexts. It also suggests that the iterative coupling method employed is a promising way to match industrial needs in this regard.https://www.mdpi.com/2076-3263/9/11/469basin modellinghydro-mechanical couplingpassive marginsrock failure
collection DOAJ
language English
format Article
sources DOAJ
author Antoine Bouziat
Nicolas Guy
Jérémy Frey
Daniele Colombo
Priscille Colin
Marie-Christine Cacas-Stentz
Tristan Cornu
spellingShingle Antoine Bouziat
Nicolas Guy
Jérémy Frey
Daniele Colombo
Priscille Colin
Marie-Christine Cacas-Stentz
Tristan Cornu
An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions
Geosciences
basin modelling
hydro-mechanical coupling
passive margins
rock failure
author_facet Antoine Bouziat
Nicolas Guy
Jérémy Frey
Daniele Colombo
Priscille Colin
Marie-Christine Cacas-Stentz
Tristan Cornu
author_sort Antoine Bouziat
title An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions
title_short An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions
title_full An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions
title_fullStr An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions
title_full_unstemmed An Assessment of Stress States in Passive Margin Sediments: Iterative Hydro-Mechanical Simulations on Basin Models and Implications for Rock Failure Predictions
title_sort assessment of stress states in passive margin sediments: iterative hydro-mechanical simulations on basin models and implications for rock failure predictions
publisher MDPI AG
series Geosciences
issn 2076-3263
publishDate 2019-11-01
description Capturing the past and present hydro-mechanical behavior of passive margin sediments raises noticeable interest, notably in geo-hazard risk assessment and hydrocarbon exploration. In this work, we aim at assessing the stress states undergone by these sedimentary deposits through geological time. To do so, we use an iterative coupling between a basin simulator and a finite element mechanical solver. This method conciliates a computation of the full stress tensors with a dynamic and geologically detailed modelling of the sedimentation. It is carried out on a dedicated set of 2D synthetic basin models, designed to be representative of siliciclastic deposition in passive margins and integrating variations in their geological history. Contrary to common assumptions in operational basin modelling studies, our results imply that passive margin sedimentary wedges are multidimensional mechanical systems, which endure significant non-vertical stress without external tectonic input. Our results also highlight the variability of the stress states through space and time, with a strong control from the geometry and lithological heterogeneities of the deposits. Lastly, we used the simulation results to predict a location and timing for the development of weakness zones in the sedimentary stacks, as privileged areas for rock failure. The outcome underlines the influence of the basal tilt angle, with a slight tilt impacting the wedges stability to a similar extent as a substantial increase in sedimentation rate. Altogether, this study emphasizes the need for careful consideration of non-vertical stresses in basin simulations, including in passive tectonic contexts. It also suggests that the iterative coupling method employed is a promising way to match industrial needs in this regard.
topic basin modelling
hydro-mechanical coupling
passive margins
rock failure
url https://www.mdpi.com/2076-3263/9/11/469
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