Drying, Roasting, and Calcining of Minerals
1st Edition
Published on 1. December 2016
XV, 292 pages
978-3-319-48245-3 (ISBN)
Description
The papers in this volume give the reader focused information on the important extractive metallurgy unit operations of drying, roasting, and calcining
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Additional editions
Thomas P. Battle | Jerome P. Downey | Lawrence D. May
Drying, Roasting, and Calcining of Minerals
Book
04/2015
Wiley
€153.77
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Persons
The Minerals, Metals & Materials Society (TMS) is a member-driven international professional society dedicated to fostering the exchange of learning and ideas across the entire range of materials science and engineering, from minerals processing and primary metals production, to basic research and the advanced applications of materials. Included among its nearly 13,000 professional and student members are metallurgical and materials engineers, scientists, researchers, educators, and administrators from more than 70 countries on six continents. For more information on TMS, visit www.tms.org.
Content
1 - Cover [Seite 1]
2 - Half Title [Seite 2]
3 - Title Page [Seite 4]
4 - Copyright Page [Seite 5]
5 - Table of Contents [Seite 6]
6 - Preface [Seite 10]
7 - About the Editors [Seite 11]
8 - Session Chairs [Seite 15]
9 - Roasting [Seite 16]
9.1 - Sulfation Roasting of a Bornite Flotation Concentrate to Optimize Silver Extraction in a Ferric Chloride Leach [Seite 17]
9.2 - Chlorination Roasting of Rare Earth Element Oxides [Seite 25]
9.3 - Bromination Roasting of Rare Earth Oxides [Seite 33]
9.4 - The Advantages of Thermal Analysis Prior to Bench-Scale Roasting [Seite 41]
9.5 - Extraction of Indium from Zinc Oxide Flue Dust by Microwave Sulfation Roasting and Water Leaching [Seite 49]
9.6 - Behavior of Arsenic, Antimony and Bismuth at Roasting Temperatures [Seite 57]
9.7 - Characterization of Physico-Chemical Changes during the Alkali Roasting of Niobium and Tantalum Oxides [Seite 65]
9.8 - Mechanism of Na2SO4 on Refractory Gold Concentrate at Roasting Pretreatment [Seite 73]
10 - Drying and Calcining [Seite 85]
10.1 - Optimization on Drying of CuCl Residue by Hot-Air Using Response Surface Methodology [Seite 86]
10.2 - Application of Kumera Steam Dryers in Mineral Processing [Seite 94]
10.3 - Dielectric Properties and Microwave Drying Characteristics of CuCl Residue [Seite 102]
10.4 - Moisture Dependent Dielectric Properties and Microwave Drying Behavior of Zirconium Hydroxide [Seite 110]
10.5 - Optimization of Microwave Drying of Salt with Response Surface Methodology [Seite 118]
10.6 - The Impact of Calcination Conditions on Production of Magnesium by the Magnatherm Process [Seite 125]
10.7 - Calix Calciner: A Green Application in the Production of Magnesium [Seite 132]
10.8 - Modeling and Design of Experiment in Calcination of Magnesites [Seite 138]
10.9 - Study on Effect of Untreated and Calcined Olivine on Low Silicon Pellet Production Process and Quality [Seite 146]
11 - Fluidization, Reduction Roasting, and Microwave Treatment [Seite 153]
11.1 - Fluidization and Magnetization Roasting Technology Research on Siderite [Seite 154]
11.2 - The Temperature Behavior and Microwave Thermo Gravimetric Analysis Characteristic of Ammonium Paratungstate in a Microwave Field [Seite 162]
11.3 - Green Evaluation of Microwave Shaft Furnaces [Seite 170]
11.4 - Behavior of Phosphorus during Reduction Roasting of Oolitic Hematite Ore with High-Phosphorus Content [Seite 178]
11.5 - Effect of Additives on Phase Transformation of Nickel Laterite Ore during Low-Temperature Reduction Roasting Process Using Carbon Monoxide [Seite 186]
11.6 - Effect of Temperature on Reduction Roasting of Low-Grade Iron Ore after Granulating with Coal [Seite 194]
11.7 - Thermo-Physical Properties of Petroleum Coke during Calcining Graphitization Process [Seite 202]
12 - Induration and Sintering [Seite 209]
12.1 - Prediction of Non-Isothermal Oxidation of Magnetite Pellets [Seite 210]
12.2 - Monitoring the Ring Formation in Rotary Kiln for Pellet Firing [Seite 216]
12.3 - Study on the Improvement of Preheating and Roasting Characteristics of Pellet Made by Organic-Bentonite Compound Binder [Seite 224]
12.4 - Effects of Anthracite on Pelletization of Hematite Ore [Seite 232]
12.5 - Preparation of Straw Char by Preformation-Carbonization Process and Its Application in Iron Ore Sintering [Seite 240]
12.6 - Influence of Modified Biomass Fuel on Iron Ore Sintering [Seite 248]
12.7 - The Phase Transformation of Baiyunebo Iron Ore Treated with Reductant Sintering [Seite 256]
13 - Sintering and Energy Use [Seite 264]
13.1 - Effect of Sinter Basicity on Sinter Productivity and Quality with High Rate of Recycled Materials [Seite 265]
13.2 - Research on NOx Reduction by Applying Coke Breeze Pretreated with Urea Additive in Iron Ore Sintering Process [Seite 274]
13.3 - The Generation Ability of Liquid Phase for Mixture of Iron Ore Powders and Lime: Prediction, Characterization and Influencing Factors [Seite 282]
14 - Author Index [Seite 293]
15 - Subject Index [Seite 295]
2 - Half Title [Seite 2]
3 - Title Page [Seite 4]
4 - Copyright Page [Seite 5]
5 - Table of Contents [Seite 6]
6 - Preface [Seite 10]
7 - About the Editors [Seite 11]
8 - Session Chairs [Seite 15]
9 - Roasting [Seite 16]
9.1 - Sulfation Roasting of a Bornite Flotation Concentrate to Optimize Silver Extraction in a Ferric Chloride Leach [Seite 17]
9.2 - Chlorination Roasting of Rare Earth Element Oxides [Seite 25]
9.3 - Bromination Roasting of Rare Earth Oxides [Seite 33]
9.4 - The Advantages of Thermal Analysis Prior to Bench-Scale Roasting [Seite 41]
9.5 - Extraction of Indium from Zinc Oxide Flue Dust by Microwave Sulfation Roasting and Water Leaching [Seite 49]
9.6 - Behavior of Arsenic, Antimony and Bismuth at Roasting Temperatures [Seite 57]
9.7 - Characterization of Physico-Chemical Changes during the Alkali Roasting of Niobium and Tantalum Oxides [Seite 65]
9.8 - Mechanism of Na2SO4 on Refractory Gold Concentrate at Roasting Pretreatment [Seite 73]
10 - Drying and Calcining [Seite 85]
10.1 - Optimization on Drying of CuCl Residue by Hot-Air Using Response Surface Methodology [Seite 86]
10.2 - Application of Kumera Steam Dryers in Mineral Processing [Seite 94]
10.3 - Dielectric Properties and Microwave Drying Characteristics of CuCl Residue [Seite 102]
10.4 - Moisture Dependent Dielectric Properties and Microwave Drying Behavior of Zirconium Hydroxide [Seite 110]
10.5 - Optimization of Microwave Drying of Salt with Response Surface Methodology [Seite 118]
10.6 - The Impact of Calcination Conditions on Production of Magnesium by the Magnatherm Process [Seite 125]
10.7 - Calix Calciner: A Green Application in the Production of Magnesium [Seite 132]
10.8 - Modeling and Design of Experiment in Calcination of Magnesites [Seite 138]
10.9 - Study on Effect of Untreated and Calcined Olivine on Low Silicon Pellet Production Process and Quality [Seite 146]
11 - Fluidization, Reduction Roasting, and Microwave Treatment [Seite 153]
11.1 - Fluidization and Magnetization Roasting Technology Research on Siderite [Seite 154]
11.2 - The Temperature Behavior and Microwave Thermo Gravimetric Analysis Characteristic of Ammonium Paratungstate in a Microwave Field [Seite 162]
11.3 - Green Evaluation of Microwave Shaft Furnaces [Seite 170]
11.4 - Behavior of Phosphorus during Reduction Roasting of Oolitic Hematite Ore with High-Phosphorus Content [Seite 178]
11.5 - Effect of Additives on Phase Transformation of Nickel Laterite Ore during Low-Temperature Reduction Roasting Process Using Carbon Monoxide [Seite 186]
11.6 - Effect of Temperature on Reduction Roasting of Low-Grade Iron Ore after Granulating with Coal [Seite 194]
11.7 - Thermo-Physical Properties of Petroleum Coke during Calcining Graphitization Process [Seite 202]
12 - Induration and Sintering [Seite 209]
12.1 - Prediction of Non-Isothermal Oxidation of Magnetite Pellets [Seite 210]
12.2 - Monitoring the Ring Formation in Rotary Kiln for Pellet Firing [Seite 216]
12.3 - Study on the Improvement of Preheating and Roasting Characteristics of Pellet Made by Organic-Bentonite Compound Binder [Seite 224]
12.4 - Effects of Anthracite on Pelletization of Hematite Ore [Seite 232]
12.5 - Preparation of Straw Char by Preformation-Carbonization Process and Its Application in Iron Ore Sintering [Seite 240]
12.6 - Influence of Modified Biomass Fuel on Iron Ore Sintering [Seite 248]
12.7 - The Phase Transformation of Baiyunebo Iron Ore Treated with Reductant Sintering [Seite 256]
13 - Sintering and Energy Use [Seite 264]
13.1 - Effect of Sinter Basicity on Sinter Productivity and Quality with High Rate of Recycled Materials [Seite 265]
13.2 - Research on NOx Reduction by Applying Coke Breeze Pretreated with Urea Additive in Iron Ore Sintering Process [Seite 274]
13.3 - The Generation Ability of Liquid Phase for Mixture of Iron Ore Powders and Lime: Prediction, Characterization and Influencing Factors [Seite 282]
14 - Author Index [Seite 293]
15 - Subject Index [Seite 295]
