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Início De Operação E Estabilização Da Sinterização Da CspBy Luiz Fernando Pimentel Simões
Neste trabalho são apresentados o planejamento e preparação para o início da operação, o período de “ramp up” e estabilização da produção da sinterização da Companhia Siderúrgica do Pecém. Incluindo a
Oct 30, 2017
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IO2 - Intelligent Optimization of Industrial Operations ? A Mining ApplicationBy Jom Kresta
Fundamental changes in the Bitumen Production process at Syncrude have led to the integration of Mining and Extraction operations. Successful operation of the integrated process requires the coordinat
May 1, 2002
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IOCC Using Expert System to Meet Production and Quality Control GoalsBy Paul Delottinville, Maynard Hall, Henry Hillier
"An expert system application for supervisory control and optimization of the indurating process at the Iron Ore Company of Canada (IOCC) has been developed and installed in closed-loop. Prior to the
Jan 1, 1998
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Iodide Leaching Gold from Carbonaceous Refractory Gold OresBy G. C. Li
Gold extraction using iodide leaching from refractory carbonaceous gold ores was studied. Thermodynamic analysis of iodide leaching chemistry had been carried out. Eh-pH diagram of Au-I2-I--H2O leachi
Jan 1, 2014
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IodineBy John Jan
Iodine is a soft, lustrous, grayish-black non- metallic element with a density of 4.9. It is the least active of the four members of the halogen family. The other members are, in order of increasing a
Jan 1, 1975
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Iodine (1470c5ea-ea3e-43c1-97e3-0a57d2efc34c)By L. A. Roe, John Jan
Iodine is a soft, lustrous, grayish-black nonmetallic element with a density of 4.9. It is the least active of the four members of the halogen family. The other members are, in order of increasing act
Jan 1, 1983
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Iodine (675ec8c2-3ed3-4e24-b139-20ab11affaad)By Kenneth S. Johnson
Iodine, a grayish-black nonmetallic element, with a density of 4.9 g/cm3, is a solid at ordinary temperatures. It is a member of the halogen family, along with fluorine, chlorine, bromine, and astatin
Jan 1, 1994
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Iodine Geology And Extraction In Northwestern OklahomaBy Kenneth S. Johnson
Oklahoma is the only; state in the nation that is currently producing iodine. The iodine is extracted from iodine-rich natural brines being pumped from deep wells drilled into Pennsylvanian sandstones
Jan 1, 1999
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ION Exchange As A Primary Production Technique In HydrometallurgyIon exchange (IX) has been in use for a long time, references to IX are made in The Bible, Exodus Chapter 15 vs. 22-25 ?and the waters were made sweet?.1, 2 Aristotle noted a reduction in the salt con
Feb 27, 2013
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Ion exchange circuitsBy Brian Lewis
"IntroductionThe ion exchange process is classed as a purification and concentration stage. In the uranium industry it is used to separate, and recover uranium, from a solution produced in the leach a
Jan 1, 1989
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Ion Exchange for Iron Impurity Control in the Base Metal IndustryThe mining industry has generally been slow to apply ion exchange processes to hydrometallurgical applications even if ion exchange offers an ideal solution for a particular problem. Two notable excep
Jan 1, 2006
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Ion Exchange in Hydrometallurgy - Secondary Metal Removal or Primary Production Technique?By J D. Illescas, S N. Arnold, D R. Shaw
Ion exchange (IX) as a primary production technique has been applied commercially since the 1950s; its application in the uranium industry continues to be widespread and is utilised to a lesser degree
Oct 29, 2012
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Ion Exchange Processes in the Atomic IndustryIn general, the metallurgical industry has so far been slower than the chemical industry to adopt ion exchange materials for industrial processes. The atomic energy industry presents a marked exceptio
Jan 1, 1961
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Ion Exchange Recovery of Rhenium From Copper Leach Solutions Using Weakly Basic Anion Exchange ResinsBy J. Snowberger III
Rhenium is a valuable and extremely rare chemical element with unique chemical properties. It is extracted commercially as a byproduct from the processing of molybdenite associated with porphyry copp
Feb 23, 2014
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Ion Exchange Resin Evaluation In Uranium RecoveryBy R. F. Janke, J. F. Bossler
Introduction The commercial use of ion exchange resins to recover uranium evolved in the decade following 1950 when significant efforts were made to recover this vital element economically and eff
Jan 1, 1979
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Ion Exchange Resins For Uranium Recovery From Pregnant Solutions With High Chloride Tenor - IntroductionBy M. Mikhaylenko
The most common methods of processing of uranium ores is sulfuric or carbonate leaching with conversion of hexavalent uranium to uranyl carbonate or sulfate anionic complexes followed by sorption of t
Jan 1, 2012
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Ion Exchange Resins Tailored For Effective Recovery And Separation Of Rhenium, Molybdenum And Tungsten - IntroductionBy M. Mikhaylenko
Rhenium, molybdenum and tungsten are the elements demanded by high-end technologies. These metals are found in process solutions in forms of their oxyanions: ReO4-, MoO42- and WO42-. The later two
Jan 1, 2012
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Ion Exchange Resin—Pilot and Resin TestingBy D. Donald Downey
Pilot Testing Ion Exchange Resin (IEX) can go from very simple beaker testing to complicated column testing. Space velocities, regenerant quantities, loading capacities, ion leakage, are all terms tha
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Ion Exchange Technology for the Efficient Recovery of Precious Metals From Waste and Low-Grade StreamsBy V. Yahorava
Efficient recovery of precious metals from process solutions is essential for improving process economics. Traditionally, precious metals are relatively effectively recovered from waste streams via pr
Jan 1, 2014
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Ion Flotation And Precipitate Flotation ? MethodBy Fathi Habashi
ION FLOTATION was introduced by F. Sebba in 1959. This technique permits the recovery of metal ions from solution through the introduction of an appropriate cationic or anionic surface-active agent in
Jan 1, 1970