Verfügbarkeit: Extractive metallurgy of copper

Extractive metallurgy of copper:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford Pergamon 2002
Ausgabe:	4. ed.
Schlagworte:	Copper > Metallurgy Kupfer Metallurgie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XX, 432 S. Ill., graph. Darst.
ISBN:	0080440290

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MARC


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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE XIII PREFACE TO THE THIRD EDITION XV PREFACE TO THE SECOND EDITION XVII PREFACE TO THE FIRST EDITION XIX OVERVIEW 1 1.1 INTRODUCTION 1 1.2 EXTRACTING COPPER FROM COPPER-IRON-SULFIDE ORES 1 1.3 HYDROMETALLURGICAL EXTRACTION OF COPPER 11 1.4 MELTING AND CASTING CATHODE COPPER 13 1.5 RECYCLE OF COPPER AND COPPER-ALLOY SCRAP 15 1.6 SUMMARY 15 SUGGESTED READING 16 REFERENCES 16 PRODUCTION AND USE 17 2.1 LOCATIONS OF COPPER DEPOSITS 18 2.2 LOCATION OF EXTRACTION PLANTS 18 2.3 COPPER MINERALS AND CUT-OFF GRADES 19 2.4 PRICE OF COPPER 28 2.5 SUMMARY 29 REFERENCES 29 CONCENTRATING COPPER ORES 31 3.1 CONCENTRATION FLOWSHEET 31 3.2 CRUSHING AND GRINDING (COMMINUTION) 33 3.3 FLOTATION FEED PARTICLE SIZE 38 3.4 FROTH FLOTATION 42 3.5 SPECIFIC FLOTATION PROCEDURES FOR CU ORES 46 3.6 FLOTATION CELLS 49 3.7 SENSORS, OPERATION AND CONTROL 50 3.8 THE FLOTATION PRODUCT 52 3.9 OTHER FLOTATION SEPARATIONS 53 3.10 SUMMARY 53 SUGGESTED READING 54 REFERENCES 54 MATTE SMELTING FUNDAMENTALS 57 4.1 WHY SMELTING? 57 4.2 MATTE AND SLAG 59 4.3 REACTIONS DURING MATTE SMELTING 65 4.4 THE SMELTING PROCESS: GENERAL CONSIDERATIONS 66 4.5 SMELTING PRODUCTS: MATTE, SLAG AND OFFGAS 67 4.6 SUMMARY 70 SUGGESTED READING 70 REFERENCES 70 FLASH SMELTING - OUTOKUMPU PROCESS 73 74 77 82 83 86 87 87 INCO FLASH SMELTING 91 6.1 FURNACE DETAILS 91 6.2 AUXILIARY EQUIPMENT 96 6.3 OPERATION 97 6.4 CONTROL STRATEGY 98 6.5 CU-IN-SLAG AND MOLTEN CONVERTER SLAG RECYCLE 100 6.6 INCO VS. OUTOKUMPU FLASH SMELTING 101 6.7 SUMMARY 101 SUGGESTED READING 101 REFERENCES 102 5.1 OUTOKUMPU FLASH FURNACE 5.2 PERIPHERAL EQUIPMENT 5.3 FURNACE OPERATION 5.4 CONTROL 5.5 IMPURITY BEHAVIOR 5.6 FUTURE TRENDS 5.7 SUMMARY SUGGESTED READING REFERENCES NORANDA AND TENIENTE SMELTING 103 7.1 NORANDA PROCESS 104 7.2 REACTION MECHANISMS 106 7.3 OPERATION AND CONTROL 108 7.4 PRODUCTION RATE ENHANCEMENT 109 7.5 NORANDA FUTURE 110 7.6 TENIENTE SMELTING 110 7.7 PROCESS DESCRIPTION 111 7.8 OPERATION 111 7.9 CONTROL 113 7.10 IMPURITY DISTRIBUTION 114 7.11 TENIENTE FUTURE 115 7.12 DISCUSSION 115 7.13 SUMMARY 116 SUGGESTED READING 117 REFERENCES 117 8 AUSMELT/ISASMELT MATTE SMELTING 119 8.1 BASIC OPERATIONS 119 8.2 FEED MATERIALS 120 8.3 THE ISASMELT FURNACE AND LANCE 120 8.4 SMELTING MECHANISMS 125 8.5 STARTUP AND SHUTDOWN 126 8.6 CURRENT INSTALLATIONS 126 8.7 OTHER COPPERMAKING USES OF AUSMELT/ISASMELT TECHNOLOGY 127 8.8 SUMMARY 127 SUGGESTED READING 128 REFERENCES 129 9 BATCH CONVERTING OF CU MATTE 131 9.1 CHEMISTRY 131 9.2 INDUSTRIAL PEIRCE-SMITH CONVERTING OPERATIONS 137 9.3 OXYGEN ENRICHMENT OF PEIRCE-SMITH CONVERTER BLAST 144 9.4 MAXIMIZING CONVERTER PRODUCTIVITY 145 9.5 RECENT DEVELOPMENTS IN CONVERTING- SHROUDED BLAST INJECTION 148 9.6 ALTERNATIVES TO PEIRCE-SMITH CONVERTING 148 9.7 SUMMARY 150 SUGGESTED READING 151 REFERENCES 151 10 CONTINUOUS CONVERTING 155 10.1 COMMON FEATURES OF CONTINUOUS CONVERTING 155 10.2 DOWNWARD LANCE MITSUBISHI CONTINUOUS CONVERTING 157 10.3 SOLID MATTE OUTOKUMPU FLASH CONVERTING 162 10.4 SUBMERGED-TUYERE NORANDA CONTINUOUS CONVERTING 166 10.5 % CU-IN-SLAG 170 10.6 SUMMARY 170 SUGGESTED READING 171 REFERENCES 171 11 COPPER LOSS IN SLAG 173 11.1 COPPER IN SLAGS 173 11.2 DECREASING COPPER IN SLAG I: MINIMIZING SLAG GENERATION 175 11.3 DECREASING COPPER IN SLAG II: MINIMIZING CU CONCENTRATION IN 176 SLAG 11.4 DECREASING COPPER IN SLAG III: PYROMETALLURGICAL SLAG 176 SETTLING/REDUCTION 11.5 DECREASING COPPER IN SLAG IV: SLAG MINERALS PROCESSING 181 11.6 SUMMARY 181 SUGGESTED READING 183 REFERENCES 183 12 DIRECT-TO-COPPER FLASH SMELTING 187 12.1 THE IDEAL DIRECT-TO-COPPER PROCESS 187 12.2 INDUSTRIAL SINGLE FURNACE DIRECT-TO-COPPER SMELTING 188 12.3 CHEMISTRY 189 12.4 INDUSTRIAL DETAILS 190 12.5 CONTROL 190 12.6 CU-IN-SLAG: COMPARISON WITH CONVENTIONAL MATTE SMELTING/CONVERTING 193 12.7 CU-IN-SLAG LIMITATION OF DIRECT-TO-COPPER SMELTING 194 12.8 DIRECT-TO-COPPER IMPURITIES 195 12.9 SUMMARY 195 SUGGESTED READING 196 REFERENCES 196 13 MITSUBISHI CONTINUOUS SMELTING/CONVERTING 199 13.1 THE MITSUBISHI PROCESS 201 13.2 SMELTING FURNACE DETAILS 201 13.3 ELECTRIC SLAG CLEANING FURNACE DETAILS 203 13.4 CONVERTING FURNACE DETAILS 203 13.5 RECENT MITSUBISHI PROCESS DEVELOPMENTS 207 13.6 REACTION MECHANISMS IN MITSUBISHI SMELTING 208 13.7 OPTIMUM MATTE GRADE 210 13.8 IMPURITY BEHAVIOR IN MITSUBISHI SMELTING/CONVERTING 210 13.9 PROCESS CONTROL IN MITSUBISHI SMELTING/CONVERTING 211 13.10 SUMMARY 212 SUGGESTED READING 214 REFERENCES 215 CAPTURE AND FIXATION OF SULFUR 217 14.1 OFFGASES FROM SMELTING AND CONVERTING PROCESSES 217 14.2 SULFURIC ACID MANUFACTURE 218 14.3 SMELTER OFFGAS TREATMENT 222 14.4 GAS DRYING 224 14.5 ACID PLANT CHEMICAL REACTIONS 227 14.6 INDUSTRIAL SULFURIC ACID MANUFACTURE 231 14.7 RECENT AND FUTURE DEVELOPMENTS IN SULFURIC ACID MANUFACTURE 240 14.8 ALTERNATIVE SULFUR PRODUCTS 241 14.9 FUTURE IMPROVEMENTS IN SULFUR CAPTURE 241 14.10 SUMMARY 242 SUGGESTED READING 243 REFERENCES 243 FIRE REFINING AND CASTING OF ANODES: SULFUR AND 247 OXYGEN REMOVAL 15.1 INDUSTRIAL METHODS OF FIRE REFINING 247 15.2 CHEMISTRY OF FIRE REFINING 252 15.3 CHOICE OF HYDROCARBON FOR DEOXIDATION 253 15.4 CASTING ANODES 253 15.5 CONTINUOUS ANODE CASTING 256 15.6 NEW ANODES FROM REJECTS AND ANODE SCRAP 260 15.7 REMOVAL OF IMPURITIES DURING FIRE REFINING 260 15.8 SUMMARY 261 SUGGESTED READING 261 REFERENCES 262 ELECTROLYTIC REFINING 265 16.1 PRINCIPLES 265 16.2 BEHAVIOR OF ANODE IMPURITIES DURING ELECTROREFINING 269 16.3 INDUSTRIALELECTROREFINING 272 16.4 CATHODES 273 16.5 ELECTROLYTE 273 16.6 CELLS AND ELECTRICAL CONNECTIONS 278 16.7 TYPICAL REFINING CYCLE 279 16.8 REFINING OBJECTIVES 280 16.9 MAXIMIZING CATHODE COPPER PURITY 280 16.10 OPTIMUM PHYSICAL ARRANGEMENTS 280 16.11 OPTIMUM CHEMICAL ARRANGEMENTS 281 16.12 OPTIMUM ELECTRICAL ARRANGEMENTS 282 16.13 MINIMIZING ENERGY CONSUMPTION 283 16.14 RECENT DEVELOPMENTS IN ELECTROREFINING 283 16.15 SUMMARY 284 SUGGESTED READING 284 REFERENCES 285 17 HYDROMETALLURGICAL COPPER EXTRACTION: 289 INTRODUCTION AND LEACHING 17.1 HEAP LEACHING 289 17.2 INDUSTRIAL HEAP LEACHING 293 17.3 STEADY-STATE LEACHING 299 17.4 LEACHING OF CHALCOPYRITE CONCENTRATES 300 17.5 OTHER LEACHING PROCESSES 301 17.6 FUTURE DEVELOPMENTS 301 17.7 SUMMARY 301 SUGGESTED READING 303 REFERENCES 303 18 SOLVENT EXTRACTION TRANSFER OF CU 307 FROM LEACH SOLUTION TO ELECTROLYTE 18.1 THE SOLVENT EXTRACTION PROCESS 307 18.2 CHEMISTRY 309 18.3 EXTRACTANTS 310 18.4 INDUSTRIAL SOLVENT EXTRACTION PLANTS 312 18.5 QUANTITATIVE DESIGN OF SERIES CIRCUIT 317 18.6 STABILITY OF OPERATION 321 18.7 CRUD 322 18.8 SUMMARY 323 SUGGESTED READING 324 REFERENCES 324 19 ELECTROWINNING 327 19.1 ELECTROWINNING REACTIONS 328 19.2 ELECTROWINNING TANKHOUSE PRACTICE 329 19.3 MAXIMIZING COPPER PURITY 335 19.4 MAXIMIZING CURRENT EFFICIENCY 335 19.5 FUTURE DEVELOPMENTS 337 19.6 SUMMARY 337 SUGGESTED READING 338 REFERENCES 338 20 COLLECTION AND PROCESSING OF RECYCLED COPPER 341 20.1 THE MATERIALS CYCLE 341 20.2 SECONDARY COPPER GRADES AND DEFINITIONS 344 20.3 SCRAP PROCESSING AND BENEFICIATION 346 20.4 SUMMARY 351 SUGGESTED READING 351 REFERENCES 352 21 CHEMICAL METALLURGY OF COPPER RECYCLING 355 21.1 THE SECONDARY COPPER SMELTER 355 21.2 SCRAP PROCESSING IN PRIMARY COPPER SMELTERS 360 21.3 SUMMARY 363 SUGGESTED READING 363 REFERENCES 364 22 MELTING AND CASTING 367 22.1 PRODUCT GRADES AND QUALITY 367 22.2 MELTING TECHNOLOGY 370 22.3 CASTING MACHINES 374 22.4 SUMMARY 380 SUGGESTED READING 381 REFERENCES 381 23 COSTS OF COPPER PRODUCTION 385 23.1 OVERALL INVESTMENT COSTS: MINE THROUGH REFINERY 386 23.2 OVERALL DIRECT OPERATING COSTS: MINE THROUGH REFINERY 389 23.3 TOTAL PRODUCTION COSTS, SELLING PRICES, PROFITABILITY 389 23.4 CONCENTRATING COSTS 391 23.5 SMELTING COSTS 393 23.6 ELECTROREFINING COSTS 395 23.7 PRODUCTION OF COPPER FROM SCRAP 397 23.8 LEACH/SOLVENT EXTRACTION/ELECTROWINNING COSTS 397 23.9 PROFITABILITY 398 23.10 SUMMARY 399 REFERENCES 399 APPENDICES 401 A STOICHIOMETRIC DATA FOR COPPER EXTRACTION 401 B LESSER-USED SMELTING PROCESSES 403 C COPPER RECOVERY FROM ANODE SLIMES 413 D SKETCH OF SERIES-PARALLEL SOLVENT EXTRACTION CIRCUIT 415 E EXTENDED LIST OF CHINESE COPPER REFINERIES AND THEIR 416 CAPACITIES INDEX 417
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spellingShingle	Extractive metallurgy of copper Copper Metallurgy Kupfer (DE-588)4033734-0 gnd Metallurgie (DE-588)4074756-6 gnd
subject_GND	(DE-588)4033734-0 (DE-588)4074756-6
title	Extractive metallurgy of copper
title_auth	Extractive metallurgy of copper
title_exact_search	Extractive metallurgy of copper
title_full	Extractive metallurgy of copper W. G. Davenport ...
title_fullStr	Extractive metallurgy of copper W. G. Davenport ...
title_full_unstemmed	Extractive metallurgy of copper W. G. Davenport ...
title_short	Extractive metallurgy of copper
title_sort	extractive metallurgy of copper
topic	Copper Metallurgy Kupfer (DE-588)4033734-0 gnd Metallurgie (DE-588)4074756-6 gnd
topic_facet	Copper Metallurgy Kupfer Metallurgie
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