RU2449126C2 - Method of combined processing of sands of gravel gold deposit in bolshoy kuranakh river - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method includes separation of sands by quality by means of establishment of upper and lower limits of a producing part with different content of a useful component, further, after development of sands using the method of preliminary separation of coarse fractions, high-quality sands are supplied for enrichment, and an intermediate process reservoir, where low-quality sands are stored, is used for natural separation of rock and metal minerals by density in water medium and concentration of a precious component in a lower layer, then the upper layer is removed, and the lower concentrate layer from the process reservoir is sent for enrichment. Low-quality sands pass through additional stage of useful component concentration by natural separation of minerals by density, at the same time gold particles are concentrated in the lower layer, and clayey particles go into drainage.

EFFECT: improved performance indices of sands processing, reduced losses of fine gold, lower processed volumes.

2 dwg

Description

The method relates to the mining industry and can be used in the extraction and processing of sand from a unique alluvial gold deposit of the Bolshoi Kuranakh River.

The uniqueness of the deposit lies in the combination of its mining and geological conditions, the composition of the sands and the qualitative characteristics of the distribution of the reserves of the useful component.

The placer length is up to 22 km, the maximum width reaches 1600 m, the occurrence depth is up to 50-60 m below the groundwater level, the balance of sand reserves is about 275 million m ³ , the volume of overburden is more than 115 million m ³ . Rocks with a clay content of 16 to 67% prevail, with almost half of this amount being a clay-clay fraction (-0.1 mm). Free gold in the sands is especially fine. About 60% of it is represented by the fineness classes -0.25 mm, including - 0.02 mm - 24%. Gold is closely associated with clay minerals, which leads to the departure of a significant part of the metal into the drain, along with clay particles. Up to 25-35% of the sand volume is represented by the +30 mm class, which does not pass the enrichment stage, and its transportation in this regard causes additional unjustified costs.

The main feature of the placer is that in a relatively small part of the sand (about 20%) a significant part of the metal reserves is concentrated (up to 50-60%), which characterizes the uneven quality of the reserves. Moreover, even within the boundaries of the air conditioning unit, there are areas with a low metal content. According to the experience of developing such deposits, mining blocks with areas (areas) of low metal content is economically disadvantageous.

Thus, the distinctive features of the alluvial gold deposit of the Bolshoi Kuranakh River are: unique mining and geological conditions, heterogeneous reserves quality, a large amount of fine gold in association with clay minerals, a significant proportion of large fractions in the particle size distribution of sand. Currently, the development of such deposits is carried out by the gross method using traditional technologies.

A known method of developing a placer [1], including establishing the upper boundary of the productive part of the placer, removing the unproductive layer and enriching the ore of the productive part of the placer to obtain a valuable component from ore.

A known method of developing alluvial mineral deposits [2] by the combined action of pressure and pressureless flows, in which the surface layer of rocks, represented by larger fractions, is washed off by the pressure jet of the hydraulic installation in the accumulation trench, from where large fractions are removed by a bulldozer to the dump, and small particles of waste rock and the beneficial component are sent to the flushing unit.

The disadvantage of these methods is that the sands are processed by the gross method, since the productive array is not provided for and is not geometrized according to the quality (content) of the metal; an additional process for the concentration of small gold particles is not included in the processing flow sheet.

The closest in technical essence and the achieved effect to the proposed method is a method of developing alluvial deposits [3], including the removal of peat, preparation for excavation, excavation and enrichment of the sand, which implements the effect of the concentration of the gold-containing useful component in the lower part of the deposit, using low-frequency generators oscillations or vibration processing of the array with simultaneous saturation with water supplied by a uniform or pulsating flow - prototype.

But even in this method, geometrization of the productive massif by the quality (content) of the metal is not provided, and the sands are worked out in a gross way.

An analysis of the above analogs shows that in none of them can a high-quality and complete processing of the sands of the placer gold deposit of the Bolshoi Kuranakh River be achieved.

This problem can be solved by sequentially performing the geometrization of reserves in the course of the preparation and operation of the placer deposit according to the grade (1), including the operation of preliminary downhole sorting of sands (2) in the technological chain, providing for the process of additional concentration of small gold particles (3).

Such a solution to the problem requires:

- (1) the geometrization of the field, with the definition of qualitative boundaries in terms of content, which is performed by processing the data of geological testing by interpolation methods, for example, the Kriging method;

- (2) preliminary washing of sands at washing plants (sorting complexes) in order to obtain a granular concentrate of a certain size, while large boulders and pebbles that do not contain minerals are separated [4]. For the proposed method of processing, in contrast to the method [4], the output of the sorting complex provides for the direction of the shipped product along two transport streams, depending on its quality.

After the extraction and preliminary separation of large fractions of the extracted material, high-quality sands are sent directly to enrichment, low-quality sands are sent to the processing tank.

- (3) an additional concentration of fine gold particles by density separation of minerals in a water-sludge medium in a process vessel. This process is based on the well-known effect of the difference in the rates of fall of minerals in water depending on their specific gravity. A natural classification of the material by density occurs with the departure of the smallest clay fractions into the drain. As a result of this, a layer with an increased concentration of a valuable component is created in the lower part of the section, and then, after cleaning the upper layer, it is sent for enrichment.

The implementation of the combined processing method is illustrated in figure 1.

The proposed method is characterized in that before the start of mining by interpolation methods, for example, the Kriging method, the sands are separated by quality by establishing the upper and inner boundaries of the productive part with different contents of the useful component, then after development and sorting, high-quality sands are fed for enrichment, and the intermediate a container where low quality sands are stored is used for natural separation according to the density of rock and metal minerals in the aquatic environment and concentration ennogo component in the lower layer, then the upper layer was removed, and the bottom, a concentrated layer of a storage vessel supplied to enrichment.

The proposed method has the following advantages compared with the prototype.

Introduced in the claims, such an essential feature, as the fact that prior to the start of mining, not only the upper, but also the internal boundaries of the productive part are selected by their content, allows us to determine the volumes of direct processing of sands and the volumes sent to an additional concentration cycle, thus ensuring selectivity of processing the productive array according to the technology corresponding to the content of the useful component.

Another significant feature is that after preliminary separation of large fractions, the resulting intermediate product is sent for processing in accordance with its quality either immediately for enrichment, or at the stage of additional concentration, for which the washing plant (sorting complex) is equipped with a transport flow switching device in accordance with with the quality of the intermediate product.

The third significant feature is that the fine gold associated with clay minerals is subjected to an additional concentration cycle by controlled separation of minerals by density, using well-known methods of active influence on the deposition process [5], this allows to reduce the loss of gold particles with a fineness of less than 0 , 2 mm, whose share in the metal of the placer gold deposit of the Bolshoi Kuranakh River is up to 60%.

A specific example of the implementation of the proposed method is shown for the plot of the alluvial gold deposit of the Bolshoi Kuranakh River in the area of the exploration line 120. On the geological section (Fig. 1), the contours of the industrial block are indicated and the quality limits of the sands are identified by the criterion of the minimum content in the sample included in the industrial circuit (70 mg / m ³ ).

The section shows that within the boundaries of industrial blocks there are areas with a low metal content (for this exploration line at least 15% of the total volume). At present, during processing by the gross method, this leads to a deterioration in the technical and economic indicators of production.

As the experience of the use of sorting complexes shows, depending on the granulometric composition of the sands, as a result of preliminary sorting, a reduction in the volumes transported to the concentration plant from 25 to 40% is achieved [6].

To evaluate the efficiency of gravitational separation of minerals by density in the technological capacity, the equation of T. G. Fomenko [7] is used, taking into account the dependence of the rate of fall of grains in the aquatic environment on their shape: V ₀ = 16.3 G ^0.34 , where G is the particle weight. The calculation showed that as the particle size decreases, the difference in the rate of fall increases: from 0.5 to 0.05 mm, the difference in the rate of fall increases from 3 to 9 times, and up to 0.02 mm - 20 or more times (figure 2) .

An analysis of the sieve composition of gold in the enriched sands of the placer gold deposit of the Bolshoi Kuranakh River indicates that the gold content with a fineness of less than 0.25 mm, depending on the mining area (site), is in the range from 41.2 to 61.1%, and the loss in currently make up 16.1-18.2% for dragee processing and up to 11% for processing at the processing plant. Thus, the introduction of an additional concentration stage into the technological scheme of processing sands, taking into account the degree of controllability of the process, allows one to count on additional extraction of metal in a volume of up to 10%, for a given particle size distribution of sands and placer metal.

Information sources

1. Application 97117649/03 10/23/1997 E21C 41/22 Yagin V.P., Davydov I.A. A method of developing a placer.

2. RF patent for the invention №213952, Е21С 41/30. Application 97119572/03 of 11/27/1997 Litvintsev B.C., Mamaev Yu.A., Pulyaevsky A.M., Ponomarchuk G.P. A method for developing placer mineral deposits by the combined effect of pressure and pressureless water flows.

3. RF patent for the invention No. 2106495 C1, ⁶ Е21С 41/00. Application 94029218/03 08/04/94 Mikhailov A.G., Wagner V.A., Bragin V.I. A method for developing alluvial deposits.

4. RF patent for the invention No. 2239066, Е21С 41/26. Application No. 2003119472/03 dated 06/26/2003 Akishev A.N., Bakhtin V.A., Bondarenko E.V. The method of development and primary concentration of placer deposits of diamonds.

5. SU 1065025 A from 1/7/.84. ArmNiprootsvetmet. The method of hydraulic classification of particulate matter by size.

6. Kozupeev A.V., Kurnev V.G., Kleimenov V.V., Ermakov S.A. Experience and prospects for the development of alluvial deposits of the Ebelyakh diamondiferous area. // Problems and prospects of integrated development of mineral deposits of permafrost zone: Proceedings of the Intern. scientific and practical conf. (IGDS Yakutsk, June 14-17, 2005). - Yakutsk: Publishing house of the Institute of permafrost SB RAS, 2005. - Volume 1 P.230-233.

7. Fomenko T.G. Gravity processes of mineral processing. - M .: Nedra, 1966. - p.29, 320-321.

Claims (1)

A method for the combined processing of sands of alluvial gold deposits of the Bolshoi Kuranakh River, including setting the upper boundary of the productive part of the deposit, removing the upper unproductive layer, creating an intermediate technological capacity, working out the sands in the contour of the reserves with preliminary separation of large fractions of sand by washing, enriching the productive part with obtaining valuable concentrate component, characterized in that before the start of mining by interpolation methods, for example, the Kraiging method, sands are separated by quality by establishing the upper and inner boundaries of the productive part with different contents of the useful component, then after development and preliminary sorting, high-quality sands are fed for enrichment, and the intermediate technological capacity, where low-quality sands are stored, is used for natural separation according to the density of minerals rock and metal in the aquatic environment and the concentration of the valuable component in the lower layer, then the upper layer is removed, and the lower, concentrated layer of Tehnological tank is fed to the enrichment.

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