Results 311 to 320 of about 4,456,010 (385)
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Magnetic separation using superconducting magnets
Physica C: Superconductivity, 2001Abstract Since the 1970s, magnetic separation has been increasingly used for purification of liquids, such as heavy-metal ion removal from laboratory waste water, purification of kaolin clay in the paper-coating industry, waste water recycling in the steel industry, and recycling of glass grinding sludge in cathode-ray tube polishing factories.
Takeshi Ohara +2 more
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Small, 2018
A major challenge to scale up a microfluidic magnetic separator for extracorporeal blood cleansing applications is to overcome low magnetic drag velocity caused by viscous blood components interfering with magnetophoresis.
Su Hyun Jung +6 more
semanticscholar +1 more source
A major challenge to scale up a microfluidic magnetic separator for extracorporeal blood cleansing applications is to overcome low magnetic drag velocity caused by viscous blood components interfering with magnetophoresis.
Su Hyun Jung +6 more
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Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 1997
Vortex magnetic separation (VMS) is a new technique (1-3) which can not only greatly increase selectivity of high gradient magnetic separation but can also provide a much higher material throughput because high slurry velocity is used. This technique will have a wide range of applications in fields as diverse as mineral processing, biochemical ...
J L S Watson, Z Li
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Vortex magnetic separation (VMS) is a new technique (1-3) which can not only greatly increase selectivity of high gradient magnetic separation but can also provide a much higher material throughput because high slurry velocity is used. This technique will have a wide range of applications in fields as diverse as mineral processing, biochemical ...
J L S Watson, Z Li
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Magnetic separation of nanoparticles
IEEE Transactions on Magnetics, 1998Magnetic particles in the nanometer size range can be captured by sufficiently large magnetic forces in competition with thermal diffusion. This paper reports on the results of applying two types of magnetic separation, matrix and continuous, to particles in the nanometer size range.
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Nature, 1989
Originally developed for immunoassays, magnetic beads in combination with streptavidin-biotin technology have demonstrated their power for separating DNA and RNA.
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Originally developed for immunoassays, magnetic beads in combination with streptavidin-biotin technology have demonstrated their power for separating DNA and RNA.
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Superconducting magnetic separation
IEEE Transactions on Magnetics, 1988After a brief review of magnetic separator requirements, the major systems delivered to date are described and some possible future developments are outlined. Both open-gradient and matrix separators are considered. The advantages to be gained by using superconducting magnets are then briefly outlined.
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[Separation of magnetic bacteria by using a magnetic separator].
Sheng wu gong cheng xue bao = Chinese journal of biotechnology, 2011A magnetic separator was used to separate magnetic bacteria based on their magnetotactic characteristics. Acidithiobacillus ferrooxidans, a bacterium that could synthesize intra-cellular nanometer magnetic particles, was investigated as an example. Strong magnetic and weak magnetic cells were separated and collected.
Xinxing, Liu +4 more
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