Effect of plasma irradiation on the fine particle behavior in a spouted bed

The combination of a spouted bed with non-thermal plasma has been used widely in industrial chemical processes. However, the detailed behavior of particles in a spouted bed with irradiation of plasma is still unknown. In this study, a fluidization experiment of fine white fused alumina particles und...

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Bibliographic Details
Published in:Powder technology 2019-02, Vol.343, p.309-316
Main Authors: Zhang, Baiqiang, Kobayashi, Nobusuke, Itaya, Yoshinori
Format: Article
Language:English
Subjects:
Aluminum oxide
Chemical reactions
DBD plasma
Dielectric barrier discharge
Electric potential
Fine particles
Fluidization
Fluidized beds
Gases
High voltage
High voltages
Ionization
Irradiation
Minimum spouted velocity
Organic chemistry
Particle fluidization behavior
Particulates
Plasma
Plasma generators
Pressure drop
Spouted bed
Spouted beds
Temperature
Thermal plasmas
Velocity
Void fraction
Voltage
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Summary:The combination of a spouted bed with non-thermal plasma has been used widely in industrial chemical processes. However, the detailed behavior of particles in a spouted bed with irradiation of plasma is still unknown. In this study, a fluidization experiment of fine white fused alumina particles under the irradiation of a dielectric barrier discharge (DBD) plasma generator was performed, and the effect of the plasma irradiation on the particle behavior in a spouted bed was evaluated. Essential operation parameters, such as static bed height, gas velocity, applied voltage, and working gases were changed, and the minimum spouted velocity, pressure drop, bed void fraction and spouted bed temperature with plasma enhancement were measured to understand the fluidization behavior of fine particles. As the results, the minimum spouted velocity decreased as the applied voltage increased to a high voltage, irrespective of the initial static bed height, while the void fraction of the solid bed before the fluidization point increased with an increase in the applied voltage. Fluidization behavior varied with the working gas, and the minimum spouted velocity with N2 was much higher than that of Ar. The temperature of the bed and particle surface did not show apparent changes when the plasma was applied. The proposed mechanism shows that the ionization of gas improves the interaction between particles and may cause the minimum spouted velocity to decrease. [Display omitted] •DBD plasma enhanced spouted bed system is presented.•Minimum spouted velocity is decreased with the plasma irradiation.•Solid bed can be spouted with high voltage applied.•The mechanism of the fine particles fluidization behavior changes is elucidated.
ISSN:0032-5910
1873-328X
DOI:10.1016/j.powtec.2018.11.044