Magnetic micro or nanobeads can be separated easily and quickly by magnetic forces and will be used together with bioaffine ligands antibodies or proteins with a high affinity to the target. The special advantages of magnetic separation techniques are the fast and simple handling of a sample vial and the opportunity to deal with large
In order to run a superconducting magnet in the most energy efficient way means that in order to remove trapped magnetic particles from the matrix area within the magnetic field the trapping region must be removed from the magnetic field. Carpco has accomplished this through the development of its proprietary reciprocation technology.
article osti_ title = Design study of a superconducting 120 inchdiameter magnetic matrix separator author = Grundorfer S and Fillunger H and Reichel P and Ponninger A abstractNote = This paper reports that matrix separators with forced flow helium cooling can be built simpler and smaller.
A standard SMES system is composed of four elements a power conditioning system a superconducting coil magnet a cryogenic system and a controller. Two factors influence the amount of energy that can be stored by the circulating currents in the superconducting coil. The first is the coil s size and geometry which dictate the coil s inductance.
The paper describes the investigations to work out the design and process parameters of superconducting commercial separators using laboratory units. The design features of the magnet system and the cryostat of the separator of the disk type for wet separation of weakly magnetic ores and nonore materials are presented.
Title Continuous superconductingmagnet filtration system Applied Superconductivity IEEE Transactions on Author IEEE Created Date 4/9/2004 6 01 32 PM
A superconducting magnetic separator wherein the magnet coil or coils are in the shape of a vertically oriented oval. The coils are mounted in an evacuated cryostat housing which provides a flat vertical magnetic separating zone on one or both vertical faces.
Keywords hightemperature second generation superconductors HTSC tapes REBCO tapes highgradient magnetic separator superconductivity superconducting magnetic systems DOI /S 1.
The fact that a superconducting diode effect exists without an external magnetic field in this system has great implications for the study of the complex physical behavior of twisted trilayer
KRB1 chemical patent summary.
Superconducting Magnetic Separators Juergen Kopp1 2 1Physics Department University of the Witwatersrand South Africa 2Oxford Instruments Eynsham UK Received 13 Feb 1991 Abstract The fields available with conventional electromagnets are limited to 2 Tesla by the saturation of iron.
A highT superconducting magnetic separator 0 2 4 6 COS fI OO kWh Figure 1. Cost (/tonne) plotted versus power cost (/IO0 kWh). Compared are the processing cost of the conventional separator (0 /tonne). the first superconducting separator (A 1986) and the improved larger capacity machine
The design of the superconducting magnet separator intended for productivity up to 10 ton/hour of separated fluid is proposed. The design has been dev.
Superconducting magnetic separation. Abstract After a brief review of magnetic separator requirements the major systems delivered to date are described and some possible future developments are outlined. Both opengradient and matrix separators are considered. The advantages to be gained by using superconducting magnets are then briefly outlined
Superconducting magnetic separator has a canister that includes upper and lower pole pieces and a support post or tube extending axially between the pole pieces to absorb and resist the compressive forces imparted by the strong magnetic fields of the superconducting magnet. The support post has one or more axial passages therein for conducting
power requirement in the order of 80 kW but still a large mass of iron is needed to focus the field. A 120″ flat superconducting magnet will require some 625 Tons of iron shield. In all cases above the magnet consumes electrical power as it has to be swept up and down in order to allow captured magnetic material to be removed from the matrix.
A superconducting magnetic separator wherein the magnet coil or coils are in the shape of a vertically oriented oval. The coils are mounted in an evacuated cryostat housing which provides a flat verti Superconducting magnetic coil Burgeson et al. 335/216 Apparatus for immersioncooling superconductor Inai
This type of machine is a "highgradient" magnetic separator and the magnetic field is often generated by a powerful superconducting magnet. Quantum Design s next generation SHGMS system is revolutionary in that it does not require any liquid cryogens to support its superconducting magnet. The elimination of a bulky liquid helium vessel results
Higher fields are possible. To maximize the effective area of magnetic separation central field homogeneity is typically / 10 over at least a 25cm length. The superconducting magnet is designed for a fast charge and discharge rate so time between back flushes is minimized. Bore sizes typically are between 5cm and
Title Superconducting Magnetic Separation 1 Superconducting Magnetic Separation. 2009/7/3 2 Introduction In the era of mass consumption The huge volume of industrial waste Environmental problem Magnetic Separation harmful material useful material Magnetic force Separation 3 Magnetic Separation characteristic . simple highspeed and massive
A widebore 5 T NbTi superconducting magnet for magnetic separator with anoperational current of 106 A is designed and magnet with a φ60 mm roomtemperature bore is installed in a vacuum cryostat and immersed in liquid twostage4 K GiffordMcMahon(GM)cryocooler is used to maintain the cooling shield at 70 K and thecondenser at 4 K in order to achieve the zero
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DeepDyve is your personal research library It s your single place to instantly discover and read the research that matters to you. Enjoy affordable access to over 18 million articles from more than 15 000 peerreviewed journals . All for just 49/month Explore the DeepDyve Library or browse the journals available Search
A continuously operating superconducting magnetic separator for the segregated separation of particles with different magnetic susceptibility from a mixture such as a mixture of ferromagnetic and nonferromagnetic ore and rock in which the magnetic separator comprises a stationary superconducting magnet arrangement along with at least one carrier running through the magnetic field for the
Magnetic Field The critical current of all ceramic superconductors is affected by both the self field and external fields generated by the magnet and whether the external field is parallel or perpendicular to the lead. Knowing this information is important in the proper design of the size of the lead. For example a 50mT field parallel to the lead will reduce the critical current by 80 at 77K.