Iron-increasing and silicon-reducing reselection technique for mixed-type lean iron ore tailings

A lean iron ore, mixed technology, applied in the mixed lean iron ore tailings iron extraction and silicon reduction process, mixed fine grain embedded magnetite beneficiation technology field, can solve the problem of affecting the quality and resources of concentrate products. The problem of high utilization rate and beneficiation cost can be overcome, and the effect of overcoming the high cost of chemicals, reducing production cost and high yield is achieved.

Active Publication Date: 2013-02-06
YUXI DAHONGSHAN MINING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In order to improve the utilization rate of resources, most ore concentrators adopt a strong magnetic-two-end spiral chute process or a coarse-finish two-end spiral chute process for re-selection of tailings. For weak magnetic tailings, especially mixed lean iron ore tailings The grade of re-selected concentrate is 50-62%, and the silicon content is mostly around 6%. The cost of mineral processing is high, and the yield of fine particles is generally only about 5%, which seriously affects the quality of finished concentrate and resource utilization.

Method used

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  • Iron-increasing and silicon-reducing reselection technique for mixed-type lean iron ore tailings

Examples

Experimental program
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Effect test

Embodiment 1

[0027] The tailings of Dahongshan Concentrator of Kunming Iron and Steel Co., Ltd. with a grade of 10%, a pulp concentration of 15%, and a particle size of -0.043mm accounting for 75% by weight were subjected to a Jones wet high-field magnetic separator with a magnetic field strength of 5000 Oersted to obtain a rougher concentrate and roughing tailings; the roughing concentrate is selected by a high-gradient magnetic separator with a magnetic field strength of 10,000 Oersted to obtain a concentrated tailings and a magnetic separation concentrate with a grade of 45% and a pulp concentration of 18%; the magnetic separation concentrate The ore is separated by a 150r / min centrifugal concentrator to obtain centrifugal concentrate and centrifugal tailings with a slurry concentration of 15%; the centrifugal tailings are separated by a shaking table with a stroke of 8mm and 250 times / min to obtain shaken concentrate and Shaking tailings; shaker separation and classification, single rou...

Embodiment 2

[0029] The tailings of Dahongshan Concentrator of Kunming Iron and Steel Co., Ltd. with a grade of 35%, a pulp concentration of 25%, and a particle size of -0.043mm accounting for 80% by weight were passed through a high-gradient magnetic separator with a magnetic field strength of 7500 Oersted to obtain a rougher concentrate and rougher Tailings selection; the rough selection concentrate is selected by a high-gradient magnetic separator with a magnetic field strength of 15,000 Oersted to obtain the selection tailings and magnetic separation concentrate with a grade of 50% and a pulp concentration of 26%; The 250r / min centrifugal concentrator separates the centrifugal concentrate and the centrifugal tailings with a pulp concentration of 20%; the centrifugal tailings are subjected to a 10mm stroke and a 300 times / min shaking table for coarse and fine secondary separation to obtain shaking separation Concentrate and shaking tailings; shaking table separation is not classified, ro...

Embodiment 3

[0031] The tailings of the Dahongshan Concentrator of Kunming Iron and Steel Co., Ltd. with a grade of 25%, a pulp concentration of 21%, and a particle size of -0.043mm accounting for 90% by weight were passed through a high-gradient magnetic separator with a magnetic field strength of 10,000 Oersted to obtain roughing tailings and grades. 43%, pulp concentration 30% roughing concentrate; the roughing concentrate is selected by a superconducting magnetic separator with a magnetic field strength of 20,000 Oersted to obtain selected tailings and magnetic separation concentrate with a grade of 55% and a pulp concentration of 22%. ore; the magnetic separation concentrate is separated by a 200r / min centrifugal concentrator to obtain centrifugal concentrate and centrifugal tailings with a slurry concentration of 25%; the centrifugal tailings are separated by a shaking table with a stroke of 9mm and 275 times / min Shaking tailings and shaking concentrate with a grade of 66% and a pulp ...

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Abstract

The invention discloses an iron-increasing and silicon-reducing reselection technique for mixed-type lean iron ore tailings, comprising the following steps of: strong magnetic roughing: putting mixed-type lean iron ore tailings through a strong magnetic separator with the magnetic field intensity of [U1] Oersteds to obtain roughed concentrate and roughed tailings; strong magnetic cleaning: selecting the roughed concentrate in the strong magnetic separator with the magnetic field intensity of 10000-20000 Oersteds to obtain magnetic concentrate and magnetic tailings; centrifugal selecting: putting the magnetic concentrate in a centrifugal concentrating machine with the rotating speed of 150-250r/min to obtain centrifugal concentrate and centrifugal tailings; and table selecting: selecting the centrifugal tailings through a table with the stroke of 8-10mm and the frequency of stroke of 250-300 times/min to obtain table concentrate and table tailings. According to the iron-increasing and silicon-reducing reselection technique, a great quantity of tailings is dropped through rough and concentrate double magnetic selection; the magnetic concentrate is selected by using the centrifugal machine so that irons are increased and silicon is reduced; and then the centrifugal tailings are selected by using the table so that the productivity is increased. The iron-increasing and silicon-reducing reselection technique has the effects of realizing iron increment and silicon reduction of the mixed-type lean iron ore tailings, incrasing the productivity of the iron ore to a great extent at the same time and providing an effective approach to iron increment and silicon reduction of the reselected concentrate for the mixed-type lean iron ore tailings.

Description

technical field [0001] The invention belongs to the technical field of ferrous metal beneficiation, and in particular relates to a mixed fine-grain embedded magnetite ore beneficiation process, in particular to a mixed lean iron ore tailings re-election process for increasing iron and reducing silicon. Background technique [0002] Steel is an important pillar industry for social development and the most important and most widely used metal material in modern industry. In 2011, my country's crude steel output reached 683 million tons, and it has become the country with the largest steel production in the world for 16 consecutive years. my country's iron ore dependence on foreign countries also increased from 14.15% in 1990 to 63% in 2010, but it basically has no say in the pricing of international iron ore. Therefore, improving the output and quality of finished ore in self-owned mines is a key link in improving the market competitiveness and sustainable development capabil...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B03B9/06
CPCY02W30/52
Inventor 李平李登敏沈立义朱冰龙李冬洋温合平
Owner YUXI DAHONGSHAN MINING
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