GASFLOW is a simulation-based engineering tool to existing and next-generation advanced environmental and energy systems involving reactive gas and multi-phase flows with aerosols, droplets and dusts in complex geometries. It has been developed by a dedicated team of scientists and engineers skilled in development and application of all-speed Computational Fluid Dynamics (CFD) software for multiphase flow and reactive gas dispersion & combustion since 1980's. GASFLOW combines competences of fundamental research, science and long term experience in successful contract completion in order to obtain fast and individual solutions. By using scientific safety analyses of reactive gases and dusts based on theoretical, numerical and experimental expertise, GASFLOW offers possibilities for costs and safety optimization in the development of current and future energy systems, such as hydrogen energy, natural gas and nuclear power. GASFLOW code is a
High performance finite volume all-speed CFD code for real-world applications.
CFD-based engineering tool to provide fast simulations for large scale problems.
Best-estimation tool for accident investigations involving reactive gas and dust dispersion and explosion.
Professional computational tool to develop specific solutions for increased safety at reduced costs.
What's New
Latest Information on GASFLOW Development and Applications
GASVIEW 1.0 has been released with the capabilities of mesh generation, input parameters and post-processing.
Aerobuster Project - Rendering viruses harmless with air sterilization
GASFLOW is involved in the KIT Innovation Project to stem the spread of corona and other viral diseases with a cost-effective and versatile air sterilizer.
Solar Hydrogen - Pure & Compressed
GASFLOW is applied in the Project of the Helmholtz Innovation Pool.
Aerosols and Water Droplets Behaviors in Full-scale Advanced Energy Systems
Lagrangian discrete models for aerosols and water droplets have been developed in GASFLOW and applied in a demo problem of aerosol transport and deposition in a full-scale advanced nuclear energy system.
Methane and Dust Explosion in Real-scale Geometries
Methane-oxygen explosion models have been developed in GASFLOW.
