Characteristics of non-magnetic nanoparticles in magnetically fluidized bed by adding coarse magnets

The fluidization behavior of SiO 2 , ZnO and TiO 2 non-magnetic nanoparticles was investigated in a magnetically fluidized bed (MFB) by adding coarse magnets. The effects of both the amount of coarse magnets and the magnetic field intensity on the fluidization quality of these nanoparticles were inv...

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Published in	Journal of Central South University Vol. 18; no. 5; pp. 1383 - 1388
Main Authors	Zhou, Li, Diao, Run-li, Zhou, Tao, Kage, Hiroyuki, Mawatari, Yoshihide
Format	Journal Article
Language	English
Published	Changsha Springer Science and Business Media LLC 01.10.2011 Central South University
Subjects	Engineering Metallic Materials magnetic fluidization agglomerate non-magnetic nanoparticles coarse magnet
Online Access	Get full text
ISSN	2095-2899 2227-5223
DOI	10.1007/s11771-011-0850-z

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Abstract	The fluidization behavior of SiO 2 , ZnO and TiO 2 non-magnetic nanoparticles was investigated in a magnetically fluidized bed (MFB) by adding coarse magnets. The effects of both the amount of coarse magnets and the magnetic field intensity on the fluidization quality of these nanoparticles were investigated. The results show that the coarse magnets added to the bed lead to a reduction in the size of the aggregates formed naturally by the primary nanoparticles. As the macroscopic performances of improved fluidization quality, the bed expansion ratio increases whilst the minimum fluidization velocity decreases with increasing the magnetic field intensity, but for TiO 2 nanoparticles there exists a suitable magnetic field intensity of 0.059 6 T. The optimal amounts of coarse magnets for SiO 2 , ZnO and TiO 2 non-magnetic nanoparticles are 40%, 50% and 60% (mass fraction), respectively. The bed expansion results analyzed by the Richardson-Zaki scaling law show that the exponents depend on both the amount of coarse magnets and the magnetic field intensity.
AbstractList	The fluidization behavior of SiO 2 , ZnO and TiO 2 non-magnetic nanoparticles was investigated in a magnetically fluidized bed (MFB) by adding coarse magnets. The effects of both the amount of coarse magnets and the magnetic field intensity on the fluidization quality of these nanoparticles were investigated. The results show that the coarse magnets added to the bed lead to a reduction in the size of the aggregates formed naturally by the primary nanoparticles. As the macroscopic performances of improved fluidization quality, the bed expansion ratio increases whilst the minimum fluidization velocity decreases with increasing the magnetic field intensity, but for TiO 2 nanoparticles there exists a suitable magnetic field intensity of 0.059 6 T. The optimal amounts of coarse magnets for SiO 2 , ZnO and TiO 2 non-magnetic nanoparticles are 40%, 50% and 60% (mass fraction), respectively. The bed expansion results analyzed by the Richardson-Zaki scaling law show that the exponents depend on both the amount of coarse magnets and the magnetic field intensity.
Author	Hiroyuki Kage Yoshihide Mawatari Run-li Diao Tao Zhou Li Zhou
Author_xml	– sequence: 1 givenname: Li surname: Zhou fullname: Zhou, Li organization: School of Chemistry and Chemical Engineering, Central South University, Department of Mechanical Engineering, Hunan Institute of Technology – sequence: 2 givenname: Run-li surname: Diao fullname: Diao, Run-li organization: School of Chemistry and Chemical Engineering, Central South University – sequence: 3 givenname: Tao surname: Zhou fullname: Zhou, Tao email: zhoutao@mail.csu.edu.cn organization: School of Chemistry and Chemical Engineering, Central South University – sequence: 4 givenname: Hiroyuki surname: Kage fullname: Kage, Hiroyuki organization: Department of Applied Chemistry, Kyushu Institute of Technology – sequence: 5 givenname: Yoshihide surname: Mawatari fullname: Mawatari, Yoshihide organization: Department of Applied Chemistry, Kyushu Institute of Technology
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Title	Characteristics of non-magnetic nanoparticles in magnetically fluidized bed by adding coarse magnets
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