RU2424333C1 - Procedure for complex treatment of rejects of tungsten containing ore - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: procedure consists in sorting rejects to fine and large fractions, in screw separation of fine grain, in recovery of tungsten product and in its cleaning. Crude tungsten concentrate is produced after cleaning on a screw separator; this concentrate is further subjected to finishing on tables-concentrators where there is produced gravitation tungsten concentrate directed to flotation. Upon flotation there is obtained high grade conditioned tungsten concentrate and sulphide containing product. Rejects of the screw separator and table-concentrator are united and are subjected to condensation. Discharge after condensation is directed to classification of rejects of tungsten containing ore, while condensed product is subjected to refining in the screw separator. There are produced secondary final tailings and tungsten product sent to cleaning.

EFFECT: increased efficiency of processing rejects of tungsten containing ore.

2 cl, 1 tbl, 1 dwg

Description

The invention relates to the beneficiation of minerals and can be used in the processing of tailings for beneficiation of tungsten-containing ores.

In the processing of tungsten-containing ores, as well as their tailings, gravity, flotation, magnetic, as well as electrostatic, hydrometallurgical and other methods are used (see, for example, Burt PO, with the participation of K. Mills. Gravity dressing technology. Transl. From English. - M .: Nedra, 1990). So, for preliminary concentration of useful components (mineral raw materials), photometric and lumometric sorting are used (for example, Mount Carbine and King Island processing plants), enrichment in heavy media (for example, the Portuguese Panascuere factory and the English Hemerdan factory ), depositing (especially of poor raw materials), magnetic separation in a weak magnetic field (for example, for the separation of pyrite, pyrrhotite) or high-intensity magnetic separation (for the separation of tungsten and cassiterite).

For the processing of tungsten-containing sludge, it is known to use flotation, in particular tungsten in the PRC and the Canadian Mount Plisad factory, and in some factories, flotation completely replaced gravitational enrichment (for example, the Jockberg factories, Sweden and Mittersil, Austria).

It is also known the use of screw separators and screw locks for the enrichment of tungsten-containing ores, old dumps, stale tails, sludges.

So, for example, during the processing of old dumps of tungsten ore at the Cherdoyak factory (Kazakhstan), the initial dump material after crushing and grinding to a particle size of 3 mm was subjected to enrichment on jigging machines, the sieve product of which was then cleaned on a concentration table. The technological scheme also included enrichment on screw separators, on which 75-77% WO ₃ was recovered with an enrichment product yield of 25-30%. Helical separation made it possible to increase WO ₃ recovery by 3-4% (see, for example, Anikin MF, Ivanov VD, Pevzner ML “Screw separators for ore dressing”, Moscow, Nedra Publishing House ", 1970, 132 pp.).

The disadvantages of the technological scheme of processing old dumps are the high load in the head of the process for the jigging operation, the insufficiently high extraction of WO ₃ and the significant yield of enrichment products.

A known method of producing tungsten concentrate by processing molybdenite flotation tailings (Klimaks Molybdenum factory, Canada) is known. Tails containing tungsten are separated by screw separation into sludge dumped by tungsten (light fraction), primary tungsten is cassiterite concentrate. The latter is subjected to hydrocyclone and sludge discharge is sent to dump tailings, and the sand fraction is sent to flotation separation of pyrite concentrate containing 50% S (sulfides) and its discharge to dump tailings. The sulfide flotation chamber product is cleaned by screw separation and / or cones to produce dump pyrite-containing tailings and tungsten-cassiterite concentrate, which is processed on concentration tables. In this case, tungsten-cassiterite concentrate and dump tailings are obtained. After dehydration, the crude concentrate is cleaned sequentially by cleaning it from iron using magnetic separation, flotation removal of monazite from it (phosphate flotation) and then dehydrated, dried, classified and separated by stage magnetic separation into a concentrate containing 65% WO ₃ after stage I and 68% WO ₃ after stage II. A non-magnetic product is also obtained - tin (cassiterite) concentrate with a content of ~ 35% tin.

This processing method has its drawbacks - complexity and multi-stage, as well as high energy intensity.

There is a method of additional extraction of tungsten from the tails of gravitational enrichment (factory "Boulder", USA). The tails of gravitational enrichment are crushed, de-clad in a classifier, the sands of which are divided into hydraulic classifiers. The resulting classes are enriched separately on the concentration tables. Coarse tails are returned to the grinding cycle, and thin tails are thickened and re-enriched on sludge tables to obtain a finished concentrate, industrial product that goes to regrind, and tails sent to flotation. The main flotation concentrate is subjected to one purification. The source ore contains 0.3-0.5% WO ₃ ; tungsten recovery reaches 97%, with about 70% of the tungsten being recovered by flotation. However, the tungsten content in the flotation concentrate is low (about 10% WO ₃ ) (see, Polkin S.I., Adamov E.V. Enrichment of non-ferrous metal ores. Textbook for universities. M., Nedra, 1983, 213 pp.)

The disadvantages of the technological scheme for processing the tailings of gravitational enrichment are the high load in the head of the process on the enrichment operation on the concentration tables, multi-operation, low quality of the resulting concentrate.

A known method of processing scheelite-containing tails in order to remove hazardous materials from them and process non-hazardous and ore minerals using an improved separation process (KR 20030089109, CHAE et al., 21.11.2003). The method includes the steps of homogenizing mixing scheelite-containing tails, introducing pulp into the reactor, “filtering” the pulp with a screen to remove various foreign materials, then separating the pulp by screw separation, thickening and dehydrating non-metallic minerals to obtain cake, drying the cake in a rotary dryer, crushing dry cake using a hammer crusher operating in a closed cycle with a roar, separation of crushed minerals using a "micron" separator into fractions of fine and coarse grains ( Ranuli) and magnetic separation to obtain a coarse fraction of magnetic minerals and nonmagnetic fractions containing scheelite. The disadvantage of this method is the multi-operation, the use of energy-intensive drying of wet cake.

There is a method of additional extraction of tungsten from the tailings of the enrichment plant of the Ingichki mine (see A.B. vol. 1, MISiS, M., 2001). The method includes the preparation of pulp and its removal in a hydrocyclone (class 0.05 mm removal), the subsequent separation of desulphurized pulp on a cone separator, a two-stage purification of the cone separator concentrate on concentration tables to obtain a concentrate containing 20.6% WO ₃ , with an average recovery 29.06%. The disadvantages of this method are the low quality of the resulting concentrate and the insufficiently high recovery of WO ₃ .

The results of studies on the gravitational enrichment of the tails of the Ingichkinsky enrichment plant are described (see S.V. Rudnev, V.A. Potapov, N.V. Salikhova, A.A. Kantsel "Studies on the selection of the optimal technological scheme for the gravitational enrichment of technogenic formations of the Ingichkin enrichment factory "// Mountain Herald of Uzbekistan, 2008, No. 3).

Closest to the patented technical solution is a method for extracting tungsten from stale tailings of tungsten ore dressing (Artemova O.S. Development of technology for extracting tungsten from stale tailings of the Dzhidinsky VMK. Abstract of dissertation of the candidate of technical sciences, Irkutsk State Technical University, Irkutsk, 2004 - prototype).

The technology for extracting tungsten from stale tailings by this method includes the operations of obtaining rough tungsten-containing concentrate and industrial product, gold-containing product and secondary tailings using gravity wet enrichment methods - screw and centrifugal separation - and subsequent refinement of the obtained rough concentrate and industrial product using gravity (centrifugal) concentration and magnetic separation to obtain a conditioned tungsten concentrate with a content of 62.7% WO ₃ when extracting 49.9 % WO ₃ .

According to this method, stale tails are subjected to primary classification with the release of 44.5% of the mass. into secondary dump tailings in the form of a fraction of +3 mm. The fraction of tails with a size of -3 mm is divided into classes -0.5 and +0.5 mm and from the latter, coarse concentrate and tails are obtained by screw separation. The -0.5 mm fraction is divided into classes -0.1 and +0.1 mm. A coarse concentrate is separated from the +0.1 mm class by centrifugal separation, which, like a coarse screw separation concentrate, is subjected to centrifugal separation to obtain a rough tungsten concentrate and a gold-containing product. Tails of helical and centrifugal separation are milled to -0.1 mm in a closed cycle with classification and then divided into classes -0.1 + 0.02 and -0.02 mm. A class of -0.02 mm is removed from the process as secondary tailings. The class of -0.1 + 0.02 mm is enriched by centrifugal separation to obtain secondary tailings and tungsten intermediate, sent for refinement by magnetic separation together with the centrifugal separation concentrate, finely ground to -0.1 mm. In this case, a tungsten concentrate (magnetic fraction) and an intermediate product (non-magnetic fraction) are obtained. The latter is subjected to magnetic separation II with the release of a non-magnetic fraction into the secondary tailings and tungsten concentrate (magnetic fraction), which is enriched sequentially by centrifugal, magnetic and again centrifugal separation to obtain a conditioned tungsten concentrate with a content of 62.7% WO ₃ at a yield of 0.14 % and 49.9% recovery. At the same time, the centrifugal separation tails and the non-magnetic fraction are sent to the secondary tailings, the total yield of which at the stage of finishing the rough tungsten concentrate is 3.28% with a content of 2.1% WO ₃ .

The disadvantages of this method are the multi-operation process, including 6 classification operations, 2 grinding operations, as well as 5 centrifugal operations and 3 magnetic separation operations using relatively expensive devices. At the same time, refinement of the draft tungsten concentrate to a conditional one is associated with the production of secondary tailings with a relatively high tungsten content in them (2.1% WO ₃ ).

The objective of the present invention is to improve the processing of tailings, including stale tailings of tungsten ore dressing, in obtaining high-grade tungsten concentrate and simultaneously sulfide-containing product while reducing the content of tungsten in the secondary tailings.

A patented method for the integrated processing of tungsten-containing ore dressing tailings includes classifying tailings into fine and coarse fractions, screw separation of the fine fraction to produce a tungsten product, purification of the tungsten product, and refinement to produce a high-grade tungsten concentrate, sulfide-containing product and secondary tailings.

The method is characterized in that the obtained tungsten product is subjected to purification on a screw separator to obtain a rough concentrate and tails, the rough concentrate is refined on concentration tables to obtain gravity tungsten concentrate and tails. The tails of the concentration table and the purification screw separator are combined and subjected to thickening, then the condensation drain is fed to the classification stage at the head of the technological scheme, and the thickened product is enriched on a screw separator to obtain secondary dump tailings and a tungsten product, which is sent for cleaning. Gravity tungsten concentrate is subjected to flotation to obtain high-grade conditioned tungsten concentrate (62% WO ₃ ) and a sulfide-containing product, which is processed by known methods.

The method may be characterized in that the tails are classified into fractions, predominantly with a fineness of +8 mm and -8 mm.

The technical result of the patented method consists in increasing the processing depth while reducing the number of technological operations and the load on them due to the allocation in the process head of the bulk of the initial tailings (more than 90%) into the secondary tailings, using energy-saving screw separation technology that is simpler in design and operation. This allows you to drastically reduce the burden on subsequent enrichment operations, as well as capital costs and operating costs, which ensures the optimization of the enrichment process.

The effectiveness of the patented method is shown by the example of the integrated processing of the tailings of the Ingichki enrichment plant (see drawing).

Processing begins with the classification of tailings into small and large fractions with the allocation of secondary tailings in the form of a large fraction. A fine fraction of the tailings is subjected to screw separation with the release of the technological process into the secondary dump tailings of the bulk of the initial tailings (more than 90%). This allows accordingly to sharply reduce the burden on subsequent operations, capital costs and operating costs.

The resulting tungsten product is subjected to purification on a screw separator to obtain a rough concentrate and tailings. The rough concentrate is refined on concentration tables to obtain gravity tungsten concentrate and tails.

The tailings of the concentration table and the purification screw separator are combined and subjected to thickening, for example, in a thickener, mechanical classifier, hydrocyclone and other devices. The thickening discharge is fed to the classification stage at the head of the technological scheme, and the thickened product is enriched on a screw separator to obtain secondary tailings and a tungsten product, which is sent for cleaning.

Gravity tungsten concentrate is adjusted by flotation to a high-grade conditioned tungsten concentrate (62% WO ₃ ) to obtain a sulfide-containing product.

Thus, high-grade (62% WO ₃ ) conditioned tungsten concentrate is isolated from tungsten-containing tailings upon reaching a relatively high WO ₃ recovery of ~ 49% and a relatively low tungsten content (0.04% WO ₃ ) in the secondary tailings.

The obtained sulfide-containing product is processed in a known manner, for example, used to produce sulfuric acid and sulfur, and is also used as a corrective additive in the production of cements.

High-grade conditioned tungsten concentrate is a highly liquid marketable product.

As follows from the results of the implementation of the patented method on the example of stubby tail tailings of the tungsten-containing ore dressing of the Ingichkinsky concentrator, its effectiveness is shown in comparison with the prototype method (see table). Provides additional production of sulfide-containing product, reducing the volume of fresh water consumed by creating a water circulation. It creates the possibility of processing significantly poorer tails (0.09% WO ₃ ), a significant reduction in the tungsten content in the secondary tailings (up to 0.04% WO ₃ ). In addition, the number of technological operations has been reduced and the load on most of them has been reduced due to the separation of the bulk of the initial tailings (more than 90%) into the secondary tailings in the head of the technological process, using the simpler and less energy-intensive screw separation technology, which reduces capital costs for the purchase of equipment and operating costs.

Table The results of the integrated processing of tungsten-containing tailings of the Ingichki enrichment plant according to the proposed method Product name Exit, % The content of WO ₃ ,% Extraction WO ₃ ,% High-Grade Conditioned Tungsten Concentrate 0,07 62.00 48.45 Sulfide-containing product 0.16 1.40 2,55 Secondary tailings 99.77 0.04 49.00 Original tungsten-containing tails 100.00 0.09 100.00

Claims (2)

1. The method of complex processing of tailings for the enrichment of tungsten-containing ores, including their classification into fine and coarse fractions, screw separation of the fine fractions to obtain a tungsten product, its purification and refinement to obtain high-grade tungsten concentrate, sulfide-containing product and secondary dump tailings, characterized in that the obtained after screw separation, the tungsten product is subjected to purification on a screw separator to obtain a rough tungsten concentrate, obtained black howling tungsten concentrate is refined on concentration tables to obtain gravity tungsten concentrate, which is flotated to obtain a high-grade conditioned tungsten concentrate and sulfide-containing product, the tailings of the screw separator and concentration table are combined and thickened, the drain obtained after thickening is fed to the classification of tungsten-containing dressing tailings and the condensed product is enriched in a screw separator to obtain secondary dump tailings and a tungsten product that is sent for cleaning. 2. The method according to claim 1, characterized in that the tails of the beneficiation of tungsten-containing ores are classified into fractions, mainly with a fineness of +8 mm and -8 mm.

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