Adsorbing Impurity From Vaporous Or Liquid Metal Patents (Class 75/406)
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Patent number: 8992661Abstract: A series of inventions leading to the production of specific aluminum alloys (especially aluminum beverage can sheet product) through novel approach of introducing, selectively partitioning and managing alloying elements. This invention also enables manufacturing practices to enhance the performance characteristics of aluminum alloys produced. The selected elements can be derived from carbon anodes made from calcined petroleum coke with high metallic contents (such as nickel and vanadium). Alloying elements can also be introduced and managed from other raw material such as alumina and bath constituents added during aluminum smelting process. Additionally, cell operating parameters, such as cell temperature, off gas flow rate, aluminum tapping rate and impurity partition characteristics can also be manipulated to produce low cost aluminum alloys and facilitate utilization of high metallic content calcined petroleum coke.Type: GrantFiled: August 27, 2012Date of Patent: March 31, 2015Assignee: Tri-Arrows Aluminum Inc.Inventors: Gyan Jha, Frank R. Cannova, Subodh K. Das, Barry A. Sadler
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Patent number: 8820533Abstract: A method of sorting mined material for subsequent processing to recover valuable material, such as valuable metals, from the mined material is disclosed. The method includes a combination of selective breakage of mined material, for example, by using microwaves and/or high pressure grinding rolls, subsequent size separation, and then particle sorting of a coarse fraction of the separated material based on differential heating and thermal imaging.Type: GrantFiled: August 13, 2012Date of Patent: September 2, 2014Assignee: Technological Resources Pty. LimitedInventors: Raymond Walter Shaw, Barry Lavin
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Patent number: 8318121Abstract: In a device and a method for the processing of non-ferrous metals for simple and economic reduction of the concentration of impurity elements and/or impurity compounds contained in the non-ferrous metal, it is provided to gas the non-ferrous metal in a processing column with at least one gas at a low pressure, causing the impurity elements and/or impurity compounds to evaporate.Type: GrantFiled: October 13, 2007Date of Patent: November 27, 2012Assignee: Sunicon AGInventors: Karsten Wambach, Claudia Knopf, Ingo Röver
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Publication number: 20110094339Abstract: In order to remove fluorine from a zinc containing solution before zinc electro-refining in lower cost, fluorine is removed by adsorption from a zinc containing solution (leached solution) utilizing the character of the predetermined iron compound or zinc compound which can adsorb fluorine in an acid solution and desorb fluorine in an alkaline solution. The fluorine adsorbent/desorbent having adsorbed fluorine is treated in an alkaline solution, to desorb the fluorine. This makes it possible to regenerate the fluorine adsorbent/desorbent. Further, an electrolytic solution for zinc electro-refining can be prepared in lower cost, thus total zinc refining costs can be reduced.Type: ApplicationFiled: January 5, 2011Publication date: April 28, 2011Applicant: Mitsui Mining & Smelting Co., Ltd.Inventors: Hiroshi Hata, Kenji Haiki, Kazuhiko Nishina, Masatami Sakata
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Patent number: 7763095Abstract: The present invention relates to the internal gettering of impurities in semiconductors by metal alloy clusters. In particular, intermetallic clusters are formed within silicon, such clusters containing two or more transition metal species. Such clusters have melting temperatures below that of the host material and are shown to be particularly effective in gettering impurities within the silicon and collecting them into isolated, less harmful locations. Novel compositions for some of the metal alloy clusters are also described.Type: GrantFiled: June 5, 2006Date of Patent: July 27, 2010Assignee: The Regents of the University of CaliforniaInventors: Anthony Buonassisi, Matthias Heuer, Andrei A. Istratov, Matthew D. Pickett, Mathew A. Marcus, Eicke R. Weber
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Patent number: 7655066Abstract: The invention relates to titanium oxide containing slag compositions and associated methods for reducing the nitrogen content of metals. The titanium oxide slag compositions can be used to reduce nitrogen content in various molten metals including steel, nickel, copper, iron, and the like. The nitrogen content of the metals can be reduced by contacting the metal with the titanium oxide containing slag composition. The slag compositions are capable of reducing the nitrogen content of steel to less than 20 ppm without the need for specialized high-quality starting materials or processing equipment.Type: GrantFiled: June 13, 2006Date of Patent: February 2, 2010Assignee: University of Utah Research FoundationInventors: Peng Fan, Weol D. Cho
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Publication number: 20080289448Abstract: “HYBRID PROCESS USING ION EXCHANGE RESINS IN THE SELECTIVE RECOVERY OF NICKEL AND COBALT FROM LEACHING EFFLUENTS” The present invention is directed to a hybrid process using ion exchange resins in the selective recovery of nickel and cobalt of leaching effluents that is comprised of the steps of processing (1) the laterite ore (M), which is then treated through leaching (2) (either atmospheric or under pressure), considering solutions from the solid-liquid separation step of existing plants already in operation (2) as well, in a way that the downstream process comprises an ion exchange hybrid circuit, wherein the first ion exchange step (3) with resins (Re) exhibits specific selectivity conditions for the removal of iron, aluminum and copper and an increased pH, and the second ion exchange step (4) allows the removal of nickel and cobalt.Type: ApplicationFiled: August 1, 2008Publication date: November 27, 2008Inventors: Renato de Souza Costa, Flavia Dutra Mendes
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Publication number: 20080196548Abstract: A method and composition for removing sulfur from molten ferrous material, particularly molten iron. The desulfurization agent includes one or more pucks or briquettes of deoxidizing and/or desulfurization agent. The pucks or briquettes of deoxidizing and/or desulfurization agent include at least one deoxidizing metal and at least one ferrous metal.Type: ApplicationFiled: February 16, 2007Publication date: August 21, 2008Inventor: Thomas H. Bieniosek
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Publication number: 20080190244Abstract: The present invention provides a method for mass producing any metal alloy. After melting a metal mixture, a mixture of heating, soaking and/or cooling is processed to obtain the alloy even with a trace element added. The metal alloy made by the present invention thus has a high purity and a low cost.Type: ApplicationFiled: April 27, 2007Publication date: August 14, 2008Applicant: National Central UniversityInventors: Sheng-Long Lee, Jing-Chie Lin, Tien-Fu Wu, Che-Wei Hsu, Cheng-En Jiang, Jen-Hao Liu, Chun-Yu Lin, Yu-Chin Kao
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Patent number: 6932853Abstract: A method of operating mechanical separation devices at high temperatures to separate various volatile metals, metal halides and metal oxides to produce high purity materials.Type: GrantFiled: June 27, 2003Date of Patent: August 23, 2005Assignee: Heritage Environmental Services LLCInventors: James E. Bratina, Fred M. Fehsenfeld
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Publication number: 20020194960Abstract: A method for recovering a valuable metal including the steps of: recovering valuables from scraps containing the valuable metal; and removing at least part of carbon contained in the recovered valuables by heating the valuables in a non-oxidizable atmosphere, and a method for recovering a valuable metal including the steps of: thermally treating a melted mixture including the valuable metal and slag with a flux component to separate the valuable metal in a liquid phase from the slag in another liquid phase. In accordance with the present invention, the valuable metal in the scrap can be easily recovered.Type: ApplicationFiled: May 28, 2002Publication date: December 26, 2002Applicant: MITSUI MINING & SMELTING CO., LTD.Inventors: Kiyotaka Yasuda, Minoru Sakai
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Publication number: 20020167120Abstract: Both ends of a bulb of a waste fluorescent lamp are cut off, a phosphor layer formed on an interior surface of the bulb is detached, so that mercury-containing phosphor powder can be obtained. The mercury-containing phosphor powder is subjected to a heating and reducing process with the dry-method, by mixing an organic reducing agent with the phosphor powder and heating the mixture, to vaporize and separate mercury from the phosphor powder. The vaporized mercury is then cooled and condensed, to collect mercury.Type: ApplicationFiled: March 28, 2002Publication date: November 14, 2002Inventors: Kenji Fujiwara, Kiyokatsu Fujinami
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Patent number: 6458182Abstract: A process for producing a high-purity Mn material comprising the steps of premelting crude Mn at 1250-1500° C. and vacuum distilling the melt at 1100-1500° C. The degree of vacuum during the vacuum distillation ranges from 5×10−6 torr to 10 torrs. A crucible for use in the vacuum distillation is a double crucible, which consists of inner and outer crucibles, and a carbon felt packed in the space therebetween. A high-purity Mn material for thin film deposition which contains a total of not more than 100 ppm impurity metallic elements, not more than 200 ppm oxygen, not more than 50 ppm nitrogen, not more than 50 ppm S, and not more than 100 ppm C.Type: GrantFiled: December 21, 2000Date of Patent: October 1, 2002Assignee: Japan Energy CorporationInventors: Yuichiro Shindo, Tsuneo Suzuki
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Publication number: 20010054331Abstract: A method for recovering a valuable metal including the steps of: recovering valuables from scraps containing the valuable metal; and removing at least part of carbon contained in the recovered valuables by heating the valuables in a non-oxidizable atmosphere, and a method for recovering a valuable metal including the steps of: thermally treating a melted mixture including the valuable metal and slag with a flux component to separate the valuable metal in a liquid phase from the slag in another liquid phase. In accordance with the present invention, the valuable metal in the scrap can be easily recovered.Type: ApplicationFiled: March 26, 2001Publication date: December 27, 2001Inventors: Kiyotaka Yasuda, Minoru Sakai
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Patent number: 6086652Abstract: A method for removing oxides from a liquid metal heat exchange fluid following the initial startup of the heat exchange system fixes oxygen by locating an oxygen scavenging material in a drain tank. During initial fabrication and periods of maintenance metal surfaces of the conduits, heat exchange elements and other equipment become coated with an oxide layer. This invention eliminates the need for the sacrificial traps in the circulating system that are used to remove this initial oxide loading by placing an oxygen scavenging material in the drain tank. The drain tank is ordinarily provided to retain the inventory of liquid metal when it is not circulating in the heat exchange volume. A simple drain down of the liquid metal inventory can thereby remove from the liquid metal inventory essentially all of the oxide impurities that usually accompany an initial startup of such a system.Type: GrantFiled: December 29, 1998Date of Patent: July 11, 2000Assignee: UOP LLCInventors: Robert C. Mulvaney, III, Stephen A. McColl
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Patent number: 5573574Abstract: A process for obtaining aluminum of purity above 99.998%. A liquid aluminum raw material is subjected to a fractional crystallization to obtain prepurified aluminum crystals in a yield of between 50 and 80% and a liquid aluminum portion of lesser purity. The prepurified aluminum crystals are subjected to a three-layer electrolysis process in which the uppermost layer comprises a cathodic purified aluminum layer. The aluminum of purity above 99.998% is removed from the uppermost layer at a yield of above 90%, the aluminum having a total rare earth content of less than 100 ppb and a total content of U+Th of less than 20 ppb.Type: GrantFiled: June 13, 1995Date of Patent: November 12, 1996Assignee: Aluminium PechineyInventor: Michel Leroy
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Patent number: 5336294Abstract: Particles or inclusions are removed from a molten alloy by contacting the molten alloy with a material selected from the group consisting of aluminium silicate, magnesium silicate, zirconium oxide or a mixture of alumina-calcia and alumina-magnesia.Type: GrantFiled: July 15, 1993Date of Patent: August 9, 1994Assignee: Rolls-Royce plcInventors: Steven P. Leyland, David A. Ford