期刊
POWDER TECHNOLOGY
卷 387, 期 -, 页码 348-353出版社
ELSEVIER
DOI: 10.1016/j.powtec.2021.04.036
关键词
Apparent viscosity; Binary particles; Gas-solid separation fluidized bed
资金
- Research Fund for the National Nature Science Foundation of China [U2003126, 52004282, U1903207, 2018M630638]
The apparent viscosity of binary particles decreases with the increase in coal powder content, and also drops by half with increase in gas speed. Adjusting gas velocity and magnetite powder content can effectively reduce the apparent viscosity and improve separation efficiency. A modified model for predicting the apparent viscosity of binary particles showed good performance with an overall standard deviation of 13.00% from experimental results.
The apparent viscosity of binary particles has a crucial impact on the efficiency of gas-solid separation fluidized bed. Herein, apparent viscosity of the binary particles consisting of magnetite and coal particles was measured by the falling ball method. The test results indicate that the apparent viscosity of binary particles decreased with the increase in coal powder. When the mass fraction of coal increased by 2%, the apparent viscosity, on an average, decreased by 0.12 Pa center dot s, and dropped by half with increase in operating gas speed from 9.5 cm/s to 12.2 cm/s. The adjustment of gas velocity and magnetite powder content can effectively reduce the apparent viscosity and improve the separation efficiency, without changing the bed density. A modified model has been developed for predicting the apparent viscosity of binary particle. The model performed well in estimating the viscosity with an overall standard deviation of 13.00% from experimental results. (c) 2021 Published by Elsevier B.V.
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