Computational Fluid Dynamics - Revision history

Deadline: added SU 2

2015-06-23T19:20:10Z

added SU 2

Deadline: added Code_Saturne

2012-12-27T15:46:56Z

added Code_Saturne

Deadline at 13:30, 24 June 2009

2009-06-24T13:30:06Z

Deadline at 14:45, 9 January 2009

2009-01-09T14:45:08Z

Deadline at 15:04, 5 June 2006

2006-06-05T15:04:26Z

New page

[http://gfs.sourceforge.net/index.html Gerris] - is an Open Source Free Software library for the solution of the partial differential equations describing fluid flow. The source code is available free of charge under the Free Software GPL license. Gerris is supported by NIWA (National Institute of Water and Atmospheric research) and by the Marsden Fund of the Royal Society of New Zealand. The code is written entirely in C and uses both the GLib Library and the GTS Library for geometrical functions and object-oriented programming.

← Older revision		Revision as of 19:20, 23 June 2015
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	* [http://code-saturne.org/cms/ Code_Saturne] solves the Navier-Stokes equations for 2D, 2D-axisymmetric and 3D flows, steady or unsteady, laminar or turbulent, incompressible or weakly dilatable, isothermal or not, with scalars transport if required. Several turbulence models are available, from Reynolds-Averaged models to Large-Eddy Simulation models. In addition, a number of specific physical models are also available as "modules": gas, coal and heavy-fuel oil combustion, semi-transparent radiative transfer, particle-tracking with Lagrangian modeling, Joule effect, electrics arcs, weakly compressible flows, atmospheric flows, rotor/stator interaction for hydraulic machines.		* [http://code-saturne.org/cms/ Code_Saturne] solves the Navier-Stokes equations for 2D, 2D-axisymmetric and 3D flows, steady or unsteady, laminar or turbulent, incompressible or weakly dilatable, isothermal or not, with scalars transport if required. Several turbulence models are available, from Reynolds-Averaged models to Large-Eddy Simulation models. In addition, a number of specific physical models are also available as "modules": gas, coal and heavy-fuel oil combustion, semi-transparent radiative transfer, particle-tracking with Lagrangian modeling, Joule effect, electrics arcs, weakly compressible flows, atmospheric flows, rotor/stator interaction for hydraulic machines.
		+
		+	* [http://su2.stanford.edu/emails/su2_email_v4.html SU2] is a collection of C++ software tools for performing Partial Differential Equation (PDE) analysis and for solving PDE-constrained optimization problems, with special emphasis on Computational Fluid Dynamics (CFD) and aerodynamic shape design.

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-[http://gfs.sourceforge.net/index.html Gerris] - is an Open Source Free Software library for the solution of the partial differential equations describing fluid flow. The source code is available free of charge under the Free Software GPL license. Gerris is supported by NIWA (National Institute of Water and Atmospheric research) and by the Marsden Fund of the Royal Society of New Zealand. The code is written entirely in C and uses both the GLib Library and the GTS Library for geometrical functions and object-oriented programming.
+* [http://gfs.sourceforge.net/index.html Gerris] - is an Open Source Free Software library for the solution of the partial differential equations describing fluid flow. The source code is available free of charge under the Free Software GPL license. Gerris is supported by NIWA (National Institute of Water and Atmospheric research) and by the Marsden Fund of the Royal Society of New Zealand. The code is written entirely in C and uses both the GLib Library and the GTS Library for geometrical functions and object-oriented programming.
-[http://www.opencfd.co.uk/openfoam/index.html#openfoam OpenFoam®] - The OpenFOAM® (Open Field Operation and Manipulation) CFD Toolbox can simulate anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to solid dynamics, electromagnetics and the pricing of financial options. OpenFOAM is produced by OpenCFD Ltd and is freely available and open source, licensed under the GNU General Public Licence. Domain decomposition parallelism is fundamental to the design of OpenFOAM and integrated at a low level so that solvers can generally be developed without the need for any ’parallel-specific’ coding.
+* [http://www.opencfd.co.uk/openfoam/index.html#openfoam OpenFoam®] - The OpenFOAM® (Open Field Operation and Manipulation) CFD Toolbox can simulate anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to solid dynamics, electromagnetics and the pricing of financial options. OpenFOAM is produced by OpenCFD Ltd and is freely available and open source, licensed under the GNU General Public Licence. Domain decomposition parallelism is fundamental to the design of OpenFOAM and integrated at a low level so that solvers can generally be developed without the need for any ’parallel-specific’ coding.
-[https://computation.llnl.gov/casc/Overture/ Overture] Overture is an object-oriented code framework for solving partial differential equations in serial and parallel computing environments. It provides a portable, flexible software development environment for applications that involve the simulation of physical
+* [https://computation.llnl.gov/casc/Overture/ Overture] Overture is an object-oriented code framework for solving partial differential equations in serial and parallel computing environments. It provides a portable, flexible software development environment for applications that involve the simulation of physical processes in complex moving geometry. It is implemented as a collection of C++ libraries that enable the use of finite difference and finite volume methods at a level that hides the details of the associated data structures, as well as the details of the parallel implementation.
 processes in complex moving geometry. It is implemented as a collection of
-C++ libraries that enable the use of finite difference and finite volume
+* [http://code-saturne.org/cms/ Code_Saturne] solves the Navier-Stokes equations for 2D, 2D-axisymmetric and 3D flows, steady or unsteady, laminar or turbulent, incompressible or weakly dilatable, isothermal or not, with scalars transport if required. Several turbulence models are available, from Reynolds-Averaged models to Large-Eddy Simulation models. In addition, a number of specific physical models are also available as "modules": gas, coal and heavy-fuel oil combustion, semi-transparent radiative transfer, particle-tracking with Lagrangian modeling, Joule effect, electrics arcs, weakly compressible flows, atmospheric flows, rotor/stator interaction for hydraulic machines.

← Older revision		Revision as of 13:30, 24 June 2009
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	[http://www.opencfd.co.uk/openfoam/index.html#openfoam OpenFoam®] - The OpenFOAM® (Open Field Operation and Manipulation) CFD Toolbox can simulate anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to solid dynamics, electromagnetics and the pricing of financial options. OpenFOAM is produced by OpenCFD Ltd and is freely available and open source, licensed under the GNU General Public Licence. Domain decomposition parallelism is fundamental to the design of OpenFOAM and integrated at a low level so that solvers can generally be developed without the need for any ’parallel-specific’ coding.		[http://www.opencfd.co.uk/openfoam/index.html#openfoam OpenFoam®] - The OpenFOAM® (Open Field Operation and Manipulation) CFD Toolbox can simulate anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to solid dynamics, electromagnetics and the pricing of financial options. OpenFOAM is produced by OpenCFD Ltd and is freely available and open source, licensed under the GNU General Public Licence. Domain decomposition parallelism is fundamental to the design of OpenFOAM and integrated at a low level so that solvers can generally be developed without the need for any ’parallel-specific’ coding.
		+
		+	[https://computation.llnl.gov/casc/Overture/ Overture] Overture is an object-oriented code framework for solving partial differential equations in serial and parallel computing environments. It provides a portable, flexible software development environment for applications that involve the simulation of physical
		+	processes in complex moving geometry. It is implemented as a collection of
		+	C++ libraries that enable the use of finite difference and finite volume
		+	methods at a level that hides the details of the associated data structures, as
		+	well as the details of the parallel implementation.

← Older revision		Revision as of 14:45, 9 January 2009
Line 1:		Line 1:
	[http://gfs.sourceforge.net/index.html Gerris] - is an Open Source Free Software library for the solution of the partial differential equations describing fluid flow. The source code is available free of charge under the Free Software GPL license. Gerris is supported by NIWA (National Institute of Water and Atmospheric research) and by the Marsden Fund of the Royal Society of New Zealand. The code is written entirely in C and uses both the GLib Library and the GTS Library for geometrical functions and object-oriented programming.		[http://gfs.sourceforge.net/index.html Gerris] - is an Open Source Free Software library for the solution of the partial differential equations describing fluid flow. The source code is available free of charge under the Free Software GPL license. Gerris is supported by NIWA (National Institute of Water and Atmospheric research) and by the Marsden Fund of the Royal Society of New Zealand. The code is written entirely in C and uses both the GLib Library and the GTS Library for geometrical functions and object-oriented programming.
		+
		+	[http://www.opencfd.co.uk/openfoam/index.html#openfoam OpenFoam®] - The OpenFOAM® (Open Field Operation and Manipulation) CFD Toolbox can simulate anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to solid dynamics, electromagnetics and the pricing of financial options. OpenFOAM is produced by OpenCFD Ltd and is freely available and open source, licensed under the GNU General Public Licence. Domain decomposition parallelism is fundamental to the design of OpenFOAM and integrated at a low level so that solvers can generally be developed without the need for any ’parallel-specific’ coding.