DFG-Sachbeihilfe "Effective contaminant source geometries and their implications for final plume extension - ESTIMATE" 2018 - 2020 (ESTIMATE)
Goal: Characterise the influence of aquifer properties and external stresses on DNAPL source zone architecture by deriving transformation techniques to convert complex to effective source geometries through a combination of laboratory-scale experiments and numerical modelling. Partners are the Helmholtz-Centre for Environmental Research-UFZ, the Indian Institute of Technology Delhi, the Department of Civil and Environmental Engineering at the University of Illinois Urbana-Champaign, U.S., and the Faculty of Civil, Architectural and Environmental Engineering at the University of Texas at Austin, U.S.
Dieses Projekt ist Open Access und öffentlich zugänglich.
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Sammlungen in diesem Bereich
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Relevant Python scripts for the manuscript "Quantification of uncertainties from image processing and analysis in laboratory-scale DNAPL migration experiments evaluated by reflective optical imaging" in Journal "Water" [1]
This data collection includes the Python script used for image processing and analysis as described in the article "Quantification of uncertainties from image processing and analysis in laboratory-scale DNAPL migration ...
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Relevant Python scripts for the manuscript "Quantification of uncertainties from image processing and analysis in laboratory-scale DNAPL migration experiments evaluated by reflective optical imaging" in Journal "Water"
(Technische Universität Dresden, 2019)This data collection includes the Python script used for image processing and analysis as described in the article "Quantification of uncertainties from image processing and analysis in laboratory-scale DNAPL migration ...
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