Mathematic simulation laboratory
- analysis of reactor thermal conditions for carbon nanomaterials production;
- literature review on physical and mathematic simulation of gas-dynamic lasers operation;
- computer code design for two-dimensional simulation of thermal and hydrodynamic working modes of a filtration combustion reactor for carbon nanomaterials production;
- shift of the existing library “Interface” to 64-bit platform;
- study of carbon nanomaterials formation and growth models;
- model development and program design to calculate nonsteady flow in tree-type waterless fire protection systems;
- preparation of SPH axially-symmetric model of microparticles high-speed collision with a screen.
The main research work of the laboratory: multiphase systems thermodynamics; detailed simulation of pyrolysis and various hydrocarbons combustion, including environmental aspects; heat and mass transfer in chemically reacting systems; non-equilibrium processes in plasma of barrier, glow, corona and microwave discharges, as well as high-voltage discharge of atmospheric pressure; plasma interaction with objects; study of hydrogen production problems; mathematic models development to simulate the problems under study.