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Principal aspects of compaction and fluid flow in mudstones.
Bjørlykke, K. (1999) Principal aspects of compaction and fluid flow in mudstones. In: Muds and Mudstones: Physical and Fluid-Flow Properties. , ed. by MacQuaker, Joe H. S. , Fleet, Andrew J. and Aplin, Andrew C.. Geological Society London Special Publications, 158 . Geological Society, London, U.K., pp. 73-78. DOI 10.1144/GSL.SP.1999.158.01.06.
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Abstract
Compaction and fluid flow in sedimentary basins are usually modelled as mechanical compaction assuming that the main driving force is the effective stress. However, in the deeper part of sedimentary basins (> 2–3 km, 70–100°C), compaction also involves dissolution and precipitation of minerals, and these processes are strongly controlled by temperature and to a lesser extent by variations in effective stress. The total pore-water flux is relatively independent of the permeability and pressure gradients because it is controlled by the rate of compaction. The main effect of permeability variations is the focusing of the compaction-driven flow. Fluids are also released by petroleum generation and dehydration of clay minerals; both these processes are also essentially temperature dependent. If the minimum permeability in one sedimentary layer (seal) falls below a critical value and there is little lateral drainage, the pressure will build up to fracture pressure. Pore pressures and fluid flow cannot be calculated from the matrix permeability of the rock when fracture pressures are reached, because much of the flow occurs along the generated fractures. The permeability produced by fracturing is a dynamic variable adjusting itself to the flux; it is not a rock property like the intergranular permeability. The intergranular permeability of shale samples before fracturing is also difficult to measure reliably in the laboratory as a result of unloading. This makes pressure prediction using one-dimensional pressure modelling uncertain. The prediction of permeability distributions in three dimensions is much more difficult.
Document Type: | Book chapter |
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Keywords: | compaction, fluid flow |
Open Access Journal?: | No |
Publisher: | Geological Society |
Projects: | Enrichment |
Date Deposited: | 14 May 2019 12:33 |
Last Modified: | 14 May 2019 12:33 |
URI: | https://oceanrep.geomar.de/id/eprint/46629 |
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