Title :
Magnetic Separation Dynamics of Colloidal Magnetic Nanoparticles
Author :
Kaur, Manpreet ; Huijin Zhang ; You Qiang
Author_Institution :
Dept. of Phys., Univ. of Idaho, Moscow, ID, USA
Abstract :
Surface functionalized magnetic nanoparticles (MNPs) are appealing candidates for analytical separation of heavy metal ions from waste water and separation of actinides from spent nuclear fuel. This work studies the separation dynamics and investigates the appropriate magnetic-field gradients. A dynamic study of colloidal MNPs was performed for steady-state flow. Measurements were conducted to record the separation time of particles as a function of magnetic field gradient. The drag and magnetic forces play a significant role on the separation time. A drop in saturation magnetization and variation of particle size occurs after surface functionalization of the MNPs; these are the primary factors that affect the separation time and velocity of the MNPs. The experimental results are correlated to a theoretical one-dimensional model.
Keywords :
colloids; drag; magnetic separation; nanomagnetics; wastewater treatment; actinide separation; analytical separation; colloidal magnetic nanoparticles; drag; heavy metal ions; magnetic field gradient function; magnetic field gradients; magnetic forces; magnetic separation dynamics; particle separation time; particle size variation; primary factors; saturation magnetization; separation velocity; spent nuclear fuel; steady state flow; surface functionalization; surface functionalized magnetic nanoparticles; theoretical 1D model; waste water; Atmospheric measurements; Coatings; Magnetic separation; Mathematical model; Particle measurements; Saturation magnetization; Silicon compounds; Nanomagnetics; field gradient; magnetic force; magnetic nanoparticle; magnetic separation; surface functionalization;
Journal_Title :
Magnetics Letters, IEEE
DOI :
10.1109/LMAG.2013.2271744
