Partenaires

MSC
Logo CNRS Logo Université Paris Diderot
Logo tutelle Logo tutelle



Поиск

Sur ce site

Sur le Web du CNRS


На главную > Annuaire > BERHANU Michaël > Stage M2 2018-2019 : Érosion par dissolution, expériences et modélisation.

Stage M2 2018-2019 : Érosion par dissolution, expériences et modélisation

Voir les autres propositions.

The M2 internship can start from January 2019 and can be funded. The internship may be prolonged in a Phd Research project starting in fall. Subject : Landscapes are shaped under water flows and wind action, and the understanding of their morphodynamics goes through the identification of the physical mechanisms at play. The processes of erosion of sediment composed of macroscopic grains have been extensively studied, which is not the case of the erosion by dissolution. However, this process plays a significant role in area covered by a dissoluble mineral like in Karst regions and is the cause of the formation of remarkable patterns (limestone pavements, scallops, dissolution grooves, dissolution pinnacles, limestone forests…) with characteristic length scales. We propose in this internship, by the mean of controlled laboratory experiments, to study the morphogenesis of dissolution patterns. The dissoluble media and the hydrodynamic flows will be tuned to downscale the characteristic size and time of the involved processes from geological values to « laboratory » values. Thanks to quantitative measurements of the flow and of the topography of eroded surfaces, we will identify the driving elementary physical mechanisms and thus develop mathematical models, with the aim to explain complex geological systems and to predict the long term evolution of landscapes. In this internship, the student will develop in the group, one or several model experiments, reproducing dissolution erosion phenomenon. To decrease the timescales, fast dissolving materials like sugar, salt and plaster will be used. Hydrodynamical properties of the flows will be characterized and the 3D shape evolution of eroded surfaces will be recorded. A first project consists in studying erosion patterns of dissoluble plates submitted to a water current. Experiments will be performed in close collaboration with Sylvain Courrech du Pont. In the following of the research project, dissolution phenomena could be modeled using numerical simulations (finite elements methods) in collaboration with Julien Derr at MSC. The internship will be prolonged in a Phd Research project. During the Phd, application of research on the field will be possible, by comparing results of model experiment with specific geological examples.

Références :

P. Meakin and B. Jamtveit, Proc. Of the Royal Society A, 466, 659 (2010) Geological pattern formation by growth and dissolution in aqueous systems

C. Cohen, M. Berhanu, J. Derr and S. Courrech du Pont Erosion patterns on dissolving and melting bodies (2015 Gallery of Fluid motion) Physical Review Fluids, 1, 050508 (2016)

PDF - 271.5 ko

Mots-clés

Milieux granulaires, suspensions, fluides diphasiques, Morphogenèse, embryogenèse, développement, mouvements collectifs, auto-organisation, BERHANU Michaël, Proposition de stage ou de thèse, Ancienne proposition


Contact : Published on / Publié le 24 janvier