Verfügbarkeit: Recycling of power lithium-ion batteries

Recycling of power lithium-ion batteries: technology, equipment, and policies

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Bibliographische Detailangaben
Hauptverfasser:	Lin, Xiao (VerfasserIn), Wang, Xue (VerfasserIn), Liu, Gangfeng (VerfasserIn), Zhang, Guobin (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2023]
Schlagworte:	Recycling Lithium-Ionen-Akkumulator Batterien u. Brennstoffzellen Batteries & Fuel Cells CH30: Technische u. Industrielle Chemie CHA1: Batterien u. Brennstoffzellen Chemie Chemistry EG04: Energiespeicherung Energie Energiespeicherung Energy Energy Storage Industrial Chemistry Technische u. Industrielle Chemie
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35108-4/ Inhaltsverzeichnis
Beschreibung:	xiv, 254 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
ISBN:	3527351086 9783527351084

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MARC


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653			\|a Chemie
653			\|a Chemistry
653			\|a EG04: Energiespeicherung
653			\|a Energie
653			\|a Energiespeicherung
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776	0	8	\|i Erscheint auch als \|n Online-Ausgabe \|z 978-3-527-83990-2
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Datensatz im Suchindex

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adam_text	V CONTENTS PREFACE XIII 1 STATUS AND DEVELOPMENT OF POWER LITHIUM-ION BATTERY AND ITS KEY MATERIALS 1 1.1 MARKET STATUS OF POWER LITHIUM-ION BATTERY 1 1.2 KEY MATERIALS AND DEVELOPMENT OF POWER BATTERY 3 1.2.1 DOMINANT CATHODE MATERIALS 4 1.2.1.1 LITHIUM NICKEL COBALT MANGANESE OXIDE 4 1.2.1.2 LITHIUM NICKEL COBALT ALUMINUM OXIDE 5 1.2.1.3 LITHIUM IRON PHOSPHATE 6 1.2.1.4 LITHIUM NICKEL MANGANESE OXIDE 7 1.2.2 ANODE MATERIALS 8 1.2.2.1 GRAPHITE 8 1.2.2.2 LITHIUM TITANATE 9 1.2.2.3 SILICON CARBON 10 1.2.3 ELECTROLYTE 11 1.2.3.1 LIQUID ELECTROLYTE 12 1.2.3.2 SOLID ELECTROLYTE 12 1.2.4 SEPARATOR 14 1.2.5 BINDER 15 1.2.6 CURRENT COLLECTOR 16 1.2.6.1 COPPER FOIL 16 1.2.6.2 ALUMINUM FOIL 17 1.2.6.3 OTHERS 18 1.3 DEVELOPMENT AND TRENDS IN POWER LITHIUM-ION BATTERY 18 1.3.1 THE LAYOUT OF LITHIUM-ION BATTERY PRODUCTION CAPACITY 18 1.3.2 THE CHANGING TREND OF LITHIUM-ION BATTERY MATERIAL TYPES 19 1.3.3 DEVELOPMENT GOALS AND PLANS IN VARIOUS REGIONS OF THE WORLD 20 1.3.4 CRITICAL CHALLENGES FOR THE FUTURE LITHIUM-ION POWER BATTERY INDUSTRY 22 1.3.4.1 REDUCING THE COST OF LITHIUM-ION POWER BATTERY 22 1.3.4.2 IMPROVING THE ENERGY DENSITY OF POWER BATTERY 22 VI CONTENTS 1.3.4.3 1.3.4.4 1.4 IMPROVING SAFETY OF POWER BATTERY 22 RECYCLING POWER BATTERY 23 ANALYSIS OF THE SUPPLY AND DEMAND OF CRITICAL METAL RAW MATERIAL RESOURCES FOR POWER LITHIUM-ION BATTERIES 23 1.4.1 GEOGRAPHICAL DISTRIBUTION OF CRITICAL METAL RAW MATERIALS AND THEIR PRODUCTION STATUS 24 1.4.1.1 1.4.1.2 1.4.1.3 1.4.2 1.4.2.1 1.4.2.2 1.4.2.3 1.4.3 1.4.4 LITHIUM 24 NICKEL 24 COBALT 26 SUPPLY AND DEMAND OUTLOOK OF CRITICAL METAL RAW MATERIALS 28 LITHIUM 28 NICKEL 29 COBALT 31 SCENARIO WITHOUT RECYCLING 31 SCENARIO WITH RECYCLING 33 2 2.1 2.2 2.2.1 2.2.2 2.3 2.3.1 2.3.2 2.3.2.1 2.3.2.1.1 2.3.2.1.2 2.3.2.1.3 2.3.2.1.4 2.3.2.1.5 2.3.2.2 2.3.2.2.1 2.3.2.2.2 2.3.2.3 2.3.2.3.1 2.3.2.3.2 2.3.2.3.3 2.3.2.4 2.3.3 2.3.3.1 2.3.3.2 2.3.3.3 2.3.3.4 2.3.4 2.3.5 BATTERY RECYCLING TECHNOLOGIES AND EQUIPMENT 37 BRIEF INTRODUCTION OF LITHIUM-ION BATTERY RECYCLING 37 INTRODUCTION OF THE BATTERY RECYCLING PROCESS 39 CONVENTIONAL PROCESS OF CELL DISASSEMBLY 39 FUTURE DEVELOPMENT DIRECTION OF CELL RECYCLING PROCESS 44 PRETREATMENT TECHNOLOGY FOR BATTERY RECYCLING 44 CELL DISCHARGE 44 MECHANICAL SEPARATION 45 CRUSHING 45 DOUBLE-SHAFT SHEARING GEAR ROLLER CRUSHING 45 SINGLE-SHAFT SHEARING GEAR ROLLER CRUSHING 46 FOUR-SHAFT SHEARING GEAR ROLLER CRUSHING 47 HAMMER CRUSHING 48 SMASH 48 SIEVING 49 VIBRATION SIEVING 49 RELAXATION SIEVING 50 AIRFLOW SIEVING 51 CONSTANT AIRFLOW SIEVING 51 AORTIC FLOW SIEVING 52 PASSIVE PULSATING AIRFLOW SIEVING TECHNOLOGY 53 FLOTATION SEPARATION 54 HEAT TREATMENT 56 ROTARY KILN 56 MICROWAVE STEEL BELT KILN 56 MICROWAVE ROLLER KILN 57 CARBONIZATION MACHINE 57 SOLVENT DISSOLUTION 58 ALKALINE DISSOLUTION 59 CONTENTS VII 2.3.6 ULTRASOUND STRENGTHENS THE SEPARATION 60 2.3.7 MECHANICAL CHEMISTRY STRENGTHENS THE SEPARATION 62 2.4 HYDROMETALLURGY 64 2.4.1 METAL LEACHING 64 2.4.1.1 FULL LEACHING 64 2.4.1.1.1 INORGANIC ACID LEACHING 64 2.4.1.1.2 ORGANIC ACID LEACHING 65 2.4.1.1.3 BIOLEACHING 66 2.4.1.2 SELECTIVE LEACHING 67 2.4.1.3 ENHANCED LEACHING 69 2.4.1.4 CHEMICAL PRECIPITATION 70 2.4.2 METAL EXTRACTION SEPARATION 71 2.4.2.1 SOLVENT EXTRACTION METHOD 71 2.4.2.2 CHEMICAL PRECIPITATION METHOD 71 2.4.2.3 ELECTROCHEMICAL METHOD AND OTHER METHODS 73 2.5 PYROMETALLURGY 74 2.6 DIRECT RECYCLING TECHNOLOGY 75 2.6.1 DIRECT RECYCLING PROCESS 75 2.6.2 DIRECT REGENERATION OF CATHODE MATERIAL FROM SPENT LFP BATTERIES 77 2.6.3 ECONOMIC ANALYSIS OF LFP CATHODE MATERIAL RECYCLING 80 2.6.4 MAIN CHALLENGES FOR DIRECT RECYCLING AND REGENERATION 82 2.7 EQUIPMENT FOR BATTERY RECYCLING 83 2.7.1 PRETREATMENT EQUIPMENT 83 2.7.1.1 CRUSHING AND COMMINUTION EQUIPMENT 83 2.7.1.1.1 SHREDDER 83 2.7.1.1.2 CRUSHER 85 2.7.1.2 NITROGEN PROTECTION SYSTEM 87 2.7.1.3 SEPARATION AND DEBRIS REMOVAL EQUIPMENT 89 2.7.1.3.1 WIND SIEVING MACHINE 89 2.7.1.3.2 ROTARY KILN FURNACE 90 2.7.1.4 SIEVING EQUIPMENT 92 2.7.1.4.1 LINEAR VIBRATING SCREEN 92 2.7.1.4.2 ROUND SHAKING SIEVE 92 2.7.2 HYDROMETALLURGY EQUIPMENT 93 2.7.2.1 LEACHING EQUIPMENT 93 2.7.2.1.1 MECHANICAL STIRRING LEACHING TANK 93 2.7.2.1.2 AIR STIRRING LEACHING TANK (PACHUCA TANK) 94 2.7.2.1.3 FLUIDIZATION LEACHING TOWER 94 2.7.2.1.4 HIGH-PRESSURE LEACHING KETTLE 95 2.7.2.2 EXTRACTION EQUIPMENT 96 2.7.2.2.1 MIXED CLARIFYING TANK 96 2.7.2.2.2 EXTRACTION TOWER 99 2.7.2.2.3 CENTRIFUGAL EXTRACTOR 100 2.7.2.3 SOLID-LIQUID SEPARATION EQUIPMENT 102 VIII CONTENTS 2.7.2.3.1 2.7.23.2 2.8 2.8.1 2.8.2 2.8.2.1 2.8.2.2 2.8.23 2.8.2.4 2.8.2.5 2.9 ENRICHMENT FACILITIES 102 FILTERING EQUIPMENT 104 GLOBAL INDUSTRIAL PARTICIPANTS AND THEIR IP LAYOUT 105 INTRODUCTION OF MAIN LIB RECYCLERS 105 IP LAYOUT AND DEVELOPMENT TREND ANALYSIS 106 PATENT DEVELOPMENT TREND ANALYSIS 106 PATENT AREA ANALYSIS 109 ANALYSIS OF MAJOR PATENT APPLICANTS 110 BRANCH ANALYSIS OF PATENTED TECHNOLOGY 111 PATENT BRANCH ANALYSIS OF METAL SEPARATION AND EXTRACTION 113 CONCLUSION 115 3 3.1 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 3.1.6 3.1.7 3.2 3.2.1 3.2.2 3.2.3 3.3 3.3.1 3.3.2 3.3.3 TYPICAL CASES IN INDUSTRY 121 CHINA 121 BOTREE CYCLING 121 BRUNP RECYCLING 124 HUAYOU COBALT 126 GEM 128 SHUNHUA LITHIUM 129 GANPOWER 131 QIANTAI TECHNOLOGY 131 EUROPE 136 UMICORE 136 ACCUREC 138 TES (RECUPYL) 138 NORTH AMERICA 140 LI-CYCLE 140 INMETCO 141 RETRIEV 143 4 CURRENT STATUS OF THE CARBON FOOTPRINT LIFE CYCLE ANALYSIS OF POWER LITHIUM-ION BATTERIES AND THE IMPACT OF RECYCLING ON THEM 145 4.1 4.1.1 4.1.1.1 4.1.1.2 4.1.13 4.1.1.4 4.1.2 LIFE CYCLE ANALYSIS OF THE POWER BATTERY MANUFACTURING PROCESS 145 INTRODUCTION TO THE LIFE CYCLE ASSESSMENT FRAMEWORK 145 GOAL AND SCOPE DEFINITION 146 LIFE CYCLE INVENTORY ANALYSIS 146 LIFE CYCLE IMPACT ASSESSMENT 147 INTERPRETATION 147 ANALYSIS OF THE CARBON FOOTPRINT AND ENERGY CONSUMPTION OF THE POWER BATTERY MANUFACTURING PROCESS 147 4.1.2.1 4.1.2.2 4.2 4.2.1 4.2.2 CARBON FOOTPRINT ANALYSIS 148 ENERGY CONSUMPTION ANALYSIS 149 CARBON FOOTPRINT OF DIFFERENT POWER BATTERY RECYCLING PROCESSES 152 PYROMETALLURGICAL + HYDROMETALLURGICAL METHOD 153 MECHANICAL PRE TREATMENT + HYDROMETALLURGICAL METHOD 153 CONTENTS IX 4.2.3 4.3 DIRECT RECYCLING METHOD 157 BEST POWER BATTERY RECYCLING TECHNOLOGY FROM A LIFE CYCLE CARBON FOOTPRINT PERSPECTIVE 158 5 5.1 LAWS, REGULATIONS, AND STANDARDS FOR BATTERY RECYCLING 163 LAWS AND REGULATIONS REGARDING BATTERY RECYCLING IN VARIOUS COUNTRIES 163 5.1.1 5.1.1.1 5.1.1.2 5.1.1.3 5.1.1.4 5.1.1.5 5.1.2 5.1.2.1 5.1.2.1.1 5.1.2.1.2 5.1.2.1.3 5.1.2.2 5.1.2.3 5.1.2.4 5.1.2.4.1 5.1.2.4.2 5.1.2.4.3 5.1.2.4.4 THE EUROPEAN UNION 163 DIRECTIVE 91/157/EEC 165 DIRECTIVE 93/86/EEC 165 DIRECTIVE 98/101/EC 165 COUNCIL DIRECTIVE 2006/66/EC 166 REGULATION (EU) 2019/1020 166 TYPICAL EUROPEAN COUNTRIES 167 GERMANY 167 KRW-/ABFG 167 BATTERIEVERORDNUNG 168 BATTG 168 NORWAY 169 NETHERLANDS 169 THE UNITED STATES 170 STATE MANAGEMENT PLANS FOR WASTE 170 STATE MANAGEMENT PLANS FOR HAZARDOUS WASTE PRODUCERS 170 STATE MANAGEMENT PLANS FOR HAZARDOUS WASTE TRANSPORTERS 171 MANAGEMENT PLANS FOR TREATMENT, STORAGE, AND DISPOSAL FACILITIES OF HAZARDOUS WASTE 172 5.1.3 5.1.3.1 5.1.3.2 5.1.4 5.2 5.2.1 TYPICAL ASIAN COUNTRIES 172 CHINA 172 JAPAN 179 COMPARISON OF BATTERY RECYCLING LAWS IN DIFFERENT COUNTRIES 180 MANAGEMENT NORMS REGARDING BATTERY RECYCLING 182 MANAGEMENT NORMS REGARDING BATTERY RECYCLING IN VARIOUS COUNTRIES 182 5.2.1.1 5.2.1.2 5.2.1.3 5.2.2 5.3 5.3.1 THE UNITED STATES 182 CHINA 183 JAPAN 184 COMPARISON OF MANAGEMENT NORMS IN DIFFERENT COUNTRIES 187 TECHNICAL NORMS REGARDING BATTERY RECYCLING 188 TECHNICAL NORMS REGARDING BATTERY RECYCLING IN VARIOUS COUNTRIES 188 5.3.2 5.4 5.4.1 COMPARISON OF TECHNICAL NORMS IN DIFFERENT COUNTRIES 190 SUPPORT POLICIES REGARDING BATTERY RECYCLING 191 SUPPORT POLICIES REGARDING BATTERY RECYCLING IN DIFFERENT COUNTRIES 191 5.4.2 COMPARISON OF SUPPORT POLICIES IN DIFFERENT COUNTRIES 194 CONTENTS 6 6.1 6.1.1 6.1.1.1 6.1.1.2 6.1.13 NEW APPLICATION SCENARIOS FOR POWER LITHIUM-ION BATTERIES 197 THE EXISTING APPLICATION SCENARIOS OF POWER BATTERIES 197 TWO-WHEELED ELECTRIC VEHICLES 197 GLOBAL MARKET DEVELOPMENT STATUS 197 IMPACT OF NATIONAL POLICIES 200 DEVELOPMENT OUTLOOK OF EV BATTERY FOR TWO-WHEELED ELECTRIC VEHICLE 201 6.1.2 6.1.2.1 6.1.2.2 6.1.2.3 6.1.2.4 6.1.2.5 6.1.3 6.1.3.1 6.1.3.2 6.1.3.3 6.1.3.4 6.1.3.5 6.1.4 6.1.4.1 6.1.4.2 6.1.4.3 6.2 6.2.1 6.2.1.1 6.2.1.1.1 6.2.1.1.2 6.2.1.13 6.2.1.2 6.2.13 ELECTRIC VEHICLES 201 GLOBAL MARKET DEVELOPMENT STATUS 201 SEGMENTATION - ELECTRIC PASSENGER VEHICLES 204 SEGMENTATION - ELECTRIC BUSES 206 SEGMENTATION - ELECTRIC HEAVY TRUCKS 207 DEVELOPMENT OUTLOOK OF ELECTRIC VEHICLE EV BATTERY 210 ELECTRICSHIPS 211 BACKGROUND 211 NATIONAL SUPPORT POLICIES 211 GLOBAL MARKET DEVELOPMENT STATUS 212 BATTERY TECHNOLOGY FOR ELECTRIC BOATS 214 DEVELOPMENT OUTLOOK OF ELECTRIC BOAT POWER BATTERY 215 ENERGY STORAGE DEVICE 215 SEGMENTATION - V2G TECHNOLOGY 215 SEGMENTATION - CASCADE UTILIZATION 217 DEVELOPMENT OUTLOOK OF ENERGY STORAGE POWER BATTERY 219 DEVELOPMENT OF EMERGING BUSINESS MODE 219 POWER SWAP MODE OF TWO-WHEELED VEHICLES 219 INDUSTRY DEMAND DRIVES THE DEVELOPMENT OF POWER SWAP MODE 219 INSTANT DELIVERY (2B) 219 SHARED TRAVEL (2B) 220 INDIVIDUAL CYCLING (2C) 220 NEW NATIONAL STANDARD BOOSTS THE POWER SWAP MODE 220 BATTERY SWAPPING CABINET - A HUGE BLUE OCEAN MARKET IS FORMING 220 6.2.1.4 BATTERY TECHNOLOGY FOR POWER SWAPPING TWO-WHEELED ELECTRIC VEHICLES 221 6.2.1.5 6.2.1.5.1 6.2.1.5.2 6.2.2 6.2.2.1 6.2.2.1.1 6.2.2.1.2 6.2.2.13 6.2.2.2 6.2.23 6.2.2.4 ADVANTAGES AND DISADVANTAGES OF THE POWER SWAP MODE 222 ADVANTAGE 222 DISADVANTAGE 223 POWER SWAPPING ELECTRIC VEHICLES 223 HISTORY OF POWER SWAPPING ELECTRIC VEHICLES 223 PATHFINDER: BETTER PLACE 223 SUCCESSOR: TESLA 223 PROMOTERS 223 POLICY MAKES POWER SWAP POPULAR 224 BATTERY ASSET MANAGEMENT COMPANY 225 ADVANTAGES AND DISADVANTAGES 225 CONTENTS XI 6.2.2.4.1 6.2.2.4.2 6.2.2.5 6.2.3 6.2.3.1 6.2.3.2 6.2.3.3 6.2.4 6.2.4.1 6.2.4.2 6.2.4.3 6.3 7 7.1 7.1.1 7.1.2 7.1.3 7.1.4 7.1.5 7.2 7.2.1 7.2.2 7.2.3 7.2.3.1 7.2.3.2 7.2.3.3 7.2.4 ADVANTAGE 225 DISADVANTAGE 225 RECYCLING ROUTE OF DECOMMISSIONED LITHIUM-ION POWER BATTERIES IN THE POWER SWAP MODE 225 POWER SWAPPING ELECTRIC TRUCKS 226 DEMAND FOR POWER SWAPPING HEAVY TRUCKS 226 ECONOMIC ADVANTAGES OF POWER SWAPPING HEAVY TRUCKS 226 APPLICATION SCENARIOS FOR POWER SWAPPING HEAVY TRUCKS 227 POWER SWAPPING ELECTRIC SHIPS 228 EXPLORATION OF POWER SWAPPING ELECTRIC SHIPS 228 LFP, THE MAINSTREAM OF SHIPBOARD LITHIUM-ION POWER BATTERY 228 SUGGESTIONS 230 SUB-SUMMARY 230 BATTERY RECYCLING TECHNOLOGY OUTLOOK 235 ADVANCED BATTERY RECYCLING SYSTEM 235 ECONOMICAL ENVIRONMENTAL DISCHARGE TECHNOLOGY 235 HIGH-FLUX BATTERY DISASSEMBLY EQUIPMENT 235 HIGH-EFFICIENCY SEPARATION SYSTEM FOR VALUABLE METALS 236 HIGH-VALUE UTILIZATION OF LOW-VALUE BATTERIES/COMPONENTS 236 INTRINSIC SAFETY AND POLLUTION PREVENTION 236 GREEN BATTERY DESIGN FOR RECYCLING 236 BATTERY RAW MATERIALS 237 MATERIAL PRODUCTION 239 BATTERY PRODUCTION 240 SINGLE BATTERY 240 BATTERY PACK 241 BATTERY MANAGEMENT SYSTEM 241 BATTERY PASSPORT 242 INDEX 247
adam_txt	V CONTENTS PREFACE XIII 1 STATUS AND DEVELOPMENT OF POWER LITHIUM-ION BATTERY AND ITS KEY MATERIALS 1 1.1 MARKET STATUS OF POWER LITHIUM-ION BATTERY 1 1.2 KEY MATERIALS AND DEVELOPMENT OF POWER BATTERY 3 1.2.1 DOMINANT CATHODE MATERIALS 4 1.2.1.1 LITHIUM NICKEL COBALT MANGANESE OXIDE 4 1.2.1.2 LITHIUM NICKEL COBALT ALUMINUM OXIDE 5 1.2.1.3 LITHIUM IRON PHOSPHATE 6 1.2.1.4 LITHIUM NICKEL MANGANESE OXIDE 7 1.2.2 ANODE MATERIALS 8 1.2.2.1 GRAPHITE 8 1.2.2.2 LITHIUM TITANATE 9 1.2.2.3 SILICON CARBON 10 1.2.3 ELECTROLYTE 11 1.2.3.1 LIQUID ELECTROLYTE 12 1.2.3.2 SOLID ELECTROLYTE 12 1.2.4 SEPARATOR 14 1.2.5 BINDER 15 1.2.6 CURRENT COLLECTOR 16 1.2.6.1 COPPER FOIL 16 1.2.6.2 ALUMINUM FOIL 17 1.2.6.3 OTHERS 18 1.3 DEVELOPMENT AND TRENDS IN POWER LITHIUM-ION BATTERY 18 1.3.1 THE LAYOUT OF LITHIUM-ION BATTERY PRODUCTION CAPACITY 18 1.3.2 THE CHANGING TREND OF LITHIUM-ION BATTERY MATERIAL TYPES 19 1.3.3 DEVELOPMENT GOALS AND PLANS IN VARIOUS REGIONS OF THE WORLD 20 1.3.4 CRITICAL CHALLENGES FOR THE FUTURE LITHIUM-ION POWER BATTERY INDUSTRY 22 1.3.4.1 REDUCING THE COST OF LITHIUM-ION POWER BATTERY 22 1.3.4.2 IMPROVING THE ENERGY DENSITY OF POWER BATTERY 22 VI CONTENTS 1.3.4.3 1.3.4.4 1.4 IMPROVING SAFETY OF POWER BATTERY 22 RECYCLING POWER BATTERY 23 ANALYSIS OF THE SUPPLY AND DEMAND OF CRITICAL METAL RAW MATERIAL RESOURCES FOR POWER LITHIUM-ION BATTERIES 23 1.4.1 GEOGRAPHICAL DISTRIBUTION OF CRITICAL METAL RAW MATERIALS AND THEIR PRODUCTION STATUS 24 1.4.1.1 1.4.1.2 1.4.1.3 1.4.2 1.4.2.1 1.4.2.2 1.4.2.3 1.4.3 1.4.4 LITHIUM 24 NICKEL 24 COBALT 26 SUPPLY AND DEMAND OUTLOOK OF CRITICAL METAL RAW MATERIALS 28 LITHIUM 28 NICKEL 29 COBALT 31 SCENARIO WITHOUT RECYCLING 31 SCENARIO WITH RECYCLING 33 2 2.1 2.2 2.2.1 2.2.2 2.3 2.3.1 2.3.2 2.3.2.1 2.3.2.1.1 2.3.2.1.2 2.3.2.1.3 2.3.2.1.4 2.3.2.1.5 2.3.2.2 2.3.2.2.1 2.3.2.2.2 2.3.2.3 2.3.2.3.1 2.3.2.3.2 2.3.2.3.3 2.3.2.4 2.3.3 2.3.3.1 2.3.3.2 2.3.3.3 2.3.3.4 2.3.4 2.3.5 BATTERY RECYCLING TECHNOLOGIES AND EQUIPMENT 37 BRIEF INTRODUCTION OF LITHIUM-ION BATTERY RECYCLING 37 INTRODUCTION OF THE BATTERY RECYCLING PROCESS 39 CONVENTIONAL PROCESS OF CELL DISASSEMBLY 39 FUTURE DEVELOPMENT DIRECTION OF CELL RECYCLING PROCESS 44 PRETREATMENT TECHNOLOGY FOR BATTERY RECYCLING 44 CELL DISCHARGE 44 MECHANICAL SEPARATION 45 CRUSHING 45 DOUBLE-SHAFT SHEARING GEAR ROLLER CRUSHING 45 SINGLE-SHAFT SHEARING GEAR ROLLER CRUSHING 46 FOUR-SHAFT SHEARING GEAR ROLLER CRUSHING 47 HAMMER CRUSHING 48 SMASH 48 SIEVING 49 VIBRATION SIEVING 49 RELAXATION SIEVING 50 AIRFLOW SIEVING 51 CONSTANT AIRFLOW SIEVING 51 AORTIC FLOW SIEVING 52 PASSIVE PULSATING AIRFLOW SIEVING TECHNOLOGY 53 FLOTATION SEPARATION 54 HEAT TREATMENT 56 ROTARY KILN 56 MICROWAVE STEEL BELT KILN 56 MICROWAVE ROLLER KILN 57 CARBONIZATION MACHINE 57 SOLVENT DISSOLUTION 58 ALKALINE DISSOLUTION 59 CONTENTS VII 2.3.6 ULTRASOUND STRENGTHENS THE SEPARATION 60 2.3.7 MECHANICAL CHEMISTRY STRENGTHENS THE SEPARATION 62 2.4 HYDROMETALLURGY 64 2.4.1 METAL LEACHING 64 2.4.1.1 FULL LEACHING 64 2.4.1.1.1 INORGANIC ACID LEACHING 64 2.4.1.1.2 ORGANIC ACID LEACHING 65 2.4.1.1.3 BIOLEACHING 66 2.4.1.2 SELECTIVE LEACHING 67 2.4.1.3 ENHANCED LEACHING 69 2.4.1.4 CHEMICAL PRECIPITATION 70 2.4.2 METAL EXTRACTION SEPARATION 71 2.4.2.1 SOLVENT EXTRACTION METHOD 71 2.4.2.2 CHEMICAL PRECIPITATION METHOD 71 2.4.2.3 ELECTROCHEMICAL METHOD AND OTHER METHODS 73 2.5 PYROMETALLURGY 74 2.6 DIRECT RECYCLING TECHNOLOGY 75 2.6.1 DIRECT RECYCLING PROCESS 75 2.6.2 DIRECT REGENERATION OF CATHODE MATERIAL FROM SPENT LFP BATTERIES 77 2.6.3 ECONOMIC ANALYSIS OF LFP CATHODE MATERIAL RECYCLING 80 2.6.4 MAIN CHALLENGES FOR DIRECT RECYCLING AND REGENERATION 82 2.7 EQUIPMENT FOR BATTERY RECYCLING 83 2.7.1 PRETREATMENT EQUIPMENT 83 2.7.1.1 CRUSHING AND COMMINUTION EQUIPMENT 83 2.7.1.1.1 SHREDDER 83 2.7.1.1.2 CRUSHER 85 2.7.1.2 NITROGEN PROTECTION SYSTEM 87 2.7.1.3 SEPARATION AND DEBRIS REMOVAL EQUIPMENT 89 2.7.1.3.1 WIND SIEVING MACHINE 89 2.7.1.3.2 ROTARY KILN FURNACE 90 2.7.1.4 SIEVING EQUIPMENT 92 2.7.1.4.1 LINEAR VIBRATING SCREEN 92 2.7.1.4.2 ROUND SHAKING SIEVE 92 2.7.2 HYDROMETALLURGY EQUIPMENT 93 2.7.2.1 LEACHING EQUIPMENT 93 2.7.2.1.1 MECHANICAL STIRRING LEACHING TANK 93 2.7.2.1.2 AIR STIRRING LEACHING TANK (PACHUCA TANK) 94 2.7.2.1.3 FLUIDIZATION LEACHING TOWER 94 2.7.2.1.4 HIGH-PRESSURE LEACHING KETTLE 95 2.7.2.2 EXTRACTION EQUIPMENT 96 2.7.2.2.1 MIXED CLARIFYING TANK 96 2.7.2.2.2 EXTRACTION TOWER 99 2.7.2.2.3 CENTRIFUGAL EXTRACTOR 100 2.7.2.3 SOLID-LIQUID SEPARATION EQUIPMENT 102 VIII CONTENTS 2.7.2.3.1 2.7.23.2 2.8 2.8.1 2.8.2 2.8.2.1 2.8.2.2 2.8.23 2.8.2.4 2.8.2.5 2.9 ENRICHMENT FACILITIES 102 FILTERING EQUIPMENT 104 GLOBAL INDUSTRIAL PARTICIPANTS AND THEIR IP LAYOUT 105 INTRODUCTION OF MAIN LIB RECYCLERS 105 IP LAYOUT AND DEVELOPMENT TREND ANALYSIS 106 PATENT DEVELOPMENT TREND ANALYSIS 106 PATENT AREA ANALYSIS 109 ANALYSIS OF MAJOR PATENT APPLICANTS 110 BRANCH ANALYSIS OF PATENTED TECHNOLOGY 111 PATENT BRANCH ANALYSIS OF METAL SEPARATION AND EXTRACTION 113 CONCLUSION 115 3 3.1 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 3.1.6 3.1.7 3.2 3.2.1 3.2.2 3.2.3 3.3 3.3.1 3.3.2 3.3.3 TYPICAL CASES IN INDUSTRY 121 CHINA 121 BOTREE CYCLING 121 BRUNP RECYCLING 124 HUAYOU COBALT 126 GEM 128 SHUNHUA LITHIUM 129 GANPOWER 131 QIANTAI TECHNOLOGY 131 EUROPE 136 UMICORE 136 ACCUREC 138 TES (RECUPYL) 138 NORTH AMERICA 140 LI-CYCLE 140 INMETCO 141 RETRIEV 143 4 CURRENT STATUS OF THE CARBON FOOTPRINT LIFE CYCLE ANALYSIS OF POWER LITHIUM-ION BATTERIES AND THE IMPACT OF RECYCLING ON THEM 145 4.1 4.1.1 4.1.1.1 4.1.1.2 4.1.13 4.1.1.4 4.1.2 LIFE CYCLE ANALYSIS OF THE POWER BATTERY MANUFACTURING PROCESS 145 INTRODUCTION TO THE LIFE CYCLE ASSESSMENT FRAMEWORK 145 GOAL AND SCOPE DEFINITION 146 LIFE CYCLE INVENTORY ANALYSIS 146 LIFE CYCLE IMPACT ASSESSMENT 147 INTERPRETATION 147 ANALYSIS OF THE CARBON FOOTPRINT AND ENERGY CONSUMPTION OF THE POWER BATTERY MANUFACTURING PROCESS 147 4.1.2.1 4.1.2.2 4.2 4.2.1 4.2.2 CARBON FOOTPRINT ANALYSIS 148 ENERGY CONSUMPTION ANALYSIS 149 CARBON FOOTPRINT OF DIFFERENT POWER BATTERY RECYCLING PROCESSES 152 PYROMETALLURGICAL + HYDROMETALLURGICAL METHOD 153 MECHANICAL PRE TREATMENT + HYDROMETALLURGICAL METHOD 153 CONTENTS IX 4.2.3 4.3 DIRECT RECYCLING METHOD 157 BEST POWER BATTERY RECYCLING TECHNOLOGY FROM A LIFE CYCLE CARBON FOOTPRINT PERSPECTIVE 158 5 5.1 LAWS, REGULATIONS, AND STANDARDS FOR BATTERY RECYCLING 163 LAWS AND REGULATIONS REGARDING BATTERY RECYCLING IN VARIOUS COUNTRIES 163 5.1.1 5.1.1.1 5.1.1.2 5.1.1.3 5.1.1.4 5.1.1.5 5.1.2 5.1.2.1 5.1.2.1.1 5.1.2.1.2 5.1.2.1.3 5.1.2.2 5.1.2.3 5.1.2.4 5.1.2.4.1 5.1.2.4.2 5.1.2.4.3 5.1.2.4.4 THE EUROPEAN UNION 163 DIRECTIVE 91/157/EEC 165 DIRECTIVE 93/86/EEC 165 DIRECTIVE 98/101/EC 165 COUNCIL DIRECTIVE 2006/66/EC 166 REGULATION (EU) 2019/1020 166 TYPICAL EUROPEAN COUNTRIES 167 GERMANY 167 KRW-/ABFG 167 BATTERIEVERORDNUNG 168 BATTG 168 NORWAY 169 NETHERLANDS 169 THE UNITED STATES 170 STATE MANAGEMENT PLANS FOR WASTE 170 STATE MANAGEMENT PLANS FOR HAZARDOUS WASTE PRODUCERS 170 STATE MANAGEMENT PLANS FOR HAZARDOUS WASTE TRANSPORTERS 171 MANAGEMENT PLANS FOR TREATMENT, STORAGE, AND DISPOSAL FACILITIES OF HAZARDOUS WASTE 172 5.1.3 5.1.3.1 5.1.3.2 5.1.4 5.2 5.2.1 TYPICAL ASIAN COUNTRIES 172 CHINA 172 JAPAN 179 COMPARISON OF BATTERY RECYCLING LAWS IN DIFFERENT COUNTRIES 180 MANAGEMENT NORMS REGARDING BATTERY RECYCLING 182 MANAGEMENT NORMS REGARDING BATTERY RECYCLING IN VARIOUS COUNTRIES 182 5.2.1.1 5.2.1.2 5.2.1.3 5.2.2 5.3 5.3.1 THE UNITED STATES 182 CHINA 183 JAPAN 184 COMPARISON OF MANAGEMENT NORMS IN DIFFERENT COUNTRIES 187 TECHNICAL NORMS REGARDING BATTERY RECYCLING 188 TECHNICAL NORMS REGARDING BATTERY RECYCLING IN VARIOUS COUNTRIES 188 5.3.2 5.4 5.4.1 COMPARISON OF TECHNICAL NORMS IN DIFFERENT COUNTRIES 190 SUPPORT POLICIES REGARDING BATTERY RECYCLING 191 SUPPORT POLICIES REGARDING BATTERY RECYCLING IN DIFFERENT COUNTRIES 191 5.4.2 COMPARISON OF SUPPORT POLICIES IN DIFFERENT COUNTRIES 194 CONTENTS 6 6.1 6.1.1 6.1.1.1 6.1.1.2 6.1.13 NEW APPLICATION SCENARIOS FOR POWER LITHIUM-ION BATTERIES 197 THE EXISTING APPLICATION SCENARIOS OF POWER BATTERIES 197 TWO-WHEELED ELECTRIC VEHICLES 197 GLOBAL MARKET DEVELOPMENT STATUS 197 IMPACT OF NATIONAL POLICIES 200 DEVELOPMENT OUTLOOK OF EV BATTERY FOR TWO-WHEELED ELECTRIC VEHICLE 201 6.1.2 6.1.2.1 6.1.2.2 6.1.2.3 6.1.2.4 6.1.2.5 6.1.3 6.1.3.1 6.1.3.2 6.1.3.3 6.1.3.4 6.1.3.5 6.1.4 6.1.4.1 6.1.4.2 6.1.4.3 6.2 6.2.1 6.2.1.1 6.2.1.1.1 6.2.1.1.2 6.2.1.13 6.2.1.2 6.2.13 ELECTRIC VEHICLES 201 GLOBAL MARKET DEVELOPMENT STATUS 201 SEGMENTATION - ELECTRIC PASSENGER VEHICLES 204 SEGMENTATION - ELECTRIC BUSES 206 SEGMENTATION - ELECTRIC HEAVY TRUCKS 207 DEVELOPMENT OUTLOOK OF ELECTRIC VEHICLE EV BATTERY 210 ELECTRICSHIPS 211 BACKGROUND 211 NATIONAL SUPPORT POLICIES 211 GLOBAL MARKET DEVELOPMENT STATUS 212 BATTERY TECHNOLOGY FOR ELECTRIC BOATS 214 DEVELOPMENT OUTLOOK OF ELECTRIC BOAT POWER BATTERY 215 ENERGY STORAGE DEVICE 215 SEGMENTATION - V2G TECHNOLOGY 215 SEGMENTATION - CASCADE UTILIZATION 217 DEVELOPMENT OUTLOOK OF ENERGY STORAGE POWER BATTERY 219 DEVELOPMENT OF EMERGING BUSINESS MODE 219 POWER SWAP MODE OF TWO-WHEELED VEHICLES 219 INDUSTRY DEMAND DRIVES THE DEVELOPMENT OF POWER SWAP MODE 219 INSTANT DELIVERY (2B) 219 SHARED TRAVEL (2B) 220 INDIVIDUAL CYCLING (2C) 220 NEW NATIONAL STANDARD BOOSTS THE POWER SWAP MODE 220 BATTERY SWAPPING CABINET - A HUGE BLUE OCEAN MARKET IS FORMING 220 6.2.1.4 BATTERY TECHNOLOGY FOR POWER SWAPPING TWO-WHEELED ELECTRIC VEHICLES 221 6.2.1.5 6.2.1.5.1 6.2.1.5.2 6.2.2 6.2.2.1 6.2.2.1.1 6.2.2.1.2 6.2.2.13 6.2.2.2 6.2.23 6.2.2.4 ADVANTAGES AND DISADVANTAGES OF THE POWER SWAP MODE 222 ADVANTAGE 222 DISADVANTAGE 223 POWER SWAPPING ELECTRIC VEHICLES 223 HISTORY OF POWER SWAPPING ELECTRIC VEHICLES 223 PATHFINDER: BETTER PLACE 223 SUCCESSOR: TESLA 223 PROMOTERS 223 POLICY MAKES POWER SWAP POPULAR 224 BATTERY ASSET MANAGEMENT COMPANY 225 ADVANTAGES AND DISADVANTAGES 225 CONTENTS XI 6.2.2.4.1 6.2.2.4.2 6.2.2.5 6.2.3 6.2.3.1 6.2.3.2 6.2.3.3 6.2.4 6.2.4.1 6.2.4.2 6.2.4.3 6.3 7 7.1 7.1.1 7.1.2 7.1.3 7.1.4 7.1.5 7.2 7.2.1 7.2.2 7.2.3 7.2.3.1 7.2.3.2 7.2.3.3 7.2.4 ADVANTAGE 225 DISADVANTAGE 225 RECYCLING ROUTE OF DECOMMISSIONED LITHIUM-ION POWER BATTERIES IN THE POWER SWAP MODE 225 POWER SWAPPING ELECTRIC TRUCKS 226 DEMAND FOR POWER SWAPPING HEAVY TRUCKS 226 ECONOMIC ADVANTAGES OF POWER SWAPPING HEAVY TRUCKS 226 APPLICATION SCENARIOS FOR POWER SWAPPING HEAVY TRUCKS 227 POWER SWAPPING ELECTRIC SHIPS 228 EXPLORATION OF POWER SWAPPING ELECTRIC SHIPS 228 LFP, THE MAINSTREAM OF SHIPBOARD LITHIUM-ION POWER BATTERY 228 SUGGESTIONS 230 SUB-SUMMARY 230 BATTERY RECYCLING TECHNOLOGY OUTLOOK 235 ADVANCED BATTERY RECYCLING SYSTEM 235 ECONOMICAL ENVIRONMENTAL DISCHARGE TECHNOLOGY 235 HIGH-FLUX BATTERY DISASSEMBLY EQUIPMENT 235 HIGH-EFFICIENCY SEPARATION SYSTEM FOR VALUABLE METALS 236 HIGH-VALUE UTILIZATION OF LOW-VALUE BATTERIES/COMPONENTS 236 INTRINSIC SAFETY AND POLLUTION PREVENTION 236 GREEN BATTERY DESIGN FOR RECYCLING 236 BATTERY RAW MATERIALS 237 MATERIAL PRODUCTION 239 BATTERY PRODUCTION 240 SINGLE BATTERY 240 BATTERY PACK 241 BATTERY MANAGEMENT SYSTEM 241 BATTERY PASSPORT 242 INDEX 247
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author	Lin, Xiao Wang, Xue Liu, Gangfeng Zhang, Guobin
author_facet	Lin, Xiao Wang, Xue Liu, Gangfeng Zhang, Guobin
author_role	aut aut aut aut
author_sort	Lin, Xiao
author_variant	x l xl x w xw g l gl g z gz
building	Verbundindex
bvnumber	BV048577368
classification_rvk	ZP 4130 VN 6050 ZP 4120 ZN 8730
ctrlnum	(OCoLC)1362873548 (DE-599)DNB1256869139
discipline	Chemie / Pharmazie Energietechnik Elektrotechnik / Elektronik / Nachrichtentechnik
discipline_str_mv	Chemie / Pharmazie Energietechnik Elektrotechnik / Elektronik / Nachrichtentechnik
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index_date	2024-07-03T21:03:42Z
indexdate	2024-07-20T05:19:19Z
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physical	xiv, 254 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
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publisher	Wiley-VCH
record_format	marc
spelling	Lin, Xiao Verfasser aut Recycling of power lithium-ion batteries technology, equipment, and policies Xiao Lin, Xue Wang, Gangfeng Liu and Guobin Zhang Weinheim Wiley-VCH [2023] xiv, 254 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Recycling (DE-588)4076573-8 gnd rswk-swf Lithium-Ionen-Akkumulator (DE-588)7681721-0 gnd rswk-swf Batterien u. Brennstoffzellen Batteries & Fuel Cells CH30: Technische u. Industrielle Chemie CHA1: Batterien u. Brennstoffzellen Chemie Chemistry EG04: Energiespeicherung Energie Energiespeicherung Energy Energy Storage Industrial Chemistry Technische u. Industrielle Chemie Lithium-Ionen-Akkumulator (DE-588)7681721-0 s Recycling (DE-588)4076573-8 s DE-604 Wang, Xue Verfasser aut Liu, Gangfeng Verfasser aut Zhang, Guobin Verfasser aut Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-83988-9 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-83989-6 Erscheint auch als Online-Ausgabe 978-3-527-83990-2 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35108-4/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033953328&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20220505 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Lin, Xiao Wang, Xue Liu, Gangfeng Zhang, Guobin Recycling of power lithium-ion batteries technology, equipment, and policies Recycling (DE-588)4076573-8 gnd Lithium-Ionen-Akkumulator (DE-588)7681721-0 gnd
subject_GND	(DE-588)4076573-8 (DE-588)7681721-0
title	Recycling of power lithium-ion batteries technology, equipment, and policies
title_auth	Recycling of power lithium-ion batteries technology, equipment, and policies
title_exact_search	Recycling of power lithium-ion batteries technology, equipment, and policies
title_exact_search_txtP	Recycling of power lithium-ion batteries technology, equipment, and policies
title_full	Recycling of power lithium-ion batteries technology, equipment, and policies Xiao Lin, Xue Wang, Gangfeng Liu and Guobin Zhang
title_fullStr	Recycling of power lithium-ion batteries technology, equipment, and policies Xiao Lin, Xue Wang, Gangfeng Liu and Guobin Zhang
title_full_unstemmed	Recycling of power lithium-ion batteries technology, equipment, and policies Xiao Lin, Xue Wang, Gangfeng Liu and Guobin Zhang
title_short	Recycling of power lithium-ion batteries
title_sort	recycling of power lithium ion batteries technology equipment and policies
title_sub	technology, equipment, and policies
topic	Recycling (DE-588)4076573-8 gnd Lithium-Ionen-Akkumulator (DE-588)7681721-0 gnd
topic_facet	Recycling Lithium-Ionen-Akkumulator
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35108-4/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033953328&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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