Belton
David John Belton, Nottingham GB
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20110070351 | FOOD SUPPLEMENT - The invention relates to food supplements comprising silica a quaternary ammonium compound or a group Ia hydroxide and an organic acid, and to those comprising a group Ia silicon salt and an organic acid, to methods of making such supplements and to foods containing them. | 03-24-2011 |
Dennis Belton, Sherwood Park CA
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20100300248 | Recovering Metal Values from a Metalliferrous Material - A method of treating a metalliferrous material source is provided. The metalliferrous material source includes at least one of nickel sulphide and cobalt sulphide, and also includes iron sulphide. The metalliferrous material source is leached with a preliminary leachant in a leaching zone to effect production of a preliminary leach product including a preliminary leach solution and a preliminary leach solid residue. The preliminary leachant includes an aqueous solution comprising ammonia and ammonium sulphate. The preliminary leach solution includes at least one of dissolved nickel comprising material and dissolved cobalt comprising material. The preliminary leach solid residue includes: (i) at least one of nickel sulphide and cobalt sulphide, (ii) at least one of other nickel comprising material and other cobalt comprising material, and (iii) other iron comprising material. At least a fraction of the preliminary leach solid residue is separated from the preliminary leach product such that a metalliferrous material is provided, wherein the metalliferrous material includes at least a fraction of the separated preliminary leach solid residue. At least a fraction of the metalliferrous material is leached with an aqueous solution including dissolved sulphuric acid and dissolved sulphur dioxide in a leaching zone so as to effect production of an operative leach product including a leachate component and a solid residue component, wherein the leachate component includes nickel sulphate, cobalt sulphate, and iron sulphate, and wherein the solid residue component includes at least one of nickel sulphide and cobalt sulphide. At least a fraction of the solid residue component is separated from the operative leach product to provide a recovered solid residue component. The recovered solid residue component is recycled to the preliminary leaching zone. | 12-02-2010 |
20100300249 | Recovering Metal Values from a Leach Residue - There is also provided a method of treating a metalliferrous material. The method includes providing a metalliferrous material including nickel, cobalt, and iron. At least a fraction of the metalliferrous material is leached with an aqueous solution including dissolved sulphuric acid and dissolved sulphur dioxide in a reaction zone so as to effect production of a leachant including nickel sulphate, cobalt sulphate, and iron sulphate. The leachant is contacted with a reagent material in a reaction zone, wherein the reagent material is aqueous ammonia solution, so as to effect production of a reaction product including a product solution component and a solid residue component. The nickel and cobalt are concentrated in the product solution component, and the iron is concentration in the solid residue component. | 12-02-2010 |
Neil Belton, Didcot GB
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20140357494 | VIBRATION ISOLATION FOR SUPERCONDUCTING MAGNETS - A mounting plate for locating under a superconducting magnet structure, between the superconducting magnet structure and a supporting surface of a mobile carrier, is controllable between two different states. In a first state, the mount provides rigid attachment and precise location of the superconducting magnet structure onto the supporting surface of the mobile carrier. In a second state, the mount provides vibration isolation between the superconducting magnet and the mobile carrier. | 12-04-2014 |
Neil John Belton, Didcot Oxfordshire GB
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20110105334 | APPARATUS AND METHOD FOR INSTALLING COOLING TUBES ON A COOLED FORMER - A superconducting magnet structure has a thermally conductive former with a former body having a former surface and a channel in said former surface that is open at said former surface, a thermally conductive tube disposed in the channel and configured to receive a circulating coolant therethrough, and the former body has at least one deformable retaining element integrally formed as a part of said former body and projecting from said surface of the former body next to the channel and being deformed over said tube in the channel to cover the tube in said channel and retain the tube in the channel. | 05-05-2011 |
Neil John Belton, Didcot GB
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20100038131 | Current Leadthrough for Cryostat - A current lead-through for providing an electrically conductive path between an interior of a vessel and the exterior of the vessel. The electrically conductive path is electrically isolated from the material of the vessel. The current lead-through comprises an electrically conductive pin surrounded by an electrically isolating sealing material, and retained within a tubular carrier body by the sealing material, the electrically conductive pin being exposed at each end of the tubular carrier body to enable electrical connection thereto. | 02-18-2010 |
Neil John Belton, Oxon GB
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20090101325 | METHOD AND APPARATUS FOR COOLING SUPERCONDUCTIVE JOINTS - In a method and apparatus for joining a number of superconductive cables to establish electrical connection therebetween, a cup-like member having a base, a sidewall, and an opening to receive electrically conductive ends of said cables is provided. The base of the cup-like member is attached to a holder device. The holder device is attached to a cryogenically cooled surface. The ends of the superconductive cables are connected together within the cup-like member. | 04-23-2009 |