A novel model for critical motion of particles in inclined channels of liquid-solid separation fluidized bed

A novel theoretical model which takes into account the particle property, equipment parameters, particle terminal velocity and Reynolds number was established to describe the separation of particles under critical conditions. Meanwhile, this established model was used to predict the superficial velo...

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Published inPowder technology Vol. 369; pp. 289 - 297
Main Authors He, Shengrong, Li, Yanfeng, Liu, Taishan, Chen, Peng, Zhao, Yanfeng, Yin, Mao
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.06.2020
Elsevier BV
Subjects
Channels
Computational fluid dynamics
Correlation coefficient
Correlation coefficients
Critical motion
Fluid flow
Fluidized beds
Inclined channels
Liquid–solid fluidized bed
Mathematical models
Parameters
Reynolds number
Separation
Superficial velocity
Terminal velocity
Velocity
Superficial velocity
Liquid–solid fluidized bed
Inclined channels
Critical motion
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Abstract A novel theoretical model which takes into account the particle property, equipment parameters, particle terminal velocity and Reynolds number was established to describe the separation of particles under critical conditions. Meanwhile, this established model was used to predict the superficial velocity of particle separation in the different spacing of inclined channels. A system was developed to test and verify the model. The correlation coefficient (R2) and Sum of Squares for Error (SSE) were adopted to evaluate the experimental results. When the ratio of fluid Reynolds number to particle Reynolds number was less than 43, the novel model was proved to be highly accurate in the prediction of the superficial velocity. The results suggested that the novel model provided much better conclusions than does a tradition empirical model. This study provides a theoretical and experimental foundation for the design of industrial inclined channel structure and operating parameters. [Display omitted] •The critical motion characteristics of particles were described in inclined channel.•A novel model of particle critical motion in inclined channels was proposed.•Predicted velocity of separation can be obtained with the critical model.•Experimental system was established to verify the critical model.
AbstractList A novel theoretical model which takes into account the particle property, equipment parameters, particle terminal velocity and Reynolds number was established to describe the separation of particles under critical conditions. Meanwhile, this established model was used to predict the superficial velocity of particle separation in the different spacing of inclined channels. A system was developed to test and verify the model. The correlation coefficient (R2) and Sum of Squares for Error (SSE) were adopted to evaluate the experimental results. When the ratio of fluid Reynolds number to particle Reynolds number was less than 43, the novel model was proved to be highly accurate in the prediction of the superficial velocity. The results suggested that the novel model provided much better conclusions than does a tradition empirical model. This study provides a theoretical and experimental foundation for the design of industrial inclined channel structure and operating parameters.
A novel theoretical model which takes into account the particle property, equipment parameters, particle terminal velocity and Reynolds number was established to describe the separation of particles under critical conditions. Meanwhile, this established model was used to predict the superficial velocity of particle separation in the different spacing of inclined channels. A system was developed to test and verify the model. The correlation coefficient (R2) and Sum of Squares for Error (SSE) were adopted to evaluate the experimental results. When the ratio of fluid Reynolds number to particle Reynolds number was less than 43, the novel model was proved to be highly accurate in the prediction of the superficial velocity. The results suggested that the novel model provided much better conclusions than does a tradition empirical model. This study provides a theoretical and experimental foundation for the design of industrial inclined channel structure and operating parameters. [Display omitted] •The critical motion characteristics of particles were described in inclined channel.•A novel model of particle critical motion in inclined channels was proposed.•Predicted velocity of separation can be obtained with the critical model.•Experimental system was established to verify the critical model.
Author Liu, Taishan
He, Shengrong
Zhao, Yanfeng
Li, Yanfeng
Yin, Mao
Chen, Peng
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Keywords Superficial velocity
Liquid–solid fluidized bed
Inclined channels
Critical motion
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Snippet A novel theoretical model which takes into account the particle property, equipment parameters, particle terminal velocity and Reynolds number was established...
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SubjectTerms Channels
Computational fluid dynamics
Correlation coefficient
Correlation coefficients
Critical motion
Fluid flow
Fluidized beds
Inclined channels
Liquid–solid fluidized bed
Mathematical models
Parameters
Reynolds number
Separation
Superficial velocity
Terminal velocity
Velocity
Title A novel model for critical motion of particles in inclined channels of liquid-solid separation fluidized bed
URI https://dx.doi.org/10.1016/j.powtec.2020.05.028
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