Dossier: Geosciences Numerical Methods
Open Access
Issue
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 69, Number 4, July-August 2014
Dossier: Geosciences Numerical Methods
Page(s) 529 - 553
DOI https://doi.org/10.2516/ogst/2013204
Published online 18 April 2014
  • Aavatsmark I., Barkve T., Bøe O., Mannseth T. (1998) Discretization on Unstructured Grids for Inhomogeneous, Anisotropic Media. Part I: Derivation of the Methods, SIAM Journal on Scientific Computing 19, 1700–1716. [CrossRef] [MathSciNet]
  • Baur F., Benedetto M.D., Fuchs T., Lampe C., Sciamanna S. (2009) Integrating structural geology and petroleum systems modelling? A pilot project from Bolivia’s fold and thrust belt, Marine and Petroleum Geology 26, 573–579. [CrossRef]
  • Colletta B., Letouzey J., Pinedo R., Ballard J.F., Balé P. (1991) Computerized X-ray tomography analysis of sand box models: Example of thin-skinned thrust system, Geology 19, 1063–1067. [CrossRef]
  • Doligez B. (1987) Migration of hydrocarbons in sedimentary basins, 2nd IFP Exploration Research Conference, Carcans, France, 15-19 June, Publications de l’Institut français du pétrole, Collection Colloques et séminaires n° 45, Editions Technip.
  • Durand-Riard P., Guzofski C.A., Caumon G., Titeux M.O. (2013) Handling natural complexity in 3D geomechanical restoration, with application to the recent evolution of the outer fold-and-thrust belt, deepwater Niger Delta, AAPG Bulletin 97, 87–102. [CrossRef]
  • Geiser J., Geiser P.A., Kligfield R., Ratliff R., Rowan M. (1988) New applications of computer-based section construction: Strain analysis, local balancing, and subsurface fault prediction, The Mountain Geologist 25, 47–59.
  • Gibbs A.D. (1984) Structural evolution of extensional basin margins, Journal of the Geological Society 141, 609–620. [CrossRef]
  • Glennie K.W. (1998) Petroleum Geology of the North Sea: Basic Concepts and Recent Advances, Blackwell Publishing, 1–656.
  • Grospellier G., Lelandais B. (2009) The Arcane development framework, Proceedings of the 8th workshop on Parallel/High-Performance Object-Oriented Scientific Computing, POOSC ‘2009, ACM, New York, DOI: 10.1145/1595655.1595659.
  • Guilmin A.-L. (2012) Contribution de la mécanique à l’étude des bassins sédimentaires : modélisation de la compaction chimique et simulation de la compaction mécanique avec prise en compte d’effets tectoniques, Thèse, Université Paris-Est.
  • Kligfield R., Geiser P., Geiser J. (1986) Construction of geologic cross-sections using microcomputer systems, Geobyte 1, 60–66.
  • Knipe R.J., Jones G., Fisher Q.J. (1998) Faulting, fault sealing and fluid flow in hydrocarbon reservoirs: an introduction, Geological Society London Special Publication 147, vii–xxi. [CrossRef]
  • Maerten L., Maerten F. (2006) Chronologic modelling of faulted and fractured reservoirs using geomechanically based restoration: technique and industry applications, AAPG Bull. 90(8), 1201–1226. [CrossRef]
  • Maerten L., Pollard D., Maerten F. (2001) Digital mapping of three dimensional structures of Chimney Rock fault system, Central Utah, Journal of Structural Geology 23, 585–592. [CrossRef]
  • Manzocchi T., Walsh J., Nell P., Yielding G. (1999) Fault Transmissiblity Multipliers For Flow Simulation models, Petroleum Geoscience 5, 53–63. [CrossRef]
  • Mello U.T., Rodrigues J.R.P., Cavalcanti P.R. (2001) Novel Algorithms for Modeling Sedimentation and Compaction using 3D Unstructured Meshes, 2001 Annual Conference of the International Association of Mathematical Geology (IAMG2001), Cancun, Mexico, 6-12 Sept.
  • Mello U.T., Rodrigues J.R.P., Rossa A.L. (2009) A control-volume finite-element method for three-dimensional multiphase basin modeling, Marine and Petroleum Geology 26, 504–518. [CrossRef]
  • Moretti I., Larrère M. (1989) LOCACE, Computer-Aided Construction of Balanced Geological Cross Section, Geobyte 16, 24.
  • Moretti I., Lepage F., Guiton M. (2006) KINE3D: a New 3D Restoration Method Based on a Mixed Approach Linking Geometry and Geomechanics, Oil & Gas Science and Technology – Rev. IFP 61, 277–289. [CrossRef] [EDP Sciences] [OGST]
  • Mougenot D., Recq M., Virlogeux P., Lepvrier C. (1986) Seaward extension of the East African Rift, Nature 321, 599–603. [CrossRef]
  • Ramberg H. (1981) Gravity, deformation and the Earth’s crust in theory, experiments and geological application, 2nd edn., Academic Press, London, pp. 1–452.
  • Schneider F., Wolf S., Faille I., Pot D. (2000) A 3D Basin Model for Hydrocarbon Potential Evaluation: Application to Congo Offshore, Oil & Gas Science and Technology – Rev. IFP 55, 3–13. [CrossRef] [EDP Sciences] [OGST]
  • Schneider F., Devoitine H., Faille I., Flauraud E., Willien F. (2002) Ceres 2D: A numerical prototype for HC potential evaluation in complex area, Oil & Gas Science and Technology – Rev. IFP 57, 607–619. [CrossRef] [EDP Sciences]
  • Schneider F. (2003) Basin Modeling in Complex Area: Examples from Eastern Venezuelan and Canadian Foothills, Oil & Gas Science and Technology – Rev. IFP 58, 313–324. [CrossRef] [EDP Sciences] [OGST]
  • Tunc X., Faille I., Cacas M.C., Gallouët T., Havé P. (2012) A model for conductive faults with non-matching grids, Computational Geosciences 16(2), 277–296. [CrossRef]
  • Ungerer P., Burrus J., Doligez B., Chenet P.Y., Bessis F. (1990) Basin Evaluation by Integrated Two-Dimensional Modeling of Heat Transfer, Fluid Flow, Hydrocarbon Generation, and Migration, The American Association of Petroleum Geologists Bulletin 74, 309–335.
  • Vilasi N., Malandain J., Barrier L., Callot J.-P., Amrouch K., Guilhaumou N., Lacombe O., Muska K., Roure F., Swennen R. (2009) From outcrop and petrographic studies to basin-scale fluid flow modelling: The use of the Albanian natural laboratory for carbonate reservoir characterization, Tectonophysics 474, 367–392. [CrossRef]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.