This summer school provides a compact presentation of current concepts on flow and transport in the subsurface of terrestrial systems. Thematically, it encompasses the flow of groundwater and soil water, the transport of dissolved chemicals, and the coupling between soil and atmosphere. It covers the underlying physical processes, the multi-scale architecture of terrestrial systems, and the resulting macroscopic phenomena as well as their numerical simulation and methods for estimating effective representation
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Dispersion in a foam
Evolution of a concentration pulse transported in a metal foam. Copyright IUSTI/CNRS and AMU
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iMorph
iMorph an open Source project for visualisation and morphological analysis of porous materials Copyright IUSTI/CNRS and AMU
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Hybrid random walks for conducto-radiative heat transfer in refractory foams
A computational method developed at LCTS (Bordeaux). More details can be found here
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generated by ZEOMICS, a computational zeolite characterization tool developed at Princeton University.
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Mixing front in a porous media. Copyright FAST/CNRS and GMP/UBA
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Sand/Bentonite mixtures are used in EBS for confinement of hazardous wastes.



