Difference between revisions of "The DYCO Solver"

(Sample Results)
(Sub-modules for)
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Each elementary cell is of the non-ideal (non-linear) type.
 
Each elementary cell is of the non-ideal (non-linear) type.
  
==Sub-modules for ==
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==Sub-modules ==
A sub-module of DYCO has been devoted to the numerical solution
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A sub-module of DYCO shall be devoted to the numerical solution of coupled stock/flow potential in the ecological economics and biological contexts.
{| class="wikitable"
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|+ System of equations, EEM and sample results of FB radius dynamics
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|[[File:Fbdynamics.png|600 px]]
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|}
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== Participants ==
 
== Participants ==
 
Yves D'Angelo,  Christophe Goupil, Eric Herbert, Xanthippi Zianni, Louise Meteir, Aurélie Louis-Napoléon.
 
Yves D'Angelo,  Christophe Goupil, Eric Herbert, Xanthippi Zianni, Louise Meteir, Aurélie Louis-Napoléon.

Revision as of 11:09, 1 April 2016

The DYCO Solvers suite

Dyco96 Solvers.jpg

DYCO is a suite of solvers able to compute high accuracy solutions to non-linear

Main features

  • Solving

Sample Results

We show below a short gallery of pictures obtained using the DYCO solver, in the thermo-electric context.

Sample 3D results including a non-homogeneous thermo-electric material with non-constant TE coefficients.
OUITemperature.png OUIPotential.png OUIElectricCurrent.png
Sample 3D results for N-type junction with non-constant noisy TE coefficients.
OUIEnergyDensity3D.png OUIEntropyProduction.png

In both cases, BC are Homogeneous Neumann and/or Non-Homogeneous Dirichlet. Each elementary cell is of the non-ideal (non-linear) type.

Sub-modules

A sub-module of DYCO shall be devoted to the numerical solution of coupled stock/flow potential in the ecological economics and biological contexts.

Participants

Yves D'Angelo, Christophe Goupil, Eric Herbert, Xanthippi Zianni, Louise Meteir, Aurélie Louis-Napoléon.