Axial dispersion of the liquid phase on a three-phase Karr reciprocating plate column

Axial dispersion of the liquid phase on a three-phase Karr reciprocating plate column

The influence of the gas flow rate and vibration intensity in the presence of the solid phase (polypropylene spheres) on axial mixing of the liquid phase in a three phase (gas-liquid-solid) Karr reciprocating plate column (RPC) was investigated. Assuming that the dispersionmodel of liquid flow could...

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Bibliographic Details
Main Authors: Nikolić Ljubiša B., Nikolić Vesna D., Veljković Vlada B., Lazić Miodrag L., Skala Dejan U.
Format: Article
Language:English
Published: Serbian Chemical Society 2004-01-01
Series:Journal of the Serbian Chemical Society
Subjects:
karr reciprocating plate column
three-phase column
axial dispersion
residence time distribution
dispersion model
Online Access:http://www.doiserbia.nb.rs/img/doi/0352-5139/2004/0352-51390407581N.pdf
Description
Summary:The influence of the gas flow rate and vibration intensity in the presence of the solid phase (polypropylene spheres) on axial mixing of the liquid phase in a three phase (gas-liquid-solid) Karr reciprocating plate column (RPC) was investigated. Assuming that the dispersionmodel of liquid flow could be used for the real situation inside the column, the dispersion coefficient of the liquid phase was determined as a function of different operating parameters. For a two-phase liquid-solid RPC the following correlation was derived: DL = 1.26(Af)1.42 UL 0.51 εS 0.23 and a similar equation could be applied with ± 30 % confidence for the calculation of axial dispersion in the case of a three-phase RPC: DL = 1.39(Af)0.47 UL0.42UG0.03 εS -0.26.
ISSN:0352-5139
1820-7421

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