Engineering and scientific projects done by our researchers in Fluid, Gas and Plasma Mechanics
- Advanced inertial high- and low- volumetric flow rates particulate concentrators and collectors - modeling and design (Canada)
- CFD simulation of warship aerosol-sampling compartment (Canada)
- CFD approach to simulation of acoustophoresis in aerosols (Canada)
- CFD analysis of particulate-sampling shelter (Canada)
- Error analysis for novel high-Q/ hiqh-frequency electromagnetic resonant humidity sensor (Canada)
- Aerodynamic evaluation of aerosol-sampling vehicle (Canada)
- Development of electrostatic agglomerating aerosol unit (Canada)
- Numerical simulation of particulate dispersion and design for laminar flow column (Canada)
- CFD simulation of Ranque-Hilsch (vortex) Effect (Canada)
- Mathematical modeling and design for acoustic horn underground noise-detection system (Canada)
- Physics of micro-gravity - computational research on bifurcations (transition to chaos) of free thermal vibration convection in orbital space station (Canada, with Ural Scientific Center & Perm State University (Russia)
- Mathematical modeling and computational visualization of unsteady laser-particle ignition (with Tomsk Scientific Research Institute for Applied Mathematics and Mechanics - Russia)
- Simulation of combustion wave in the process of self-propagating high-temperature synthesis of new metal-ceramic materials (with American Ceramic Society and Tomsk Scientific Research Institute for Applied Mathematics and Mechanics - Russia)
- Numerical modeling of agglomerating metal particles in jet combustion engine (with Tomsk Scientific Research Institute for Applied Mathematics and Mechanics - Russia)
- Study on physics of powder coating process with extremely high heat loads (with Tomsk Scientific Research Institute for Applied Mathematics and Mechanics - Russia)
- Development of CFD solver for analysis of two-phase turbulent streams in specific conditions of novel pneumatic separators for chemical industry (with Tomsk State University - Russia)
- Theoretical study and development of custom computer code for prediction of secondary turbulent flow in non-circular channels - nuclear power station heat exchangers (with Tomsk State University - Russia)