RU2028832C1 - Method for concentration of iron ores - Google Patents

Abstract

FIELD: mineral concentration. SUBSTANCE: initial material is ground and separated into coarse and fine fractions. Fine fraction is directed to desliming and concentration to produce concentrate and tailings. Coarse fraction is ground and directed for desliming. Deslimed product is combined with ground initial product. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the field of mineral processing.

 A known method of enrichment of iron ores, including multi-stage grinding and magnetic separation of the source material with the release of tailings in each stage [1].

 The disadvantage of this method is the low efficiency of the enrichment process.

 The closest in technical essence and the achieved result is a method of enrichment of iron ores, including grinding of the source material, classification of the crushed (source) material into fine and coarse fractions, grinding of coarse fractions, deslamination and enrichment of crushed coarse and fine fractions to obtain concentrate and tailings [2 ].

 The crushed starting material is represented mainly by open particles and large intergrowths. When separating the crushed starting material by size, the opened particles pass into a fine fraction, which are easier to enrich. A large fraction is represented by intergrowths, including those with a very complex type of intergrowth of minerals, the disclosure of which requires a long grinding time. When grinding a large fraction, open particles and intergrowths are formed, including large ones. When desliming the crushed coarse fraction, fine rock particles and poor intergrowths are removed to the tailings, however, a portion of large rock particles and intergrowths remain in the de-clogged product, which, when enriched, pass into the concentrate and reduce its quality, which is a disadvantage of the known method.

 The purpose of the invention is to improve the quality of the concentrate by eliminating dilution in large aggregates.

 The goal is achieved by using a combination of essential features characterizing the proposed method of iron ore beneficiation.

 The essence of the invention lies in the fact that in the method of enrichment of iron ores, including grinding the source material, its classification into fine and coarse fractions, grinding coarse fractions, deslaminating and magnetic separation of the fine fraction to obtain concentrate and tails, the crushed coarse fraction after deslamination is combined with crushed source material and sent for classification. Due to this, large intergrowths are secreted into the sand classification product and fed to grinding, where they are opened by increasing the grinding time. Thin particles of the de-slurred product are separated into the confluent product of classification and are sent for de-scrubbing, which makes it possible to remove some of the poor intergrowths and breed particles into the tails.

 As a result, elimination of large splices enrichment occurring in the prototype is eliminated, and the number of rock particles and poor splices in the nutrition of the enrichment operation is reduced. Thus, the enriched particles are supplied for enrichment, which are easily enriched, which makes it possible to obtain a higher quality concentrate.

 The drawing shows a diagram of an implementation of the proposed method.

 The proposed method of beneficiation of iron ores is as follows. The starting material is ground. The crushed starting material is divided into coarse and fine fractions. The fine fraction is sent to desliming and enrichment to obtain concentrate and tailings. The coarse fraction is crushed and sent to desliming. The de-slurry product is combined with the crushed starting material.

 PRI me R. The initial ore with a mass fraction of iron of total 39.2% was crushed in a ball mill МШР 40х50, operating in a closed cycle with classifier 1 КСН-30. The discharge of the classifier with a particle size of 52.0% class minus 0.05 mm was divided on a hydrocyclone with a diameter of 360 mm into coarse and fine fractions. The fine fraction was de-slurred in an MD-5 N 1 magnetic deslamer, unloading of the MD-5 N 1 de-desilter was enriched in a PBM-PP-90/250 magnetic separator to produce concentrate and tailings. The coarse fraction was ground in a ball mill MShTs 45h60, working in a closed cycle with hydrocyclones with a diameter of 350 mm. The discharge of hydrocyclones with a diameter of 350 mm was de-clogged in an MD-5 magnetic deslamer. The unloading of the MD-5 deslamator was combined with the discharge of the classifier. As a result, a concentrate with a mass fraction of iron of 64.8% was obtained.

 For comparison, an experiment was conducted on the prototype method. As a result, a concentrate with a mass fraction of iron of 64.3% was obtained.

 The application of the proposed method allowed to increase the mass fraction of iron in the concentrate by 0.5%.

Claims (1)

 METHOD FOR ENRICHMENT OF IRON ORES, including grinding of the starting material, its classification into fine and coarse fractions, grinding of the coarse fraction, deslamination and magnetic separation of the fine fraction to obtain concentrate and tails, characterized in that the crushed coarse fraction after deslamination is combined with the crushed starting material and for classification.

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