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Continuous Dissolved Gas Tracing of Fracture‐Matrix Exchanges

Richard Hoffmann, Pascal Goderniaux, Pierre Jamin, Eliot Chatton, Jérôme de La Bernardie, Thierry Labasque, Tanguy Le Borgne, Alain Dassargues

2020Geophysical Research Letters21 citationsDOIOpen Access PDF

Abstract

Abstract Transport in fractured media plays an important role in a range of processes, from rock weathering and microbial processes to contaminant transport, and energy extraction and storage. Diffusive transfer between the fracture fluid and the rock matrix is often a key element in these applications. But the multiscale heterogeneity of fractures renders the field assessment of these processes extremely challenging. This study explores the use of dissolved gases as tracers of fracture‐matrix interactions, which can be measured continuously and highly accurately using mobile mass spectrometers. Since their diffusion coefficients vary significantly, multiple gases are used to probe different scales of fracture‐matrix exchanges. Tracer tests with helium, xenon, and argon were performed in a fractured chalk aquifer, and resulting tracer breakthrough curves are modeled. Results show that continuous dissolved gas tracing with multiple tracers provides key constrains on fracture‐matrix interactions and reveal unexpected scale effects in fracture‐matrix exchange rates.

Topics & Concepts

TRACERFracture (geology)Matrix (chemical analysis)HeliumAquiferDiffusionTracingAdvectionGeologyFlux (metallurgy)ArgonEnvironmental scienceMaterials scienceMineralogyGroundwaterChemistryGeotechnical engineeringComposite materialThermodynamicsPhysicsMetallurgyComputer scienceNuclear physicsOperating systemOrganic chemistryGroundwater flow and contamination studiesGroundwater and Isotope GeochemistryHydraulic Fracturing and Reservoir Analysis
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