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Review of Effective Porosity in Sandstone Aquifers: Insights for Representation of Contaminant Transport

Prodeo Yao Agbotui, F. Firouzbehi, G. Medici

2025Sustainability31 citationsDOIOpen Access PDF

Abstract

Assessment of contaminant dispersal in sandstones requires hydraulic characterization with a combination of datasets that span from the core plugs to wellbores and up to the field scale as the matrix and fractures are both hydraulically conductive. Characterizing the hydraulic properties of the matrix is fundamental because contaminants diffuse into the fractured porous blocks. Fractures are highly conductive, and the determination of the number of hydraulically active rock discontinuities makes discrete fracture network models of solute transport reliable. Recent advances (e.g., active line source temperature logs) in hydro-geophysics have allowed the detection of 40% of hydraulically active fractures in a lithified sandstone. Tracer testing has revealed high (~10−4–10−2 ms−1) flow velocities and low (~10−2–10−4) effective porosities. Contaminants can therefore move rapidly in the subsurface. The petrophysical characterization of the plugs extracted from the cores, in combination with borehole hydro-geophysics, allows the characterization of either matrix or fracture porosity, but the volume of sandstone characterized is low. Tracer tests cannot quantify matrix or fracture porosity, but the observation scale is larger and covers the minimum representative volume. Hence, the combination of petrophysics, borehole hydro-geophysics, and tracer testing is encouraged for the sustainable management of solute transport in dual porosity sandstones.

Topics & Concepts

AquiferPorosityGeologyRepresentation (politics)GeochemistryGeotechnical engineeringPetroleum engineeringSoil scienceGroundwaterPetrologyLawPoliticsPolitical scienceGroundwater flow and contamination studiesHydraulic Fracturing and Reservoir AnalysisGeophysical and Geoelectrical Methods
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