Welcome to AeroSolved.
AeroSolved is an OpenFOAM library for the simulation of multispecies evolving aerosols. AeroSolved was developed to study aerosol dynamics starting from the aerosol generation through its evolution, transport and deposition. The implemented aerosol physics is applicable to a wide range of practical applications, including the development of aerosol generators, inhalation devices, validation of aerosol delivery systems for in vivo inhalation studies and in vitro sciences as well as for atmospheric sciences.
The AeroSolved project is led and funded by Philip Morris International R&D (PMI R&D).
If you find this project helpful or use it in your work, please cite it using the and present repository its reference paper:
- AeroSolved (2019). GitHub repository, https://github.com/philipmorrisintl/aerosolved
- Lucci, F., Frederix, E. M. A., & Kuczaj, A. K. (2022). AeroSolved: Computational fluid dynamics modeling of multispecies aerosol flows with sectional and moment methods, Journal of Aerosol Science, 159, 105854
Please have a look at the documentation:
AeroSolved is developed and tested against OpenFOAM-v1812. Some cases require python3 and numpy for generating a post-processing plot (see the attribution note).
For more information and details contact the AeroSolved team at this email address.
AeroSolved is publicly available following the OpenFOAM software development approach philosophy under the GNU General Public License 3.0. OpenFOAM is an open source software licensed under the GNU General Public license. AeroSolved is not approved or endorsed by OpenCFD Limited or the OpenFOAM Foundation.
See the LICENSE file for details.