Reinforced floatation desilicification method for high-silicon bauxite

A bauxite and flotation technology, applied in flotation, solid separation, etc., can solve the problems of low flotation index, large processing capacity, long cycle, etc. Effect

Inactive Publication Date: 2011-10-05
KUNMING UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although biological beneficiation technology has a good development prospect, the current experimental research has not yet achieved satisfactory technical and economic indicators, and the cost is high and the cycle is long; The removal of silicon is beneficial, but its energy consumption is high, the roasting system is strict, and the technology is not perfect; physical beneficiation, especially flotation, has the advantages of large processing capacity, low cost, easy to increase the ratio of aluminum to silicon, low energy consumption, high efficiency, and easy industrialization It is the first choice technology for flotation desiliconization. Its main disadvantage is that the ore is easy to muddy, resulting in harsh flotation environment and low flotation index. This is the first problem that must be solved in bauxite flotation.
In recent years, although some people have begun to use various physical and chemical methods to improve the flotation environment, the results are not ideal.
Enrich the target mineral Al from low-grade bauxite by adopting the reverse flotation desilication method of "enhanced secondary enrichment technology" without desliming in advance 2 o 3 Not yet reported

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0012] The ratio of aluminum to silicon in the raw ore is 5.65. The main mineral composition of the raw ore includes: diaspore, hydrous halloysite, kaolinite, quartz, goethite, anatase, and pyrite.

[0013] Grind 1 ton of bauxite ore and adjust it to a slurry with a mass concentration of 28%. Add 150g of collector dodecyl quaternary ammonium salt and 600g of inhibitor sodium fluorosilicate at room temperature, and spray 120L of water Carry out a rough selection; add 100g of the collector dodecyl quaternary ammonium salt, 300g of inhibitor sodium fluorosilicate, and spray 100L of water for a single selection; add the collector of dodecyl quaternary ammonium salt 80g, 200g inhibitor sodium fluorosilicate, and spray 75L of water for secondary selection; then add 70g collector dodecyl quaternary ammonium salt, 300g inhibitor sodium fluorosilicate, and spray 90L water Sweep the middle ore; the product floated from the original ore is used as tailings, and the product in the tank is ba...

Embodiment 2

[0015] The ratio of aluminum to silicon in the raw ore is 5.65. The main mineral composition of the raw ore includes: diaspore, hydrous halloysite, kaolinite, quartz, goethite, anatase, and pyrite.

[0016] Grind 1 ton of bauxite ore and adjust it to a slurry with a mass concentration of 38%. Add 150g of the collector dodecyl quaternary ammonium salt and 600g of the inhibitor sodium fluorosilicate at room temperature, and spray 120L of water Carry out a rough selection; add 100g of the collector dodecyl quaternary ammonium salt, 300g of inhibitor sodium fluorosilicate, and spray 100L of water for a single selection; add the collector of dodecyl quaternary ammonium salt 80g, 200g inhibitor sodium fluorosilicate, and spray 75L of water for secondary selection; then add 70g collector dodecyl quaternary ammonium salt, 300g inhibitor sodium fluorosilicate, and spray 90L water Sweep the middle ore; the product floated from the original ore is used as tailings, and the product in the ta...

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PUM

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Abstract

The invention provides a reinforced floatation desilicification method for high-silicon bauxite, which comprises the following steps: grinding the bauxite; at room temperature, applying a collecting agent and an inhibitor; spraying water; and then performing primary rough flotation, primary fine floatation, secondary fine floatation and middle-product scavenging, wherein the products floated from a raw ore are used as tailings and the products in a groove are used as concentrate bauxite. By using the method, the floating ratios of target ores and non-target ores are increased, the non-target ores are more easily floated, the flotation index is increased, the operation is simple, the energy consumption is low and the handling capacity is large.

Description

Technical field [0001] The invention relates to an enhanced flotation desiliconization method, in particular to an enhanced flotation desiliconization method for selecting silica-containing gangue minerals from bauxite and enriching alumina trioxide. technical background [0002] Bauxite is the most important ore resource in the alumina industry. At present, 95% of bauxite is used to produce alumina, and bauxite is used as a raw material for aluminum smelting. The smelting method varies depending on the ratio of aluminum to silicon. The Bayer process requires The aluminum-silicon ratio A / S of bauxite is 8-10, the combined method is 5.0-7.0, and the sintering method is 3.5-5.0. The ore types of bauxite in the world can be roughly divided into three basic types: gibbsite type, boehmite type, and diaspore type according to the useful mineral composition. At present, the production of alumina abroad mainly uses gibbsite, and the typical production process is the Bayer process. my c...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B03D1/00
Inventor 章晓林刘殿文方建军周兴龙凌石生杨柳毅徐瑾张文彬
Owner KUNMING UNIV OF SCI & TECH
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