Difference between revisions of "Main Page"
(The DYCO Team)
 
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== The DYCO Team  ==
 
  
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[[File:Dyco96_RB.jpg|200px]]
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=== Research ===
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Our research activities mainly deal with the modeling, simulation & analysis of the dynamics of coupled potentials,
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in an Onsager-type force/flux approach.
  
UNDER CONSTRUCTION !!!
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Present applications are network thermodynamics, thermoelectricity, ecological economics, network stress signaling in plants, 
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and also, in the context of fluid dynamics, the buoyant destabilization of wet granular or non-Newtonian media, and the thermo-electric
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Rayleigh-Bénard instability.
  
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See our [http://www.dyco.fr/index.php/Recent_Publications recent publications].
<strong> Modeling, Simulating & Analyzing Coupled Dynamics ! </strong>
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=== The DYCO Team Members ===
<strong>  The Team Members:  </strong>
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* Christophe Goupil, Full Professor of Physics - Paris Diderot University  
 
* Christophe Goupil, Full Professor of Physics - Paris Diderot University  
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* Eric Herbert, Associate Professor of Physics - Paris Diderot University  
 
* Eric Herbert, Associate Professor of Physics - Paris Diderot University  
  
*Yves D'Angelo, Full Professor of Applied Mathematics & Fluid Dynamics - INSA Rouen
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* Yves D'Angelo, Full Professor of Applied Mathematics & Fluid Dynamics - INSA Rouen
 
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{| class="wikitable"
 
{| class="wikitable"
|+ Coupled Dynamics ---
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|[[File:ElectricCurrentY_3D.png|270 px]]
|[[File:Backg.jpg|250 px]]
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|[[File:OUILeontiefTotal.jpg|430 px]]
|[[File:Dyco96.jpg|250 px]]
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|}
 
|}
 
 
{| class="wikitable" style="margin: 1em auto 1em auto;"
 
|+ 3D expanding flame Movie
 
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|{{#widget:YouTube|id=xbG4w9Bav-k|width=400|height=300}}
 
|{{#widget:YouTube|id=rC4RCCPv5dY|width=400|height=300}}
 
|}
 
 
LEFT : Three dimensional simulation of a propane/air stoichiometric expanding flame. Iso-contours of vorticity (blue to red) and of reaction rate (green). Physical times range here from 0.49 to 7.28 ms.
 
 
RIGHT : results obtained with FLAMEX, pseudo-spectral/ETDRK  solver for a Sivashinsky-type  Evolution Equation (written for the whole front surface). 2.36 M colocation points; Fourier-Legendre decomposition. 3 CPU hours...
 

Latest revision as of 17:57, 3 April 2016

Dyco96 RB.jpg

Research

Our research activities mainly deal with the modeling, simulation & analysis of the dynamics of coupled potentials, in an Onsager-type force/flux approach.

Present applications are network thermodynamics, thermoelectricity, ecological economics, network stress signaling in plants, and also, in the context of fluid dynamics, the buoyant destabilization of wet granular or non-Newtonian media, and the thermo-electric Rayleigh-Bénard instability.

See our recent publications.

The DYCO Team Members

  • Christophe Goupil, Full Professor of Physics - Paris Diderot University
  • Eric Herbert, Associate Professor of Physics - Paris Diderot University
  • Yves D'Angelo, Full Professor of Applied Mathematics & Fluid Dynamics - INSA Rouen
ElectricCurrentY 3D.png OUILeontiefTotal.jpg
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