Study on mixing and segregation behaviors in particulate fluidized bed system for mineral processing

In order to identify the mixing and segregation behaviors in a mineral processing operation, present study aimed on the hydrodynamics of solid–liquid fluidization. The study was carried out in a fluidization column with tapings at different height of the bed to collect the sample. The binary particl...

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Bibliographic Details
Published inInternational journal of mining science and technology Vol. 25; no. 3; pp. 459 - 464
Main Authors Sahu, S.N., Sahu, A.K., Biswal, S.K.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2015
Mineral Processing Department, CSIR-Institute of Minerals and Materials Technology, Bhubaneswar 751013, India
Subjects
Liquid–solid fluidization
Locus point
Mineral processing
Mixing
Segregation
二元混合物
分离行为
加工操作
流化床装置
系统
赤铁矿
选矿
颗粒
Mixing
Segregation
Locus point
Liquid–solid fluidization
Mineral processing
Liquid-solid fluidization
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Summary:In order to identify the mixing and segregation behaviors in a mineral processing operation, present study aimed on the hydrodynamics of solid–liquid fluidization. The study was carried out in a fluidization column with tapings at different height of the bed to collect the sample. The binary particles considered in this study are hematite (4800 kg/m^3) and quartz (2600 kg/m^3) at different size fractions in the range of average size 87× 10^-6 m to 400× 10^-6 m. It is observed that for various binary mixtures, both quartz and hematite particles share the equal composition by mass (50%) at a particular height of fluidized bed, referred as ‘locus point’ of mixing. Study indicates that the mixing zone volume will increase for a continuous fluidized bed plant operation. It is observed that the number of locus points varies from 1 to 3 signifying their dependency on the size ratios of binary mixture. Whenever, the difference in terminal velocity between quartz and hematite particles approaches to zero, mixing is enhanced. Further, the present study is extended to find the segregation index for the different size ratios of quartz and hematite particles. It is evident that depending on the size ratios, various regions such as complete segregation, partial mixing and complete mixing can be observed.
Bibliography:Liquid-solid fluidization Mixing Segregation Locus point Mineral processing
32-1827/TD
In order to identify the mixing and segregation behaviors in a mineral processing operation, present study aimed on the hydrodynamics of solid–liquid fluidization. The study was carried out in a fluidization column with tapings at different height of the bed to collect the sample. The binary particles considered in this study are hematite (4800 kg/m^3) and quartz (2600 kg/m^3) at different size fractions in the range of average size 87× 10^-6 m to 400× 10^-6 m. It is observed that for various binary mixtures, both quartz and hematite particles share the equal composition by mass (50%) at a particular height of fluidized bed, referred as ‘locus point’ of mixing. Study indicates that the mixing zone volume will increase for a continuous fluidized bed plant operation. It is observed that the number of locus points varies from 1 to 3 signifying their dependency on the size ratios of binary mixture. Whenever, the difference in terminal velocity between quartz and hematite particles approaches to zero, mixing is enhanced. Further, the present study is extended to find the segregation index for the different size ratios of quartz and hematite particles. It is evident that depending on the size ratios, various regions such as complete segregation, partial mixing and complete mixing can be observed.
ISSN:2095-2686
DOI:10.1016/j.ijmst.2015.03.021