RU2537460C1 - Clay mineral deposits development method - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: development method comprises opening-up of developed field reserves, ditch driving along the whole length of the production block, water flooding of the production block for disintegration of clay sand and their subsequent improvement by the production complex with installation of pressure of head hydraulic transportation and concentration plant. Before grooving of slits by cross-cut and longitudinal passes of slit-cutting unit, and also water flooding of the production block for disintegration of clay sand and their subsequent improvement, using experimental and analytical methods the bending compression and tension characteristics of high clayey sands in various locations of placer deposits are determined. The dynamics of change of elastic characteristics in these sections is determined, the correlation of response curve of resiliency of sand at water saturation of separate sections of the field with the relative wave resistance of sand in these sections is studied, and grooving of cracks at the distance from each other depending on the change of response curve of sand resiliency of at water saturation is performed.

EFFECT: achievement of high level of disintegration of clay sands difficult for wash-out, minimising of process losses of valuable component and decrease of mining expenses.

3 dwg

Description

The invention relates to the mining industry and can be used in the development of high clay alluvial deposits.

A known method of developing clay deposits of minerals [1]. The method includes opening the worked-out reserves, their layer-by-layer excavation in parallel trenches, leaving inter-trench pillars, enrichment and dumping. Between the first trench and the contour of the worked reserves, an additional ditch is drawn in parallel to which water is supplied, while the subsequent trenches are sinking, each previous trench is successively filled with water. After the last trench is drilled, the field is flooded and the trench pillars are worked out using a dredge or dredger, and mining is carried out in the direction from the first trench to the last.

The disadvantages of the method is the large amount of earthwork during the sinking of the ditches, as well as a significant amount of work to move the sand into the ditches.

A known method of developing placer deposits [2]. The method includes opening the sands, their excavation and transportation to the hopper of the washing unit, enrichment and dumping. Before transporting the sands to the hopper of the washing unit, they are stored in a ditch, passed through the center of the placer along the length of the mining block to a depth below the soil level of the sand formation and filled with water. Sands are placed in a ditch below the water level, and their subsequent excavation is carried out underwater.

The disadvantages of this method is the large amount of earthwork and a significant amount of work to move the sand into the ditches.

The closest in technical essence is the method of softening and disintegrating clay sands of fine-lying placers, including opening the placer, digging a water trench with a slope in the direction of the fall of the reservoir and catchment trench, filling the water trench with water at the same time filling the developed section of the placer with water and for primary softening of clay sands by means of water supply and the implementation of the natural filtration process in to the array, installation of a pressure hydraulic transport installation, installation of an ultrasonic installation and a mechanical installation, sequentially intensify the filtration of water into compacted sand layers by means of ultrasonic action on the sands along the surface of the developed area, hydrodynamic activation is performed by mixing the hydraulic mixture with an element of the mechanical installation, and the hydraulic mixture is supplied through the pressure hydraulic installation on concentration plant [3].

The disadvantage of this method is the multi-stage process of disintegration, high energy consumption and operating costs for the development of sand.

The technical result of the method is to achieve a high degree of disintegration of difficultly washed clay sands, to reduce technological losses of a valuable component and to reduce development costs due to the formation of high clay sand gaps in the surface layer of the processed array, taking into account the dynamic characteristics of sand elasticity during water saturation.

The technical result is achieved due to the fact that in the method of developing clay mineral deposits, including the opening of the developed reserves of the field, ditching the entire length of the production block, flooding the production block with water for disintegration of clay sands and their subsequent mining by a mining complex with a pressure hydrotransport and concentration plant installation, before cutting the cracks with the help of transverse or longitudinal passages of the slit installation, as well as flooding the mining b water for the disintegration of clay sands and their subsequent development, experimentally and analytically determine the elastic characteristics of high clay sands for compression or tension in different areas of the placer, establish the dynamics of changes in the elastic characteristics in these areas according to the formula:

G = (E * -E **) / B,

where G is the dynamic characteristic of the elasticity of the sand during water saturation, Pa; E * - elastic characteristic or elastic modulus of sand at initial humidity, Pa; E ** is the elastic characteristic or modulus of elasticity of the sands with an increased average water content in the sands, Pa; B - change in water content in arbitrary units relative to percent, i.e. 1% is 1 unit, the dependence of the dynamic characteristics of the elasticity of the sands G during water saturation in individual sections of the field on the relative wave resistance of the sands in these sections is investigated;

G = f (ζ * / ζ **),

where ζ * is the wave resistance at the initial moisture content of the sands; ζ ** - wave resistance with an increased average water content in the sands, cut the gaps at a distance from each other, depending on changes in the dynamic characteristics of the elasticity of the sands during water saturation, and in areas with the lowest dynamic characteristic of the elasticity of the sands during water saturation, reduce the distance between the cracks a value that ensures the rate of filtration and disintegration of clay sands in proportion to areas with maximum dynamic elasticity of sands having max the total distance between the slots, fill the production block with water and, using a pressure hydrotransport installation, feed the pulp to the mining complex with a concentration plant.

The combination of new essential features allows us to solve a new technical problem - to intensify the process of disintegration by intensifying the natural process of filtering water into water-saturated layers of clay sands, taking into account the dynamics of changes in their physicomechanical characteristics.

The process of implementing the method of developing clay mineral deposits is shown in the drawings.

Figure 1 - General view of the development system of the placer, ensuring the implementation of the method; figure 2 is a view A in figure 1; figure 3 is a graph of changes in the dynamic characteristics of elasticity of sands of gold-bearing placer deposits of the Amur Region during water saturation (item 1 - with water saturation of sands from 8.0 to 30% (Nagima river); position 2 - with water saturation of sands from 12.7 to 30% (Brooky brook); pos. 3 - for water saturation of sands from 20 to 30% (Bolotisty brook).

The implementation of the method is as follows.

The mining reserves of field 1 are opened, a ditch 2 is drilled to the entire length of the mining block 3. Before cutting the cracks 4 using transverse 5 or longitudinal passages 6 of the slit-hole installation 7, as well as flooding the mining block 3 with water for disintegration of clay sands and their subsequent mining, experimentally - analytically determine the elastic characteristics of high-clay sands for compression or tension in various sections of 8 placers, establish the dynamics of changes in elastic characteristics in these areas 8 according to the formula:

G = (E * -E **) / B,

where G is the dynamic characteristic of the elasticity of sand during water saturation, Pa: E * is the elastic characteristic or modulus of elasticity of sand at initial humidity, Pa; E ** is the elastic characteristic or modulus of elasticity of the sands with an increased average water content in the sands, Pa; B - change in water content in arbitrary units relative to percent, i.e. 1% is 1 unit, investigate the dependence of the dynamic characteristics of the elasticity of the sands G during water saturation in individual sections 8 of field 1 from the relative wave resistance of the sands in these areas:

G = f (ζ * / ζ **),

where ζ * is the wave resistance at the initial moisture content of the sands; ζ ** - wave impedance with a high average water content in the sands (figure 3).

As a result of studies of gold-bearing clayey sand of placers in the Amur region and an assessment of changes in the elastic characteristics of clayey sands depending on the water content, it was found that changes in the elastic characteristics of sands manifest themselves differently with more or less monotony, boundary efficiency and are determined not only by the initial parameters of water saturation, but also the dynamics of the process. For example, in the sands of the deposits of the river. Nagima's dynamism is higher than ruch. Raging 2.3 times, and higher than in the sand brook. Marshy - by 6.6 times. Dynamics ruch. Mad compared to the ruch. Marshy above 2.9 times (Fig.3). There is also a change in the dynamic characteristics of the elasticity of the sands during water saturation in separate sections 8 of the same field (pos. 1-3 in Fig. 3), therefore, cutting the slits 4 is carried out at a distance of 9 from each other depending on the change in the dynamic characteristics of the elasticity of the sands at water saturation.

In areas 10 with the lowest dynamic characteristic of elasticity of sand during water saturation, the distance 9 between the slots 4 is reduced to a value of 11, which ensures the rate of filtration and disintegration of clay sands in proportion to sections 12 with a maximum dynamic characteristic of elasticity of sands having a maximum distance of 9 between the slots 4. To do this adjustment of the distance 13 between the cutting bodies 14 of the slit-hole installation 7. After passing through the slots 4, the production unit 3 is filled with water. Using the installation of pressure hydraulic transport 15 serves the pulp to the mining complex 16 with the processing plant 17.

Information sources

1. Patent No. 2355886 of the Russian Federation, IPC 6 E21C 41/30; E21C 45/00. A method of developing clay mineral deposits / Kislyakov V.E., Nikitin A.V. - No. 2007144476; declared 11/29/2007; publ. 05/20/2009. Bull. Number 14. - 6 p.

2. Patent No. 2353772 of the Russian Federation, IPC 6 E21C 41/30; E21C 45/00. The method of developing placer deposits / Kislyakov V.E., Nikitin A.V. - No. 2007138132; declared 10/15/2007; publ. 04/27/2009. Bull. No. 12. - 6 p.

3. Patent No. 2392054 of the Russian Federation, IPC 6 B03B 5/00; E21C 41/30. The method of softening and disintegration of clay sands of fine-lying placers / Khrunina NP, Mamaev Yu.A. - No. 2009115747; declared 04/24/2009; publ. 06/20/2010. Bull. Number 17. - 8 p.

Claims (1)

The method of developing clay mineral deposits, including the opening of the developed reserves of the field, ditching the entire length of the production block, flooding the production block with water for disintegration of clay sands and their subsequent mining by a mining complex with a pressure hydrotransport installation and concentration plant, characterized in that before cutting the cracks by means of transverse or longitudinal passages of a slit-hole installation, as well as by flooding the mining block with water for the disintegration of gly istyh sands and their subsequent mining, experimental analytically determine the elastic characteristics vysokoglinistyh sands compression or stretching in different parts placers set dynamics elastic characteristics at these sites by the formula:
G = (E * -E **) / B,
where G is the dynamic characteristic of the elasticity of the sand during water saturation, Pa;
E * - elastic characteristic or elastic modulus of sand at initial humidity, Pa;
E ** - elastic characteristic or modulus of elasticity of the sands with an increased average water content in the sands, Pa;
B - change in water content in arbitrary units relative to percent, i.e. 1% is 1 unit,
investigate the dependence of the dynamic characteristics of the elasticity of the sands G during water saturation in individual sections of the field on the relative wave resistance of the sands in these areas:
G = f (ζ * / ζ **),
where ζ * is the wave resistance at the initial moisture content of the sands;
ζ ** is the wave resistance with an increased average water content in the sands, cutting slits at a distance from each other, depending on changes in the dynamic characteristics of the elasticity of the sands during water saturation, and in areas with the lowest dynamic characteristic of the elasticity of the sands during water saturation, the distance between the cracks is reduced to a value that ensures the rate of filtration and disintegration of clay sands in proportion to areas with maximum dynamic elasticity of sands having max the total distance between the slots, fill the production block with water and, using a pressure hydrotransport installation, feed the pulp to the mining complex with a concentration plant.

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