Treating Material In Gaseous Suspension Patents (Class 75/639)
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Patent number: 8663360Abstract: A floating entrainment metallurgical process includes injecting a reaction gas and powdery materials into a reaction furnace, aiming to obtain a controllable highly rotating and floating state and reach the ignition point under the high-temperature radiation of the reaction furnace to combust intensely. Meanwhile, a rotating fluid injected in the reaction furnace will drive the furnace gas, and forms a relatively low-temperature circular backflow protection area around the rotating fluid.Type: GrantFiled: August 9, 2011Date of Patent: March 4, 2014Assignee: Yanggu Xiangguang Copper Co., Ltd.Inventors: Songlin Zhou, Weidong Liu
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Publication number: 20100024601Abstract: Process for extracting copper and precious metals from copper and iron bearing ores, ore concentrates or minerals, comprising the following steps: converting the copper and iron bearing ores, ore concentrates or minerals to copper-containing sulfides and iron sulfides by reaction with sulfur at 300 to 600° C. for at least 5 min; grinding the reaction product; physically separating the copper-containing sulfides at least partially from iron sulfides; treating the separated copper-containing sulfides by pyrometallurgical or hydrometallurgical processes to obtain copper.Type: ApplicationFiled: December 18, 2007Publication date: February 4, 2010Inventor: Alexander Beckmann
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Patent number: 6761749Abstract: The invention relates to a method of producing blister copper pyrometallurgically in a suspension reactor directly from its sulfidic concentrate. According to the method the copper sulfide concentrate is fed into a suspension reactor, into which cooled and finely ground copper matte is also fed in order to bind the heat released from the concentrate.Type: GrantFiled: September 30, 2002Date of Patent: July 13, 2004Assignee: Outokumpu OyjInventors: Jaakko Poijärvi, Tarmo Mäntymäki
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Patent number: 6565799Abstract: This invention relates to equipment for the feed of pulverous material to a concentrate burner of a suspension-melting furnace, so that the feed of solid finely divided material into the furnace is distributed evenly in the concentrate burner. According to the invention, a vibrating feeder is located between the raw material conveyor and the actual burner, and the concentrate burner feed pipes are equipped with blades for distributing the material.Type: GrantFiled: November 13, 2001Date of Patent: May 20, 2003Assignee: Outokumpu OyjInventors: Ilkka Kojo, Markku Lahtinen, Kaarle Peltoniemi
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Patent number: 6402806Abstract: A hot trap converts unreacted organic metal-film precursor from the exhaust stream of a CVD process. The converted precursor forms a metal film on the surface of the hot trap, thereby protecting hot vacuum pump surfaces from metal build up. A cold trap downstream from the hot trap freezes effluents from the exhaust stream. The metal captured by the hot trap and the effluents captured by the cold trap may then be recycled, rather than being released as environmental emissions.Type: GrantFiled: June 30, 2000Date of Patent: June 11, 2002Assignee: Applied Materials, Inc.Inventors: John Vincent Schmitt, Ling Chen, George Michael Bleyle, Yu Cong, Alfred Mak, Mei Chang
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Patent number: 6203595Abstract: In this process for working up RESH or shredder light fractions, the RESH or shredder light fractions are charged into a fluidized bed gasifier. Hot wind or combustion offgases having a temperature above 450° C. are blown into the fluidized bed through nozzles while forming a counterflow grinding space. CaCO3 is introduced into the fluidized bed and calcined in the grinding space to effect disintegration.Type: GrantFiled: December 11, 1998Date of Patent: March 20, 2001Assignee: “Holderbank” Financiere Glarus AGInventor: Alfred Edlinger
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Patent number: 6010749Abstract: A metal volatilization process is described in which metal oxide pieces in a reaction chamber are reduced to form reduced metal and at least a portion of that metal is volatilized and used for coating a variety of substrates, including those which are susceptible to heat damage. The metal oxides formed must have curved surfaces which maintain a non-zero contact angle with their support during reduction. Preferably the reduction phase is preceded by an oxidation phase which is conducted in the same chamber, and uses as the starting materials oxidizable metal pieces which also are curved to maintain a non-zero contact angle with the support, so that general curved shapes will be maintained throughout the oxidation and reduction phases of the process. Vacuum is unnecessary, and the process can be operated at ambient pressures.Type: GrantFiled: October 28, 1998Date of Patent: January 4, 2000Inventor: Mark A. Goldman
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Patent number: 5912401Abstract: In a pyrometallurgical smelting method of copper, the copper-ore and auxiliary fuel, such as carbonaceous material, is blown through an ore-concentrate burner into a reaction shaft. In an improved pyrometallurgical smelting of copper, the carbonaceous material is used to reduce the Fe.sub.3 O.sub.4 contained in the slag. The present invention provides an improved method for reducing the Fe.sub.3 O.sub.4 even in a case at a decreased amount of auxiliary fuel is to be decreased. The carbonaceous material is blown into a lower portion of the reaction shaft where the oxygen partial pressure is low.Type: GrantFiled: May 27, 1997Date of Patent: June 15, 1999Assignee: Nippon Mining & Metals Co., Ltd.Inventors: Takayoshi Fujii, Susumu Akagi, Yutaka Yasuda, Yoshiaki Suzuki
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Patent number: 5662730Abstract: In a flash smelting method of copper, a carbonaceous material, whose grain size is under 100 um and is in a proportion of 65% or more, and whose grain size is from 44 to 100 .mu.m and is in a proportion of 25% or more, and which has 80% or more of a fixed carbon content, is charged into a reaction shaft of a flash smelting furnace. It is possible to prevent the excessive formation and excessive reduction of Fe.sub.3 O.sub.4 in the slag. Copper loss, erosion of refractories and boiler trouble can be prevented.Type: GrantFiled: December 6, 1995Date of Patent: September 2, 1997Assignee: Nippon Mining & Metals Co., Ltd.Inventors: Susumu Akagi, Takayoshi Fujii, Masatoshi Maeda, Yoshiaki Suzuki
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Patent number: 5658368Abstract: A pyrometallurgical vessel suitable for continuous or semicontinuous smelting and/or conversion of molten base metal sulfide feed materials. The top blown, bottom stirred vessel includes oxidizing gas lances and feed pipes directing their respective contents directly or indirectly into bath eyes opened up in the molten bath by gas injected through porous plugs disposed at the base of the vessel. Low space velocities in the vessel result in reduced dusting.Type: GrantFiled: March 8, 1995Date of Patent: August 19, 1997Assignee: INCO LimitedInventors: Carlos Manuel Diaz, Samuel Walton Marcuson, Anthony Edward Warner, Geoffrey Edwin Osborne
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Patent number: 5565016Abstract: The invention relates to a method and an apparatus for the suspension smelting of suifidic, finely divided raw materials containing metals, such as copper, nickel and lead, by using oxygen enrichment. In this method into the suspension smelting furnace (1) there is fed the raw material (4,5) to be smelted together with flux (6) and oxidizing gas (7) and the walls (18) of the reaction space of the suspension smelting furnace are cooled and at least two molten phases created (16,17). According to the invention the degree of oxygen enrichment of the oxidizing gas is at least 40% in order to raise the temperature of the particles in suspension to at least 200.degree. C.Type: GrantFiled: January 18, 1995Date of Patent: October 15, 1996Assignee: Outokumpu Engineering Contractors OyInventors: Pekka Hanniala, Risto Saarinen, Erkki Krogerus, Iikka Kojo
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Patent number: 5376622Abstract: A melting-and-solidification manufacturing method for manufacturing an ingot of a high critical temperature superconductive oxide belonging, in particular, to the YBaCuO, BiSrCaCuO, or TlBaCaCuO families, wherein:an ingot of oxide having the appropriate stoichiometery is used;the ingot is held horizontally by levitation on a film of gas inside a furnace;the ingot is melted;a vertical thermal gradient is established inside said furnace such that nucleation starts at the bottom portion of said ingot;while maintaining said thermal gradient, the overall temperature of the furnace is lowered at a rate of not more than 0.1.degree. C./hour down to the temperature which corresponds to complete ingot solidification; andfinally, conventional oxygenation treatment is applied to said ingot.Type: GrantFiled: March 31, 1993Date of Patent: December 27, 1994Assignee: Alcatel Alsthom Compagnie Generale d'ElectriciteInventor: Christian Belouet
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Patent number: 5282883Abstract: A method and apparatus for high temperature treatment of particulate metal ore concentrate solids with a cyclone having a tangentially positioned burner directing a jet flame into the cyclone, an ore injecting nozzle positioned to inject a stream of ore with oxygen containing gas into the jet flame of the burner at a location at least one-third of the travel of the flame and into the hottest region thereof so that the particles are melted and do not abrasively impact the walls of the cyclone in an unmelted stage.Type: GrantFiled: May 11, 1992Date of Patent: February 1, 1994Assignee: Kloeckner-Humboldt-Deutz AGInventors: Kiranenda Chaudhuri, Gerhard Melcher
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Patent number: 4976776Abstract: A method and apparatus for producing, in a reactor, a suitable prereduced product for final reduction from material containing metal oxide. The material is preheated in a fluidized bed by means of hot gases from a subsequent prereduction stage. The hot material is smelted and prereduced in a flame chamber utilizing hot reducing gases from a subsequent final reduction stage. The prereduced material is completely reduced in the final reduction stage.Type: GrantFiled: March 15, 1989Date of Patent: December 11, 1990Assignee: A. Ahlstrom CorporationInventors: Hans I. Elvander, Rolf E. Malmstrom
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Patent number: RE36598Abstract: Fire-refined blister copper is produced from copper concentrate by a process comprising:A. melting and oxidizing the copper concentrate in a smelting furnace to produce molten matte and slag, and to separate one from the other;B. removing the molten matte from the smelting furnace;C. solidifying the molten matte;D. injecting the solidified matte into a converting furnace in which the matte is converted to blister copper and slag; andE. transfering the blister copper from the converting furnace to an anode furnace to produce fire-refined blister copper.After the fire-refined blister copper is produced in the anode furnace, it is typically transferred to an anode casting wheel on which it is converted to copper anodes suitable for subsequent electrolytic refining to cathode copper.Type: GrantFiled: September 11, 1997Date of Patent: March 7, 2000Assignee: Kennecott Holdings CorporationInventor: David B. George