Computational and experimental study of the effect of inclination on hydrocyclone performance

Vakamalla, T R and Kumbhar, K S and Gujjula, R and Mangadody, Narasimha (2014) Computational and experimental study of the effect of inclination on hydrocyclone performance. Separation and Purification Technology, 138. pp. 104-117. ISSN 1383-5866

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In this paper, the effect of inclination on hydrocyclone performance is studied using both computational fluid dynamics (CFD) and experimental methods. Experiments with water medium and the corresponding water-air two-phase CFD simulations in a 75 mm diameter cyclone are carried out at various inclined positions to the vertical plane. The two-phase CFD flow analysis shows that the water split to underflow decreases as the inclination increases, which is consistent with the experiments. The predicted flow velocity profiles were analyzed for different inclinations. An increase in the inclination results the air-core size reduction and reduced pressure drop profiles. Experimental classification also performed using the silica slurry. The experimental analysis shows the increased cut-size and the reduced water split with the inclination. Cross validation of inclined cyclone's CFD data is attempted with Electrical Resistance Tomography (ERT) and High speed video imaging experiments. The inclination effect on hydrocyclone flow field is further analyzed in terms of turbulence parameters; turbulent intensities, and radial RMS velocities. Turbulent dispersion of the particles is calculated using the CFD data and plotted by using a dispersion index formulation. Fish hook phenomena and possible mechanism of particle classification under the influence of inclination is also explained. Experimentally measured cut size and water recovery to underflow for 10 wt% silica slurry at various inclinations are compared with numerical predictions. Predicted efficiency curves are found in a close agreement with experiments for all the inclinations.

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IITH Creators:
IITH CreatorsORCiD
Mangadody, Narasimha
Item Type: Article
Additional Information: The authors would like to express their sincere thanks to IIT Hyderabad for seed grant and MHRD funding which helped us to establish experimental and computational facility for the present work.
Uncontrolled Keywords: Air-core; CFD; Hydrocyclone; Inclination; Turbulence
Subjects: Chemical Engineering > Biochemical Engineering
Divisions: Department of Chemical Engineering
Depositing User: Team Library
Date Deposited: 02 Dec 2014 03:46
Last Modified: 22 Dec 2017 04:56
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