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MTW European Type Trapezium Mill
Input size:30-50mm
Capacity: 3-50t/h
LM Vertical Roller Mill
Input size:38-65mm
Capacity: 13-70t/h
Raymond Mill
Input size:20-30mm
Capacity: 0.8-9.5t/h
Sand powder vertical mill
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Capacity: 30-900t/h
LUM series superfine vertical roller grinding mill
Input size:10-20mm
Capacity: 5-18t/h
MW Micro Powder Mill
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Capacity: 0.5-12t/h
LM Vertical Slag Mill
Input size:38-65mm
Capacity: 7-100t/h
LM Vertical Coal Mill
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Capacity: 5-100t/h
TGM Trapezium Mill
Input size:25-40mm
Capacity: 3-36t/h
MB5X Pendulum Roller Grinding Mill
Input size:25-55mm
Capacity: 4-100t/h
Straight-Through Centrifugal Mill
Input size:30-40mm
Capacity: 15-45t/h
Electrolytic aluminum waste slag mill scooter steering system Electrolytic aluminum waste slag mill scooter steering system Electrolytic aluminum waste slag mill scooter steering system
Efficient lithium recovery from electrolytic aluminum slag via an
2024年2月1日 The electrolytic aluminum industry generates a large amount lithium (Li)containing electrolytic aluminum slag (EAS) annually, and this can result in severe 2023年4月25日 This article analyzes and summarizes the composition and hazards of the overhaul slag and the current development status of domestic and international electrolytic Research Progress of Electrolytic Aluminum Overhaul Slag Disposal2024年5月23日 16 Million metric tons of spent carbon electrodes modify carbonrich solid wastes from aluminum electrolysis are produced annually, threatening ecosystems by cyanide The recycling of carbonrich solid wastes from aluminum 2020年8月1日 Here, we discuss the influence of different processing parameters on electrolytic refining of aluminum alloy and investigate the mechanism of extracting Al from coarse AlSi Recovery of aluminum from waste aluminum alloy by low
Dissolution behavior of overhaul slag from aluminum reduction
2023年8月1日 The main components of overhaul slag are aluminum and silicon oxides These components could be dissolved in the molten cryolitebased salt system (ie, electrolyte) in the 重点分析了副产含锂电解质的结构及理化性能,深入研究各参数指标,开辟了新的综合回收工艺路线,制备得到的高纯碳酸锂和冰晶石产品性能优异,均 展开更多 电解铝废渣综合利用电解铝副产 电解铝废渣提锂工艺研究【维普期刊官网】 中文 2023年9月1日 This study employed hydrometallurgical processes to selectively leach lithium from Licontaining aluminum electrolyte slag, using sodium carbonate solution as the leaching Clean Process for Selective Recovery of Lithium Carbonate from 2024年5月13日 The field of aluminum electrolysis includes topics related to alumina, inert anodes, electrolytes, electrolytic reduction, molten salt electrolysis and others The study of Research on Aluminum Electrolysis from 1970 to 2023: A
通过环保工艺从电解铝渣中高效回收锂:浸出行为和机制
2024年1月18日 本文提出了一种以AlCl为浸出剂从炉渣中回收Li的方法。 系统地考察了浸出温度、AlCl浓度、pH和固液比(S/L)对锂浸出效率的影响。 通过 SEM、XRD、Al NMR 和 XPS Aluminum ash is a kind of industrial solid waste Original aluminum ash (OAA) can be prepared into original aluminum ash spray powder (OAASP) through hydrolysis treatment, and the Recycling and Utilization of the Electrolytic Aluminium Ash and Slag2023年8月1日 The overhaul slag from the aluminum reduction cell is a hazardous waste The annual production of overhaul slag is above one million tons in China [1]The overhaul slag mainly consists of spent impervious materials and refractory bricks [2], [3]A large number of hazardous substances, such as fluorides and cyanides, are included in the overhaul slag [4]Dissolution behavior of overhaul slag from aluminum reduction 2024年2月1日 The electrolytic aluminum waste, which would inevitably be produced from the electrolytic process in the aluminum industry, is harmful to environment and human bodyEfficient lithium recovery from electrolytic aluminum slag via an
A comprehensive review of aluminium electrolysis and
2023年4月13日 Du JJ, Zeng P, Long HY, et al (2014) The study on the new technology of exhaust gas cascade utilization from electrolytic aluminum industry In Advanced Materials Research, vol1010, Trans Tech Publications Ltd, pp The invention discloses a method for preparing continuous casting covering slag by using electrolytic aluminum waste residue, waste water and blast furnace slag, which comprises the following steps: firstly, the covering slag takes 2245% of calcium oxide, 1756% of silicon oxide and 013% of aluminum oxide as basic slag, the melting point of the covering slag is controlled CNA Method for preparing continuous casting covering slag 2019年7月8日 The electrolytic aluminum waste, a new waste heatrecovery system—granulating molten BF slag by rotary multinozzles cup atomizer and pyrolyzing printed circuited board with obtained hot BF Thermodynamic analysis of waste heat recovery of aluminum 2012年12月31日 An aluminum fluoride film covered by graphite fluoride on metallic aluminum was prepared by reaction in the ternary system of aluminum graphite and fluorine gas at 450550 degree CStudy on Harmless and Resources Recovery Treatment Technology of Waste
Recovery of carbon and cryolite from spent carbon anode slag of
The comprehensive recovery and utilization of electrolytic aluminum spent carbon anode slag (Hereinafter simpli fied as “carbon anode slag”) are therefore necessary OPEN ACCESS2021年10月1日 In this work, the waste aluminum electrolyte was first ground in a ball mill system and sieved to a particle size ≤80 μm Furthermore, the sample, Na 2 CO 3, and CaO before use were dried at 120 °C for 24 h in a drying oven on forced convection All aqueous solutions were prepared with deionized waterA novel approach for lithium recovery from waste lithium 2023年4月25日 As the main solid waste of the electrolytic aluminum industry, overhaul slag contains a large amount of hazardous substances, and how to treat it harmlessly and efficiently recover the valuable substances in it has become an urgent problem in the aluminum industry in recent years This article analyzes and summarizes the composition and hazards of the Research Progress of Electrolytic Aluminum Overhaul Slag The electrolytic aluminum industry generates a large amount lithium (Li)containing electrolytic aluminum slag (EAS) annually, and this can result in severe environmental pollution and wasting of Li resources This paper proposes a method for recovering Li from the slag using AlCl3 as the leaching agent The effects of the leaching temperature, AlCl3 concentration, pH, and solidto Efficient lithium recovery from electrolytic aluminum slag via an
Efficient lithium recovery from electrolytic aluminum slag via an
The electrolytic aluminum industry generates a large amount lithium (Li)containing electrolytic aluminum slag (EAS) annually, and this can result in severe environmental pollution and wasting of Li resources This paper proposes a method for recovering Li from the slag using AlCl3 as the leaching agent The effects of the leaching temperature, AlCl3 concentration, pH, and solidto 2023年10月1日 The electrolytic aluminum industry generates a large amount lithium (Li)containing electrolytic aluminum slag (EAS) annually, and this can result in severe environmental pollution and wasting of Li resources This paper proposes a method for recovering Li from the slag using AlCl 3 as the leaching agentEfficient extraction and recovery of lithium from waste aluminum Maytham Mahmood Ali AlKhwarizmi Engineering Journal, Vol 14, No 3, PP 81 91 (2018) 84 21 Fluxing and Degassing of AluminumRecovery of Aluminum from Industrial Waste (Slag) by Melting 2014年1月1日 "With the idea of “waste control by waste itself”, we come up with the crafts of using waste calcium carbide to mineralize CO2 in electrolytic aluminum waste gas, design and make out “Venturi gasliquidsolid three stage reactor”, do experiments under the system of CO2Ca(OH)2, investigate the influence on gas absorption by pH meter; investigate the influence OneMine Electrolytic Aluminum Waste Gas
Recovery of aluminum from waste aluminum alloy by low
Abstract Large amounts of industrial waste discharge have serious implications for the environment The production of coarse AlSi alloy by carbothermal reduction is considered to be one potential method for making use of industrial aluminiferous waste slag Here, we discuss the influence of different processing parameters on electrolytic refining of aluminum alloy and 2022年10月10日 One of the main electrolytic aluminum production costs is the consumption of carbon anodes, and carbon anode slag is a common hazardous waste in the aluminum industryRecovery of carbon and cryolite from spent carbon anode slag of 2023年5月20日 Due to chemical corrosion and erosion by molten aluminum liquid and electrolyte, the carbon anode of the aluminum electrolytic cell would fall off into the electrolyte during the primary aluminum electrolysis process to produce spent anode carbon (SCA), which has been listed as one of the typical hazardous solid wastes in the National Hazardous Waste Regeneration of raw materials for aluminum electrolysis from Both methods have their own advantages and disadvantages, and the specific choice depends on the composition and characteristics of the waste residue Both acid leaching and alkali leaching methods require pretreatment of electrolytic aluminum waste by grinding Firstly, dry the waste residue to reduce its moisture content to below 5%How to extract lithium from electrolytic aluminum waste residue?
Efficient lithium recovery from electrolytic aluminum slag via an
2024年2月1日 The electrolytic aluminum industry generates a large amount lithium (Li)containing electrolytic aluminum slag (EAS) annually, and this can result in severe environmental pollution and wasting of Li resources This paper proposes a method for recovering Li from the slag using AlCl 3 as the leaching agent The effects of the leaching temperature, AlCl 3 MORE The recycling technology and process of electrolytic aluminum byproduct,lithiumcontaining electrolytes by comprehensive utilization of electrolytic aluminum waste slag is relatively backward,failing to realize recycling of the expensive lithium resourcesThe structure and physical and chemical properties of the byproduct lithiumcontaining electrolytes are 电解铝废渣提锂工艺研究【维普期刊官网】 中文 CNA CN82A CN8A CNA CN A CN A CN A CN 8 A CN8 A CN 8A CN A CN A CN A Authority CN China Prior art keywords electrolytic aluminum fluidized bed conveying waste circulating fluidized Prior art date 201912 CNA Circulating fluidized bed boiler mixed 2024年3月21日 Synthesis of Electrolytic Manganese Slag–Solid WasteBased Geopolymers: EMR has high silica–aluminum content and is a potential ASM for the prepara C for 4 h and ground in a ball mill Synthesis of Electrolytic Manganese Slag–Solid WasteBased
Recovery of carbon and cryolite from spent carbon anode slag of
One of the main electrolytic aluminum production costs is the consumption of carbon anodes, and carbon anode slag is a common hazardous waste in the aluminum industry In this work, electrolytic aluminum carbon anode slag was separated by flotation Using the selectivity index (SI) as an indicator, the influencing factors of the carbon slag flotation process were optimized, 2022年10月10日 The comprehensive recovery and utilization of electrolytic aluminum spent carbon anode slag (Hereinafter simplified as “carbon anode slag”) are therefore necessary Flotation is a physical separation method used to separate particles by using the difference in surface property of particles ( Chen et al, 2022 ; Ni et al, 2022 )Recovery of carbon and cryolite from spent carbon anode slag of 2020年11月13日 The disclosed technology includes a method for producing ultrafine alumina from salt slag waste generated in aluminum recycling useful in the manufacture of durable ceramic products; a system for recovering alumina from salt slag waste; a method and systems for recovering salts, aluminum and alumina from salt slag waste; and a method and systems of SYSTEMS AND METHODS FOR RECOVERING SALTS, ALUMINUM, 2023年10月1日 The main components of waste aluminum cryolite electrolyte are cryolite (Na 3 AlF 6), potassium cryolite (K 2 NaAlF 6), lithium cryolite (Na 2 LiAlF 6), fluorite (CaF 2), and approximately 2% carbon black (Wang et al, 2019)The main treatment methods of waste aluminum cryolite electrolyte can be divided into two categories: combined thermalwet Efficient extraction and recovery of lithium from waste aluminum
Recycling application of modified waste electrolytic manganese anode
2021年3月25日 Electrolytic manganese anode slag (EMAS) is the waste residue produced by electrolytic manganese metal industry At present, no mature recycling system has been established, which causes a waste of resources and threatens the environment Therefore, the resource utilization of EMAS has attracted increased attentionThe utility model discloses an electrolytic aluminum overhaul slag harmless treatment device which comprises a crushing assembly, a grinding assembly and a redistribution assembly, wherein the crushing assembly is used for primarily crushing overhaul slag and then transmitting the crushed overhaul slag to the grinding assembly for grinding, the ground overhaul slag is CNU Electrolytic aluminum overhaul slag2015年3月1日 The electrolytic aluminium industry is a typical energyintensive industry, and one of the six largest energyconsuming industries in China The energy consumption of China’s electrolytic aluminium industry (CEAI) in 2011 accounted for 091% of China’s total energy consumption and 227% of the total energy consumption of the nonferrous metal industryEnergy conservation of electrolytic aluminum industry in ChinaThe electrolytic aluminum waste, which would inevitably be produced from the electrolytic process in the aluminum industry, is harmful to environment and human body Sending it to the coalfired boiler seems to be an ecofriendly scheme to dispose the waste In this study, the cocombustion characteristics of the electrolytic aluminum waste (cathode carbon blocks (CCB) and hardened Cocombustion characteristics of electrolytic aluminum waste
Dissolution behavior of overhaul slag from aluminum reduction
2023年8月1日 The overhaul slag from the aluminum reduction cell is a hazardous waste The annual production of overhaul slag is above one million tons in China [1]The overhaul slag mainly consists of spent impervious materials and refractory bricks [2], [3]A large number of hazardous substances, such as fluorides and cyanides, are included in the overhaul slag [4]2024年2月1日 The electrolytic aluminum waste, which would inevitably be produced from the electrolytic process in the aluminum industry, is harmful to environment and human bodyEfficient lithium recovery from electrolytic aluminum slag via an 2023年4月13日 Du JJ, Zeng P, Long HY, et al (2014) The study on the new technology of exhaust gas cascade utilization from electrolytic aluminum industry In Advanced Materials Research, vol1010, Trans Tech Publications Ltd, pp A comprehensive review of aluminium electrolysis and The invention discloses a method for preparing continuous casting covering slag by using electrolytic aluminum waste residue, waste water and blast furnace slag, which comprises the following steps: firstly, the covering slag takes 2245% of calcium oxide, 1756% of silicon oxide and 013% of aluminum oxide as basic slag, the melting point of the covering slag is controlled CNA Method for preparing continuous casting covering slag
Thermodynamic analysis of waste heat recovery of aluminum
2019年7月8日 The electrolytic aluminum waste, a new waste heatrecovery system—granulating molten BF slag by rotary multinozzles cup atomizer and pyrolyzing printed circuited board with obtained hot BF 2012年12月31日 An aluminum fluoride film covered by graphite fluoride on metallic aluminum was prepared by reaction in the ternary system of aluminum graphite and fluorine gas at 450550 degree CStudy on Harmless and Resources Recovery Treatment Technology of Waste The comprehensive recovery and utilization of electrolytic aluminum spent carbon anode slag (Hereinafter simpli fied as “carbon anode slag”) are therefore necessary OPEN ACCESSRecovery of carbon and cryolite from spent carbon anode slag of2021年10月1日 In this work, the waste aluminum electrolyte was first ground in a ball mill system and sieved to a particle size ≤80 μm Furthermore, the sample, Na 2 CO 3, and CaO before use were dried at 120 °C for 24 h in a drying oven on forced convection All aqueous solutions were prepared with deionized waterA novel approach for lithium recovery from waste lithium
Research Progress of Electrolytic Aluminum Overhaul Slag
2023年4月25日 As the main solid waste of the electrolytic aluminum industry, overhaul slag contains a large amount of hazardous substances, and how to treat it harmlessly and efficiently recover the valuable substances in it has become an urgent problem in the aluminum industry in recent years This article analyzes and summarizes the composition and hazards of the The electrolytic aluminum industry generates a large amount lithium (Li)containing electrolytic aluminum slag (EAS) annually, and this can result in severe environmental pollution and wasting of Li resources This paper proposes a method for recovering Li from the slag using AlCl3 as the leaching agent The effects of the leaching temperature, AlCl3 concentration, pH, and solidto Efficient lithium recovery from electrolytic aluminum slag via an