An object-oriented implementation of a parallel Monte Carlo code for radiation transport

Published: 1 May 2016| Version 1 | DOI: 10.17632/8v6j4jtkmj.1
Pedro Duarte Santos, Andrea Lani


This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2018) Abstract This paper describes the main features of a state-of-the-art Monte Carlo solver for radiation transport which has been implemented within COOLFluiD, a world-class open source object-oriented platform for scientific simulations. The Monte Carlo code makes use of efficient ray tracing algorithms (for 2D, axisymmetric and 3D arbitrary unstructured meshes) which are described in detail. The solver accuracy is first verified in testcases for which analytical solutions are available, then validated... Title of program: COOLFluiD-MC Catalogue Id: AEZG_v1_0 Nature of problem Radiative processes play a fundamental role in countless science and engineering contexts, including combustion, astrophysics, atmospheric space re-entry, experiments in plasma facilities (e.g. shock tubes, arc jets). The problem we are interested in is the computation of radiative heat transfer on arbitrarily complex geometries, in particular to characterize thermal loads acting on the surface of space vehicles. Versions of this program held in the CPC repository in Mendeley Data AEZG_v1_0; COOLFluiD-MC; 10.1016/j.cpc.2015.12.017



Radiation, Computational Physics