3-D hydromechanical simulation of intersecting faults: Influences on fluid circulation and formation of oriented-orebodies - Université de Lorraine
Article Dans Une Revue Journal of Structural Geology Année : 2023

3-D hydromechanical simulation of intersecting faults: Influences on fluid circulation and formation of oriented-orebodies

Luc Scholtes
Marianne Conin
Fabrice Golfier
Patrick Ledru
Julien Mercadier
  • Fonction : Auteur
Pauline Collon
Remy Chemillac

Résumé

Although intersection zones of two or more fault arrays have been identified as favorable loci of unconformity- related basin-basement mineral deposits in previous studies, their roles in controlling fluid flow patterns related to formation of oriented-, and structurally-controlled mineral deposits remain unclear. In this study, 3-D hydromechanical models were conducted to better understand the response of a natural fault intersected by a hydraulic fault under different stress regimes. A comprehensive parametric study was carried out to assess the roles of fluid pressure, burial depth, basin permeability, intersection angle, and horizontal differential stress on the hydromechanical response of a system containing two intersecting faults. Depending on basin sediment permeability, fault intersection angle, and horizontal differential stress, the fluid flow either stops, crosses, or diverts toward natural fault. Among the tested parameters, the intersection angle, and horizontal differential stress have the most noticeable effect on the fluid flow in the system. The critical intersection angle at which the fluid flow diverts toward the natural fault varies between ≈27° in normal faulting regimes, to ≈55°, in both strike-slip and reverse faulting regimes. Conversely, burial depth and fluid pressure have no significant effect on fluid flow diversion in the intersection zone. The results are in agreement with field observations related to the unconformity-related uranium deposits found in northern Canada
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Dates et versions

hal-04118370 , version 1 (16-11-2023)

Identifiants

Citer

Khalifa Eldursi, Luc Scholtes, Marianne Conin, Fabrice Golfier, Patrick Ledru, et al.. 3-D hydromechanical simulation of intersecting faults: Influences on fluid circulation and formation of oriented-orebodies. Journal of Structural Geology, 2023, 171, pp.104864. ⟨10.1016/j.jsg.2023.104864⟩. ⟨hal-04118370⟩
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