L–S mass transfer in G–L–S countercurrent magnetically stabilized bed with amorphous alloy SRNA-4 catalyst

China Particuology Pub Date : 2007-02-01 DOI:10.1016/j.cpart.2007.01.009

Wei Li , Baoning Zong , Xiaofang Li , Xiangkun Meng , Jinli Zhang

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引用次数: 9

Abstract

Liquid–solid (L–S) mass transfer coefficients (K_s) were characterized in a gas–liquid–solid (G–L–S) three-phase countercurrent magnetically stabilized bed (MSB) using amorphous alloy SRNA-4 as the solid phase. Effects of superficial liquid velocity, superficial gas velocity, magnetic field strength, liquid viscosity and surface tension were investigated. Experimental results indicated that the external magnetic field increased K_s in three-phase MSB, as compared to those in conventional G–L–S fluidized beds; that K_s increased with magnetic field strength, superficial gas and liquid velocities and decreased with liquid viscosity and surface tension; and that K_s showed uniform axial and radial distributions except for small increases close to the wall. Dimensionless correlations were established to estimate K_s of the G–L–S countercurrent MSB using SRNA-4 catalyst, with an average error of 3.6%.

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非晶合金SRNA-4催化剂在G-L-S逆流磁稳定床中的传质研究

采用非晶合金SRNA-4作为固相，对气-液-固三相逆流磁稳定床(MSB)中液-固(L-S)传质系数(Ks)进行了表征。考察了液表速度、气表速度、磁场强度、液表粘度和表面张力的影响。实验结果表明:与常规G-L-S流化床相比，外加磁场使三相流化床的Ks增大;k随磁场强度、表面气液速度增大而增大，随液体粘度和表面张力减小而减小;除了靠近壁面有少量增加外，Ks在轴向和径向分布均匀。采用SRNA-4催化剂对G-L-S逆流MSB的k值进行了无因次关联估计，平均误差为3.6%。

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China Particuology

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