Bauxite residue is the industrial solid waste discharged from the production of alumina by bauxite, which contains a certain amount of ferric oxide in a reddishbrown color, so it is also called "red mud", and is a typical nonferrous metallurgical solid waste (Wang et al. 2018; Xue et al. 2022).The varieties of bauxite residue depend on the grade of the bauxite and alumina production process.
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Also of importance is the relative amount of the three phases: gibbsite, boehmite, and diaspore as their dissolution characteristics in the Bayer process are quite different. By far, gibbsite is the cheapest to process. In 1873, bauxite mining began in Villeveyrac in France. Since then, bauxite mining has grown to a huge scale.
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The Bayer process is the first stage in the extraction of aluminium. It involves the purification of bauxite to obtain pure anhydrous aluminium oxide, also k...
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Approximately 85 % of bauxite is converted to alumina (Al 2 O 3) for aluminum metal production (Liu et al. 2009), and the majority of bauxite ores are used for the production of alumina via the Bayer Bayer process is the principal industrial means of refining gibbsite bauxite. Globally, more than 90 % of alumina is produced by the Bayer process (Hausberg et al. 2000).
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The total amount of alumina that is extractable in solution from bauxite in the Bayer process at 143 °C is called the Available Alumina (AA or Al143). Silica is the most commercially important impurity in bauxite. Reactive silica is silica which reacts with comparable amounts of alumina during the Bayer process digestion of bauxite to form ...
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The Bayer process applied to alumina refining from bauxite generates bauxite residue (BR) in a proportion ranging from to (alumina :BR). Aluminum is already one of the most global recycled metals, however, transforming the BR into a secondary source of raw materials is a promising environmental and economic solution, expanding the CE ...
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Bauxite can be found in a number of different physical forms including: pisolitic, friable and hardcap. Each bauxite will have its own distinctive crushing and milling characteristics. Bauxite can be highly variable through the mine pit profile, both vertically and horizontally. Often large blocks from blasted or ripped bauxite can be upto 1±2 m 3
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The Bayer process produces pure aluminium hydroxide from bauxite. As shown in the figure below, this process utilises the different thermodynamic properties of the caustic soda aluminium hydroxide system and typically consists of the following stages: bauxite crushing grinding, leaching, physical separation, precipitation and ...
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Resource figures are current as at 31 December 2016. Bauxite is a natural product of weathering and occurs as a white to grey to reddish orangebrown crust at or near the Earth's surface in regions that have, or have had in the past, high rainfall. Bauxite is generally hard, heterogeneous in appearance and can be nodular, layered or massive.
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Bauxite is the principal ore of aluminum. The first step in producing aluminum is to crush the bauxite and purify it using the Bayer Process. In the Bayer Process, the bauxite is washed in a hot solution of sodium hydroxide, which leaches aluminum from the bauxite. The aluminum is precipitated out of solution in the form of aluminum hydroxide ...
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the dissolved metal as the "back" end. This is the essence of the continuous Bayer Process used by the industry today. Caustic liquor (a strong caustic soda solution) is the medium moving around the circuit. When bauxite is added, the aluminium dissolves and a "green" (or pregnant) liquor richer in aluminium is formed.
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The aim of this work was to achieve an understanding of the distribution of selected bauxite trace elements (gallium (Ga), vanadium (V), arsenic (As), chromium (Cr), rare earth elements (REEs), scandium (Sc)) in the Bayer process. The assessment was designed as a case study in an alumina plant in operation to provide an overview of the trace elements behaviour in an actual industrial setup.
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Summary This chapter contains sections titled: Introduction Evaluation of Bauxite Extraction Silica Residue Separation Decomposition Causticization of Sodium Aluminate Liquors Flow of Fluids Heat T...
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Basic Principles of Bayer Process Design. A. N. Adamson, A. N. Adamson. Search for more papers by this author. ... Evaluation of Bauxite. Extraction. Silica. Residue Separation. Decomposition. Causticization of Sodium Aluminate Liquors. Flow of Fluids. Heat Transfer in the Bayer Process. Discussion. Essential Readings in Light Metals: Alumina ...
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Abstract In the Bayer process for alumina production, between 235% Al 2O 3 is lost with bauxite residue due primarily to incomplete dissolution of aluminiumbearing minerals during caustic leaching or the precipitation of sodium ... the principle Bayer process reagent. Despite the benefit in terms of
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The research on pressure leaching started in 1887. Karl Josef Bayer was the first one who proposed to leaching bauxite with sodium hydroxide solution at a temperature of 413453 K to obtain sodium ...
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Bauxite is commonly mined using opencut techniques. The Bayer process is used to purify the bauxite. This method involves dissolving aluminum trihydrate to produce alumina as well as iron and titanium oxides. Iron and titanium oxides are byproducts of the process that are commonly referred to as 'red mud.'
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In the Bayer process for alumina production, between 235% Al 2 O 3 is lost with bauxite residue due primarily to incomplete dissolution of aluminium bearing minerals during caustic leaching or the precipitation of sodium aluminosilicate solids. The recovery of sodium and aluminium from the residue, and particularly from the contained sodium aluminosilicates, is becoming an increasingly ...
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The Bayer process is a chemical process for refining aluminium hydroxide, Al(OH) 3 from bauxite; this aluminium hydroxide is subsequently calcined to produce alumina, Al 2 O 3 . The basis of the ...
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Mining and Refining Process. The Bayer Process was invented and patented in 1887 by Austrian scientist Karl Josef Bayer. Two to three tonnes of bauxite are required to produce one tonne of alumina. 90% of the global alumina supply of around 90 million tonnes is used in aluminium production. Alumina refineries tend to be located close to ...
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The Bayer process holds an exclusive status for alumina extraction, but a massive amount of caustic "red mud" waste is generated. In this work, three oxalate reagents: potassium hydrogen oxalate (KHC 2 O 4), potassium tetraoxalate (KHC 2 O 4 ·H 2 C 2 O 4), and oxalic acid (H 2 C 2 O 4) were investigated for the Al and Fe extraction process from NIST SRM 600 AustralianDarling range ...
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2. BAYER PROCESS This section includes five significant areas: 1. Bayer Process Design. This first area includes the fundamental principles of Bayer process design as well as the history of the development of the Bayer process. The basic process has not changed but the development of its application for more than a century is truly remarkable.
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