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Sulfides smelting

Barin, M. Modigell, F. Sauert Thermodynamics and Kinetics of Cyclone Smelting, in Advances in Sulfide Smelting , Vol. 1, Basic Principles, H.Y. Sohn, D. B. George, A. D. Zunkel (editors), pp. 257-273, The Metallurgical Society of AIME, Warrendale, Pa., USA, 1983... [Pg.1984]

E.N. Mounsey and K.R. Robilliard, Sulfide Smelting using Ausmelt Technology , Journal of Metals. August 1994, 58-60. [Pg.330]

Yazawa, A and Nakazawa, S, 1998. Comparison between copper, lead and nickel smelting processes from thermodynamic viewpoints, in Proceedings Sulfide Smelting Symposium 98, pp 39-48 (The Minerals, Metals and Materials Society (TMS) Warrendale). [Pg.127]

Large copper ore deposits are found in the U.S., Chile, Zambia, Zaire, Peru, and Canada. The most important copper ores are the sulfides, the oxides, and carbonates. From these, copper is obtained by smelting, leaching, and by electrolysis. [Pg.62]

Selenium is found in a few rare minerals such as crooksite and clausthalite. In years past it has been obtained from flue dusts remaining from processing copper sulfide ores, but the anode metal from electrolytic copper refineries now provide the source of most of the world s selenium. Selenium is recovered by roasting the muds with soda or sulfuric acid, or by smelting them with soda and niter. [Pg.96]

The abundance of indium in the earth s cmst is probably about 0.1 ppm, similat to that of silver. It is found in trace amounts in many minerals, particulady in the sulfide ores of zinc and to a lesser extent in association with sulfides of copper, tin, and lead. Indium follows zinc through flotation concentration, and commercial recovery of the metal is achieved by treating residues, flue dusts, slags, and metallic intermediates in zinc smelting and associated lead (qv) and copper (qv) smelting (see Metallurgy, EXTRACTIVE Zinc and zinc alloys). [Pg.79]

Two processes, developed for the direct processing of lead sulfide concentrates to metallic lead (qv), have reached commercial scale. The Kivcet process combines flash smelting features and carbon reduction. The QSL process is a bath-smelting reactor having an oxidation 2one and a reduction 2one. Both processes use industrial oxygen. The chemistry can be shown as follows ... [Pg.168]

Pyrometa.llurgica.1 Processes. Nickel oxide ores are processed by pyrometaHurgical or hydrometaHurgical methods. In the former, oxide ores are smelted with a sulfiding material, eg, gypsum, to produce an iron—nickel matte that can be treated similarly to the matte obtained from sulfide ores. The iron—nickel matte may be processed in a converter to eliminate iron. The nickel matte then can be cast into anodes and refined electrolyticaHy. [Pg.3]

Chemical recovery ia sodium-based sulfite pulpiag is more complicated, and a large number of processes have been proposed. The most common process iavolves liquor iaciaeration under reduciag conditions to give a smelt, which is dissolved to produce a kraft-type green liquor. Sulfide is stripped from the liquor as H2S after the pH is lowered by CO2. The H2S is oxidized to sulfur ia a separate stream by reaction with SO2, and the sulfur is subsequendy burned to reform SO2. Alternatively, ia a pyrolysis process such as SCA-Bidemd, the H2S gas is burned direcdy to SO2. A rather novel approach is the Sonoco process, ia which alumina is added to the spent liquors which are then burned ia a kiln to form sodium aluminate. In anther method, used particulady ia neutral sulfite semichemical processes, fluidized-bed combustion is employed to give a mixture of sodium carbonate and sodium sulfate, which can be sold to kraft mills as makeup chemical. [Pg.274]

In addition to domestic production of Frasch and recovered elemental sulfur, U.S. requirements for sulfur are met with by-product sulfuric acid from copper, lead, molybdenum, and zinc smelting operations as well as imports from Canada and Mexico. By-product sulfur is also recovered as sulfur dioxide and hydrogen sulfide (see Sulfurremoval and recovery). [Pg.123]

Sulfur Dioxide Emissions and Control. A substantial part of the sulfur dioxide in the atmosphere is the result of burning sulfur-containing fuel, notably coal, and smelting sulfide ores. Methods for controlling sulfur dioxide emissions have been reviewed (312—314) (see also Air POLLUTION CONTROL PffiTHODS COAL CONVERSION PROCESSES, CLEANING AND DESULFURIZATION EXHAUST CONTROL, INDUSTRIAL SULFURREMOVAL AND RECOVERY). [Pg.148]

The principal direct raw materials used to make sulfuric acid are elemental sulfur, spent (contaminated and diluted) sulfuric acid, and hydrogen sulfide. Elemental sulfur is by far the most widely used. In the past, iron pyrites or related compounds were often used but as of the mid-1990s this type of raw material is not common except in southern Africa, China, Ka2akhstan, Spain, Russia, and Ukraine (96). A large amount of sulfuric acid is also produced as a by-product of nonferrous metal smelting, ie, roasting sulfide ores of copper, lead, molybdenum, nickel, 2inc, or others. [Pg.183]

See other pages where Sulfides smelting is mentioned: [Pg.53]    [Pg.213]    [Pg.749]    [Pg.1182]    [Pg.10]    [Pg.45]    [Pg.284]    [Pg.218]    [Pg.10]    [Pg.45]    [Pg.284]    [Pg.222]    [Pg.10]    [Pg.45]    [Pg.284]    [Pg.324]    [Pg.479]    [Pg.53]    [Pg.213]    [Pg.749]    [Pg.1182]    [Pg.10]    [Pg.45]    [Pg.284]    [Pg.218]    [Pg.10]    [Pg.45]    [Pg.284]    [Pg.222]    [Pg.10]    [Pg.45]    [Pg.284]    [Pg.324]    [Pg.479]    [Pg.389]    [Pg.421]    [Pg.421]    [Pg.36]    [Pg.40]    [Pg.489]    [Pg.495]    [Pg.162]    [Pg.165]    [Pg.167]    [Pg.167]    [Pg.172]    [Pg.395]    [Pg.3]    [Pg.3]    [Pg.481]    [Pg.166]    [Pg.269]    [Pg.562]    [Pg.136]    [Pg.56]    [Pg.58]   
See also in sourсe #XX -- [ Pg.833 ]

See also in sourсe #XX -- [ Pg.833 ]

See also in sourсe #XX -- [ Pg.6 , Pg.833 ]



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