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Computational fluid dynamics residence time distributions

This study investigates the hydrodynamic behaviour of an aimular bubble column reactor with continuous liquid and gas flow using an Eulerian-Eulerian computational fluid dynamics approach. The residence time distribution is completed using a numerical scalar technique which compares favourably to the corresponding experimental data. It is shown that liquid mixing performance and residence time are strong functions of flowrate and direction. [Pg.669]

The key reactive separation topics to be addressed in the near future are a proper hydrodynamic modeling for catalytic internals, including residence time distribution account and scale-up methodology. Further studies on the hydrodynamics of catalytic internals are essential for a better understanding of RSP behavior and the availability of optimally designed catalytic column internals for them. In this regard, the methods of computational fluid dynamics appear very helpful. [Pg.362]

Flow dispersion in the channel using both experimental residence time distribution [44,45] and computational fluid dynamics mass transport smdies, including the effect of manifolds [46,47]. [Pg.106]


See other pages where Computational fluid dynamics residence time distributions is mentioned: [Pg.1116]    [Pg.609]    [Pg.1110]    [Pg.117]    [Pg.246]    [Pg.287]    [Pg.358]    [Pg.1302]    [Pg.26]    [Pg.29]    [Pg.221]    [Pg.212]    [Pg.391]    [Pg.521]    [Pg.1423]    [Pg.1424]    [Pg.245]   


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Computation fluid dynamics

Computation time

Computational fluid

Computational fluid dynamics

Computational time

Computing time

Distributed computing

Dynamic distribution

Fluid distribution

Fluid dynamics

Residence distribution

Residence time distribution

Timing computation

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