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Separation Science and Technology Volume 37, 2002 - Issue 16
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Original Articles

FERRIMAGNETIC COAGULATION PROCESS FOR PHOSPHATE ION REMOVAL USING HIGH-GRADIENT MAGNETIC SEPARATION

N. Gokon Research Center for Carbon Recycling and Utilization, Tokyo Institute of Technology, 2-12-1 Ookayama, Meguro-Ku, Tokyo, 152-8552, Japan
,
A. Shimada Research Center for Carbon Recycling and Utilization, Tokyo Institute of Technology, 2-12-1 Ookayama, Meguro-Ku, Tokyo, 152-8552, Japan
,
N. Hasegawa Research Center for Carbon Recycling and Utilization, Tokyo Institute of Technology, 2-12-1 Ookayama, Meguro-Ku, Tokyo, 152-8552, Japan
,
H. Kaneko Research Center for Carbon Recycling and Utilization, Tokyo Institute of Technology, 2-12-1 Ookayama, Meguro-Ku, Tokyo, 152-8552, Japan
,
M. Kitamura Department of Materials Science, School of Engineering, The University of Shiga Prefecture, 2500 Hassaka-cho, Hikone City, Shiga, 522-8533, Japan
&
Y. Tamaura Research Center for Carbon Recycling and Utilization, Tokyo Institute of Technology, 2-12-1 Ookayama, Meguro-Ku, Tokyo, 152-8552, JapanCorrespondence[email protected]
Pages 3781-3791 | Received 01 Sep 2001, Published online: 19 Aug 2006
 
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Abstract

An efficient magnetic separation system for phosphate ion removal has been studied for developing a practical environmental protection technology for water purification in rivers, lakes, etc. using ferrimagnetic fine particles (FMFPs), which can be prepared from FeCl2 and FeCl3 aqueous solutions. With 15 mg/L of FeCl3 solution, without the addition of FMFP, phosphate ion recovery increased from 20 to 80% with increasing magnetic field from 0.8 to 8 T. By the addition of 5 mg/L of FMFP with 15 mg/L of FeCl3 solution, above 95% recovery was achieved in a wide range of magnetic field A high magnetic field gradient generated in the vicinity of steel wool caused the enhancement of the magnetic coagulation of the complex with phosphate ion and Fe(III) ion, and the paramagnetic iron–phosphate complexes were attracted to FMFP in the reactor, which resulted in high (95%) recovery in a wide range of magnetic fields.

Acknowledgments

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