A Novel Magnetic Separation Technique: Selective Separation of Ultrafine Particles by Magnetophoresis

Ying, Tung-Yu; Prenger, F. C.; Worl, Laura A.; Johnson, Michael D.; Waynert, J. A.; Wingo, Robert M.

doi:10.1081/ss-200031665

Cited by 8 publications

(6 citation statements)

References 12 publications

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“…Another technique of direct purification in magnetic separation is magnetophoresis where separation is carried out with the assistance of magnetic field application. The particles with differing susceptibility can be separated gravimetrically [86]. In a study on separation efficiency of 0.1 m haematite (␣-Fe 2 O 3 ) and 1 m copper oxide (CuO) particles using background field of 7 T, the migration velocity of CuO was an order higher than ␣-Fe 2 O 3 .…”

Section: Direct Purificationmentioning

confidence: 98%

Water purification using magnetic assistance: A review

Ambashta

Sillanpää

2010

Journal of Hazardous Materials

882

331

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Section: Direct Purificationmentioning

confidence: 98%

Water purification using magnetic assistance: A review

Ambashta

Sillanpää

2010

Journal of Hazardous Materials

882

331

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“…Conventional magnetic separation devices are generally restricted to separating strongly magnetic materials, such as iron and magnetite. A number of different types of devices have been developed, but they reflect a tendency to give less attention to maximizing the magnetic forces than to refining mechanical operation for various feeds (10)(11).…”

Section: Introductionmentioning

confidence: 99%

Roasting Followed by Magnetic Separation: A Process for Beneficiation of Titano-Magnetite Ore

Jena

Tripathy

Mohanty

et al. 2014

Separation Science and Technology

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Titano-magnetite is an ore of iron and titanium, and is highly magnetic. Magnetite and ilmenite are two major minerals. Ilmenite exhibits various textural dispositions. Widmanstatten and granular exsolution textures are important ones exhibited by the constituent mineral. Reduction roasting followed by two-stage LIMS gives a magnetic concentrate of 65.74% Fe at a yield of 61.22% with 78.07% Fe recovery. Also, a by-product having 28.76% TiO 2 at a yield of 20.08% with 36.78% TiO 2 recovery is produced. The concentrate (rich in magnetite) can be used as heavy media in coal washeries whereas the middling fraction can be taken for Ti recovery.

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“…1 One important role in the design of biosensors is played by particles that can be spatially manipulated and confined in certain regions of the biochip by using external fields. Electric, 2 magnetic, [3][4][5] or combinations of electric and magnetic fields 6 can be used in order to accurately manipulate and capture these particles. In traditional continuous-flow microfluidic bioassays, the biological species are typically mixed and attached onto the surface of the particles, then flushed through microfluidic channels where coils and/or permanent magnets 3,7-9 are used to trap and confine the particles.…”

Section: Introductionmentioning

confidence: 99%

Numerical modeling of the splitting of magnetic droplets by multiphase lattice Boltzmann equation

Clime¹,

Brassard²,

Veres³

2009

Journal of Applied Physics

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A multiphase lattice Boltzmann numerical model driven by an isothermal interaction potential is applied for the splitting of magnetic droplets in electrowetting-on-dielectric devices. A hydrophilic magnetic plug is considered inside the liquid droplet and successive uniform force fields are applied in order to split this droplet. The numerical results are compared with experiments on water droplets containing plugs of superparamagnetic beads and good agreement is obtained.

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A Novel Magnetic Separation Technique: Selective Separation of Ultrafine Particles by Magnetophoresis

Cited by 8 publications

References 12 publications

Water purification using magnetic assistance: A review

Water purification using magnetic assistance: A review

Roasting Followed by Magnetic Separation: A Process for Beneficiation of Titano-Magnetite Ore

Numerical modeling of the splitting of magnetic droplets by multiphase lattice Boltzmann equation

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