Add to ORKGDissipation of the turbulent kinetic energy in mixing vessels is important parameter in mixing process. According to the latest findings it is also in the most cases the control process. This study shows a limits of dissipation rate evaluation using the velocity field obtained from the PIV (Particle Image Velocimetry) results
The hydrodynamics and the flow field in an agitated vessel were measured using 2-D time resolved par...
It is critical to have an efficient energy budget in all the industrial process applications involvi...
peer reviewedThe turbulent dissipation rate is a key parameter in stirred tanks and its local values...
The dissipation rate of turbulent kinetic energy is a key parameter to quantify the level of turbule...
Transport phenomena occur frequently in industrial problems. Most of the turbulent transport propert...
AbstractTransport phenomena occur frequently in industrial problems. Most of the turbulent transport...
The scale-up of processes such as liquid-liquid dispersion, gas-liquid dispersion, powder dispersion...
The distribution of turbulent kinetic energy dissipation rate is important for design of mixing appa...
The distribution of turbulent kinetic energy dissipation rate is important for design of mixing appa...
The distribution of turbulent kinetic energy dissipation rate is important for design of mixing appa...
A method is presented to evaluate the turbulent kinetic energy viscous dissipation rate, ε, from the...
Numerous industrial approaches input large quantities of power to achieve a desired outcome. The que...
The scaling of turbulence characteristics such as turbulent fluctuation velocity, turbulent kinetic ...
The design of agitated tanks depends on operating conditions and processes for that are used for. An...
AbstractTransport phenomena occur frequently in industrial problems. Most of the turbulent transport...
The hydrodynamics and the flow field in an agitated vessel were measured using 2-D time resolved par...
It is critical to have an efficient energy budget in all the industrial process applications involvi...
peer reviewedThe turbulent dissipation rate is a key parameter in stirred tanks and its local values...
The dissipation rate of turbulent kinetic energy is a key parameter to quantify the level of turbule...
Transport phenomena occur frequently in industrial problems. Most of the turbulent transport propert...
AbstractTransport phenomena occur frequently in industrial problems. Most of the turbulent transport...
The scale-up of processes such as liquid-liquid dispersion, gas-liquid dispersion, powder dispersion...
The distribution of turbulent kinetic energy dissipation rate is important for design of mixing appa...
The distribution of turbulent kinetic energy dissipation rate is important for design of mixing appa...
The distribution of turbulent kinetic energy dissipation rate is important for design of mixing appa...
A method is presented to evaluate the turbulent kinetic energy viscous dissipation rate, ε, from the...
Numerous industrial approaches input large quantities of power to achieve a desired outcome. The que...
The scaling of turbulence characteristics such as turbulent fluctuation velocity, turbulent kinetic ...
The design of agitated tanks depends on operating conditions and processes for that are used for. An...
AbstractTransport phenomena occur frequently in industrial problems. Most of the turbulent transport...
The hydrodynamics and the flow field in an agitated vessel were measured using 2-D time resolved par...
It is critical to have an efficient energy budget in all the industrial process applications involvi...
peer reviewedThe turbulent dissipation rate is a key parameter in stirred tanks and its local values...