Verfügbarkeit: Inert anodes for aluminium electrolysis

Inert anodes for aluminium electrolysis:

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Bibliographische Detailangaben
Hauptverfasser:	Galasiu, Ioan 1940- (VerfasserIn), Galasiu, Rodica 1944- (VerfasserIn), Thonstad, Jomar 1932- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Düsseldorf Aluminium-Verl. 2007
Ausgabe:	1. ed.
Schlagworte:	Aluminum > Electrometallurgy Anodes Electrolysis Schmelzflusselektrolyse Aluminiumschmelzflusselektrolyse Aluminium Anode
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	VII, 207 S. Ill., graph. Darst. 25 cm
ISBN:	9783870172862 387017286X

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE 1 l.INTRODUCTION 3 1.1. The Actual Industrial Process 3 1.1.1. The Electrolyte Cryolite with Fluoride Additives 3 1.1.2. The Raw Material Alumina 4 1.1.3. The Anodes 4 1.1.3.1. Prebaked Anodes 5 1.1.3.2. Soderberg Anodes 5 1.2. Inert Anodes 5 1.2.1. Introduction 5 1.2.2. Inert Anodes A Revolution in the Aluminium Industry 5 1.2.3. Inert Anodes, a Definition 6 1.2.4. Primary Requirements for Inert Anode Materials 7 1.2.5. The Electrolyte in Inert Anode Cells 7 1.2.6. Alumina Control 7 1.2.6.1. Anode Effect 8 1.2.7. Anode Gas Treatment 8 1.2.8. Heat Balance 8 1.2.9. SideLedge 8 1.2.10. What Are the Principal Advantages of Inert Anodes? 9 1.2.11. Major Challenges in the Development of Inert Anode Materials 9 1.2.12. What Materials May Inert Anodes Consist of? 10 1.2.12.1. The Ceramic Anode 10 1.2.12.2. The Cermet Anode 10 1.2.12.3. The Metal Anode 10 1.2.13. Environmental Considerations 11 1.2.14. Where Is Alcoa at Present with Regard to Inert Anodes? 11 1.2.15. Summary and Conclusions 14 2. BASIC PRINC1PLES 15 2.1. Fundamentals 15 2.1.1. Energy Aspects 15 2.1.2. Requirements for Inert Anodes 16 2.1.3. On the Selection of Electrolytes 21 2.1.3.1. KF A1F, Electrolytes 23 2.1.3.2. Other Low Melting Electrolytes 25 2.2. Preparation of Inert Anodes 30 2.2.1. Preparation of Ceramic Anodes 30 2.2.2. Preparation of Cermet Anodes 33 2.2.3. Preparation of Metal Anodes 34 2.3. Solubility of Oxides in NaF AlF, AI:O, Melts 36 2.3.1. The Solubility ofSnO: 36 2.3.2. The Solubility of Copper Oxides 37 2.3.3. The Solubility of Iron Oxides 41 2.3.3.1. The Solubility ofFeO 41 2.3.3.2. The Solubility ofFe:O3 43 2.3.4. The Solubility ofNiO 44 2.3.5. The Solubility of NiFe2O4 46 2.3.6. The Solubility of ZnO and ZnAl2O4 48 2.3.7. The Solubility ofCeO2 49 2.3.8. The Solubility ofCr2O3 50 2.3.9. The Solubility ofTiO, 50 2.3.10. Conclusion 50 2.4. Corrosion of Inert Anodes 53 2.4.1. Reduced Corrosion by Means of Cerox Coating 57 3. CERAMIC ANODES 61 3.1. Physico Chemical Properties of SnO2 Based Anodes 61 3.1.1. Anode Composition. Density and Electrical Resistivity 61 3.1.2. Thermal Shock Resistance 64 3.2. Electrochemical Properties and Current Efficiency for SnO2 Based Anodes 67 3.2.1. Electrochemical Studies 67 3.2.2. Current Efficiency 70 3.3. Corrosion of SnO2 Based Anodes 73 3.3.1. The Effect of Operating Parameters on Anode Corrosion 73 3.3.2. Corrosion Mechanism 74 3.3.3. The Effect of Cerox Coating 79 3.4. Bench Scale Tests of SnO2 Based Anodes 81 3.5. Other Types of Ceramic Anodes 84 4. CERMET ANODES 88 4.1. Physico Chemical Properties 88 4.2. Electrochemical Studies 101 4.3. Corrosion of Cermet Anodes Based on Nickel Ferrite 105 4.3.1. Corrosion Protection by Means of Cerox Coating 114 4.4. Pilot and Bench Scale Tests of Cermet Anodes 119 5. METAL BASED ANODES 126 5.1. On the Oxidation and Corrosion of Metal Anodes 126 5.1.1. Atmospheric Oxidation of Metals 126 5.2. Electrochemical Studies of Metal Anodes 129 5.2.1. Formation of Oxide Layers by Electrolysis 129 5.2.2. Anodic Overvoltage on Metal Anodes 133 5.2.3. Reactions in Oxide Free Melts 137 5.3. Selection of Metal Anode Materials. Corrosion Properties 140 5.3.1. Materials Selection 140 5.3.2. Aluminium Bronze as Anode Material 141 5.3.3. Refractory Metals 143 5.3.4. Cu Ni Fe Alloys. Slurry Cell 143 5.3.5. Micropyretrics 147 5.3.6. Moltech Anodes 150 5.3.7. Anodes Based on Stainless Steel 153 6. TECHNOLOGICAL ASPECTS 158 6.1. Electrode Design 158 6.1.1. Anode Design 158 6.1.1.1. Gas Drainage 167 6.1.2. Bipolar Electrodes 168 6.1.3. Wettable Cathodes 170 6.2. Cell Design 174 6.2.1. Cell Design with Inert Anodes 174 6.2.1.1. Swiss Aluminium 174 i 6.2.1.2. Electrochemical Technology Corporation 175 6.2.1.3. Northwest Aluminum Technologies 177 6.2.1.4. Alcoa 179 6.2.1.5. Moltech 1X1 6.2.1.6. Norsk Hydro 187 6.2.2. Drained Cells 189 6.2.3. Cells with Bipolar Electrodes 191 6.2.4. Operation of Cells with Inert Anodes 192 6.2.4.1. Bath Temperaturc 192 6.2.4.2. Alumina Dissolution 193 6.2.4.3. Anode Cathode Distance 194 6.2.4.4. Economic and Electric Power Aspects 194 6.2.5. Conclusions 195 7. THE WAY FORWARD 197 8. SUBJECT INDEX 199
adam_txt	CONTENTS PREFACE 1 l.INTRODUCTION 3 1.1. The Actual Industrial Process 3 1.1.1. The Electrolyte Cryolite with Fluoride Additives 3 1.1.2. The Raw Material Alumina 4 1.1.3. The Anodes 4 1.1.3.1. Prebaked Anodes 5 1.1.3.2. Soderberg Anodes 5 1.2. Inert Anodes 5 1.2.1. Introduction 5 1.2.2. Inert Anodes A Revolution in the Aluminium Industry 5 1.2.3. Inert Anodes, a Definition 6 1.2.4. Primary Requirements for Inert Anode Materials 7 1.2.5. The Electrolyte in Inert Anode Cells 7 1.2.6. Alumina Control 7 1.2.6.1. Anode Effect 8 1.2.7. Anode Gas Treatment 8 1.2.8. Heat Balance 8 1.2.9. SideLedge 8 1.2.10. What Are the Principal Advantages of Inert Anodes? 9 1.2.11. Major Challenges in the Development of Inert Anode Materials 9 1.2.12. What Materials May Inert Anodes Consist of? 10 1.2.12.1. The Ceramic Anode 10 1.2.12.2. The Cermet Anode 10 1.2.12.3. The Metal Anode 10 1.2.13. Environmental Considerations 11 1.2.14. Where Is Alcoa at Present with Regard to Inert Anodes? 11 1.2.15. Summary and Conclusions 14 2. BASIC PRINC1PLES 15 2.1. Fundamentals 15 2.1.1. Energy Aspects 15 2.1.2. Requirements for Inert Anodes 16 2.1.3. On the Selection of Electrolytes 21 2.1.3.1. KF A1F, Electrolytes 23 2.1.3.2. Other Low Melting Electrolytes 25 2.2. Preparation of Inert Anodes 30 2.2.1. Preparation of Ceramic Anodes 30 2.2.2. Preparation of Cermet Anodes 33 2.2.3. Preparation of Metal Anodes 34 2.3. Solubility of Oxides in NaF AlF, AI:O, Melts 36 2.3.1. The Solubility ofSnO: 36 2.3.2. The Solubility of Copper Oxides 37 2.3.3. The Solubility of Iron Oxides 41 2.3.3.1. The Solubility ofFeO 41 2.3.3.2. The Solubility ofFe:O3 43 2.3.4. The Solubility ofNiO 44 \ 2.3.5. The Solubility of NiFe2O4 46 2.3.6. The Solubility of ZnO and ZnAl2O4 48 2.3.7. The Solubility ofCeO2 49 2.3.8. The Solubility ofCr2O3 50 2.3.9. The Solubility ofTiO, 50 2.3.10. Conclusion 50 2.4. Corrosion of Inert Anodes 53 2.4.1. Reduced Corrosion by Means of Cerox Coating 57 3. CERAMIC ANODES 61 3.1. Physico Chemical Properties of SnO2 Based Anodes 61 3.1.1. Anode Composition. Density and Electrical Resistivity 61 3.1.2. Thermal Shock Resistance 64 3.2. Electrochemical Properties and Current Efficiency for SnO2 Based Anodes 67 3.2.1. Electrochemical Studies 67 3.2.2. Current Efficiency 70 3.3. Corrosion of SnO2 Based Anodes 73 3.3.1. The Effect of Operating Parameters on Anode Corrosion 73 3.3.2. Corrosion Mechanism 74 3.3.3. The Effect of Cerox Coating 79 3.4. Bench Scale Tests of SnO2 Based Anodes 81 3.5. Other Types of Ceramic Anodes 84 4. CERMET ANODES 88 4.1. Physico Chemical Properties 88 4.2. Electrochemical Studies 101 4.3. Corrosion of Cermet Anodes Based on Nickel Ferrite 105 4.3.1. Corrosion Protection by Means of Cerox Coating 114 4.4. Pilot and Bench Scale Tests of Cermet Anodes 119 5. METAL BASED ANODES 126 5.1. On the Oxidation and Corrosion of Metal Anodes 126 5.1.1. Atmospheric Oxidation of Metals 126 5.2. Electrochemical Studies of Metal Anodes 129 5.2.1. Formation of Oxide Layers by Electrolysis 129 5.2.2. Anodic Overvoltage on Metal Anodes 133 5.2.3. Reactions in Oxide Free Melts 137 5.3. Selection of Metal Anode Materials. Corrosion Properties 140 5.3.1. Materials Selection 140 5.3.2. Aluminium Bronze as Anode Material 141 5.3.3. Refractory Metals 143 5.3.4. Cu Ni Fe Alloys. Slurry Cell 143 5.3.5. Micropyretrics 147 5.3.6. Moltech Anodes 150 5.3.7. Anodes Based on Stainless Steel 153 6. TECHNOLOGICAL ASPECTS 158 6.1. Electrode Design 158 6.1.1. Anode Design 158 6.1.1.1. Gas Drainage 167 6.1.2. Bipolar Electrodes 168 6.1.3. Wettable Cathodes 170 6.2. Cell Design 174 6.2.1. Cell Design with Inert Anodes 174 6.2.1.1. Swiss Aluminium 174 i 6.2.1.2. Electrochemical Technology Corporation 175 6.2.1.3. Northwest Aluminum Technologies 177 6.2.1.4. Alcoa 179 6.2.1.5. Moltech 1X1 6.2.1.6. Norsk Hydro 187 6.2.2. Drained Cells 189 6.2.3. Cells with Bipolar Electrodes 191 6.2.4. Operation of Cells with Inert Anodes 192 6.2.4.1. Bath Temperaturc 192 6.2.4.2. Alumina Dissolution 193 6.2.4.3. Anode Cathode Distance 194 6.2.4.4. Economic and Electric Power Aspects 194 6.2.5. Conclusions 195 7. THE WAY FORWARD 197 8. SUBJECT INDEX 199
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author	Galasiu, Ioan 1940- Galasiu, Rodica 1944- Thonstad, Jomar 1932-
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spelling	Galasiu, Ioan 1940- Verfasser (DE-588)133187802 aut Inert anodes for aluminium electrolysis Ioan Galasiu ; Rodica Galasiu ; Jomar Thonstad 1. ed. Düsseldorf Aluminium-Verl. 2007 VII, 207 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Aluminum Electrometallurgy Anodes Electrolysis Schmelzflusselektrolyse (DE-588)4179781-4 gnd rswk-swf Aluminiumschmelzflusselektrolyse (DE-588)4128234-6 gnd rswk-swf Aluminium (DE-588)4001573-7 gnd rswk-swf Anode (DE-588)4142547-9 gnd rswk-swf Aluminium (DE-588)4001573-7 s Schmelzflusselektrolyse (DE-588)4179781-4 s Anode (DE-588)4142547-9 s DE-604 Aluminiumschmelzflusselektrolyse (DE-588)4128234-6 s Galasiu, Rodica 1944- Verfasser (DE-588)133187810 aut Thonstad, Jomar 1932- Verfasser (DE-588)12323042X aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016084644&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Galasiu, Ioan 1940- Galasiu, Rodica 1944- Thonstad, Jomar 1932- Inert anodes for aluminium electrolysis Aluminum Electrometallurgy Anodes Electrolysis Schmelzflusselektrolyse (DE-588)4179781-4 gnd Aluminiumschmelzflusselektrolyse (DE-588)4128234-6 gnd Aluminium (DE-588)4001573-7 gnd Anode (DE-588)4142547-9 gnd
subject_GND	(DE-588)4179781-4 (DE-588)4128234-6 (DE-588)4001573-7 (DE-588)4142547-9
title	Inert anodes for aluminium electrolysis
title_auth	Inert anodes for aluminium electrolysis
title_exact_search	Inert anodes for aluminium electrolysis
title_exact_search_txtP	Inert anodes for aluminium electrolysis
title_full	Inert anodes for aluminium electrolysis Ioan Galasiu ; Rodica Galasiu ; Jomar Thonstad
title_fullStr	Inert anodes for aluminium electrolysis Ioan Galasiu ; Rodica Galasiu ; Jomar Thonstad
title_full_unstemmed	Inert anodes for aluminium electrolysis Ioan Galasiu ; Rodica Galasiu ; Jomar Thonstad
title_short	Inert anodes for aluminium electrolysis
title_sort	inert anodes for aluminium electrolysis
topic	Aluminum Electrometallurgy Anodes Electrolysis Schmelzflusselektrolyse (DE-588)4179781-4 gnd Aluminiumschmelzflusselektrolyse (DE-588)4128234-6 gnd Aluminium (DE-588)4001573-7 gnd Anode (DE-588)4142547-9 gnd
topic_facet	Aluminum Electrometallurgy Anodes Electrolysis Schmelzflusselektrolyse Aluminiumschmelzflusselektrolyse Aluminium Anode
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016084644&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT galasiuioan inertanodesforaluminiumelectrolysis AT galasiurodica inertanodesforaluminiumelectrolysis AT thonstadjomar inertanodesforaluminiumelectrolysis

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