RU2147684C1 - Method of formation of concentrated bed on rock bed of technogenic placer - Google Patents

Abstract

FIELD: mining industry; applicable in development of technogenic placers of high-density minerals, for instance, gold, platinum, etc. SUBSTANCE: method includes planing of the ground, excavation of water inlet ditch in placer upper part to the strike and construction of retaining embankment and embankment of water lower level in lower on-dip part of placer with weir for regulation of level of flooding of formed ground. Water is supplied to water inlet ditch to fully flood the ground and to form free filtration flow in placer body at rate ensuring mechanical suffusion and to increase porosity of rock mass. In this case, particles of valuable component of high density migrate into concentrated bed on rock bed. Efficiency of migration process is increased by effect of energy of seismic waves of low intensity earthquakes. At onset of autumn period, the ground is drained and let for natural freezing during winter. In spring, the ground is flooded again. It results in loosening of rock argillaceous fraction and activation of migration of valuable components and concentration of bed on rock bed. Formed concentrated bed on rock bed of technogenic deposit is washed on washing unit. Barren rock overlaying the concentrated bed on rock bed is hauled to damp over the nearest path. EFFECT: reduced maintenance costs and increased recovery of valuable components. 3 dwg

Description

 The invention relates to the mining industry and can be used in the development of man-made placers of minerals represented by high-density minerals (for example, gold, platinum, etc.).

 A characteristic feature of man-made placers is a low content of valuable components in the rock mass, the absence of a pronounced layer of minerals, so the mining of the rock mass is carried out to ensure continuity of mining. In the absence of a distinct mineral layer, it is necessary to wash the entire volume of productive rock mass to extract a valuable component, which significantly increases operating costs. This is the reason for the insufficient level of development of reserves of technogenic rock mass of placers, the volume of which alone in the Far East is several billion cubic meters of rock mass, extremely negatively affecting the ecological situation of the mining areas. To reduce operating costs in the development of man-made placers, it is necessary to form an enriched near-flat layer of minerals, making maximum use of the impact on productive rock mass of pressureless water flows and natural phenomena.

 The concentration of valuable minerals, which determines the process of formation of a mineral layer, depends on their behavior in a water-alluvial environment. Under natural conditions, for all watercourses participating in the formation of placer deposits, as a rule, a turbulent mode of movement is characteristic. In a turbulent flow, solid particles acquire a complex character of motion, estimated by instantaneous velocities having three components: a velocity vector directed along the axis of the flow, and two transverse vectors. Minerals of various densities and with different hypergene stability constants [1, p. 93] involved in the formation of an alluvial deposit layer undergo vibrations in the turbulent flow and move in accordance with the parameters of the hydraulic characteristics of the flow. The influence of vibrations (vibrations) of solid rock particles associated with the alternation of turbulent and laminar flow regimes on the formation of alluvial placers is undoubtedly established and confirmed by many leading scientists [1, p. 92 - 98]. These processes also occur when fogging dumps of anthropogenic rock mass occur when conditions are created there for the movement of pressureless water flows.

 However, there is another type of oscillation that has no less effect on the migration of heavy valuable components. These are soil vibrations caused by seismic phenomena, which, compared to the above, act more intensively and manifest themselves at significant sites. The dynamics of the processes of destruction of the primary sources of gold and the movement of the metal to the formation of the alluvial deposit layer is formed under the influence of tectonic-seismic phenomena, which can be considered from the standpoint of wave mechanics [2, p. 23, 28].

 The tectonic-seismic factors in the process of formation of an alluvial deposit are characterized by the energy of elastic vibrations existing in the form of dynamic stress fields created by longitudinal and transverse waves, with the letters P and S respectively. The longitudinal waves P propagate at a speed of about 3 km / s, and S - waves - about 4.5 km / s [3, p. 31 - 43]. There is another important class of seismic waves. These are surface waves that do not propagate inside the earth, but along its surface. They are a mixture of two types of waves - Love waves and Rayleigh waves. Love waves are transverse vibrations, similar to S-waves, but propagating in the horizontal plane, they do not have a vertical component of speed. Rayleigh waves have a significant vertical component and resembles "somersaults back."

 Thus, in the natural environment, there are various types of fluctuations in the thickness of the earth's surface, which under certain conditions contribute to the migration processes of high density particles, which ultimately affects the degree of formation of an enriched near-plank layer of anthropogenic placer.

 Another important condition for intensification of the lumen of the formation of an enriched stratum of minerals is cryogenic phenomena, the greatest influence being not the temperature field, but its changes and the processes of freezing and thawing of rocks corresponding to these changes [1, p. 123]. This, in particular, explains the deep vertical migration of gold into cracks in the bedrock of the raft.

 The natural phenomena listed above are the basis for the method of forming a near-flat layer of anthropogenic placer.

 The closest analogue to the claimed invention is a method of forming an enriched near-littoral layer of anthropogenic placer [4], which consists in planning the landfill, sinking in the upper strike part of the placer ditch and constructing a retaining dam, a lower water level dam in the lower part of the placer with drainage for regulation of the level of flooding of the landfill, and strengthening the migration process under the influence of vibrational energy.

 The aim of the invention is to reduce operating costs and increase the extraction of valuable components, including small fractions, during the phased development by a separate method of man-made placer deposits located in seismically active areas, by creating an enriched near-flat reservoir based on the intensification of the combined effects of natural phenomena and technological factors on the productive rock mass of the field while reducing the overall negative impact of mining operations on the environment th Wednesday.

 This goal is achieved by the fact that in the method of forming an enriched littoral layer of anthropogenic placer, including the layout of the landfill, sinking in the upper strike part of the placer ditch and the construction of a retaining dam, a lower water level dam with a spillway to control the level of landfill flooding, and when water is supplied to the water ditch produces a complete flooding of the surface of the landfill and the formation of a pressureless filtration flow in the body of the placer at a speed that provides mechanical uffosion and an increase in the porosity of the rock mass, with the migration of particles of a valuable high-density component into the enriched near-flood bed, and the efficiency of the migration process is enhanced by the energy of seismic waves of earthquakes of small power, then the landfill is drained and left without the use of protective equipment for natural freezing during the winter period, and with the onset of the spring period and the appearance of water, the landfill is flooded again, which contributes to disorder cheniyu rocks and clay fractions activating the migration and enrichment of valuable components priplotikovoy technogenic deposit formation region, wherein the formed enriched priplotikovy technogenic deposit layer is washed on washing plant after removal of the blade in the shortest path gangue situated above enriched priplotikovym formation. The regulation of the level of flooding of the landfill with the flowing movement of water contributes to the occurrence of processes of suffusion of rock particles and the migration of valuable components into the sub-raft region of the field, and frequent (hundreds and thousands of times a year) tremors of the seam under the influence of the energy of seismic waves of earthquakes of small power characteristic of the selected location area deposits [2, 5, 6], with about half of the tremors in the summertime, contributing to the acceleration of the migration processes of particles of valuable components in the near-platonic region of the reservoir. Drainage of the landfill then at the onset of the autumn period and the natural freezing of the rock mass in the winter period leads to the next stage (spring-summer), with repeated misting and thawing of the rocks, to soften the clay fractions, release particles of valuable components and their migration to the near-plank area of the formation. If during field exploration it turns out that the enriched formation is not formed, the cycle can be repeated, and at the completion of the formation process, it is developed by traditional methods, and the waste rock (upper layers of the technogenic deposit) can be previously removed to the dump, and the formed enriched formation , much smaller volume in comparison with the total volume of technogenic rock mass, is washed on a modular flushing unit.

 The proposed method is shown in the drawings.

 In FIG. 1 - the frequency of earthquakes in the Amur Region, depending on the energy class of earthquakes per year. In FIG. 2 is a plan of a landfill for a man-made alluvial deposit, worked out primarily by the dragee method, with mining facilities. In FIG. 3 is a diagram of the migration of particles of a valuable component into the region of the formed near-surface enriched formation.

At the developed landfill 1 (Fig. 1, Fig. 2), where gale-epile dumps 2 are located, a retaining dam 3 is built and a water groove 4 passes through which water from the watercourse is fed to landfill 1. To create a pressure-free filtration flow in the gale ephelle dumps 2 and their complete flooding by the fall of the placer build a dam of the lower water level 5 with a spillway 6. Suffusion processes occur in the body of the man-made placer during the non-pressure movement of water, and therefore the removal of small rock particles creates voids in the massif, which can be filled with other particles of the rock or grains of valuable components 7, which are affected by a force, the direction of which is determined by the vectors of the vertical component of the velocity V _{B by the} hydraulic particle size W and the average speed V _cf. As a result, particles of a valuable component in their total mass move to the region of an enriched near-platypic reservoir 8 formed on a raft 9. The process of migration of particles of valuable components is significantly accelerated under the influence of seismic and cryogenic phenomena.

 The method is as follows.

 At the landfill 1 being prepared for development, the surface of the dumping complexes of the field (gale-epile dumps 2) included in the contour of landfill 1 is being planned, a water groove 4, a retaining dam 3 and a lower water level dam 5 are constructed to raise the level and flood the landfill 1 s flowing water. To control the water level and create a flowing motion, weir is performed 6. This contributes to the occurrence of processes of suffusion of particles of rock mass and the migration of grains of valuable components 7 to the area of the enriched near-flood layer 8 of the field, and frequent (hundreds and thousands of times a year) concussions of the rocks of the deposits under the influence of energy seismic waves of earthquakes of small power, characteristic of the selected area of the field, with about half of the tremors in the summer, leading to accelerated w migration of components in the particle formation priplotikovuyu region. Upon the onset of the autumn period, the landfill is drained and the rock mass is naturally frozen during the winter period; therefore, at the next stage (spring-summer), when the landfill is re-flooded and rocks are thawed, clay fractions are softened, particles of valuable components are released and they migrate to the area of the enriched near-flat layer 8 formed on the raft 9. When the next autumn period begins, gross testing of the field is carried out, and if it turns out that the enriched near-floor formation 8 is not If the process is completed, then the work cycle can be repeated, and if in the process of gross testing it is established that the process of formation of the enriched near-plank layer 8 of the field is completed, then the enriched near-flat layer 8 is developed by traditional methods with preliminary removal of waste rock into dumps.

 Considering the cyclical nature of the work performed and their long-term nature (at least 2.5 years), it is proposed to prepare for the development of 2 - 3 polygons with a time shift of 0.5 - 1 year.

 The proposed method is characterized by the fact that it significantly reduces (by 60 - 80%) the volume of productive rock mass fed to the flushing plant due to the formation of an enriched near-floor formation. Removal of waste rock from the surface of the enriched formation is carried out on board the landfill at the shortest distance, so the total cost of developing the field is reduced. A sufficiently high degree of disintegration of the rocks under long-term exposure to pressureless water flows, seismic phenomena and a cryogenic factor will contribute to the increase in the recovery of valuable components in a modular washing plant. The same conditions contribute to the reduction of the contaminated area of the mining area due to the reduction of the washed volumes of the rock mass and the reduction of clay fractions in the tailings of the washing.

List of references
1. Shilo N.A. Fundamentals of the doctrine of placers. M .: Nauka, 1981, - 283 p.

 2. Sorokin A.P. Morphostructures and Cenozoic placers of gold in the Amur Region, M .: - Nauka, - 1990. - p. 23 - 29.

 3. Abie, J. A. Earthquake: Per. from English - M., Nedra, 1981. - 264 p.

 4. Patent RU N 2106495, Mikhailov A.G. et al., 10.03.98, E 21 C, 41/00.

 5. Nikolaev V.V., Semenov R.M., Oskorbin L.S. Seismic engineering and seismic zoning of the Amur region. - Novosibirsk: - Science, - Sib. Branch of RAS. - 1989. - p. 9 - 11.

 6. Sorokin A.P., Glotov V.D. Gold-bearing structural and material associations of the Far East. - Vladivostok - Dalnauka. - 1997, p. 41 - 59.

Claims (1)

 The method of forming an enriched near-flood layer of anthropogenic placer, which consists in planning the landfill, sinking in the upper strike part of the water ditch placer and constructing a retaining dam, a lower water level dam in the lower fall part of the placer with a spillway to control the level of landfill flooding and enhance the migration of valuable components under the influence of vibrational energy, characterized in that seismic waves of earthquakes of small power are used as a source of oscillations, s Then at the onset of the autumn period, the landfill is drained and left without the use of protective means for freezing naturally for the winter period, and with the onset of the spring period and the appearance of water, the landfill is flooded again to soften the clay fractions of rocks and to activate the migration of valuable components and enrich the near-flood area of the technogenic reservoir layer, and the formation of a pressureless filtration flow in the body of the placer is organized at a rate that provides mechanical suffusion and an increase in porous ti massif high density migration valuable component particles in priplotikovy enriched layer, the formed enriched priplotikovy technogenic deposit layer is washed on washing plant after removal of a waste dump, located above the enriched priplotikovym formation.

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