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Recovery of Metals and Nonmetals from Waste Printed Circuit Boards (PCBs) by Physical Recycling TechniquesBy Muammer Kaya
This paper reviews the existing and state of art knowledge for electronic waste (e-waste) recycling. Electrical/electronic equipments (EEEs) which are unwanted, broken or discarded by their original u
Mar 1, 2017
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Recovery of metals from chloride leach solutions of waste of printed circuit boards by adsorption and precipitationBy Arman Ehsani, Ersin Yazici, Haci Deveci
The downstream treatment of chloride leach solutions of WPCB for recovery of base and precious metals by a combination of adsorption and precipitation processes were carried out. A synthetic leach sol
Jan 1, 2014
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Recovery Of Metals From Copper Smelter Furnace Flue DustBy H. H. Law
Large amounts of waste material in the form of flue dust are generated in the operation of copper smelter furnaces. As a result of increasingly stringent disposal, it has become important to develop m
Jan 1, 1992
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Recovery Of Metals From Dilute Effluent Streams By Biosorption MethodsBy Torma A. E.
Biotechnological processes are considered to be cost effective especially for situations where the recovery of metals from 'Very large volumes containing trace metal concentrations (less than 10
Jan 1, 1992
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Recovery of Metals from Discarded Integrated Circuits "Mining, Metallurgy & Exploration (2020)"By Nikhil Dhawan, Amit Barnwal
The present study reports a processing route to recover metals from integrated circuits of discarded random access memory (RAM) units containing ~ 66% printed circuit boards and ~ 33% integrated circu
Jun 23, 2020
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Recovery of Metals from Electronic Scrap by Hydrometallurgical RouteBy Nikhil Dhawan
Electronic waste (e-waste) is a collective name given to discarded electronic devices such as Television, Cellular Phones and Personal Computers. Among the heterogeneous metals present in the e-waste
Jan 1, 2009
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Recovery of Metals from Electronic Scrap by Hydrometallurgical Route (7395bfea-87e7-4b41-a733-b124f498a1ec)By Manoj Kumar, Vinay Kumar, Nikhil Dhawan, Manish Wadhwa
"Electronic waste (e-waste) is a collective name given to discarded electronic devices such as Television, Cellular Phones and Personal Computers. Among the heterogeneous metals present in the e-waste
Jan 1, 2008
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Recovery Of Metals From Eletroplating Wastes By The Waste-Plus-Waste MethodBy L. C. George
Addition of an acid waste to an alkaline cyanide waste was investigated for five different combinations of electroplating wastes. At the optimum final pH values of the mixtures, metals and cyanides we
Jan 1, 1970
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Recovery Of Metals From Solutions - Chemical PrecipitationUS 4,192,852-Precipitation of iron values as a jarosite from a sulfate solution obtained as a byproduct in the hydrometallurgical processing of zinc sulfide ore The solution is cooled, partially neutr
Jan 1, 1982
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Recovery of metals from tailingsBy Häkkinen Antti, Salmimies Riina, Matveinen Maria
"Tailings generated during the upgrading of ore present a major challenge for the mineral processing industry. On one hand, the processing of tailings requires added capital input. On the other hand,
Jan 1, 2014
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Recovery of Metals From WastewaterBy Thomas M. Harris
To avoid the escalating cost of disposal of metals-containing wastewater and residues, new wastewater treatments will focus on the recovery of the metals. A combination of ion exchange and electrowinn
Jan 1, 1992
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Recovery of Minerals from U.S. CoalsBy Nicholas E. Vanderborgh
Projections show that domestic coal will serve for the majority of energy supplies during the next decades. Thorough chemical cleaning of this coal can be accomplished in long-residence time, slurry-t
Jan 1, 1982
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Recovery of Molybdenum and Rhenium from Sulfide Concentrate by Electro-Oxidation and PrecipitationBy Tsembel Darjaa, Toru H. Okabe, Yoshiaki Umetsu
"With the purpose of extracting molybdenum and rhenium from molybdenum sulfide concentrate; .electrolysis of slurry, solvent extraction and ·precipitation operations were carried out. The slurry of th
Jan 1, 2000
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Recovery Of Molybdenum From Oxidized Ore At Climax, ColoradoBy John W. Lane
Climax Molybdenum Company, a Division of American Metals Climax, Inc., operated a hydrometallurgical plant* at Climax, Colorado from August 1966 through August 1968 to recover molybdenum from a mixed
Jan 1, 1971
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Recovery of Nickel and Cobalt by Pyrometallurgical Process of Waste from Producing Program of Nickel Metal Hydride BatteriesBy Hui Wang
With the great increasing use of nickel metal hydride batteries recently, the waste of this kind batteries have been paid for close consideration. For the main reason that the waste of the batteries c
Jan 1, 2009
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Recovery of Nickel and Cobalt from Bioleaching of Nickel Laterite Ores by Ion Exchange ResinsBy A. Deepatana
This study compares the use of an aminophosphonate chelating resin Purolite S950 and a sulphonic acid strong cation exchange resin Purolite C160H to recover nickel and cobalt from the synthetic biolea
Jan 1, 2014
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Recovery Of Nickel And Copper From Polymetallic Sulfide Concentrate Through Salt Roasting Using Nh4ClBy Qian Xu, Guangshi Li, Xionggang Lu, Xingli Zou, Hongwei Cheng, Cong Xu, Changyuan Lu
The roasting of nickel-bearing sulfides is a complex but important process which has not been adequately characterized. Combination of X-ray diffraction and scanning electron microscopy has been prove
Jan 1, 2016
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Recovery of Nickel and Vanadium from Heavy Oil Residues Using DC Plasma SmeltingBy P. Tim Johnson
Relentless increases in demand for nickel and vanadium for uses such as steelmaking, catalysts and battery materials, plus the growing financial and environmental costs of their primary extraction, ha
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Recovery of Nickel from Diluted Solutions by the Combination of Ion Exchange and Successive ElectrodepositionBy Kim Verbeken, Evelien Van de Steene, Marc Verhaege, Jeriffa De Clercq
"AbstractThe industry is confronted with stricter discharge levels and an increasing awareness to avoid toxic waste (such as heavy metal containing sludge obtained in physicochemical water treatment)
Jan 1, 2008
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Recovery of Nickel from Lime Treatment Sludge by Leaching and OzonationBy F. Barriga-Ordonez, J. A. Finch, L. Calzado, S. R. (Ram) Rao
Sludge, formed by lime treatment of acidic drainage and stored in tailing ponds of the Sudbury region, contains 5-7% Ni, mostly in a mix of hydroxides with Fe (~ 10%), Mg (~ 10%) and Cu (-0.5%), and C
Jan 1, 2005