An experimental study on the effect of liquid content and viscosity on particle segregation in a rotating drum

The segregation phenomenon of wet granular materials was experimentally studied in a quasi-2D rotating drum. The mono-disperse systems and binary-mixture systems (with 4 mm and 2 mm glass beads and 40% filled volume fraction) were used. All the experiments were controlled so the Froude number of the...

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Bibliographic Details
Published in:Powder technology 2010-08, Vol.201 (3), p.266-272
Main Authors: Chou, S.H., Liao, C.C., Hsiau, S.S.
Format: Article
Language:English
Subjects:
Angle of repose
Applied sciences
Beads
Chemical engineering
Exact sciences and technology
Granular materials
Liquid bridge force
Liquids
Miscellaneous
Particle segregation
Powder technology
Repose angle
Rotating
Rotating drum
Segregation
Segregations
Solid-solid systems
Viscosity
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Summary:The segregation phenomenon of wet granular materials was experimentally studied in a quasi-2D rotating drum. The mono-disperse systems and binary-mixture systems (with 4 mm and 2 mm glass beads and 40% filled volume fraction) were used. All the experiments were controlled so the Froude number of the rolling regime was 2.79 × 10 − 4 . The effects of the volume and the viscosity of the liquid added to the granular system on the segregation index and angle of repose in the rotating drum were investigated and are discussed in this paper. The experimental results indicate that the volume and viscosity of the added liquid have significant effects on the wet granular flow. The results demonstrate that the segregation index decreases with an increase of the repose angle of the wet granular materials, regardless of the volume or viscosity of the added liquid. We performed experiments to measure the dynamic properties and segregation index of wet granular matter in a rotating drum. The results show the variation of the final segregation index with the repose angle. It shows that the final segregation index decreases linearly with the increasing repose angle, regardless of the values of V* or the μ of the added liquid. [Display omitted]
ISSN:0032-5910
1873-328X
DOI:10.1016/j.powtec.2010.04.009