Radiation transport solvers

Radiative wall heat flux computed with COOLFluiD Monte-Carlo/ray tracing radiation transport solver + ESA PARADE library on Fire II configuration and compared with flight data.

Radiative wall heat flux computed with COOLFluiD Monte-Carlo/ray tracing radiation transport solver + ESA PARADE library on Fire II configuration. Comparison with reference numerical solutions and flight data is shown (courtesy from Pedro Santos).

Radiative heat source computed with COOLFluiD Monte-Carlo/ray tracing radiation transport solver + ESA PARADE library on Fire II configuration using 10,000 photons/cell

Radiative heat source computed with COOLFluiD Monte-Carlo/ray tracing radiation transport solver + ESA PARADE library on Fire II configuration using 10,000 photons/cell (courtesy from Pedro Santos).

[WATCH VIDEO: Advance ordering algorithm for a Finite Volume / Discrete Ordinate Method (FV/DOM) radiation transport code applied to a NASA Ames arcjet configuration.] (https://raw.githubusercontent.com/andrealani/COOLFluiD/master/videos/3AdvanceOrderArcJet.avi)

Parallel speed up for the FV/DOM radiation transport code on up to 512 cores.

The COOLFluiD team is involved and open to new collaborations in Horizon2020, ESA and other research projects dealing with complex multi-disciplinary problems and computational challenges.

Training sessions and consulting services can also be provided on demand.

For any request or suggestions please contact andrea.lani@gmail.com