RU2611075C1 - Method of tailing dump in mountain trenches recultivation - Google Patents

Abstract

FIELD: ecology.

SUBSTANCE: invention relates to mining industry environmental safety and mountain landscapes protection against chemical contamination, coming with surface and underground water flows on tailing dump side. Method involves recultivation by means of loamy layer application and compaction. At that, recultivation is performed in three stages, first forming trenches in 15–30 m from tailing dump coastal zone (beach), with depth below tailing dump bottom for 3–5 m, with width of 1.5–2 m, with subsequent excavation of carcinogenic substances bottom deposits from tailing dump bottom, which are transported and stored in spent and abandoned mines at depth of past mining operations, and tailing dump bottom is filled with irlit-containing absorbent clays, creating geochemical barrier for water flows on tailing dump side.

EFFECT: technical result is creation of geochemical barrier for protection of surrounding landscapes against further spreading of chemical contamination, simplification of tailing dump reclamation.

1 cl, 2 ex

Description

The invention relates to the field of environmental safety of the mining industry and the protection of mountain landscapes from chemical pollution.

There is a method in which a soil-forming layer is created by applying zeolite tuffs to the surface of the tailing pond, which makes it possible to exclude fertilizer application, enhance the development of the grass root system, thereby increasing the efficiency of the biological tailing restoration (patent for invention No. 2513468, IPC Е21С 41/32, А01В 79 / 02, C09K 17/00, published 04/20/2014).

However, the known method for the tailing dump reclamation serves to consolidate dusty surfaces without taking into account the protection of underground ground and surface river waters from chemical pollution.

There is also known a method of reclamation of land disturbed by toxic waste stored in a tailing dump in a monsoon climate, characterized in that mixed compost obtained from the bark of spruce, larch and birch, which is brought to the surface of toxic waste, is used as compost. Around the perimeter, they are outlined with permeable sides and drainage grooves to accelerate the discharge of storm water (patent for invention No. 2486733, IPC AB 79/02, B09C 1/00, published 05/20/2013).

However, the known method for the rehabilitation of the tailings is aimed at reducing the toxicity limits directly on the surface, without taking into account the safety of adjacent territories. The proposed creation of drainage grooves for the discharge of storm water will serve as an additional source of the spread of toxic elements to the underlying hypsometric level of the territory.

The closest technical solution is the method in which boning dams are formed on a land allotment under the tailing dump. Land allotment for the tailings pond is divided into sections with a life of one to two years, they are put into operation sequentially and reclamation is carried out by applying and compacting a clay layer with a thickness of 0.7-1 m, as well as a fertile layer on the slopes of dams for biological reclamation (patent for invention No. 2335631, IPC E21C 41/32, EWB 7/06, published on 10/10/2008).

The disadvantage of the prototype method is that it offers a complex hydraulic structure for the phased filling and reclamation of the tailings, the main task of which is surface reclamation without taking into account the protection of groundwater from leaking chemical pollution. Moreover, the proposed hydraulic structure complicates the technical solution and complicates the subsequent use of reclaimed land.

The technical result is a simplification of the reclamation method with preliminary removal of the mass of bottom sediments from the bottom of the tailings in order to protect the groundwater from chemical pollution, and at the same time, the creation of a geochemical barrier in order to protect the surrounding landscapes from the further spread of chemical pollution.

The technical solution of the claimed method consists in the fact that the reclamation is carried out in three stages, forming at first 15-30 m from the coastal zone of a trench 2-5 m below the bottom of the tailing dump, 1.5-2 m wide, followed by digging out bottom sediments - carcinogenic substances that are transported to spent abandoned mines to the depth of the previous mining, and the bottom of the tailing dump is covered with absorbent clay-bearing clays.

The distance of the created trench 15-30 m from the coastal zone (beach) of the tailing dump is optimal for creating a geochemical barrier of absorbing clay-containing clay that protects the surrounding landscape from the further spread of carcinogenic substances. A distance of more than 30 m leads to an increase in the halo of the geochemical anomaly around the tailing dump and the loss of lands that are already scarce in mountain basins with an even relief. The formation of a trench to create a geochemical barrier at a distance of less than 15 m from the coastal zone (beach) of the tailing dump will be less effective in order to protect against the spread of geochemical pollution, and also limits the conditions for technical work on creating a trench and removing the mass of bottom sediments from the bottom of the tailing dump. At the second stage, bottom sediments of carcinogenic substances are dug from the bottom of the tailing dump, transported and stored in used abandoned mines, at the depth of the previous extraction of the required mass of minerals.

At the third stage, the cleaned bottom of the tailing dump is covered with absorbent clay-bearing clays, restoring the former relief.

The formation of similar geochemical barriers in the form of trenches around the tailings pond and a method for reclamation with clay-bearing clays with preliminary removal of the mass of bottom sediments from the bottom of the tailings pit and subsequent transportation and storage in abandoned mines at the following sites created in mountain depots are proposed:

Example 1

At the first stage, around the tailings of the Mizur dressing plant in the Unal basin in the floodplain of the river. Ardon at a distance of 15 m is formed by a trench 8 m deep (3 m below the tailings bottom), 1.5-2 m wide and is covered with absorbent clay-bearing clays, creating a geochemical barrier to water flows from the tailings side, thereby preventing poisonous chemical compounds from entering the groundwater of the sanatorium “Tamisk” and the city of Alagir, as well as their distribution to the underlying surrounding landscapes of the Ossetian inclined plain of the river basin. Ardon.

At the second stage, bottom sediments of carcinogenic substances are excavated from the bottom of the tailing dump, transported and stored in the abandoned abandoned Zgid mines, at the depth of the previous extraction of the required mass of minerals.

At the third stage, the cleaned bottom of the tailing dump is covered with absorbent clay-bearing clays, restoring the former relief.

Example 2

At the first stage, around the tailings of the Mizursky enrichment plant in the Fiagdon depression in the floodplain of the river. Fiagdon at a distance of 15-20 m is formed by a trench 25 m deep, 5 m below the tailings bottom, 1.5-2 m wide and is covered with absorbing clay-containing clays, creating a geochemical barrier to water flows from the tailing site, thereby preventing the entry of poisonous chemical compounds into the groundwater of the mountain villages Unal and Fiagdon of the Tamisk sanatorium and the town of Alagir, as well as their distribution to the underlying surrounding landscapes of the Ossetian inclined plain of the river basin. Fiagdon.

At the second stage, bottom sediments are excavated from carcinogens from the bottom of the tailing dump and transported and stored in the abandoned abandoned Khod mines, at the depth of the previous extraction of the required mass of minerals.

At the third stage, the cleaned bottom of the tailing dump is covered with absorbent clay-bearing clays, restoring the former relief.

Claims (1)

A method for reclamation of a tailing dump in mountain basins, including reclamation by applying and compacting a clay layer, characterized in that the reclamation is carried out in three stages, first forming trenches 15-30 m from the coastal zone (beach) of the tailing dump, 3-5 times lower than the bottom of the tailing dump m, a width of 1.5-2 m, with subsequent digging of bottom sediments from the bottom of the tailings of carcinogens, which are transported and stored in waste and abandoned mines to the depth of the previous mining, and bottom bottom the storages are covered with absorbent clay-bearing clays, creating a geochemical barrier to water flows from the tailings.