For 3D/2D/1D modeling of non-equilibrium plasmas with multi-temperature, multi-species formulation for direct-current, capacitive, inductive, microwave, etc. discharges.
For 3D/2D/1D modeling of equilibrium thermal (arc) plasmas in spark discharges, arc lamps, plasma torches, etc.
For 3D/2D/1D modeling of rarefied-gas / hybrid-plasma / macro-particle kinetics using Lagrangian particle-based formulation.
For 3D/2D/1D modeling of fluid flow phenomena ranging from the incompressible to high-Mach number compressible flows with inviscid, viscous, and real gas descriptions.
For 3D/2D/1D modeling of electromagnetic phenomena including quasi-static (electrostatics and magnetostatics), and high-frequency (wave) description in both time-domain and frequency domain.
A easy-to-use, robust, 2D meshing tool to generate hybrid unstructured computational grids for multi-dimensional solvers.
A zero-dimensional model for extremely fast simulations of reactive flow, combustion, and plasma phenomena. Ideal for finite-rate chemical kinetics development, sensitivity analysis, and reactor/discharge optimization.
We support comprehensive databases for 1) finite-rate chemistry mechanisms in non-equilibrium systems (plasmas, combustion, etc.); 2) equilibrium chemical systems in combustion, aerodynamics, and arc plasmas