Difference between revisions of "Sig CombustionReactingFlows / Third-party code contribution"
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+ | = Coupling Cantera and OpenFOAM = | ||
+ | '''Valid versions''': [[File:OF_Version_15x.png]] | ||
+ | |||
+ | == References & Contact == | ||
+ | author: [http://www.extend-project.de/openfoam-community/89/profile Bernhard Gschaider] | ||
+ | |||
+ | == Description == | ||
+ | ''alternateReactingFoam'' is a solver to use detailed chemistry and detailed transport by coupling [http://code.google.com/p/cantera/ Cantera] with OpenFOAM. | ||
+ | |||
+ | Keywords: cantera, reactingFoam, detailed chemistry | ||
+ | |||
+ | == Code == | ||
+ | The installation is described on [http://openfoamwiki.net/index.php/Contrib_alternateReactingFoam alternateReactingFoam] | ||
+ | |||
= Multi species mass transport = | = Multi species mass transport = | ||
'''Valid versions''': [[File:OF_Version_16ext.png]] | '''Valid versions''': [[File:OF_Version_16ext.png]] | ||
Line 5: | Line 19: | ||
If you use this library please cite the following article: | If you use this library please cite the following article: | ||
− | Novaresio V., | + | Novaresio V., García-Camprubí M., Izquierdo S., Asinari P., Fueyo N., An Open-Source Library for the Numerical Modeling of Mass-Transfer in Solid-Oxide Fuel Cells, Computer Physics Communications, Elsevier B.V., pp. 22, 2011, Vol. 183, pag. 125-146, ISSN: 0010-4655, [http://dx.doi.org/10.1016/j.cpc.2011.08.003 DOI: 10.1016/j.cpc.2011.08.003] |
If you have suggestions, feedback, corrections and further improvements, please contact [http://www.extend-project.de/openfoam-community/385/profile Novaresio Valerio] | If you have suggestions, feedback, corrections and further improvements, please contact [http://www.extend-project.de/openfoam-community/385/profile Novaresio Valerio] | ||
== Description == | == Description == | ||
− | The diffusivityModels library contains a series of classes to compute binary diffusion coefficients (ChapmanEnskog, Wilke, Fuller, Constant) and Knudsen diffusion | + | The diffusivityModels library contains a series of classes to compute binary diffusion coefficients (ChapmanEnskog, Wilke, Fuller, Constant) and Knudsen diffusion coefficients for porous media. The multiSpeciesTransportModels library contains a series of models to compute diffusive fluxes (SchmidtNumber, LewisNumber, FickDilutedMixture, Fick, MaxwellStefan). |
− | There are few differences between this library and the paper. Below one can find a short documentation that also describes this differences. The library comes with a solver (a modified version of reactingFoam that can use the multi species mass library) and with a simple test case for methane laminar combustion (special thanks to Silvano Pautasso). The ./install script copies and compiles all files respectively in $FOAM_USER/lib, $FOAM_USER/applications and $FOAM_USER/run. | + | There are few differences between this library and the paper. Below one can find a short documentation that also describes this differences. The library comes with a solver (a modified version of reactingFoam that can use the multi-species mass library) and with a simple test case for methane laminar combustion (special thanks to Silvano Pautasso). The ./install script copies and compiles all files respectively in $FOAM_USER/lib, $FOAM_USER/applications and $FOAM_USER/run. |
+ | |||
+ | Keywords: diffusion, reactingFoam | ||
== Code == | == Code == | ||
The library is fully integrated with OpenFOAM®-1.6-ext. | The library is fully integrated with OpenFOAM®-1.6-ext. | ||
− | + | You can download the library separately: [[File:MultiSpeciesMassTransportLibrary.zip]] | |
+ | |||
+ | = presumed-PDF, FGM and thickened-Flame = | ||
+ | '''Valid versions''': [[File:OF_Version_16ext.png]] | ||
+ | |||
+ | == References & Contact == | ||
+ | Publication: Kröger H., Hassel E., Kornev N. and Wendig D., ''LES of Premixed Flame Propagation in a Free Straight Vortex'', Flow, Turbulence and Combustion, Springer Netherlands, pp. 513-541, Vol. 84: 3 (2010) [http://dx.doi.org/10.1007/s10494-009-9242-y DOI 10.1007/s10494-009-9242-y] | ||
+ | |||
+ | Presentation: Kröger H., Hassel E. and Kornev N., ''Implementation of Combustion Models for Large Eddy Simulation'', 3rd OpenFOAM Workshop 2008 [http://sourceforge.net/projects/openfoam-extend/files/OpenFOAM_Workshops/OFW3_2008_Milan/Presentations/LES/HannesKroeger.pdf/download Download presentation] | ||
+ | author: [http://www.extend-project.de/openfoam-community/663/profile Hannes Kroeger] | ||
+ | |||
+ | == Description == | ||
+ | Implementation of three combustion models: | ||
+ | * Presumed-PDF | ||
+ | * Flamelet Generated Manifold | ||
+ | * Thickened Flame | ||
+ | |||
+ | Keywords: presumed-PDF, FGM, Thickened Flame | ||
+ | |||
+ | == Code == | ||
+ | The code is available on git repository setup by Dr. Kroeger: | ||
+ | git clone git://git.code.sf.net/p/ofca/code CombustionAddons |
Latest revision as of 21:18, 13 November 2012
Contents
1 Coupling Cantera and OpenFOAM
1.1 References & Contact
author: Bernhard Gschaider
1.2 Description
alternateReactingFoam is a solver to use detailed chemistry and detailed transport by coupling Cantera with OpenFOAM.
Keywords: cantera, reactingFoam, detailed chemistry
1.3 Code
The installation is described on alternateReactingFoam
2 Multi species mass transport
2.1 References & Contact
If you use this library please cite the following article:
Novaresio V., García-Camprubí M., Izquierdo S., Asinari P., Fueyo N., An Open-Source Library for the Numerical Modeling of Mass-Transfer in Solid-Oxide Fuel Cells, Computer Physics Communications, Elsevier B.V., pp. 22, 2011, Vol. 183, pag. 125-146, ISSN: 0010-4655, DOI: 10.1016/j.cpc.2011.08.003
If you have suggestions, feedback, corrections and further improvements, please contact Novaresio Valerio
2.2 Description
The diffusivityModels library contains a series of classes to compute binary diffusion coefficients (ChapmanEnskog, Wilke, Fuller, Constant) and Knudsen diffusion coefficients for porous media. The multiSpeciesTransportModels library contains a series of models to compute diffusive fluxes (SchmidtNumber, LewisNumber, FickDilutedMixture, Fick, MaxwellStefan).
There are few differences between this library and the paper. Below one can find a short documentation that also describes this differences. The library comes with a solver (a modified version of reactingFoam that can use the multi-species mass library) and with a simple test case for methane laminar combustion (special thanks to Silvano Pautasso). The ./install script copies and compiles all files respectively in $FOAM_USER/lib, $FOAM_USER/applications and $FOAM_USER/run.
Keywords: diffusion, reactingFoam
2.3 Code
The library is fully integrated with OpenFOAM®-1.6-ext.
You can download the library separately: File:MultiSpeciesMassTransportLibrary.zip
3 presumed-PDF, FGM and thickened-Flame
3.1 References & Contact
Publication: Kröger H., Hassel E., Kornev N. and Wendig D., LES of Premixed Flame Propagation in a Free Straight Vortex, Flow, Turbulence and Combustion, Springer Netherlands, pp. 513-541, Vol. 84: 3 (2010) DOI 10.1007/s10494-009-9242-y
Presentation: Kröger H., Hassel E. and Kornev N., Implementation of Combustion Models for Large Eddy Simulation, 3rd OpenFOAM Workshop 2008 Download presentation author: Hannes Kroeger
3.2 Description
Implementation of three combustion models:
- Presumed-PDF
- Flamelet Generated Manifold
- Thickened Flame
Keywords: presumed-PDF, FGM, Thickened Flame
3.3 Code
The code is available on git repository setup by Dr. Kroeger:
git clone git://git.code.sf.net/p/ofca/code CombustionAddons