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Since September 2016, I am Full Professor of Applied Mathematics & Mechanics at the Université de Nice Sophia Antipolis and Researcher at Laboratoire de Mathématiques & Interactions J.A. Dieudonné CNRS UMR 7351, in the Fluid Dynamics & Scientific Computing Group.
Of course, I am also actively involved in the DyCo Team - Laboratoire Interdisciplinaire des Energies de Demain (LIED) CNRS UMR 8236, in Paris.
From 2005 to 2016, I was Professor in the Energy & Propulsion Department, French Institute for Applied Sciences (INSA/CORIA), Rouen, France, and Researcher at CORIA Lab.
Research Interests
My main research interests deal with multi-scale coupled dynamics, numerical modeling and scientific computing (HPC).
In the combustion field, applications used to deal with combustive flows & thermoelectric conversion at the small scale, flame/wall interaction, expanding wrinkled flames, flame-balls & ignition kernels analysis, flame/acoustics interaction, percolation modeling for front propagation, stratified combustion modeling in engines.
More recent applications concern buoyant thermal destabilization in wet granular media and non-Newtonian flows, biological dynamic expanding networks, thermodynamics of metabolic energy conversion under muscle load, ecological economics and nano-thermoplasmonics.
At LIED and LJAD Labs , present applications deal with
- Network Thermodynamics and MesoScopic modeling in Thermoelectricity with IEF/CTM, STMicroElectronics, TEISTE/INN in Greece
- Ecological Economics (with DYCO, AFD, Energy & Prosperity Chair, and also [1])
- Buoyant destabilization in wet granular media & non-Newtonian flows;
- Eyeglass-framed thermoelectric micro-converter analysis & design (with BioPolis/Darwin, Valencia, Spain);
- Analysis of Dynamical Expanding Networks: modelling multi-scale spatial exploration, spreading & morphogenesis, especially in the biologic and economic & social contexts:
- i) the archetypal example of the constrained hyphal growth in the filamentous fungus Podospora Anserina ([the DENA project https://workshopdena17.sciencesconf.org]) with LJAD, the DyCo team, the B2C group at LIED, the LMO at Orsay, and the CMAP at Ecole Polytechnique,
- ii) the endogenous formation of social networks in heterogeneous environments, the modeling of false news propagation.
Lab Address
Numerical Modeling & Fluid Dynamics Group
Laboratoire Mathématiques & Interactions J.A. Dieudonné
Université de Nice Sophia Antipolis CNRS UMR 7351
Parc Valrose 06108 NICE CEDEX, France
ydangelo@unice.fr
DyCo Team
LIED/Laboratoire Interdisciplinaire des Energies de Demain
UMR 8236, Université Paris Diderot, Bât. Lamarck B 35 rue Hélène Brion 75013 Paris FRANCE.
yves.dangelo@univ-paris-diderot.fr ; yd@dyco.fr
Solvers
My team and I are developping the following solvers:
- DYCO, for simulating coupled potentials stock/flow approach network dynamics and application to thermo-electricity, biology, economics.
- HALLEGRO for solving fully compressible subsonic reactive Navier-Stokes equations (HPC using MPI).
- FLAMEX for solving asymptotics-based evolution equations, in particular propagating fronts through turbulent 2D and 3D flows (spectral/ETDRK methods for Sivashinsky-type non-linear non-local equations).
We now also make use of adapted versions of the OpenFOAM® software.
International & Industrial Collaborations
International Collaborations
Politecnico Milano, Italy; CUED Cambridge University Engineering Department, UK ; Chair of Fluid Mechanics, TU Berlin, Germany; LTH, Lund University of Technology, Sweden: Dept. of Aircraft Technology, Institute of Nanoscience and Nanotechnology, Greece; University of Valencia, Spain;
Queensland University of Technology, Australia.
Industrial Collaborations
Renault, IFPEN, ONERA, HBOB Grenoble, ST MicroElectronics Tours, BioPolis Spain.
External Links
and also the
- Stratified and MesoScale combustion applications at CORIA-CFD.