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Chris Greenshields

OpenFOAM 2.0.0: Turbulence Modelling

Dynamic Lagrangian Model The latest release includes the new dynLagrangian large eddy simulation (LES) turbulence model, a Lagrangian two equation eddy-viscosity model. In LES, large turbulent structures in the flow are resolved by the governing equations, while the effect of the sub-grid scales (SGS) are modelled. Conventional models predict SGS […]

16th June 2011

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OpenFOAM 2.0.0: Chemistry

Pyrolysis modelling As part of OpenFOAM’s continual development for fire safety simulation, we have introduced modelling of pyrolysis. Pyrolysis is the decomposition of organic material at elevated temperatures, and is usually the primary chemical reaction that occurs in the burning of solid matter, such as wood. The process produces gases […]

16th June 2011

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OpenFOAM 2.0.0: Thermophysical Modelling

View Factor Radiation Model In addition to the P1 model and finite volume discrete-ordinate method (fvDOM), OpenFOAM now has an implementation of a view factor model for radiative heat transfer, specifically between surfaces. The method begins with the generation of rays between discrete faces of the surfaces, using the viewFactorsGen […]

16th June 2011

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OpenFOAM 2.0.0: Particle Tracking

Discrete Element Modelling In this version of OpenFOAM an implementation of the discrete element method (DEM) has been introduced for particle simulations. The implementation of DEM includes the following features. runs efficiently in parallel with no restriction on the shape or size of mesh cells, and with interactions occurring between […]

16th June 2011

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OpenFOAM 2.0.0: Steady-State VoF

An approach has been developed to run simulations involving complex physics to steady-state, quickly and reliably. The method is local-time stepping (LTS), in which the time step is manipulated for each individual cell in the mesh, making it as high as possible to enable the simulation to reach steady-state quickly. […]

16th June 2011

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OpenFOAM 2.0.0: Surface Film

A new surface film modelling library offers the capability to predict the complex behaviour of thin films with optional coupling to the bulk flow, both continuum and discrete (particle) phases, in parallel. The film equations are solved on a separate mesh region, typically defined at a surface region of a […]

16th June 2011

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