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Hydrometallurgical Processing of Copper-Arsenic ConcentratesBy Jan Smit
Sulphidic copper concentrates are generally processed by pyrometallurgical means; while oxidative pressure leach processing of such materials has been shown to be technically feasible, there has tradi
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Hydrometallurgical Processing Of EAF Steelmaking FumesBy C. Lupi
Electric arc furnace dust generated during the production of steels is regarded as hazardous waste because of the presence of leachable elements such as Cr, Pb, Cd .... Different processes are availab
Jan 1, 1996
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Hydrometallurgical Processing Of Fine Mineral ParticlesBy M. E. Wadsworth, G. W. Warren
INTRODUCTION Hydrometallurgical processes for the extraction of metal values can be divided into two broad categories: (a) Processes involving the treatment of high grade material (e.g. finely div
Jan 1, 1980
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Hydrometallurgical Processing of Inco's Pressure Carbonyl ResidueBy P. M. Tyroler
At INCO's Copper Cliff Nickel Refinery, nickel is extracted by using the INCO Pressure Carbonyl (IPC) process. The resulting IPC residue containing copper, nickel, cobalt, iron, sulphur, precious
Jan 1, 1988
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Hydrometallurgical Processing of Low‑Grade Ni‑Rich Chromite Overburden - Mining, Metallurgy & Exploration (2024)By NEHA PANDEY, Sunil Kumar Tripathy, ARIJIT BISWAS
Due to the growing market of Electric Vehicles (EVs), there is a rise in battery demand. Nickel can be used as a potential element in cathode for lithium-ion batteries. Nickel can provide thermal stab
Dec 28, 2023
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Hydrometallurgical Processing of Old Flotation TailingsBy V. S. Melamud, A. G. Bulaev
"Sulfide ore processing is characterized by significant losses of metals, for example, with flotation tailings. Therefore, flotation tailings can present an important source of metals. The treatment o
Jan 1, 2016
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Hydrometallurgical Processing of PhosphatesBy G. Michael Lloyd
The term phosphate beneficiation often conjures up visions of processing technologies that physically separate the phosphate rock from some impurity and do not result in a change in the chemical natur
Jan 1, 1999
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Hydrometallurgical Processing of Rhenium-containing By-products of Lead ProductionBy A. N. Zagorodnyaya
The results of research on recovery of ammonium perrhenate from by-products of lead production are presented in the article. For the first time in the world, rhenium marketable products were produced
Jan 1, 2014
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Hydrometallurgical Processing of Telfer Concentrates: Accepting and Winning the ChallengeBy D. Lunt
Telfer bulk concentrates typically contain 8% chalcopyrite, 8% chalcocite, 45% pyrite and 80-120 g/t gold. Although very high copper and gold recoveries can be obtained by subjecting the concentrate t
Jan 1, 2004
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Hydrometallurgical Production of Uranium Dioxide For Reactor Fuel ElementsBy I. H. Warren, Forward F. A
The reduction of aqueous slurries of uranyl carbonate at elevated temperature with compressed hydrogen m the presence of metal catalysts and certain organic promoters has been shown. to yield uranium
Jan 1, 1961
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Hydrometallurgical Pumps Materials and DesignBy T. R. Heflin
The paper provides a comprehensive discussion of pump selection for the hydrometallurgical industry. Material suitability, in addition to proper size and design, will provide extended life for pumps i
Jan 1, 1979
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Hydrometallurgical recovery of non-ferrous metals from secondary sourcesBy Jean Goldschmidt
Recycling of fine oxidized particles of non-ferrous metals usually cannot be carried out by pyrometallurgical methods. 'Hydrometallurgy provides an alternative technology to reintroduce? the resu
Jan 1, 1995
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Hydrometallurgical Recovery Of Rare Earth Metals From Spent Fcc CatalystsBy M. Wenzel, Dang Thanh Tung, Nguyen Anh Duc, Nguyen Huu Luong, Dang Van Sy, N. Kelly, K. Gloe, K. Kretschmer, Phuc Nguyen Le, K. Schnaars, S. Robles M, L. Götzke, J. J. Weigand
The recovery of rare earth metals from secondary sources has attracted much attention due to their ever expanding demand in the high-tech industry. The studies reported here focus on the hydrometallur
Jan 1, 2016
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Hydrometallurgical Recovery of Zinc, Manganese and Lead from Pyrometallurgy SludgeBy J. -F. Blais, M. -O. Simonnot, J. Mocellin, G. Mercier, J. -L. Morel
Large quantities of ferromanganese sludge are generated as waste material by blast furnace during the manufacturing of ferromanganese. These slags are very rich in manganese, zinc and lead (5 to 40 %)
Jan 1, 2015
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Hydrometallurgical Routes for Recycling of Used Alkaline BatteriesBy Cleusa Cristina Bueno Martha de Souza
Nowadays in Brazil the final disposal for spent batteries include sanitary and industrial landfill for hazardous waste from domestic waste and industrial waste respectively. The problems of environmen
Jan 1, 2000
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Hydrometallurgical Strategies for Higher Impurities in Copper RefiningBy C. Sist, J. Shannon, J. Fossenier, J. F. Adams
With the cleanest and easiest to treat copper concentrates dwindling and becoming harder to find, electrorefineries must deal with the reality of higher impurity anodes. There are well-known strategie
Jan 1, 2019
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Hydrometallurgical Study of Purifying M-G Silicon Feedstock for Solar Cells ProductionBy Jilai Xue, Jun Zhu, Yongqiang Liu
"Up-grading silicon feedstock by removing B and metal impurities can improve process efficiency and lower production cost in metallurgical processing for solar cells production. Hydrometallurgical stu
Jan 1, 2012
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Hydrometallurgical Treatment Of Haib Copper OreBy W. J. Schlitt
The Namibian Copper Joint Venture has been formed to undertake development of the Haib copper deposit, one of the largest undeveloped copper resources in Africa. The development programme includes ext
Jan 1, 1999
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Hydrometallurgical Treatment of Ni Hyperaccumulator Biomass: Comparison of A. Murale and R. BengalensisBy C. Hazotte, M. -O. Simonnot, V. Houzelot, B. Laubie, M. Guilpain, B. Jally
"More than 400 plants in the world are able to accumulate nickel (Ni) in their aerial parts at concentrations higher than 10 g per kg of dry biomass. Then, Ni can be recovered from the biomass of thes
Jan 1, 2018
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Hydrometallurgical Treatment Of Nickel-Metal Hydride Battery ElectrodesBy J. W. Lyman
Nickel-metal hydride (Ni-MH) battery electrodes have been developed as a substitute for cadmium-containing negative electrodes. Use of Ni-MH electrodes offers enhanced electrochemical properties in ma
Jan 1, 1995