Studies of Transport Properties of Fractures: Final Report
- New England Research
We proposed to study several key factors controlling the character and evolution of fracture system permeability and transport processes. We suggest that due to surface roughness and the consequent channeling in single fractures and in fracture intersections, the tendency of a fracture system to plug up, remain permeable, or for permeability to increase due to chemical dissolution/precipitation conditions will depend strongly on the instantaneous flow channel geometry. This geometry will change as chemical interaction occurs, thus changing the permeability through time. To test this hypothesis and advance further understanding toward a predictive capability, we endeavored to physically model and analyze several configurations of flow and transport of inert and chemically active fluids through channels in single fractures and through fracture intersections. This was an integrated program utilizing quantitative observations of fractures and veins in drill core, quantitative and visual observations of flow and chemical dissolution and precipitation within replicas of real rough-walled fractures and fracture intersections, and numerical modeling via lattice Boltzmann methods.
- Research Organization:
- New England Research
- Sponsoring Organization:
- USDOE - Office of Science (SC)
- DOE Contract Number:
- FG02-98ER14906
- OSTI ID:
- 885257
- Report Number(s):
- NER-FG02-98ER14906-FR
- Country of Publication:
- United States
- Language:
- English
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