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

Kursunlu Waterfall