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Cancel Save settings. Home Contact us Help Free delivery worldwide. Free delivery worldwide. Bestselling Series. Harry Potter. Books By Language. Books in Spanish. Extractive Metallurgy of Copper. By author Mark E. Schlesinger , By author Kathryn C.
Sole , By author William G. Expected delivery to Germany in business days. Not ordering to Germany? Click here. Description This multi-author new edition revises and updates the classic reference by William G. Davenport et al winner of, among other awards, the AIME Mineral Industry Educator of the Year Award "for inspiring students in the pursuit of clarity" , providing fully updated coverage of the copper production process, encompassing topics as diverse as environmental technology for wind and solar energy transmission, treatment of waste by-products, and recycling of electronic scrap for potential alternative technology implementation.
The authors examine industrially grounded treatments of process fundamentals and the beneficiation of raw materials, smelting and converting, hydrometallurgical processes, and refining technology for a mine-to-market perspective - from primary and secondary raw materials extraction to shipping of rod or billet to customers.
The modern coverage of the work includes bath smelting processes such as Ausmelt and Isasmelt, which have become state-of-the-art in sulfide concentrate smelting and converting. Product details Format Hardback pages Dimensions x x Table of contents 1. Overview 2. Production and Use 3. Matte Smelting Fundamentals 6. Flash Smelting 7. Submerged Tuyere Smelting 8. Converting of Copper Matte 9. Bath Matte Smelting Direct-To-Copper Flash Smelting Copper Loss in Slag Capture and Fixation of Sulfur Electrolytic Refining Hydrometallurgical Copper Extraction Solvent Extraction Electrowinning Collection and Processing of Recycled Copper Melting and Casting Byproduct and Waste Streams Costs of Copper Production show more.
Review Text This multi-author new edition revises and updates the classic reference by William G. Production Rate Enhancement 7. Teniente Smelting 7. Process Description 7.
Operation Moyano et al. Impurity Distribution 7. Discussion 7. Vanyukov Submerged-Tuyere Smelting 7. Summary Chapter 8. Converting of Copper Matte 8. Chemistry 8. Industrial Peirce—Smith Converting Operations 8. Maximizing Converter Productivity 8. Recent Improvements in Peirce—Smith Converting 8. Alternatives to Peirce—Smith Converting 8. Summary Chapter 9. Bath Matte Smelting 9. Basic Operations 9. Feed Materials 9. Smelting Mechanisms 9. Startup and Shutdown 9. Current Installations 9.
The Mitsubishi Process 9. The Mitsubishi Process in the s 9. Summary Chapter Direct-To-Copper Flash Smelting Advantages and Disadvantages The Ideal Direct-to-Copper Process Chemistry Industrial Details Control Electric Furnace Cu-from-Slag Recovery Direct-to-Copper Impurities Copper Loss in Slag Copper in Slags Offgases from Smelting and Converting Processes Sulfuric Acid Manufacture Smelter Offgas Treatment Gas Drying Acid Plant Chemical Reactions Industrial Sulfuric Acid Manufacture Tables Alternative Sulfuric Acid Manufacturing Methods Alternative Sulfur Products Future Improvements in Sulfur Capture Industrial Methods of Fire Refining Chemistry of Fire Refining Choice of Hydrocarbon for Deoxidation Casting Anodes Continuous Anode Casting New Anodes from Rejects and Anode Scrap Removal of Impurities During Fire Refining Electrolytic Refining The Electrorefining Process Chemistry of Electrorefining and Behavior of Anode Impurities Equipment Typical Refining Cycle Electrolyte Maximizing Copper Cathode Purity Minimizing Energy Consumption Industrial Electrorefining Copper Recovery by Hydrometallurgical Flowsheets Chemistry of the Leaching of Copper Minerals Leaching Methods Heap and Dump Leaching Vat Leaching Agitation Leaching Pressure Oxidation Leaching Future Developments Solvent Extraction The Solvent-Extraction Process Chemistry of Copper Solvent Extraction Composition of the Organic Phase Circuit Configurations Quantitative Design of a Series Circuit Operational Considerations Industrial Solvent-Extraction Plants Electrowinning The Electrowinning Process Chemistry of Copper Electrowinning Electrical Requirements Equipment and Operational Practice Maximizing Copper Purity Maximizing Energy Efficiency Modern Industrial Electrowinning Plants Electrowinning from Agitated Leach Solutions Current and Future Developments Collection and Processing of Recycled Copper The Materials Cycle Secondary Copper Grades and Definitions Scrap Processing and Beneficiation Characteristics of Secondary Copper Scrap Processing in Primary Copper Smelters The Secondary Copper Smelter Melting and Casting Product Grades and Quality Melting Technology Casting Machines Byproduct and Waste Streams Molybdenite Recovery and Processing Flotation Reagents
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