OpenFOAM provides a set of solvers and methods for tackling problems in the field of Computational Fluid Dynamics (CFD). It is written in C++. Governing equations such as the Navier-Stokes equations can be solved in integral form. Physical processes such as phase change, droplet transport and chemical reaction can be modelled. Numerical methods are included to deal with sharp gradients, such as those encountered in flows with shock waves and flows with gas/liquid interfaces. Large problems may be split into smaller, connected problems for efficient solution on parallel systems.

","plain":"OpenFOAM provides a set of solvers and methods for tackling problems in\nthe field of Computational Fluid Dynamics (CFD). It is written in C++.\nGoverning equations such as the Navier-Stokes equations can be solved in\nintegral form. Physical processes such as phase change, droplet\ntransport and chemical reaction can be modelled. Numerical methods are\nincluded to deal with sharp gradients, such as those encountered in\nflows with shock waves and flows with gas/liquid interfaces. Large\nproblems may be split into smaller, connected problems for efficient\nsolution on parallel systems.\n\n","locale":"en_US.UTF-8"},"home-page":"https://openfoam.org","derivations":[{"system":"x86_64-linux","target":"","derivation":"/gnu/store/jbh3b9p31bc2bi2ipmi9gh4l5iimzm8d-openfoam-4.1.drv"},{"system":"mips64el-linux","target":"","derivation":"/gnu/store/lx7icmrphfahhv2wrawd9j9v6b5f366b-openfoam-4.1.drv"},{"system":"i686-linux","target":"","derivation":"/gnu/store/jprk9ss2lshpnz2nma3wx270qdcf5ybl-openfoam-4.1.drv"},{"system":"armhf-linux","target":"","derivation":"/gnu/store/7vz07kfd6nzdxw82cgq9ilag4vw8gm01-openfoam-4.1.drv"},{"system":"aarch64-linux","target":"","derivation":"/gnu/store/0i7q4k6brbc6pbzdrlj1abyx4x2dbydz-openfoam-4.1.drv"}]}