0000000001024586

AUTHOR

Julie Albaric

showing 2 related works from this author

A new foam-based method for the (bio)degradation of hydrocarbons in contaminated vadose zone

2020

International audience; An innovative foam-based method for Fenton reagents (FR) and bacteria delivery was assessed for the in situ remediation of a petroleum hydrocarbon-contaminated unsaturated zone. The surfactant foam was first injected, then reagent solutions were delivered and propagated through the network of foam lamellae with a piston-like effect. Bench-scale experiments demonstrated the feasibility of the various treatments with hydrocarbon (HC) removal efficiencies as high as 96 %. Compared to the direct injection of FR solutions, the foam-based method led to larger radii of influence and more isotropic reagents delivery, whereas it did not show any detrimental effect regarding H…

Environmental EngineeringHealth Toxicology and MutagenesisVadose zone0211 other engineering and technologiesIn situ chemical oxidationSurfactant foam02 engineering and technology010501 environmental sciences01 natural sciencesSoilSurface-Active AgentsViscosityBioremediationPulmonary surfactantVadose zoneSoil PollutantsEnvironmental Chemistry[CHIM]Chemical SciencesWaste Management and Disposal0105 earth and related environmental scienceschemistry.chemical_classification021110 strategic defence & security studiesPollutionHydrocarbons6. Clean waterBiodegradation EnvironmentalPetroleumHydrocarbonchemistryChemical engineeringIn situ chemical oxidationReagentHydrocarbon contaminationDegradation (geology)Bioremediation
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Seismic properties across an amphibolite- to greenschist-facies strain gradient (Neves area, eastern Alps, Italy): New considerations for shear zone …

2021

Abstract Detecting the presence and geometry of crustal shear zones by geophysical methods relies on our understanding of the intrinsic parameters controlling the seismic properties of these deformed rocks, over the range of pressure-temperature conditions expected in the Earth's crust. To this end, we aimed to track changes in P-wave propagation velocity (VP), anisotropy (AVP) and S-wave splitting (AVS) across a natural shear zone using experimental and electron backscatter diffraction methods. Five samples were collected across a meter-scale shear zone developed under amphibolite- to greenschist-facies in the Neves metagranodiorite (Tauern Window, Eastern Alps). With increasing strain, se…

Seismic anisotropyDeformation (mechanics)GreenschistCrustengineering.materialPhysics::GeophysicsLineationGeophysicsengineeringPlagioclaseShear zonePetrologyAnisotropyGeologyEarth-Surface ProcessesTectonophysics
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