- Experiments and theories which elucidate the role of turbulence and its structure in the mechanisms of heat and mass transfer
- New experimental techniques for turbulent flow and scalar transport measurements
- Numerical simulations of turbulence and heat and mass transfer: direct and large-eddy simulations, subgrid modelling, hybrid RANS/LES and VLES, PDF methods, and other simulation techniques
- Turbulence modelling: one- and two-point closures in forced and natural/free turbulent convection
- Turbulence, heat and mass transfer in stagnation and recirculating regions, around separation and reattachment, and in rotating and swirling flows
- Unsteadiness and transients in turbulent heat and mass transfer
- Heat transfer augmentation and turbulence control
- Turbulence in two-phase flows, effects of turbulence in particulate, droplet and film heat and mass transfer
- Turbulence, heat and mass transfer in combustion and other reacting flows
- New aspects of turbulence-related utilization of heat and mass transfer in flow equipment
- Environmental and geophysical turbulence, heat and mass transfer
- Turbulence, heat and mass transfer in material processing, in MHD, and in special applications
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Kursunlu Waterfall |