ABOUT US

Since about 25% of the total energy used by industry is known to spend in moving vehicles through air or water, or fluids along pipes and canals, and fluids can be a process carrier or material through which transport, separation and conversion processes occur, understanding of energetic flows is of huge technological importance in aerodynamic and hydrodynamic applications.

In this aspect, we perform research on topics of energetic flows both ranging from fundamental to conceptual and applied science and covering full scales, down to micro scales to understanding, predicting and controlling flows. The research includes studies of turbulent flows with physical modeling of wall turbulence and fluid-structure interaction problems with computational modeling aiming at development of high-efficient processes for energy-generating (or -consuming) systems based on numerical simulation and experimental measurement (or visualization) techniques.