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<span style="font-size: 110%; border: "><span style="color:#FF0000"> <strong>At LIED and LJAD Labs </strong></span></span>, Recent applications and collaborations concern: | <span style="font-size: 110%; border: "><span style="color:#FF0000"> <strong>At LIED and LJAD Labs </strong></span></span>, Recent applications and collaborations concern: | ||
* [http://www.dyco.fr/index.php/The_DYCO_Solver#Sample_Results Network Thermodynamics and MesoScopic modeling in Thermoelectricity] with [http://cnanoidf.org/fr/recherche/nanoelectronique-ne/equipes/equipes-paris-sud-orsay-palaiseau/article/equipe-couches-minces-transport-et IEF/CTM], [http://www2.st.com/content/st_com/en.html STMicroElectronics], [http://xzianni.aero.teiste.gr/ TEISTE/INN in Greece]; (stand-by) | * [http://www.dyco.fr/index.php/The_DYCO_Solver#Sample_Results Network Thermodynamics and MesoScopic modeling in Thermoelectricity] with [http://cnanoidf.org/fr/recherche/nanoelectronique-ne/equipes/equipes-paris-sud-orsay-palaiseau/article/equipe-couches-minces-transport-et IEF/CTM], [http://www2.st.com/content/st_com/en.html STMicroElectronics], [http://xzianni.aero.teiste.gr/ TEISTE/INN in Greece]; (stand-by) | ||
| − | * [http://www.dyco.fr/index.php/Ecological_Economics Ecological Economics] | + | * [http://www.dyco.fr/index.php/Ecological_Economics Ecological Economics], with DYCO Team, [http://www.afd.fr/home/AFD/presentation-afd/GouvernanceAFD/gael-giraud AFD], [http://www.chair-energy-prosperity.org/category/chercheurs-associes/yves-dangelo/ Energy & Prosperity Chair]; (stand-by) |
| − | * Thermodynamics of metabolic energy conversion under muscle load and in particular the cost of oxygen question, | + | * Thermodynamics of metabolic energy conversion under muscle load and in particular the cost of oxygen question, with DYCO Team and [https://faculty.skoltech.ru/people/henniouerdane Skoltech, Skolkovo Institute of Science and Technology, in Moscow] <span style="font-size: 100%; border: "><span style="color:#FF0000"> (in progress !) </span></span>; |
* Buoyant destabilization in [http://www.dyco.fr/index.php/Buoyant_destabilization_in_wet_granular_media_%26_non-Newtonian_flows wet granular media & non-Newtonian flows] with DYCO and [http://inphyni.cnrs.fr/en/research/nonlinear-physics-complex-fluids-and-biophysics/concentrated-suspensions-rheology InPhiNi] <span style="font-size: 100%; border: "><span style="color:#FF0000"> (in progress !) </span></span>; | * Buoyant destabilization in [http://www.dyco.fr/index.php/Buoyant_destabilization_in_wet_granular_media_%26_non-Newtonian_flows wet granular media & non-Newtonian flows] with DYCO and [http://inphyni.cnrs.fr/en/research/nonlinear-physics-complex-fluids-and-biophysics/concentrated-suspensions-rheology InPhiNi] <span style="font-size: 100%; border: "><span style="color:#FF0000"> (in progress !) </span></span>; | ||
* Eyeglass-framed thermoelectric micro-converter analysis & design (with [https://www.pcuv.es/en/empresas-instaladas/Biotecnolog-a/BIOPOLIS BioPolis]/[https://www.pcuv.es/en/empresas-instaladas//DARWIN-BIOPROSPECTING-EXCELLENCE--S-L Darwin], Valencia, Spain); (stand-by) | * Eyeglass-framed thermoelectric micro-converter analysis & design (with [https://www.pcuv.es/en/empresas-instaladas/Biotecnolog-a/BIOPOLIS BioPolis]/[https://www.pcuv.es/en/empresas-instaladas//DARWIN-BIOPROSPECTING-EXCELLENCE--S-L Darwin], Valencia, Spain); (stand-by) | ||
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** ii) the endogenous formation of social networks in heterogeneous environments, the modeling of false news propagation (in progress) | ** ii) the endogenous formation of social networks in heterogeneous environments, the modeling of false news propagation (in progress) | ||
* Nano-thermoplasmonics modelling & simulation: coupling (hyperbolic) heat transfer equations and Maxwell equations at the nanoscale; further coupling with the dynamics of possibly reactive flows). Collaboration with [http://www-sop.inria.fr/nachos/ INRIA Nachos Team] <span style="font-size: 100%; border: "><span style="color:#FF0000"> (in progress !) </span></span> | * Nano-thermoplasmonics modelling & simulation: coupling (hyperbolic) heat transfer equations and Maxwell equations at the nanoscale; further coupling with the dynamics of possibly reactive flows). Collaboration with [http://www-sop.inria.fr/nachos/ INRIA Nachos Team] <span style="font-size: 100%; border: "><span style="color:#FF0000"> (in progress !) </span></span> | ||
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=== ''Lab Address'' === | === ''Lab Address'' === | ||
Revision as of 08:52, 3 June 2018
Contents
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.
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 (with Institut de Physique de Nice), biological dynamic expanding networks (see the DENA project below), thermodynamics of metabolic energy conversion under muscle load, ecological economics (with AFD), and also very recently nano-thermoplasmonics with INRIA Nachos.
At LIED and LJAD Labs , Recent applications and collaborations concern:
- Network Thermodynamics and MesoScopic modeling in Thermoelectricity with IEF/CTM, STMicroElectronics, TEISTE/INN in Greece; (stand-by)
- Ecological Economics, with DYCO Team, AFD, Energy & Prosperity Chair; (stand-by)
- Thermodynamics of metabolic energy conversion under muscle load and in particular the cost of oxygen question, with DYCO Team and Skoltech, Skolkovo Institute of Science and Technology, in Moscow (in progress !) ;
- Buoyant destabilization in wet granular media & non-Newtonian flows with DYCO and InPhiNi (in progress !) ;
- Eyeglass-framed thermoelectric micro-converter analysis & design (with BioPolis/Darwin, Valencia, Spain); (stand-by)
- Analysis of Dynamical Expanding Networks: modelling multi-scale spatial exploration, spreading & morphogenesis, especially in the biologic and economic & social contexts (in progress !) :
- i) the archetypal example of the constrained hyphal growth in the filamentous fungus Podospora Anserina (the DENA project) 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 (in progress)
- Nano-thermoplasmonics modelling & simulation: coupling (hyperbolic) heat transfer equations and Maxwell equations at the nanoscale; further coupling with the dynamics of possibly reactive flows). Collaboration with INRIA Nachos Team (in progress !)
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.