BG63734B1 - Method for land recultivation of multi-step spoil heaps - Google Patents

Abstract

The invention relates to a method for the land recultivation of multi-step spoil heaps and shall be used in the reclamation of land after open cast mining works and in the reclamation of multi-step spoil heaps of dressing and metallurgical enterprises. By the method the steps formed in the spoil heap are levelled off, the slopes are made into terraces after which a clay layer and hydroinsulation cover are formed by which the slopes are covered in succession. There follows laying of soil or potentially fertile layer and afforestation with suitable biological plants. In cases when the spoil heap contains oxide and non-conditioned ores, after the terracing a sand cushion is formed on which irrigation pipes are laid, and above the cushion the clay layer and the hydroinsulation cover are laid. 6 claims, 2 figures

Description

Technical field

The invention relates to a method for the reclamation of multi-stage dumps at open and underground mines and can be used in the reclamation and treatment of multi-stage dumps with waste from ore and metallurgical enterprises.

BACKGROUND OF THE INVENTION

A method of recultivation of multistage embankments (AS No. 1016512, USSR) is known, including technical reclamation through the formation of terraces equipped with protective berms, and subsequent biological reclamation. In this method, the terraces run diagonally at the edges of the slopes, forming wedge-shaped steps, located in opposite directions for the individual steps.

The described method of treatment of the surface of the embankment does not guarantee a satisfactory ecological effect, since the use of fertile and potentially fertile soils does not preclude the penetration and infiltration of the rainwater into the embankment. Such water, together with naturally occurring rock bacteria, maintains, for a long period of time, the course of redox processes and the formation of highly contaminated water flowing from the bottom of the slopes. At the same time, it is not excluded that the root system of the biological species used is in contact with the acid and / or alkaline waters formed in the mass, which can lead to their incorrect development, including their death.

A method of reclaiming a mound of rock material (AS No. 817258-CCCP) is known, which involves the formation of terraces, after which a waterproof layer, a fertile layer and a layer of chernozem are formed on the terrace terraces. Water triggers are being constructed on the surface of the site.

The method described cannot provide effective reclamation of the entire mound, since the operations described mainly cover the terraces without affecting the slopes of the mound.

There is a known method for leaching of deposits from off-balance ore (AS No. 38583-RB), which involves the construction of water resistance at the reservoirs 5, after which discharge and drainage wells are pumped therein and fed at intervals of leaching solutions, the gravity-enriched solution being collected through the drainage wells into a re10 reservoir for enriched solutions.

The method described has significant drawbacks in achieving the necessary environmental effect expected from the implementation of land reclamation. Most often, the material in the deposit includes oxidized, non-standard ores or discoveries containing mineral forms at certain concentrations.

With the application of the known methods for cleaning the rock mass, the result is hourly due to the selectivity of the reagents used and their high concentration in the dew solutions. At the same time, the use of surface-mounted irrigation pipes results in the sealing of the uppermost 25th part of the porosity of the material with the products of the ongoing reactions, resulting in localized streams that strongly erode the slopes. Landfill cleaning and reclamation processes are reviewed 30 and carried out sequentially over time, which significantly extends the time to achieve the desired environmental effect.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a method for recultivation of multi-stage dumps that allows simultaneous effective reclamation and purification of the entire 40 volume of the dumps in a short time and achieving the desired environmental effect.

The object of the invention is achieved by a method of recultivation of multistage embankments, including leveling the surface45 of the steps, terracing the slopes, and creating a waterproof layer over which a soil or potentially fertile layer is applied.

According to the invention, the method is carried out by applying a clay layer and a waterproofing surface to the slopes in succession, with the soiled and terraced areas being covered with soil or potentially fertile soil.

According to a preferred embodiment of the method, a 5 sand cushion is constructed between the upper surface of the formed terraces and the clay layer with irrigation pipes arranged therein.

For the leaching of useful components, ion-purified solutions with pH values 1-2 are fed into the irrigation tubes.

Waterproofing of slopes is done by laying on their surface polyethylene sheets, latex coatings, organic resins or other similar materials.

Above the waterproofing cover of the slopes, at a distance of 0.3 to 0.5 w, a metal or plastic mesh is fixed on the supporting elements, and the space between them is filled with soil or potentially fertile material.

In the heels of the lowest slope, a drainage ditch is made for the flowing contaminated waters, and above it, at a distance of not less than one meter, a drainage ditch is built to capture the filtered through the re-cultivation layer of the clear water slopes and discharge them. in the hydrographic network.

The described method for recultivation of multistage embankments enables effective reclamation with enhanced environmental impact. The latter is the result of the simultaneous carrying out of reclamation and purification processes, which prevents water and soil contamination over time. After cessation of the 35 irrigation and drainage of the accumulated water, the material from the landfill naturally dries, with the presence of the insulation layer preventing further precipitation and formation of contaminated water. The formation of an insulation layer allows retaining the moisture required to develop the root system of species planted in biological reclamation while isolating it from the acidic or alkaline medium of the material from the landfill. The water recovered after irrigation is subjected to ion-exchange selective separation and concentration to productive solutions allowing the production of commercial products (electrolytic 50 metals or their salts and oxides), and the treated water is returned for subsequent irrigation.

Subsequent biological reclamation consists of afforestation of horizontal areas with suitable planting material and grass slopes. After completion of the reclamation works, the material from the landfill with ion-exchange purified water having a pH of 1-2 is dewatered for forced leaching of the mineral forms containing copper, iron, manganese, aluminum, nickel, arsenic, etc., whose concentrations in these conditions form productive solutions flowing from the edge of the lowest slope. They are trapped in a specially constructed groove and are taken for ion-exchange separation and concentration (sorption, extraction, etc.) of the useful components to values allowing the subsequent production of their commercial products in the form of cathode metals, salts or oxides. The water obtained after the ion exchange treatment is returned for subsequent irrigation until the concentrations of the pollutants are reduced below the economically acceptable values. After cessation of irrigation, the accumulated solutions were drained and the array dried. The presence of a waterproofing layer prevents further access of rainfall to the massif and formation of streams of contaminated water.

Explanations of the annexed figures

An exemplary implementation of the method for recultivation of multistage deposits of oxide and substandard copper ores, constructed in the open-pit copper ore deposit, is presented with the attached figures, of which:

Figure 1 is a vertical sectional view of the embankment;

Figure 2 is a detail showing the construction of the waterproofing and reclamation layer in the horizontal and sloping sections of the embankment.

An exemplary embodiment of the invention

The method is as follows.

In the recoverable embankment, the sites of the individual steps 1 are first aligned in a horizontal plane, after which horizontal terraces 2 are constructed in the slopes between them. It is preferable that the terraces 2 be 1.5 to 3 m wide and 4-6 m apart. The formed terraces 2 lay a layer of clay with a thickness of 0.2-0.5 t, which is rolled, slopes. covered with insulating material 6 (polyethylene, latex coatings, organic resins, etc.), and above them, at a distance of 0.3 to 0.5 w, a metal or plastic mesh is fixed on special pins 13. placed so that the upper horizontal platform (step or terrace) is overlapped by the clay layer 4, and in the lower horizontal - it ends on it. In the heels of the lowest slope, the insulation coating ends with a drainage groove 8, which is constructed at a height of not less than 1 w from the edge of the slope, to capture and remove clean water filtered through the recultivation layer through the recultivation layer. After the waterproofing is done, the soil or potentially fertile layer is laid on the horizontal sections and the prepared slopes until the filling of the space under the net 7. The subsequent biological recultivation consists of afforestation of the horizontal areas with suitable seedlings and shaking .

If the material in the deposit is oxidized or non-standard ores, or a mine containing mineral forms with concentrations allowing cost-effective leaching of useful components, then after construction of the terraces 2 proceed to the construction of a sand cushion 3 with a system of pipelines 12 for feeding it. and even distribution of ion-exchanged purified leachate. The waterproofing works of the embankment include laying on a sandy cushion 3 of a clay layer 4 0.2-0.5 µm thick and an insulating coating 6 (polyethylene sheets, latex, organic resins or similar materials) on the sloped areas. After that, the waterproofing of the embankment surface is started by backfilling it with a reclamation soil or potentially fertile layer 5. For this purpose, metal or plastic is fixed in the sections of the slopes 13 at a height of 0.3-0.5 m from the surface. network 7, which is intended to provide initial stability of the reclamation layer and prevent its slipping or displacement. The thickness of the reclamation layer 5 in the sloping sections is determined by the height of the fixing net, and in the horizontal ranges from 1 to 2 t, depending on the requirements of the tree species selected for the subsequent biological reclamation. Biological recultivation involves afforestation of horizontal areas and grassing of slopes.

When fitting the irrigation system, a groove 10 is constructed in the heels of the lowest slope, respectively, which traps and removes the polluted water from the forced leach for ion exchange purification through the drainage slope 9, and a drainage channel 8 drained by the recirculated drains. water.

After completion of the reclamation works, the material from the landfill with ion-exchange purified water having a pH of 1-2 is dewatered for forced leaching of the mineral forms containing copper, iron, manganese, aluminum, nickel, arsenic, etc., whose concentrations in these conditions form productive solutions flowing from the edge of the lowest slope. They are trapped in a specially constructed groove and are taken for ion exchange separation and concentration (sorption, extraction, etc.) of the useful components to values allowing subsequent production of their commercial products in the form of cathode metals, salts or oxides. The water obtained after the ion exchange treatment is returned for subsequent irrigation until the concentrations of the pollutants are reduced below the economically acceptable values. After irrigation has ceased, the accumulated solutions are drained and the array is dried. The presence of a waterproofing layer prevents further access of rainfall to the massif and formation of streams of contaminated water.

Claims (6)

Claims 1. A method of reclamation of multistage embankments, comprising leveling the surface of the steps, terracing the slopes and creating a waterproof layer over which a soil or potentially fertile layer is applied, characterized in that a flat clay layer is applied to the leveled and terraced areas. and a waterproofing coating on the surface of the slopes. A reclamation method according to claim 1, characterized in that a sand cushion with irrigation tubes is arranged between the upper surface of the formed terraces and the clay layer. A reclamation method according to claim 1, characterized in that ion-purified solutions with pH values 1-2 are used for the construction of the various useful components. A reclamation method according to claim 1, characterized in that the waterproofing of the slopes is carried out by applying polyethylene webs, latex coatings, organic resins or other similar materials on the surface. 5. The method of reclamation according to claim 1, characterized in that a metal or plastic mesh5 is fixed on the special pins and the space between them is fixed above the waterproofing cover of the slopes at a distance of 0.3 to 0.5 t. it is filled with soil or potentially fertile material. 6. The method of reclamation according to claim 1, characterized in that, when forced leaching of 10 materials from the embankment is made in the heel of the lowest slope, a drainage groove is created for the leaking contaminated water, through which they are discharged for treatment and above it, at a distance of not less than one meter, builds a 15 drainage ditch to capture the filtered through the recultivation layer of clear water slopes and discharge them into the hydrographic network.