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Removal of Elemental Sulfur from Hydrometallurgical Waste Derived from Massive Sulfide ConcentratesBy K. Hawboldt, J. E. Halfyard, C. Bottaro
The removal of sulfur from leach residues has been practised in the zinc industry using a combination of flotation and hot melt filtration. The process is highly dependent on the nature of the concent
Jan 1, 2011
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Removal of Fluoride and Chloride from Direct Lead Smelting Dust by Alkaline WashingBy B. Jin
Removal of fluoride and chloride by alkaline washing from direct lead smelting dust which originated from an Ausmelt furnace is reported. The results show that the fluoride removal efficiency increase
Jan 1, 2014
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Removal of Halogens from EAF Dust by PyrohydrolysisBy Jerome P. Downey
In the thermal treatment of electric arc furnace (EAF) dusts, zinc is reduced, volatilized, and ultimately recovered either as liquid metal in a splash condenser or as solid zinc oxide in bag filters.
Jan 1, 1992
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Removal Of Heat In Cement GrindingBy J. R. Tonry
In the grinding of dry non-metallic materials such as rocks, ores, gypsum, lime, and cement clinker, it is recognized that only a relatively small portion of the energy is utilized for actual size red
Jan 1, 1958
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Removal of Heavy Metal Ions from Acid Mine Water By Ferrite Coprecipitation ProcessThe generation of acid mine water is? due to the oxidation and weathering of sulfide bearing tailings and overburdens. Ferrite precipitation prooess has been applied to treat acid mine water. The conv
Jan 1, 1995
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Removal of Heavy Metals and Upgrading Crude Bio-Oil From Pteris Vittata Stems and Leaves Harvest Using Hydrothermal Upgrading ProcessBy Yang Jian-guang, Deng Zi-xiang, Zhang Xu-liang, Li Jun-yuan
"Hyperaccumulator biomass harvested after heavy-metal phytoremediation must be considered as hazardous waste that should be contained or treated appropriately before disposal or reuse. As a potential
Jan 1, 2014
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Removal Of Heavy Metals By Solvent Extraction And Supported Solvent Extraction During A Recrystallization Step In The Phosphoric Acid Production ProcessBy C. Koopman
During the production of phosphoric acid from phosphate ore and sulfuric acid, large amounts of calcium sulfate are formed, in which impurities from the feedstock are incorporated. To use the calcium
Jan 1, 1999
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Removal Of Heavy Metals From Metallurgical Effluents By The Simultaneous Precipitation And Flotation Of Metal Sulfides Using Column CellsBy Carl C. Nesbitt
A study was conducted to examine the treatment of metal-bearing effluents by precipitating the metals as sulfides and simultaneously collecting the particles by flotation. The precipitant was hydrogen
Jan 1, 1994
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Removal of Hg(II) from Aqueous Solutions Using Spent GrainBy Liyuan Chai
In this study, spent grain was used as an adsorbent for the removal of Hg(II) from aqueous solutions, the process parameters such as contact time, solution pH, adsorbent dose, and initial Hg(II) conce
Jan 1, 2009
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Removal of HVOF and other Plasma Sprayed Metallic Coatings Using Ultrasonically Produced Forced Pulsed WaterjetsBy B. Daniels, A. Tieu, W. Yan, B. Ren, M. Vijay
"Plasma or thermal sprayed coatings are becoming more widely used in a wide range of industrial applications. The preference to use thermal sprayed coatings is mainly attributed to its superior wear,
Jan 1, 2006
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Removal of Impurities during Silver Recycling ProcessesBy T. Kamata, S. Takemoto, H. Takeuchi, M. Takayanagi, Y. Akahori, I. Jimbo
"A cooperative research work on the silver recycling process is underway between Matsuda Sangyo Co., Ltd. and Tokai University in Japan. Silver wastes treated here are mainly from photograph industrie
Jan 1, 2000
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Removal of Impurity Metal Ions from Waste Plating Solutions by Using Orange and Apple Juice ResiduesBy Katsutoshi Inoue
Pectic acid gel crosslinked with epichlorohydrin was found to have very high selectivity to lead(II) and iron(III) ions over zinc(II) ion compared with commercial weakly cation exchange resins contain
Jan 1, 2003
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Removal of iron from vanadium redox flow battery electrolyte using ion exchangeBy K. C. Sole, M. Makonese
Bushveld Belco is commissioning a plant for production of electrolyte used in vanadium redox flow batteries. Owing to the source material, the electrolyte is contaminated with Fe, at concentrations up
Dec 11, 2024
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Removal Of Iron Impurity From Zinc Calcine After Magnetization RoastingBy Junwei Han, Wenqing Qin, Dawei Wang, Fen Jiao, Wei Liu
The removal of iron impurity from zinc calcine was studied by magnetization roasting and magnetic separation. The effects of roasting temperature, magnetic intensity, ore grinding, and leaching pretre
Jan 1, 2016
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Removal of Iron Oxides from Bauxitic OresA process was developed, on a laboratory scale, for the removal of iron oxides from Weipa pisolitic bauxite. The technique involves the chemical reduction ofthe iron oxides by carbon, followed by sele
Jan 1, 1971
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Removal of Low Level Mercury from Aqueous Streams Using Silica Polyamine CompositesBy Edward Rosenberg
The synthesis and characterization of silica polyamine composites modified with a variety of sulfur containing ligands is described. The two most successful ligands in terms of sulfur in-corporation a
Jan 1, 2003
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Removal of Magnesium and Boron from Chloride Containing Spent LiquorsBy Bora Derin, Onuralp Yucel, M. Seref Sonmez, Murat Alkan
"Latest stage in the production of boron carbide by metallothermic methods using magnesium was the leaching process. Boron carbide particles obtained by self-propagating high temperature synthesis con
Jan 1, 2008
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Removal of Magnesium from Liquor Produced by Nickel Mining by CrystallizationBy Kristine Bruce Wanderley, Denise Crocce Romano Espinosa, Jorge A. Soares Tenório
Mining of nickel ores generates large volumes of waste that must be removed in order to eliminate water contamination and reduce environmental impacts created by waste barriers. In this context, the n
Mar 1, 2017
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Removal of Metal Contaminants from Waste Waters Using Biomass Immobilized in Polysulfone BeadsBy M. R. Peterson, C. R. Ferguson, T. H. Jeffers
The ability of microorganisms such as yeast, bacteria, and various aquatic flora to sorb metals from dilute aqueous solutions is well documented. Although microorganisms have significant potential in
Jan 1, 1989
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Removal Of Metal Ions From Water By Water Hyacinth RootsBy G. X. Wang
The nonliving dried water hyacinth (E. crassipes (Mart.) Solms) roots were investigated for biosorption of cadmium and lead and other heavy metal ions in aqueous solutions. Dried water hyacinth roots,
Jan 1, 1997