The effects of geometry, fluid properties and pressure on the hydrodynamics of gas–liquid cylindrical cyclone separators

The hydrodynamic flow behavior in a Gas–Liquid Cylindrical Cyclone (GLCC) compact separator is studied experimentally and theoretically. New experimental data are acquired utilizing a 7.62 cm I.D, 2.18 m high, GLCC separator for a wide range of operating conditions. Investigated parameters include t...

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Bibliographic Details
Published in:International journal of multiphase flow 2000-06, Vol.26 (6), p.999-1018
Main Authors: Movafaghian, S., Jaua-Marturet, J.A, Mohan, R.S., Shoham, O., Kouba, G.E.
Format: Article
Language:English
Subjects:
Applied sciences
Centrifugation, cyclones
Chemical engineering
Cyclone separators
Exact sciences and technology
Flow-hydrodynamics
Fluid properties
Gas–liquid cylindrical cyclone
GLCC geometry
Hydrodynamics
Liquid carry-over
Liquid-liquid and fluid-solid mechanical separations
Mathematical models
Phase separation
Pressure effects
Separation
Surface active agents
Viscosity of liquids
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Summary:The hydrodynamic flow behavior in a Gas–Liquid Cylindrical Cyclone (GLCC) compact separator is studied experimentally and theoretically. New experimental data are acquired utilizing a 7.62 cm I.D, 2.18 m high, GLCC separator for a wide range of operating conditions. Investigated parameters include three different inlet geometries (5.08 cm I.D single, 7.62 cm I.D single and 7.62 cm I.D dual inlets), four different liquid viscosities (1, 2.5, 5 and 10 cps), three system pressures (101.3, 273.6 and 487.2 kPa), and the effect of surfactant. The measured data comprise of equilibrium liquid level, zero-net liquid flow holdup and the operational envelope for liquid carry-over. The data are utilized to verify and refine an existing GLCC mechanistic model. Comparison between the modified model predictions and the experimental data show a very good agreement.
ISSN:0301-9322
1879-3533
DOI:10.1016/S0301-9322(99)00076-2