Local heat transfer properties in co- and counter-current G-L-S magnetically stabilized fluidized beds 被引量：5

Local heat transfer properties in co- and counter-current G–L–S magnetically stabilized fluidized beds

导出

摘要 Heat transfer coefficients were measured by immersed probes in co- and counter-current G-L-S magnetically stabilized fluidized beds （MSFBs） using air, water and nickel-alloy particles as the gas, liquid and solid phases. Influences of major factors, including magnetic field intensity, superficial gas and liquid velocities, liquid viscosity and surface tension, on heat-transfer properties were studied experimentally, indicating that both co- and counter-current G-L-S MSFB can provide relatively uniform radial distribution of heat transfer coefficients under appropriate operation conditions, thus controlling operation temperature for highly exothermic multi-phase reaction systems. Two correlations were provided to estimate accurately heat transfer properties in both co- and counter-current G-L-S MSFB systems, with an average error of less than 10%. Heat transfer coefficients were measured by immersed probes in co- and counter-current G-L-S magnetically stabilized fluidized beds （MSFBs） using air, water and nickel-alloy particles as the gas, liquid and solid phases. Influences of major factors, including magnetic field intensity, superficial gas and liquid velocities, liquid viscosity and surface tension, on heat-transfer properties were studied experimentally, indicating that both co- and counter-current G-L-S MSFB can provide relatively uniform radial distribution of heat transfer coefficients under appropriate operation conditions, thus controlling operation temperature for highly exothermic multi-phase reaction systems. Two correlations were provided to estimate accurately heat transfer properties in both co- and counter-current G-L-S MSFB systems, with an average error of less than 10%.

作者 Jinli Zhang Ming Zhang Wei Li Xiaofang Li Xiangkun Meng Baoning Zong

机构地区 School of Chemical Engineering Technology Research Institute of Petroleum Processing

出处《Particuology》 SCIE EI CAS CSCD 2011年第1期44-50,共7页 颗粒学报（英文版）

基金 The authors are grateful for the financial support from 973 Program (2006CB202500) the NSFC (21076144)

关键词 Magnetically stabilized fluidized bed Heat transfer Gas–liquid–solid Magnetically stabilized fluidized bed Heat transfer Gas–liquid–solid

分类号 TQ051.13 [化学工程] TQ174.75 [化学工程—陶瓷工业]

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