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Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium
Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium
by Zhou, Chenyang , Fan, Xuchen
in Bed expansions / bed height / bubble phase / Bubbles / Carbon / Carbon dioxide / Coal / Density / emulsion phase / Energy consumption / Energy sources / fluidized bed / Fluidized beds / micron-sized particles / Particle size / Prediction models / Separation / two-phase theory / Velocity
2021
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Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium
by Zhou, Chenyang , Fan, Xuchen
in Bed expansions / bed height / bubble phase / Bubbles / Carbon / Carbon dioxide / Coal / Density / emulsion phase / Energy consumption / Energy sources / fluidized bed / Fluidized beds / micron-sized particles / Particle size / Prediction models / Separation / two-phase theory / Velocity
2021
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Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium
Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium
by Zhou, Chenyang , Fan, Xuchen
in Bed expansions / bed height / bubble phase / Bubbles / Carbon / Carbon dioxide / Coal / Density / emulsion phase / Energy consumption / Energy sources / fluidized bed / Fluidized beds / micron-sized particles / Particle size / Prediction models / Separation / two-phase theory / Velocity
2021

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Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium
Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium
Journal Article

Estimation of Bed Expansion and Separation Density of Gas–Solid Separation Fluidized Beds Using a Micron-Sized-Particle-Dense Medium

Zhou, Chenyang,
Fan, Xuchen
2021
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Overview
Coal is the dominant energy resource in China. With the Chinese policy of committing to reducing peak carbon dioxide emissions and achieving carbon neutrality, coal separation has recently become a hot topic, especially the fluidized separation of fine particles. In this study, micron-sized particles were introduced to ameliorate the properties of the traditional fluidized bed. The expansion characteristics of the micron-sized-particle-dense medium were explored. A bed expansion prediction model of the micron-sized-particle-dense medium was established, and the prediction error was about 10%, providing a theoretical basis for understanding the distribution characteristics of the bed. This model also helped predict the bed density in the presence of a micron-sized-particle-dense medium, and the prediction accuracy was between 85% and 92%, providing a theoretical basis for selecting and popularizing fluidized beds for industrial separation.
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Publisher
MDPI AG
Subject

Bed expansions

/ bed height

/ bubble phase

/ Bubbles

/ Carbon

/ Carbon dioxide

/ Coal

/ Density

/ emulsion phase

/ Energy consumption

/ Energy sources

/ fluidized bed

/ Fluidized beds

/ micron-sized particles

/ Particle size

/ Prediction models

/ Separation

/ two-phase theory

/ Velocity

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