An Industrial Superconducting High Gradient Magnetic Separator

2D modeling and preliminary in vitro investigation of a prototype high gradient magnetic separator for biomedical applications

Medical Engineering & Physics ◽

10.1016/j.medengphy.2007.02.002 ◽

2008 ◽

Vol 30 (1) ◽

pp. 1-8 ◽

Cited By ~ 14

Author(s):

Haitao Chen ◽

Michael D. Kaminski ◽

Axel J. Rosengart

Keyword(s):

Biomedical Applications ◽

Magnetic Separator ◽

2D Modeling ◽

High Gradient ◽

In Vitro Investigation

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Development of A Continuous Chamber High-Gradient Magnetic Separator With A Strong Field

Magnetic and Electrical Separation ◽

10.1080/07313630290002635 ◽

2002 ◽

Vol 11 (1-2) ◽

pp. 93-105

Author(s):

V. I. Karmazin ◽

V. V. Karmazin ◽

V. A. Bardovskiy ◽

O. V. Zamytskiy

Keyword(s):

Strong Field ◽

Magnetic Separator ◽

High Gradient

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High-$T_{\rm c}$ Superconducting High Gradient Magnetic Separator Using Solid Nitrogen Cooling System for Purification of CMP Wastewater

IEEE Transactions on Applied Superconductivity ◽

10.1109/tasc.2013.2255950 ◽

2013 ◽

Vol 23 (3) ◽

pp. 3700505-3700505 ◽

Cited By ~ 14

Author(s):

Jung-Bin Song ◽

Kwang Lok Kim ◽

Donggyu Yang ◽

Young-Gyun Kim ◽

Jongseok Lee ◽

...

Keyword(s):

Cooling System ◽

Magnetic Separator ◽

High Gradient ◽

Solid Nitrogen

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Model of particle accumulation on matrices in transverse field pulsating high gradient magnetic separator

Minerals Engineering ◽

10.1016/j.mineng.2019.106105 ◽

2020 ◽

Vol 146 ◽

pp. 106105 ◽

Cited By ~ 3

Author(s):

Zhicheng Hu ◽

Jun Zhang ◽

Jianguo Liu ◽

Yuhe Tang ◽

Xiayu Zheng

Keyword(s):

Transverse Field ◽

Magnetic Separator ◽

High Gradient ◽

Particle Accumulation

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Recovery of Fe fraction from coal fly ash by using high gradient magnetic separator

Fuel and Energy Abstracts ◽

10.1016/0140-6701(96)88618-8 ◽

1996 ◽

Vol 37 (3) ◽

pp. 188

Author(s):

H.G. Lee ◽

C.T. Lee

Keyword(s):

Fly Ash ◽

Coal Fly Ash ◽

Magnetic Separator ◽

High Gradient

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Testing of a 5.5 T High-Gradient Superconducting Magnetic Separator

Journal of Superconductivity and Novel Magnetism ◽

10.1007/s10948-013-2397-8 ◽

2014 ◽

Vol 27 (6) ◽

pp. 1397-1401 ◽

Cited By ~ 3

Author(s):

Meifen Wang ◽

Zian Zhu ◽

Feipeng Ning ◽

Huan Yang ◽

Guoqing Zhang ◽

...

Keyword(s):

Magnetic Separator ◽

High Gradient

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A High-Gradient Magnetic Separation System for Separating Magnetic Nanobeads from Aqueous Solution

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.505.39 ◽

2012 ◽

Vol 505 ◽

pp. 39-43

Author(s):

Xiao Fei Yan ◽

Jian Han Lin ◽

Rong Hui Wang ◽

Mao Hua Wang ◽

Dong An ◽

...

Keyword(s):

Aqueous Solution ◽

Magnetic Separation ◽

Flow Rate ◽

Separation System ◽

Magnetic Separator ◽

High Gradient Magnetic Separation ◽

High Gradient ◽

Separation Time ◽

Electronic Timer ◽

Magnetic Nanobeads

Magnetic separation is an emerging and promising technology in biological sample preparation. In this paper, a high-intensity and high-gradient magnetic separation system was developed to separate magnetic nanobeads from aqueous solution. This system mainly consisted of a magnetic separator, a micropump and an electronic timer. The magnetic separator was designed by placing two columns of permanent magnets in an aluminum holder. Two magnets in each column were laid out in repelling mode and a hole between the two columns was used to accommodate a 1.5 ml tube. Working with the electronic timer, the micropump was employed to remove waste solution at a certain rate after magnetic nanobeads captured onto the sides of the tube wall. The experiments for separation of magnetic nanobeads with diameters of 150 nm and 50 nm using the developed magnetic separation system were conducted to optimize the key parameters of the system including nanobeads concentration, separation time and flow rate. The separation efficiencies of magnetic nanobeads increased as the nanobeads concentration and the separation time increased, whereas decreased when the flow rate was increased. Experimental results proved that the proposed magnetic separation system was able to separate magnetic nanobeads (diameters of 150 nm and 50 nm) with separation efficiencies of 99% and 90% in 30 min and 150 min respectively.

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Magnetic force on a magnetic particle within a high gradient magnetic separator

Physica C Superconductivity ◽

10.1016/j.physc.2012.03.033 ◽

2013 ◽

Vol 484 ◽

pp. 333-337 ◽

Cited By ~ 10

Author(s):

S.K. Baik ◽

D.W. Ha ◽

J.M. Kwon ◽

Y.J. Lee ◽

R.K. Ko

Keyword(s):

Magnetic Force ◽

Magnetic Particle ◽

Magnetic Separator ◽

High Gradient

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Relation between pressure loss and collected particle weights in a high gradient magnetic separator (HGMS).

JOURNAL OF CHEMICAL ENGINEERING OF JAPAN ◽

10.1252/jcej.18.561 ◽

1985 ◽

Vol 18 (6) ◽

pp. 561-564

Author(s):

HARUMI MATSUZAKI ◽

MASAYOSHI KUBOTA ◽

SANKICHI TAKAHASHI ◽

KATSUYA EBARA ◽

TOSHIMI MUKUSHI

Keyword(s):

Pressure Loss ◽

Magnetic Separator ◽

High Gradient

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Magnetic Field Effect in the Process of Rinsing a Magnetic Separator Matrix

Magnetic Separation News ◽

10.1155/1988/83730 ◽

1988 ◽

Vol 2 (3) ◽

pp. 119-136

Author(s):

Jiri Galas

Keyword(s):

Magnetic Field ◽

Magnetic Fields ◽

Circuit Design ◽

Field Effect ◽

Magnetic Circuit ◽

Magnetic Field Effect ◽

Magnetic Separator ◽

High Gradient ◽

First Time

This paper surveys fundamental aspects of the problem of rinsing matrices in high gradient magnetic separators. This is done, for the first time, in terms of the magnetic circuit design. Equations have been constructed to describe the effects of spurious remanent magnetic fields on the rinsing process.

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