magnetic separator of ions

magnetic separator of ions

  • Magnetic beads magnetic bead magnetic ion reverse affinity

    Biomagnetic Separation A Powerful Research Tool for Life Science. Those functional magnetic beads (particles) are compatible with commercially available automatic magnetic processor or with simple bench top manual separators. Bioclone has developed two types of magnetic beads (particles) 1.BcMag Magneti Beads; 2. EcoMagMagnetic particles. Read More gt;gt;gt;.

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  • Separation of Transition Metal Ions in an Inhomogeneous

    The magnetic separation was investigated for Fe3+, Co2+, Ni2+, Cu2+, Zn2+, Ag+, and Cd2+ ions in an inhomogeneous field of 410 kOe2 cm 1. By application of the field to the solutions spotted on silica gel, the Fe3+, Co2+, Ni2+, and Cu2+ ions were attracted toward the field center, but the Zn2+, Ag+, and Cd2+ ions stayed at the spot origin.

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  • Magnetic Separation of Metal Ions The Journal of

    The Cr 3+ ions move farther toward the field center than the Al 3+ ions. This occurs because the Cr 3+ ions are attracted more strongly by the magnetic force than the Al 3+ ions. It is demonstrated that the separation makes effective use of the adsorption activities as well as the magnetic susceptibilities.

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  • Evaporation Assisted Magnetic Separation of Rare Earth

    This work aims to answer the question of why an enrichment of paramagnetic ions can be observed in a magnetic field gradient despite the presence of a counteracting Brownian motion. For that purpose, we study a rare earth chloride (DyCl3) solution in which weak evaporation is adjusted by means of small differences in the vapor pressure. The temporal evolution of the refractive index field of

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  • Magnetic Separation an overview ScienceDirect Topics

    The two types of magnets are permanent magnets and electromagnets. The latter can be turned on and off to pick up and drop items. Magnetic separators can be of the belt type or drum type. In the drum a permanent magnet is often located inside a rotating shell.

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  • Magnetic separation of rare earth ions / Magnetische

    The magnetic separation of rare earth ions from aqueous solutions has been demonstrated by work at the Chair (J. Phys. Chem. Letters 2012, 3, 3559 3564). The functional principle is based on the application of magnetic gradient fields to aqueous solutions containing rare earth ions.

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  • Magnetic separation of heavy metal ions and evaluation

    A new approach was developed for the magnetic separation of copper(II) ions with easy operation and high efficiency. pMercaptobenzoic acid served as the modified tag of Fe 2 O 3 @Au nanoparticles both for the chelation ligand and Raman reporter. Through the chelation between the copper(II) ions and carboxyl groups on the gold shell, the Fe 2 O 3 @Au nanoparticles aggregated to form networks

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  • Magnetic Separators Multotec

    Quick Links. Our magnetic separators are designed around application specific magnetic circuits to provide wet and dry separation processing solutions. Dry drum cobber magnetic separators play a vital role in enhancing the efficiency of mineral processing plants, facilitating an initial upgrade of feed material as well as providing an initial gangue

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  • Evaporation Assisted Magnetic Separation of Rare Earth

    This work aims to answer the question of why an enrichment of paramagnetic ions can be observed in a magnetic field gradient despite the presence of a counteracting Brownian motion. For that purpose, we study a rare earth chloride (DyCl3) solution in which weak evaporation is adjusted by means of small differences in the vapor pressure.

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  • Mass spectrometry

    Mass spectrometry. A mass spectrum is a plot of the ion signal as a function of the mass to charge ratio. These spectra are used to determine the elemental or isotopic signature of a sample, the masses of particles and of molecules, and to elucidate the chemical structures of

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  • Magnetic separation of heavy metal ions and evaluation

    Magnetic separation of heavy metal ions and evaluation based on surface enhanced Raman spectroscopy Copper(II) ions as a case study. Authors. Xue Yan, College of Chemistry, Chemical Engineering and Materials Science, Soochow University, Suzhou, China

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  • Isotope separation

    As ions entering the separator are of approximately equal energy, those ions with a smaller mass will be deflected by the magnetic field by a greater amount than those with a heavier mass. This differing radius of curvature allows for isobaric purification to take place.

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  • High intensity magnetic separator

    High intensity magnetic separator. Magnetic separators that used permanent magnets could generate fields of low intensity only. These worked well in removing ferrous tramp but not fine paramagnetic particles. Thus high intensity magnetic separators that were effective in collecting paramagnetic particles came into existence.

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  • Magnetic Separation of Paramagnetic Ions From Initially

    Magnetic Separation of Paramagnetic Ions From Initially Homogeneous Solutions Abstract The concentration change in an initially homogeneous paramagnetic solution is studied interferometrically upon applying sufficiently strong inhomogeneous magnetic fields.

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  • Removal of heavy metal ions by carrier magnetic separation

    Magnetic separation was subsequently used to remove the solids from solution. Magnetic separation was carried out in a laboratory scale high gradient magnetic separator with a permanent magnet assembly. The separation chamber was 20 mm long and 50 mm wide, while the separation height was 100 mm. The background magnetic field strength was 0.5 T.

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  • Superior lithium adsorption and required magnetic

    After 3 min of residence time, the solutions were decanted into a glass vial and the solid residues were collected, dried and weighed to calculate the magnetic separation efficiency. A gas assisted magnetic separator was used to remove Fe doped lithium ion sieves from LiOH solutions at room temperature.

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  • Magnetic Separation Of Ions apeda

    Magnetic separation using chelated magnetic ions GRAHAM . Apr 02, 1985 183; Disclosed is a new method for magnetic separation from a carrier fluid of biological cells or other organic or inorganic particles having a negative . Magnetic Separation Of Ions Grinding Mill China

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  • Nippon Magnetics,Inc. LOCAT ION MAGNETIC SEPARATORS

    It is possible to increase the recovery rate of weak magnetic metals by narrowing the magnetic poles. The magnetic force displayed by the measuring instrument may be different. The magnetic force displayed by the measuring instrument may be diffrrent.

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  • Magnetic techniques for the isolation and purification of

    Nov 26, 20040183;32;Isolation and separation of specific molecules is used in almost all areas of biosciences and biotechnology. Diverse procedures can be used to achieve this goal. Recently, increased attention has been paid to the development and application of magnetic separation techniques, which employ small magnetic particles.

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  • Magnetic Separation of Metal Ions Request PDF

    The magnetic separation was investigated for Co2+ (9500 215; 10 6 cm3 mol 1) and Fe3+ (14600 215; 10 6 cm3 mol 1) ions and for Cr3+ (6200 215; 10 6 cm3 mol 1) and Al3+ (2 215; 10 6 cm3 mol 1) ions.

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  • Magnetic Separation Of Ions mahamayaresidency

    Magnetic separation of Dy(III) ions from homogeneous . The possibility to enrich paramagnetic dysprosium(III) ions in a magnetic field gradient is proved by means of interferometry, which may open the route for a magnetic separation of rare earth ions from aqueous solutions.

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  • Magnetic separation of Dy(III) ions from homogeneous

    The possibility to enrich paramagnetic dysprosium(III) ions in a magnetic field gradient is proved by means of interferometry, which may open the route for a magnetic separation of rare earth ions from aqueous solutions. The separation dynamics are studied for three different concentrations of DyCl

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  • US20040007452A1 Water purification ion separation

    During the first stage of magnetic purification, the use of a pair of ion selective membranes (one positive selecting and one negative selecting) on the sides of a hollow wall and a sweep stream within the wall can give a high ion extraction rate without causing a high retarding Hall voltage.

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  • copper magnetic separators specifi ion sheet

    Feb 12, 20170183;32;copper magnetic separators specifi ion sheet Magnetic Separation Equipment Bunting Magnetics. We manufacture an extensive line of Magnetic Separation Equipment to remove metal contaminants from dry particulates, liquids, and slurries. With everything from basic cartridges, grates, and plate magnets to magnet housings, self cleaning separators

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  • Magnetic separation of Dy(III) ions from homogeneous

    The possibility to enrich paramagnetic dysprosium(III) ions in a magnetic field gradient is proved by means of interferometry, which may open the route for a magnetic separation of rare earth ions from aqueous solutions. The separation dynamics are studied for three different concentrations of DyCl3 and compared with those found recently in a sulphate solution of the 3d ion Mn(II).

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  • High intensity magnetic separator

    Ion separationEdit. Ion separation is another application of magnetic separation. The separation is driven by the magnetic field that induces a separating force. The force differentiate then between heavy and lighter ions causing the separation. This phenomenon has

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  • Magnetic separation of paramagnetic ions from initially

    For this purpose, five different magnetic field configurations are analyzed. Clear evidence is provided that an enrichment of paramagnetic ions occurs in the field gradient. In particular, we show that the shape of this enrichment layer maps the spatial distribution of the magnetic field gradient force.

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  • Ion Optics nd.edu

    Introductory remarks Introduction for physicists 198;Focus on ion optical definitions, and tools that are useful for physicist at the NSL amp; future users of St. George recoil separator. Light optics can hardly be discussed without lenses amp; optical instruments 198;ion optics requires knowledge of ion optical elements. Analogy between Light Optics and Ion Optics is useful but limited.

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  • Method and apparatus for magnetic separation of ions 6X7

    The disclosed device is directed toward an apparatus for the separation of ions. The apparatus for the separation of ions comprises a vessel including an inlet fluidly coupled to an outlet. A magnetic field is applied substantially orthogonal to the flow of the fluid. The magnetic field applies a force that separates the oppositely charged ions.

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  • Magnetic separation of Dy(III) ions from homogeneous

    The possibility to enrich paramagnetic dysprosium(III) ions in a magnetic field gradient is proved by means of interferometry, which may open the route for a magnetic separation of rare earth ions

    More+
  • US4508625A Magnetic separation using chelated magnetic

    Disclosed is a new method for magnetic separation from a carrier fluid of biological cells or other organic or inorganic particles having a negative surface charge. A paramagnetic salt is mixed with an aqueous solution of a chelating agent, for example EDTA. The cells or particles to be separated are mixed with this paramagnetic carrier solution, and the resulting mixture is exposed to a high

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  • Magnetic separation of heavy metal ions and evaluation

    A new approach was developed for the magnetic separation of copper(II) ions with easy operation and high efficiency. pMercaptobenzoic acid served as the modified tag of Fe 2 O 3 @Au nanoparticles both for the chelation ligand and Raman reporter. Through the chelation between the copper(II) ions and carboxyl groups on the gold shell, the Fe 2 O 3 @Au nanoparticles aggregated to form networks

    More+
  • Magnetic Separation of Paramagnetic Ions From Initially

    In view of the small magnetic energy of the To study the separation process of these solutions a ions compared with their kinetic energy associated with their MachZehnder interferometer (MZI) was used to monitor the Brownian motion, this finding is surprising but

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  • Method and apparatus for magnetic separation of ions

    The fact that the ions have opposing charges and will be moving in the same direction through the same magnetic field 24 provides the opposing forces necessary to achieve separation of the ions. Referring now to FIGS. 3, 4, and 5 front, top and side views of an exemplary ion separator 10 are illustrated.

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  • Removal of heavy metal ions by carrier magnetic separation

    Magnetic separation was subsequently used to remove the solids from solution. Magnetic separation was carried out in a laboratory scale high gradient magnetic separator with a permanent magnet assembly. The separation chamber was 20 mm long and 50 mm wide, while the separation height was 100 mm. The background magnetic field strength was 0.5 T.

    More+
  • Separation of Transition Metal Ions in an Inhomogeneous

    The magnetic separation was investigated for Fe3+, Co2+, Ni2+, Cu2+, Zn2+, Ag+, and Cd2+ ions in an inhomogeneous field of 410 kOe2 cm 1. By application of the field to the solutions spotted on silica gel, the Fe3+, Co2+, Ni2+, and Cu2+ ions were attracted toward the field center, but the Zn2+, Ag+, and Cd2+ ions stayed at the spot origin.

    More+
  • US4508625A Magnetic separation using chelated magnetic

    Disclosed is a new method for magnetic separation from a carrier fluid of biological cells or other organic or inorganic particles having a negative surface charge. A paramagnetic salt is mixed with an aqueous solution of a chelating agent, for example EDTA. The cells or particles to be separated are mixed with this paramagnetic carrier solution, and the resulting mixture is exposed to a high

    More+
  • MAGNETIC SEPARATION USING CHELATED MAGNETIC IONS

    A new method for magnetic separation from a carrier fluid of biological cells or other organic or inorganic particles having a negative surface charge. A paramagnetic salt is mixed with an aqueous solution of a chelating agent, for example EDTA. The cells or particles to be separated are mixed with

    More+