Abstract: An embodiment of an apparatus for removing deposits from a petroleum flow line may include a pipe capable of being attached to a petroleum flow line. The pipe may have a pipe axis that defines a direction for fluid flow in the petroleum flow line. The apparatus may also include a first and a second field winding circumferentially disposed around the pipe, and an electric wave generator adapted to electrically communicate an electric wave to the first field winding and the second field winding. In response to the electric wave, the first field winding is adapted to produce a first magnetic field having a first magnetic axis and the second field winding is adapted to produce a second magnetic field having a second magnetic axis. The first magnetic axis may be noncollinear with respect to the second magnetic axis, and at least the first magnetic axis may be noncollinear with respect to the pipe axis.

Abstract: Embodiments of the invention relate to a clinical instrument analyzer system for the automated analysis of patient samples. In one embodiment, the analyzer may be used to analyze bodily fluid samples, such as blood, plasma, serum, urine or cerebrospinal fluid, for example. Embodiments of the invention relate to an apparatus and method for suspending magnetic particles accumulated on the floor of a mixing tube and depositing the magnetic particles in bodily fluid samples.

Abstract: A magnetic filtering film is used to remove grains from liquid that goes through the magnetic filtering film. The magnetic filtering film includes a rubber film and micro-magnets. The rubber film is made of organic polymer. The rubber film is formed with apertures through which liquid can go. The micro-magnets are distributed in the rubber film for attracting ferromagnetic grains from the liquid.

Abstract: A molecular arrangement magnetic treatment apparatus and method includes an apparatus including a material passageway configured for having material flow therethrough.

Abstract: Magnetic handling structure (1a) comprising a retractable magnet (4) and a probe (3) for the manipulation of magnetic particles in biological samples and methods of handling magnetic particles in biological samples.

Abstract: An apparatus for producing magnetized water. The apparatus comprises a plurality of magnet bars arranged in a radial manner, in which each magnet bar is structured such that a plurality of neodymium based permanent magnets is stacked in a stainless steel pipe in a manner such that like poles of the permanent magnets face each other. Thanks to this structure, the apparatus has a large contact area between the magnetic field and water flowing through the apparatus, thereby activating water by changing the structure of water.

Abstract: A device for treating liquid medium has an ultrasound emitter located relative to a compartment of a container holding a liquid medium and a microbubble emitter located relative to the compartment. The ultrasound emitter emits high-frequency ultrasound between about 200 KHz and 10 MHz. The microbubble emitter emits bubbles with an average diameter of less than 1 mm.

Abstract: Mixing of a sample containing a suspect bioagent or antigen with 1° recognition molecule coated magnetic beads in the preliminary stage of an enzyme linked immunoassay (“ELISA”) procedure is emulated by first inserting the coated magnetic beads into a non-magnetic confinement region, generating a magnetic field B along the axis of said non-magnetic confinement region to agglomerate the coated magnetic beads into a porous mass; then percolating or otherwise forcing the sample solution through said porous mass; and withdrawing the magnetic field to de-agglomerate said coated magnetic beads. In seeping or otherwise flowing through the magnetic beads the molecules of the sample link to respective magnetic beads that are coated with recognition molecules.

Abstract: Magnetic device (1) for treating liquids and gaseous materials, comprising a housing (2) within which permanent magnets (6) are arranged defining a flow path (3). The housing (2) is made of magnetizable material, preferably soft iron, the flow path (3) consists of at least one magnetic pretreating unit (4) and at least one magnetic aftertreating unit (5) in which the permanent magnets (6) are arranged at the boundary of the flow path (3) in such a manner that the north (N) pole or the south (S) pole of the permanent magnets (6) faces the flow path (3). In the magnetic pretreating unit (4) the permanent magnets are arranged in a plane perpendicular to the flow direction (10) with alternating polarity, while the permanent magnets (6) are arranged with the same polarity in the magnetic aftertreating unit (5).

Abstract: A system for separating liquids from solids comprising an immobilization unit comprising an immobilization vessel containing a bed of magnetizable material and a magnet configured to produce a magnetic field within the immobilization vessel, wherein the immobilization vessel further comprises an immobilization vessel outlet and an immobilization vessel inlet for a fluid comprising liquid and metal-containing particles.

Abstract: A filtration system for a motorized wheel off-highway vehicle transmission that is proximate a sun pinion bore within the transmission, the system includes a helix shaped element that traverses along a longitudinal axis of the sun pinion bore, a magnet proximate the helix shaped element, and a housing proximate the helix shaped element and magnet.

Abstract: A magnetic bead-based sample separating device is provided. The device includes a first reactor, a second reactor, a third reactor, a first micro-channel and a second micro-channel. The first reactor receives a mixing solution including several magnetic beads and a sample extraction. The sample extraction is bound with the magnetic beads. The second reactor receives a washing buffer for washing the magnetic beads with sample extraction. The third reactor receives an elution buffer for separating the washing buffer from the magnetic beads. The first micro-channel is for connecting the first reactor and the second reactor and moving the magnetic beads to the second reactor from the first reactor. The second micro-channel is for connecting the second reactor and the third reactor and moving the magnetic beads to the third reactor from the second reactor.

Abstract: A method and apparatus provide fluid treatment at a plurality of distinct points utilizing magnetic energy concentrated in a plurality of distinct areas along a fluid flow path and at least one region of pulsed fluid treatment within a fluid treatment chamber. The instant invention prevents the formation and accumulation of contaminants within conduits and on equipment utilized in the transportation, delivery and processing of fluid columns. It may also be utilized to accelerate the separation of oil and water and increase the efficiency of oil/water separation equipment.

Abstract: A method and apparatus provide pulsed fluid treatment at a plurality of distinct points utilizing pulsed magnetic energy concentrated in a plurality of distinct areas along a fluid flow path. The instant invention prevents the formation and accumulation of contaminants within conduits and on equipment utilized in the transportation, delivery and processing of fluid columns. It may also be utilized to accelerate the separation of oil and water and increase the efficiency of oil/water separation equipment.

Abstract: A molecular arrangement magnetic treatment apparatus and method includes a material container with an inlet and an outlet where the material to be treated is introduced at the inlet and is released at the outlet and where the material container is sized so as to provide an enclosed space into which the material expands and loses velocity. A material passageway is connected at one end to the inlet and at another end to the outlet such that the material must pass through the material passageway. And at least one pair of magnets is provided that are oriented such that material in the passageway must pass between a north pole and a south pole of the pair of magnets. In one embodiment, the at least one pair of magnets is self aligning such that the north pole and the south pole are free to move so that the north pole and the south pole are always facing each other.

Abstract: The invention is a magnetic fluid processor for conditioning fluids that includes an elongated housing comprising a core enclosed by a magnetic component in combination with an electrical return path. In one embodiment, the processor includes an elongated housing comprising a hollow core for storing an inert gas, said core enclosed by a magnetic component. The processor is electrically coupled to an electrical return path, which alters a magnetic configuration within fluids, thereby separating metals and organic or inorganic materials from fluids, in order to achieve desired fluid composition and properties.

Abstract: A container for magnetically activating water comprises a container having recesses as a part of the structure of the container, each of the recesses containing a magnet. The recesses and the magnets can be arranged in a set array in the structure of the container or can be in a random array. The recesses and the magnets preferably are in the sidewall of the container, but can additionally be in the bottom surface of the container. The magnets can be maintained within the recesses by a band that surrounds the recesses and the magnets, or by the magnets and the recesses having structures whereby the magnets are held within the recesses. A band also can be used to secure the magnets in the recesses. The recesses and magnets can be of essentially any compatible shape. Preferably the container is generally round and may have a gripping region.

Abstract: Methods are disclosed for the capture, detection, separation, isolation and quantification of contaminants in a starting material. Also disclosed are competitive assay methods for the detection and quantification of contaminants in a starting material. Kits for use with the method are disclosed as well. A system for capturing, separating and/or concentrating contaminants from a material is also presented. The system captures, separates and/or concentrates contaminants such as bacteria, viruses, other microorganisms, and/or larger items, such as insects, from a variety of materials, such as food, and environmental and clinical materials. In general, the system uses a rotating magnetic field to mix the material with magnetic particles to capture the target contaminants, and a fixed magnetic field to separate and concentrate the captured target contaminants.

Abstract: In a semi-permeable membrane system for transferring magnetic particle fractions contained in a first fluid to a second fluid, comprising a membrane through which passages extend and which separates the first fluid from the second fluid being a pressure generation arrangement is provided for generating a reversible pressure differential between the two fluids across the membrane for alternately causing fluid movement in the membrane in opposite directions and a magnetic field generator is provided for alternately generating a magnetic field in the membrane wherein, during the fluid movement in one direction, the magnetic field is switched on to hold the magnetic particles in place in the membrane and, during fluid flow in the opposite flow direction, the magnetic field is switched off to permit the magnetic particles to be moved through the membrane in the other direction.

Abstract: Magnetic nanoparticles and methods for their use in detecting biological molecules are disclosed. The magnetic nanoparticles can be attached to nucleic acid molecules, which are then captured by a complementary sequence attached to a detector, such as a spin valve detector or a magnetic tunnel junction detector. The detection of the bound magnetic nanoparticle can be achieved with high specificity and sensitivity.

Abstract: A novel design of filters for removing iron rust particulates and other polymeric sludge from refinery and chemical process streams that are paramagnetic in nature is provided. The performance of these filters is greatly enhanced by the presence of the magnetic field induced by magnets. Basically, the filter comprises a high-pressure vessel with means to support the plurality of magnets in the form of bars or plates that are encased in stainless steel tubes or columns. Filters with various configurations are disclosed for accommodating the removal of contaminants from the process streams of different industries, with high efficiency for contaminants removal, simple construction, low operational and maintenance costs, and low hazardous operation.

Abstract: Three magnet casings are adjustably and removably attached to one another such that the device may snuggly fit about fluid conduits of differing diameters. An outer casing wall of ferrous content stainless steel confines the magnetic field. An inner magnet holder frame attached to the outer casing wall holds a magnet to the conduit and is fabricated of non-ferrous stainless steel to allow maximum trans mission of the magnetic field to the fluid in the non-ferrous section of the conduit around which the casings are attached together.

Abstract: A fluid treatment apparatus is disclosed which includes a casing through which fluid flows, an array of magnets in the casing, arranged substantially perpendicular to the side of the casing and therefore substantially perpendicular to the main flow of fluid through the casing, wherein the magnets within the array which lie substantially within the same perpendicular plane are spaced apart and arranged in alternating polarity, and means to support the array of magnets such that the space between the magnets within the array which lie substantially within the same perpendicular plane are substantially equal distances from the adjacent magnets to permit flow of fluid therethrough. In a one arrangement, the casing includes an outer casing made from a material which substantially restricts the magnetic field within the casing. An inner casing is made from a non-magnetic material such as stainless steel.

Abstract: A cleanout system and method for removal of metal debris from a fluid flow, such a flow of re-circulated drilling mud employs one or more magnetic unit positioned in the path of the fluid for collecting metal particles from the flow. The magnetic unit has a removable magnet core positioned in a non-magnetic sleeve. When the core is removed from the sleeve the attracted metal particles are allowed to drop from the sleeve under gravity to facilitate their collection and disposal. A fluid deflector is positioned upstream from each magnetic unit, protecting the magnetic unit from direct impact by the strong flow. The magnetic units are allowed to pivot from side-to-side and adjust their position in the flow.

Abstract: Apparatuses and methods for separating, immobilizing, and quantifying biological substances from within a fluid medium. Biological substances are observed by employing a vessel (6) having a chamber therein, the vessel comprising a transparent collection wall (5). A high internal gradient magnetic capture structure may be on the transparent collection wall (5), magnets (3) create an externally-applied force for transporting magnetically responsive material toward the transparent collection wall (5). V-shaped grooves on the inner surface of the viewing face of the chamber provide uniform. The invention is also useful in conducting quantitative analysis and sample preparation in conjunction with automated cell enumeration techniques.

Abstract: A permanent magnet array iron filter has a generally circular collar made of a high magnetic permeability material with a plurality of magnetic assemblies interiorly disposed longitudinally around an interior circumference therein. Each magnetic assembly has two magnets with opposite poles facing the center of the filter and a gap between the adjacent assemblies. This arrangement intensifies the resultant magnetic field and projects the field deeply within the interior region of the filter. Rare earth permanent magnets are used to maximize the magnetic field. The collar may be coated with a plastic coating to protect the filter. The collar has a gap to provide flexibility when sliding the filter over an oil filter. The thickness of the collar may be adjusted to meet the requirements of a particular application.

Abstract: A magnetic separator vessel (1) for separating magnetic particles from non-magnetic fluid includes a separation chamber having an interior and exterior wall, a top and bottom portion; a magnet (3) having first and second poles (2) positioned adjacent to the exterior wall, wherein the first pole is substantially diametrically opposed to the second pole; a inlet port (5) is directed into the top portion of the separation chamber, wherein the inlet port (5) is positioned adjacent to one of the first and second poles (2), wherein the inlet port (5) is adapted to transfer a mixture into the separation chamber; an underflow port (6) in communication with the bottom portion, wherein the underflow port (6) is adapted to receive the magnetic particles; and an overflow port (9) in communication with the separation chamber, wherein the overflow port (9) is adapted to receive the non-magnetic fluid.

Abstract: The invention relates to a magnetic separation device and is used for separating paramagnetic substances from diamagnetic substances, the paramagnetic substances according to the paramagnetic susceptibility thereof and the diamagnetic substances according to the diamagnetic susceptibility thereof. Said invention can be used for electronics, metallurgy and chemistry, for separating biological objects and for removing heavy metals and organic impurities from water, etc. The inventive device is based on a magnetic system of an open domain structure type and is embodied in the form of two substantially rectangular constant magnets (1, 2) which are mated by the side faces thereof, whose magnetic field polarities are oppositely directed and the magnetic anisotropy is greater than the magnetic induction of the materials thereof.

Abstract: The art to which this patent pertains is that no device exists in today's market to filter out fine metal particles which can slip past conventional “oil filter” filter elements. These fine metal particles contribute to engine ware. This invention extracts these particles using electromagnetism and stores them in a magnetic chamber which is strategically placed within the “invention”.

Abstract: 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.

Abstract: A plurality of magnets can be positioned around a container through the use of a plurality of holders that can be releaseably positioned around the container. Each holder has an area compatible in shape to the magnet to hold a magnet. The base of the holder which contracts the container is of a shape compatible to that of the container. There is at least one aperture on at least two sides of the holder. A strap is placed through the apertures and secured at each end. This secures the magnets to the container. The holder can have a flexible base portion or can itself be flexible. The holders can be at an angle of about 150° to about 210° to the axis of the container. The magnets can be positioned in various polar arrays around the container. The container will hold an aqueous liquid either in a static or flow condition. The container can be a bottle, pipe conduit and/or a filter within pipe conduit system.

Abstract: Coolant fluid cleaning method, system, and apparatus use a rotating magnet to remove particulate matter from a fluid used to cool or lubricate a machining or other operation. Such system includes a rotating magnet in fluid communication with apparatus circulating fluid past the rotating magnet. A scraper blade removes particulate matter which is picked up by the rotating magnet. The system or apparatus can include a dirty fluid reservoir, one or more conveyor which removes chips and particulate matter from the dirty fluid reservoir, and a clean fluid reservoir. The rotating magnet collects particulate matter in the dirty fluid reservoir and discharges the collected particulate matter to a discharge conveyance. When the rotating magnet is used in combination with a disc filter, the magnet relieves some cleaning load from the disc filter.

Abstract: A magnetic filter device for filtering ferromagnetic material from a fluid in which said material is suspended, has a pair of annular plates (5, 6) attached to either side of an annular magnet (2) of smaller diameter. Pairs of pole pieces (11, 12) radially disposed on the plates (5, 6) are aligned so as to generate fields of magnetic flux which promote the collection and retention of ferromagnetic material between the pairs of polepieces (11, 12).

Abstract: An apparatus and method for carrying out the affinity separation of a target substance from a liquid test medium by mixing magnetic particles having surface immobilized ligand or receptor within the test medium to promote an affinity binding reaction between the ligand and the target substance. The test medium with the magnetic particles in a suitable container is removably mounted in an apparatus that creates a magnetic field gradient in the test medium. This magnetic gradient is used to induce the magnetic particles to move, thereby effecting mixing. The mixing is achieved either by movement of a magnet relative to a stationary container or movement of the container relative to a stationary magnet. In either case, the magnetic particles experience a continuous angular position change with the magnet.

Abstract: A molecular arrangement magnetic treatment apparatus and method includes an apparatus including a material passageway configured for having material flow therethrough and at least one pair of magnets oriented such that material in the material passageway passes through a magnetic field effect produced by the at least one pair of magnets. Further, each magnet of the at least one pair of magnets is allowed to move independent of each other such that the magnetic field effect at least partially influences relative placement of each magnet of the at least one pair of magnets.

Abstract: Two assembled bodies arranged as a pair are disposed around the outside periphery of a pipe to activate water flowing in the pipe. Each of the assembled bodies is composed of a cover and fluid activating bodies integrally fixed in the cover with an epoxy resin. Each of the fluid activating bodies is composed of a black radiation sintered body made by sintering the powder of a plurality of kinds of metal oxides at high temperature and an electromagnetic wave converging body for converging the electromagnetic wave radiated from the black radiation sintered body to a predetermined wavelength. The two covers are disposed around the outside periphery of the pipe, and fixing portions formed on both the sides of the covers are integrally fixed by fixtures, respectively.

Abstract: A magnetic transfer method for sorting, collecting, transferring or dosing microparticles (22) or magnetic particles either in the same liquid (23) or from one liquid (23a) into another (23b) by using a magnetic field. The transfer device (10) comprises a magnet (13) placed inside a protective coating (21), and the collection or dozing is accomplished by changing the magnetic field of the magnet (13). The changing of the magnetic field is effected by using a ferromagnetic body, such as a plate or tube (12), comprised in the transfer device, in such manner that, when micro-particles are to be collected, the magnet is partially or completely outside the ferromagnetic body and, when the particles are to be released or dozed, the magnet is partially or completely inside or behind the ferromagnetic body.

Abstract: A pourer for improving the taste of water includes a base and a tubular member extending longitudinally through the base. A spout extends outwardly from the tubular member and at least two magnets disposed longitudinally along the tubular member are provided for exposing the water to a magnetic field as the water passes through the tubular member and spout.

Abstract: The invention provides a method for contacting liquid with an ion exchange resin comprising introducing liquid into a process tank containing ion exchange resin at an inlet (2) and removing liquid that has been contacted with resin from the process tank at an outlet, the outlet being located above the inlet (2), the process tank including a resin containment region (7, 9) disposed between the inlet (2) and the outlet to impede the upward flow of the resin as it becomes entrained in the liquid flowing from the inlet to the outlet, and a contactor region for promoting contact between the resin and the liquid located below the containment region (7, 9), said containment region (7, 9) containing an array of settling members through which the liquid and resin upflow and which impede the flow of the resin to a sufficient extent that it is substantially contained within or below the containment region (7, 9). Apparatus for performing this method is also provided.

Abstract: A device for healing or purification having magnets configured in a pattern conforming to sacred geometry, adapted for rotation about an axis. The device is useful for purifying water and breaking down toxic waste and environmental pollutants from automobiles and industry in water, food, soil and air.

Abstract: A microfluidic chip device (MCD) and its use for performing miniaturized assays on magnetic microbeads (MMs) are described. The MCD is particularly useful for carrying out miniaturized transcript analysis by aiding affinity capturing (TRAC) assays, including PCR. The MCD comprises at least one reaction chamber with sealable liquid connections and at least one fluidic pillar filter in each chamber. The fluidic pillar filter comprises rods with spacings allowing MMs to pass. The sealable liquid connections feed liquid to the reaction chamber, wherein air bubbles are removed. The liquid stream contacts the MMs, which are manipulated with a magnetic rod. The liquid connections enable trapping of the MMs behind the pillar filters or in the channel, while the liquid is changed.

Abstract: A molecular arrangement magnetic treatment apparatus and method includes an apparatus including a material passageway configured for having material flow therethrough.

Abstract: An object of the present invention is to provide a magnetic field forming device for active water capable of uniformly forming a high magnetic field free from any unevenness in its intensity, activating a fluid regardless of the orientation of magnetic polarity of the magnets, bringing about excellent assembling efficiency not requiring assembling while checking the orientation of the magnets, being manufactured at a high product yield ratio without occurrence of defective products resulting from a difference in the orientation of the magnets, remarkably easily taking out the magnets without use of any exclusive special tool, and removing rust and stains adhered to the magnets by wiping off the magnets one by one, the maintenance efficiency of which is excellent.

Abstract: A magnetic filter device capable of separating contaminant material from a working fluid. The device includes an inlet to allow fluid to flow into the device and an outlet to allow fluid to flow out of the device. The filter further includes an elongate magnetic core comprising at least four columns of magnets. At least two magnetic columns include a north polarity extending over the length of the columns and at least two columns have a south polarity extending substantially the length of the columns. The four columns are positioned lengthways around a central longitudinal axis of the core in alternating north and south polarity thereby generating a magnetic field of alternating high and low field intensity in the region around the magnetic core exterior.

Abstract: Biology and medicine for cleaning biological fluids. A system for correcting a biological fluid includes a sealed container for a magnetically operated absorbent (MOA), a sealed chamber for mixing the absorbent with a biological fluid and for the absorbent precipitation therefrom, and a sealed filtering unit. The chamber and container are embodied so that they can modify the volumes thereof, have a common interchamber partition-wall fixed to the bottom and are interconnected through a passage embodied in the wall. The other sidewalls of the chambers have corrugations which form bellows. Lids of the chambers are pivotally connected so that they are pivotable around the pivot axis. The MOA container is arranged inside the absorber-mixing chamber and embodied as a bellow. An inlet connection is simultaneously connected to the inside cavities of the absorber-mixing chamber and to the container thereof.

Abstract: A microreactor device includes: a microchannel; magnetic particles that are introduced into the microchannel; and a magnet that is arranged on an outside of the microchannel and exerts a magnetic force on the magnetic particles.

Abstract: The invention provides a process for separating a solution from magnetic resin portions, particles and/or fines by passing a solution containing the resin portions, particles and/or fines through a bed of particulate magnetic material.

Abstract: An apparatus for mixing and separating magnetic particles in a liquid comprises a holder having a plurality of apertures configured as an array of rows and columns and a plurality of containers capable of receiving liquid containing magnetic particles, each container being sized to be placed in one of the apertures; plural magnets capable of being moved relative to the containers between a first position and a second position to change the position of the magnets and magnetic particles in the container; and a drive mechanism for moving the magnets between positions at a sufficiently high speed that the particles do not settle down due to gravitational forces during motion between the first and second positions.

Abstract: Provided is a device for producing magnetized water which can be installed outside a water feed pipe for supplying drinking water, or inside a shower head or water purifier to magnetize the water being supplied into healthful functional water by utilizing characteristics of magnetic ions, so that the magnetized water enhances skin care and prevention and therapeutic effects on skin infections when used to shower, or the magnetized water detoxicates or neutralizes poisonous substance, and is excellent in anti-inflammation effect when used as a drinking water, thereby increasing natural healing force against diseases.

Abstract: A process for separating entrained particles from a medium is provided. The medium flows into an intake port, through a separation region and out an exit port. The process includes disposing a separation region between the intake and outlet ports and positioning a magnet having north and south poles at opposite ends of the separation region. For orientation, the ports are disposed along a flow axis, and the opposite ends are disposed parallel to a pole axis transverse to the flow axis. The method operates by the magnet applying Lorenz force on the particles having one of positive and negative charges away from the separation region, wherein the particles avoid the outlet port without obstructing through the separation region. Similarly, a device for separating the particles is similarly described. In addition, the method and device further include a chamber being disposed adjacent to the separation region to collect the particles.