Lanzhou Honggang Aluminum aluminum ash, overhaul slag, aluminum electrolyte processing plant

Research Progress of Electrolytic Aluminum Overhaul Slag Disposal

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 2024年2月1日  In this paper, an innovative process of sulfuric acid roasting and water leaching is proposed, which can efficiently and environmentally recover F, Al and Li from overhaul slag A novel approach for extracting lithium from overhaul slag by low 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 Efficient lithium recovery from electrolytic aluminum slag via an With the rapid development of aluminium smelting industry in China, millions of tons of hazardous wastes such as carbon slag, overhaul slag and aluminum ash are generated every yearPresent situation of production, utilization and disposal of

Cleaner Process for the Selective Extraction of Lithium from Spent

2024年7月24日  The lithium was selectively recovered and enriched from spent aluminum electrolyte slag by using calcium salt roasting transformation followed by HBL121solvent 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 2023年8月1日  The full alumina dissolution process in aluminum electrolysis cells was investigated using an improved computational fluid dynamics (CFD) model based on the Dissolution behavior of overhaul slag from aluminum reduction 2024年5月23日  Here, we review carbonrich solid wastes with focus on sources and hazards, detoxification, separation, recovery, recycling and disposal Treatment techniques include The recycling of carbonrich solid wastes from aluminum

电解铝大修渣处置研究进展

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 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 2020年1月2日  The invention discloses a fluorineretaining agent for overhaul slag of an aluminum electrolytic cell The fluorineretaining agent comprises the following components of, by mass, 80100 parts of calcium sulfate, 6080 parts of calcium oxide, 5070 parts of calcium hydroxide and 3060 parts of calcium chloride The invention further discloses a method for Fluorineretaining agent for overhaul slag of aluminum 2019年2月26日  Aluminum ash is an industrial waste residue produced during alumina electrolysis and aluminum processing and casting In the experiment, alumina powder with a purity of 9897% was prepared by (PDF) Preparation of Alumina from Aluminum Ash

Stepwise extraction of lithium and potassium and recovery of

2024年6月29日  Aluminum electrolyte is a necessity for aluminum reduction cells; however, its stock is rising every year due to several factors, resulting in the accumulation of solid waste Currently, it has become a favorable material for the resources of lithium, potassium, and fluoride In this study, the calcification roasting–twostage leaching process was introduced to extract The main components of aluminum ash include single aluminum, aluminum oxide (Al 2 O 3), aluminum nitride (AlN), aluminum carbide (Al 4 C 3), fluoride and chlorinated salts, silicon, iron and other oxide (Kang et al 2022) Aluminum ash slag can be divided into primary aluminum ash and secondary aluminum ash accordingAssessing Environmental Impact of Aluminum Ash Disposal in 2016年10月24日  The industrial aluminum reduction cell is an electrochemistry reactor that operates under high temperatures and highly corrosive conditions However, these conditions have restricted the measurement of key control parameters, making the control of aluminum reduction cells a difficult problem in the industry Because aluminum electrolysis control Progress in Aluminum Electrolysis Control and Future Direction 2024年7月24日  Spent aluminum electrolyte slag is a byproduct produced during the electrolysis of aluminum and contains elements such as F, Al, Na, and Li It is a toxic and harmful substance with a stable and complex structure As a consequence of fluorine pollution and low lithium recovery efficiency in the traditional hydro metallurgy process, a novel cleaner production Cleaner Process for the Selective Extraction of Lithium from Spent

Efficient lithium recovery from electrolytic aluminum slag via an

2024年1月1日  Semantic Scholar extracted view of "Efficient lithium recovery from electrolytic aluminum slag via an environmentally friendly process: Leaching behavior and Green and efficient separation of fluorine from spent aluminum electrolyte by aluminum sulfate solution: Leaching behavior and mechanism Lingqi Meng Tianxiang Hao +5 2021年10月1日  To recover valuable elements such as lithium from waste aluminum electrolyte, Wu et al (2021) mixed Na 2 CO 3 with waste aluminum electrolyte and roasted them at 650 • C for 25 h, and Na 2 A novel approach for lithium recovery from waste lithium aluminum, heat treatment or cold treatment processes are generally used to recover the 10% to 30% of metallic aluminum contained in the aluminum slag The secondary aluminum dross is accounting for approximately 70% to 90% of the aluminum slag, which the metal aluminum content remained is generally less than 5%Technical Report International AluminiumPrimary production involves mining bauxite deposits from the earth, chemically refining it into pure aluminum oxide and performing electrometallurgical processing to ultimately form aluminum Secondary production makes new Aluminum Production and Processing

Chapter 2 Production and Processing of Aluminum

Chapter 2 Production and Processing of Aluminum 21 Extraction of Aluminum The extraction of aluminum from its ore and subsequent processing into finished products takes place in a series of successive operations, each largely 2020年11月23日  The application of aluminium ash and slag recycling plant The recycle process of aluminum ash and slag is suitable for all aluminum processing enterprises, such as electrolytic aluminum plant, aluminum parts plant, alloy Recycling and utilization of the aluminum ash and 2024年6月4日  By recycling the metal aluminum in aluminum ash, the quantity and toxicity of aluminum ash can be reduced, and the other components in aluminum ash can be utilized to prepare refractory materials (Li et al 2014; Yoshimura et al 2008; Ruiqiong et al 2014), desulfurizer (Weiqin 2010), aluminum sulfate (Ming 2018) and other products, which can Assessing Environmental Impact of Aluminum Ash Disposal in next to a nuclear power plant can also be economically attractive, as at Dunkerque in France Fig 23 shows an aluminum smelter with its long potrooms and tall alumina silos 221 The electrolysis process2 In the HallHéroult process, the electrolyte is molten cryolite (Na 3 AlF 6) in which 2–8% of alumina (Al 2 O 3) is dissolvedChapter 2 Production and Processing of Aluminum The

Aluminum dross: aluminum metal recovery and emerging

2024年4月17日  Recycling plays an important role in today's world due to its considerable contributions to mitigating energy concerns and environmental challenges One of them is dross recycling from aluminum (Al) cast houses Unlike other recyclable materials, dross has an abundance of components, including rare earth elements, heavy metals, ferrous, and recycled 2017年11月22日  A method is developed for processing saline aluminumcontaining slag based on leaching and electrolysis of solid residue after leaching in molten fluoride with preparation of a deoxidizing alloy for steel Saline solution is evaporated with preparation of a covering and/or coveringrefining flux In the course of pilot plant tests, optimum process conditions are Comprehensive Processing of Saline AluminumContaining Slag2021年10月1日  At present, there are more and more researches on the resource utilization of aluminum ash, which are mainly in the areas of foaming agents for lightweight materials in construction [5], extraction of metallic aluminium [6], leaching of rare and precious heavy metals [7,8], the firing of ceramics[9], preparation of polymeric aluminum chloride and nano alumina, A novel approach for lithium recovery from waste lithium 2021年7月30日  Sintering Aluminum dross and coal fly ash were used to prepare mullitebased ceramics through sintering and acid leaching methods At a sintering temperature of 1500 C, high mulliteA Review of Secondary Aluminum Production and Its Byproducts

Processing 101 The Aluminum Association

Ideal for processing large pieces of aluminum, open die presses do not constrain the aluminum billet during the forging process and utilize flat dies free of precut profiles and designs Aluminum blocks weighing up to 200,000 pounds and 80 feet in length can be opendie forged to create large aluminum components with optimal structural integrityThe aluminum dross skimming from the smelting furnace is called primary aluminum dross, which is graywhite in appearance, mainly composed of a mixture of metallic aluminum and aluminum oxide, and the aluminum content Aluminium dross processing/Brightstar Aluminum Aluminium ash and slag are produced from molten slag cooling in the electrolytic aluminium production process,the recycling and utilization of the electrolytic aluminium ash and slag is attracting more and more attention at home and abroad for their valuable components such as 10%30% aluminium and 30% Al2O3The recovery utilization and technology of advantages Recycling and Utilization of the Electrolytic Aluminium Ash and Slag2022年12月12日  Calcium carbide slag is a waste slag produced after the hydrolysis of calcium carbide to obtain acetylene gas, with very fine particles, offwhite color due to the presence of trace carbon and sulfur impurities, slightly odorous, with Ca(OH) 2 as the main component, and a slag liquid pH value of 12 or more, thus often causing serious pollution to the environment [18]Comprehensive performance study of aluminum ash and calcium

Research on the Preparation Parameters and Basic Properties of

2021年10月6日  Secondary aluminum dross is a byproduct of the electrolytic aluminum industry, whose main components are Al2O3, AlN and Na3AlF6 Secondary aluminum dross is a type of hazardous waste, with a 2020年8月1日  1 Introduction Nowadays, coal combustion can meet more than 70% of the total energy demand in China Even by 2050, coal combustion can still meet about 50% of the total energy demand [1]Zhundong coalfield, located in Xinjiang province, is the largest integrated coalfield with a coal reserve of 390Gt [2]This coalfield can be utilized for more than 100 years Evaluation of aluminum ash in alleviating the ash deposition of Coal fly ash (CFA), an industrial byproduct of hightemperature combustion of coal in coalfired power plants, is one of the most complex and largest amounts of industrial solid wastes generated in China It is widely recognized that CFA should be considered as a potential alumina resource to substitute bauxite In this review, the features of highalumina fly ash and aluminum recovery Aluminum extraction technologies from high aluminum fly ash De GruyterWith the rapid development of aluminium smelting industry in China, millions of tons of hazardous wastes such as carbon slag, overhaul slag and aluminum ash are generated every year In order to promote the refined management of hazardous wastes in China, an indepth research had been done, the current generation process link, pollution characteristics, utilization and Present situation of production, utilization and disposal of

The recycling of carbonrich solid wastes from aluminum

2024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 and fluoride pollution Here, we review carbonrich solid wastes with focus on sources and hazards, detoxification, separation, recovery, recycling and disposal Treatment techniques 2023年8月2日  The highvalue, green and harmless purification of aluminum electrolysis comprehensive solid waste can not only reduce its harm to the environment and soil but also separate and recover the highvalue rare elements This study aims to develop a process for recovering and treating waste aluminum electrolytes by sulfuric acid roasting The results of Sustainable Recovery of Fluorine from Waste Aluminum Electrolyte 2023年10月1日  Currently, the green resource utilization in the aluminum electrolysis industry mainly focuses on the solid waste treatment of aluminum electrolysis tank overhaul slag, the resource utilization of waste cathodes, and the recovery of electrolytic tank waste heat There are few reports on lithium recovery from waste aluminum electrolytes [16,17]A novel approach for ultrasonic assisted organic acid leaching of 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

Fluorineretaining agent for overhaul slag of aluminum

2020年1月2日  The invention discloses a fluorineretaining agent for overhaul slag of an aluminum electrolytic cell The fluorineretaining agent comprises the following components of, by mass, 80100 parts of calcium sulfate, 6080 parts of calcium oxide, 5070 parts of calcium hydroxide and 3060 parts of calcium chloride The invention further discloses a method for 2019年2月26日  Aluminum ash is an industrial waste residue produced during alumina electrolysis and aluminum processing and casting In the experiment, alumina powder with a purity of 9897% was prepared by (PDF) Preparation of Alumina from Aluminum Ash 2024年6月29日  Aluminum electrolyte is a necessity for aluminum reduction cells; however, its stock is rising every year due to several factors, resulting in the accumulation of solid waste Currently, it has become a favorable material for the resources of lithium, potassium, and fluoride In this study, the calcification roasting–twostage leaching process was introduced to extract Stepwise extraction of lithium and potassium and recovery of The main components of aluminum ash include single aluminum, aluminum oxide (Al 2 O 3), aluminum nitride (AlN), aluminum carbide (Al 4 C 3), fluoride and chlorinated salts, silicon, iron and other oxide (Kang et al 2022) Aluminum ash slag can be divided into primary aluminum ash and secondary aluminum ash accordingAssessing Environmental Impact of Aluminum Ash Disposal in

Progress in Aluminum Electrolysis Control and Future Direction

2016年10月24日  The industrial aluminum reduction cell is an electrochemistry reactor that operates under high temperatures and highly corrosive conditions However, these conditions have restricted the measurement of key control parameters, making the control of aluminum reduction cells a difficult problem in the industry Because aluminum electrolysis control 2024年7月24日  Spent aluminum electrolyte slag is a byproduct produced during the electrolysis of aluminum and contains elements such as F, Al, Na, and Li It is a toxic and harmful substance with a stable and complex structure As a consequence of fluorine pollution and low lithium recovery efficiency in the traditional hydro metallurgy process, a novel cleaner production Cleaner Process for the Selective Extraction of Lithium from Spent 2024年1月1日  Semantic Scholar extracted view of "Efficient lithium recovery from electrolytic aluminum slag via an environmentally friendly process: Leaching behavior and Green and efficient separation of fluorine from spent aluminum electrolyte by aluminum sulfate solution: Leaching behavior and mechanism Lingqi Meng Tianxiang Hao +5 Efficient lithium recovery from electrolytic aluminum slag via an 2021年10月1日  To recover valuable elements such as lithium from waste aluminum electrolyte, Wu et al (2021) mixed Na 2 CO 3 with waste aluminum electrolyte and roasted them at 650 • C for 25 h, and Na 2 A novel approach for lithium recovery from waste lithium

Technical Report International Aluminium

aluminum, heat treatment or cold treatment processes are generally used to recover the 10% to 30% of metallic aluminum contained in the aluminum slag The secondary aluminum dross is accounting for approximately 70% to 90% of the aluminum slag, which the metal aluminum content remained is generally less than 5%

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