E-Book, Englisch, 937 Seiten, eBook
Siegmund / Alam / Grogan PbZn 2020: 9th International Symposium on Lead and Zinc Processing
1. Auflage 2020
ISBN: 978-3-030-37070-1
Verlag: Springer International Publishing
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 937 Seiten, eBook
Reihe: The Minerals, Metals & Materials Series
ISBN: 978-3-030-37070-1
Verlag: Springer International Publishing
Format: PDF
Kopierschutz: 1 - PDF Watermark
Zielgruppe
Research
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;5
2;Contents;7
3;About the Editors;16
4;PbZn 2020: 9th International Symposium on Lead and Zinc Processing: Plenary Presentations;20
5;Part I Lead and Zinc Future Outlook: Plenary Session;24
6;1 Evolution of Global Secondary Lead Production;25
7;Part II PbZn Process Fundamentals I;38
8;2 Refractory Challenges in Lead and Zinc Furnaces;39
9;3 Numerical Simulation of Gas–Liquid Flow Mixing Effect in Bottom-Blown Bath;51
10;4 Slag Reduction Kinetics of a Lead Slag from a Secondary Lead Smelter;61
11;5 Phase Evolution During the Oxidation Process of Low Grade Lead–Zinc Oxide Ore;71
12;Part III Secondary Zinc I;81
13;6 A New Era in Smelting Sustainability—Intensification of the Outotec® Ausmelt Top Submerged Lance (TSL) Process for Zinc Production;82
14;7 Production of SHG Zinc From 100% Recycled Materials;93
15;8 Recent Development of EAF Dust Treating at Shisaka Smelting Co., Ltd.;109
16;Part IV Zinc Electrowinning;116
17;9 Current Efficiency Increase in Zinc Electrodeposition at Cajamarquilla Refinery;117
18;10 To Polarize or Not to Polarize: Practical Advice on How to Control Zinc Electrodeposition;126
19;11 Optimizing Additive Ratios in Alkaline Zincate Electrodeposition;138
20;Part V Primary Lead I;147
21;12 Lead Metal Production at Paroo Station Mine Using Leach-Electrowinning Process in Methane Sulfonic Acid Solution;148
22;13 Lead Plant Transformations;177
23;14 Reduction of Lead-Rich Slags with Coke in the Lead Blast Furnace;185
24;15 Installation of a Brown Field Slag Reduction Furnace: State of the Art Off-Gas Treatment with Dry Gas Cleaning for SO? Capture;198
25;16 Application of CSC Technology in Nonferrous Metallurgy;211
26;Part VI Primary Zinc I;228
27;17 Start-up and Improvements of the New Electrolysis Plant at Annaka Refinery;229
28;18 Zinc Recovery of Low Grade Concentrate from Vazante Mine by the Waelz Process;238
29;19 A Dynamic Model of a Submerged Plasma Slag Fuming Process;244
30;20 Increase in Zinc Recovery from a Silicate Concentrate by Pre-neutralization Process;253
31;21 Recovery of Lead from Zinc Plant Residue by Alkaline Leaching Process Followed by Cementation;259
32;22 Zinc Residue Fuming Process in Side-Submerged Combustion Furnace + Fuming Furnace;270
33;23 A Critical Review on Generation, Characteristics, and Utilization of Zinc Slag;280
34;Part VII PbZn Process Technologies;287
35;24 Contributions of Non-ferrous Smelters to Metal Resource Circulation in Japan;288
36;25 The Process and Application of Oxygen-Enriched Air Side Blown Smelting of Lead–Zinc Materials;294
37;26 New Ideas for the Design of Green Smelting Project of Domestic Lead and Zinc Resources;303
38;27 Evaluation and Certification Strategies for Lead–Zinc-Bearing Residues;310
39;Part VIII Primary Lead II;320
40;28 KCM—Innovator in the Pb Metal Production Through Ausmelt Technology and Variable SO? Concentration Off-Gas Utilization;321
41;29 The Latest Development of Oxygen Bottom Blowing Lead Smelting Technology;326
42;30 Characterization of Phase Equilibria and Thermodynamics with Integrated Experimental and Modelling Approach for Complex Lead Primary and Recycling Processing;336
43;31 Resource Efficiency Evaluation of Pyrometallurgical Solutions to Minimize Iron-Rich Residues in the Roast-Leach-Electrowinning Process;349
44;32 Zinc Plant Expansion and Modification for Increased Metals Recovery;363
45;33 Experience with Digital Process Optimization of Zinc Roasting Plants;374
46;Part IX Zinc Leaching and Fe-Control I;386
47;34 Smelting Jarosite and Sulphur Residue in a Plasma Furnace;387
48;35 Simulation of an Alternative Direct Leaching Process for High Iron Content Zinc Concentrates;400
49;Part X PbZn Process Fundamentals II;411
50;36 Lead and Zinc Extractive Metallurgy Research in the Kroll Institute for Extractive Metallurgy;412
51;37 Electrochemical Extraction of Pb and Zn from Raw Mineral Materials Using Sulfurgraphite Electrode;421
52;38 Characterization and Processing of Residues from Hydrometallurgical Zinc Smelters;428
53;39 Leaching of Turkish Oxidized Pb–Zn Flotation Tailings by Inorganic and Organic Acids;437
54;40 Numerical Simulation of Gas-Particle Two-Phase Chemical Reactions and Key Structure Optimization in the Lead Flash Smelting Furnace;459
55;41 Effect of Alumina Ceramics Surface Condition on the Wetting of Liquid Lead;468
56;Part XI PbZn Sustainability;477
57;42 Material Stewardship for Zinc;478
58;43 Effect of Deposit Types, Mine Development and Industry Structure on Primary Lead and Zinc Economics in Australia, North America and Europe;493
59;Part XII By-Product Recovery I;503
60;44 Hydrometallurgical Recovery of Tin from Harris Dross;504
61;45 Pb and Other Impurities Recovery from Cu Smelting Residues in JX Nippon Mining & Metals;515
62;46 Pyrometallurgical Recovery of Valuable Metals from Flue Dusts of Copper Smelter Through Lead Alloy;523
63;Part XIII Secondary Lead;532
64;47 Operational Overview of RSR North America Corp.;533
65;48 Refractory Solutions by Laboratory Tests and Fieldworks for Lead Recycling Applications;538
66;49 Influence of Minor Elements in Waste Lead Battery Recycling;550
67;50 The FAST Pb Process and Its Impact on Secondary Lead Production;562
68;51 Recent Improvements at Hosokura Lead Smelter and Refinery;573
69;52 Refractory Corrosion Comparison Through a Rotary Drum Furnace Slag Test for the Lead Industry;584
70;Part XIV Lead and Zinc Sustainability and Social License: Plenary Session;592
71;53 Regional Changes in Refined Zinc Output and Demand;593
72;Part XV Mineral Processing;601
73;54 A New Innovative Method of Flotation Separation for High Sulfur Lead–Zinc Sulfide Ore;602
74;55 A Novel Collector 5–(Butylthio)–1,3,4–Thiadiazole–2–Thiol: Synthesis and Improved Flotation of Galena and Sphalerite from Pyrite;610
75;Part XVI By-Product Recovery II;627
76;56 The Recovery of Pb and Zn in Antimony Smelting Slag;628
77;57 Studies on the Formation of Intermetallic Compound Layers in Co(W)–Zn Diffusion Couples;636
78;58 Effect of Oxidation of Zinc Powder on Purification of High-Cobalt and High-Germanium Zinc Sulfate Solutions;648
79;Part XVII Environmental and Safety Practices I;656
80;59 ILTEC Technology—New Pathways Towards Safe and Effective Cooling;657
81;60 Review of Waste Water Treatment Technologies Used in Lead Recycling;669
82;61 Optimization of Arsenic Removal Process in Waste Acid from Zinc Smelting Plant Based on Orthogonal Experiment;680
83;Part XVIII Lead Refining;691
84;62 Driving Innovation in Lead Batteries: The Focus of the Consortium of Battery Innovation;692
85;63 New Technology for Copper Removal from Lead by Application of Aluminium: Practical Problems;699
86;64 Processing of Polymetallic Materials Requires Flexible and Capable Downstream Refining Technology: Aurubis Lead Refinery as Economic, Modern, and Well Integrated Plant at the Site Hamburg;708
87;65 Tin Treatment in Kosaka Lead Smelting;727
88;66 True Traceability Enabled by In-Line Laser Marking of Lead and Zinc Ingots;735
89;67 Advanced Technologies Reliant on the Properties of Lead;744
90;Part XIX Secondary Zinc II;749
91;68 The EZINEX® Process for Secondary Zinc Bearing Materials;750
92;69 Technologies for Treatment of Zinc-Containing Waste from Metallurgy in KCM AD;763
93;70 Zinc Reduction/Vaporisation Behaviour from Metallurgical Wastes;774
94;71 Recycling of Zinc from Galvanized Steel Scrap;783
95;Part XX Zinc Leaching and Fe-Control II;787
96;72 A New Route for Treating Neutral Leaching Residue;788
97;73 Study of a Novel Chloride Volatilization Process for the Treatment of Jarosite Residue;795
98;74 Magnetic Separation of Iron Ion from Leaching Solution by Magnetic Seeding in Hydrometallurgy;806
99;75 Experimental Study on Pressure Leaching of Zinc Sulfide Concentrate and Discussion on the Latest Relevant Progress;812
100;76 Recent Operational Improvements of Hematite Plant at Akita Zinc Co., Ltd.;824
101;77 The Analysis of Fe Behavior in Zinc Pressure Leaching;836
102;Part XXI Zinc Hydrometallurgy;842
103;78 Development of the New Zinc-Separation Process for the Blast Furnace Dust;843
104;79 Outotec Gypsum Removal Circuit and Outotec Cooling Tower Performance in Neutral Solution Cooling;849
105;80 Purification and Comprehensive Recovery Metal Values from Zinc Hydrometallurgical Solution;857
106;81 Refining of Zinc Chloride by the Combination of Cementation Reaction and Vacuum Distillation;862
107;82 Advanced Concept “Poly Metallurgical Refinery” Developed by Cobre Las Cruces;870
108;Part XXII Environmental and Safety Practices II;880
109;83 A New Lead Cementation Equipment and Lead Recovery Process in Chloride Media Developed by Cobre Las Cruces;881
110;84 Performance and Mechanism of Chlorine Removal in Wastewater by Combination of CuSO4 and Zero-Valent Copper;890
111;85 A Review on Recycling Technologies and Product Life Cycle Issues of Zinc and Lead;901
112;Part XXIII Poster Session;912
113;86 Reaction Mechanism on a Novel Enhanced Smelting Technique for Lead-Acid Battery Paste Recycling;913
114;Author Index;922
115;Subject Index;926
