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My team and I develop the following solvers: | My team and I develop the following solvers: | ||
* [http://www.dyco.fr/index.php/The_DYCO_Solver DYCO], for simulating coupled potentials stock/flow approach network dynamics and application to thermo-electricity, biology, economics. | * [http://www.dyco.fr/index.php/The_DYCO_Solver DYCO], for simulating coupled potentials stock/flow approach network dynamics and application to thermo-electricity, biology, economics. | ||
| − | * [http://www. | + | * [http://www.coria-cfd.fr/index.php/H-Allegro HALLEGRO] for solving fully compressible subsonic reactive Navier-Stokes equations (HPC using MPI). |
* [http://www.dyco.fr/index.php/The_FLAMEX_Solver FLAMEX] for solving propagating fronts Sivashinsky-type evolution equations, through turbulent 2D and 3D flows (spectral/ETDRK methods). | * [http://www.dyco.fr/index.php/The_FLAMEX_Solver FLAMEX] for solving propagating fronts Sivashinsky-type evolution equations, through turbulent 2D and 3D flows (spectral/ETDRK methods). | ||
Revision as of 17:21, 1 April 2016
Research Interests
Since 2005, I am Professor of Fluids Mechanics & Applied Mathematics at the French Institute for Applied Sciences (INSA) in Rouen, France.
My main research interests deal with numerical modeling & analysis, asymptotic modeling and scientific computing.
At LIED Laboratory, present applications deal with
- Mathematical Modeling, Simulation & Analysis in
- Network Thermodynamics and Thermoelectricity (with TEISTE/INN, Greece, & Inria),
- Ecological Economics (MeetMadys Project, with AFD & ESSEC) and
- Plant response to stress analysis and biological networks modeling (PACS Project, with Paris VI and Caen Universities);
- Buoyant destabilization in wet granular media & non-Newtonian flows;
- Eyeglass-framed thermoelectric micro-converter analysis & design (with BioPolis, Valencia, Spain);
- Coupled dynamics of heat & mass transfer, micro-scale flow and particle transport in metal foams (with QUT Brisbane and Arts & Métiers ParisTech);
- Thermo-Electric Rayleigh-Bénard instability.
Lab Address
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
+33 (0)1 57 27 50 15
Solvers
My team and I develop 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 propagating fronts Sivashinsky-type evolution equations, through turbulent 2D and 3D flows (spectral/ETDRK methods).
We now also make use of adapted versions of the OpenFOAM® software, for more complex geometries or fluids.
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.
Other Links
and also the
- Stratified and MesoScale combustion applications at CORIA-CFD.