Volume of Fluid (VOF) Method for the Dynamics of Free
... fluid in an Eulerian mesh cell as a fluid element on which body and surface force may be computed, in a manner competely analogous to a Lagrangian calculation. The two methods differ, however, in the manner in which the fluid elements are moved to nex positions after their new velocities have been c ...
... fluid in an Eulerian mesh cell as a fluid element on which body and surface force may be computed, in a manner competely analogous to a Lagrangian calculation. The two methods differ, however, in the manner in which the fluid elements are moved to nex positions after their new velocities have been c ...
On the Lorentz-force driven flow around an insulating sphere
... the experimental data using equation 1. Over the entire radius, the measured tangential velocity is slower, compared to the velocity in the simulation. This adds up to a noticeable 20% smaller pressure difference between the center and the outer wall of the cell. However, the corresponding pressure ...
... the experimental data using equation 1. Over the entire radius, the measured tangential velocity is slower, compared to the velocity in the simulation. This adds up to a noticeable 20% smaller pressure difference between the center and the outer wall of the cell. However, the corresponding pressure ...
An Overview of Impellers, Velocity Profile and Reactor
... impeller and pitched blade impellers [Figure1]. Each reactor configuration was simulated at different revolution speeds such as 10, 20, 50 and 100 RPM. With this detailed modelling, the ideal parameters were computed for reactor design. The achieved results are shown in three dimensional animations, ...
... impeller and pitched blade impellers [Figure1]. Each reactor configuration was simulated at different revolution speeds such as 10, 20, 50 and 100 RPM. With this detailed modelling, the ideal parameters were computed for reactor design. The achieved results are shown in three dimensional animations, ...
Residence Time Distribution
... The residence time distribution (RTD) of a chemical reactor is a probability distribution function that describes the amount of time that a fluid element could spend inside the reactor. Prof. Danckwerts introduced the concept of `fluid element', meaning a small volume of fluid where continuous prope ...
... The residence time distribution (RTD) of a chemical reactor is a probability distribution function that describes the amount of time that a fluid element could spend inside the reactor. Prof. Danckwerts introduced the concept of `fluid element', meaning a small volume of fluid where continuous prope ...
