RU2728223C1 - Method of disturbed lands restoration at open development of mineral deposits - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to reclamation of used pits. Method includes movement and laying of soil groups. Before the substrate is laid, the soil is first subjected to treatment with ammonium sulphate in an amount of not less than 200 g per 1 m² of the surface of disturbed lands. Soil groups are applied layer by layer from stripping clay of limestone mine with thickness of not less than 20 cm and overburden rock from sand extraction pit with thickness of not less than 30 cm. Organic fertilizer is represented by sludge from treatment facilities for at least 5 years of storage with thickness of 5–10 cm s further harrowing.

EFFECT: method enables to restore vegetative and soil cover on destroyed lands by using non-toxic wastes for reclamation.

1 cl, 1 tbl, 7 ex

Description

The invention relates to the mining and processing industry and agriculture, and in particular to methods for the restoration of lands disturbed during the extraction of processing of aluminum-containing raw materials.

A known method for the restoration of completely destroyed natural plant communities [ed. St. USSR N 1217284, class. А01В 79/02], including the reception of dense and ultra-rare plantings of sod and leaving strips for spontaneous growth, while in the center of the site there is a strip 10-12 m wide of dense planting of turf, on both sides of which there are sequentially sprouting strips 30-35 m wide and strips of super-rare planting of turf 10-12 m wide.

The disadvantage of this method is that it is practically difficult to implement and economically unprofitable for use, since self-overgrowing of a bare contaminated surface in Siberia does not occur.

The closest to the invention in technical essence is a method of restoring disturbed lands during opencast mining of mineral deposits (RF Patent No.RU 2444628 authors Kovshov S.V., Smirnov Yu.D., Karelsky D.S., etc.), including moving and storage in separate dumps of soil, and the soil groups are placed periodically up to a height of the dump of 2.5 m, while flattening the sides of the dump 25-35 °. Moreover, the lower part of the group with a thickness of 15-20 cm is a marginal overburden, the middle part of the group with a thickness of 10-12 cm is laid with a natural ripper with a fraction size of no more than 10 mm and the upper part of the group is filled with organic fertilizer.

The disadvantage of this method is the complexity of execution (up to a dump height of 2.5 m), high economic costs and the need for additional processing with organic fertilizers to obtain satisfactory results on the productivity of grass mixtures on the restored surface of disturbed lands.

Considering that the polluted soil contained high pH values, the soil had to be neutralized before applying the substrate, otherwise a grass mixture of satisfactory productivity was not formed.

The purpose of the invention is to obtain high productivity of grass mixtures, reduce costs when restoring disturbed lands with the involvement of non-toxic waste to create a potentially fertile layer.

The problem to be solved by the invention is the development of an economically profitable and practically feasible environmentally friendly method for restoring disturbed and lands near the sludge storage facilities of alumina production in Siberia with obtaining high indicators of the productivity of grass mixtures.

The set task is achieved by the fact that for the restoration of disturbed lands, the laying of soil groups is used layer by layer from overburden clay of a limestone mine with a thickness of at least 20 cm and overburden from a sand quarry with a thickness of at least 30 cm on top of it, and to neutralize the contaminated soil before laying the substrate, the soil is preliminary they are subjected to treatment with ammonium sulfate in an amount of at least 200 g per 1 m ^{2 of the} surface of disturbed lands and carry out its harrowing, and as an organic fertilizer, sludge from treatment facilities is used for at least 5 years of storage with a thickness of 5-10 cm, followed by harrowing.

The technical result of the invention is the restoration of vegetation and soil cover on destroyed lands in Siberia with minimal material and labor costs and the use of existing non-toxic waste for reclamation.

Comparative analysis with the closest analogue allows us to conclude that the proposed method of restoring disturbed lands during open development of mineral deposits differs in that the soil layer is formed by introducing soil groups layer by layer from overburden clay of a limestone mine with a thickness of at least 20 cm and overburden the rock from the quarry for the extraction of sand with a thickness of at least 30 cm, and to neutralize the contaminated soil before laying the substrate, the soil is preliminarily treated with ammonium sulfate in an amount of at least 200 g per 1 m ^{2 of the} surface of disturbed lands and harrowing is carried out, and silt is used as an organic fertilizer treatment facilities for at least 5 years of storage with a capacity of 5-10 cm, followed by repeated harrowing.

Previously, the proposed technical solution was not announced and the substrate for the formation of the soil layer with such components was not used to restore disturbed lands. Therefore, the proposed technical solution meets the "novelty" criterion.

The proposed method for restoring disturbed lands during opencast mining of mineral deposits allows to provide dense vegetation soil cover on destroyed lands in Siberia with sub-sludge waters from the sludge storage facility of JSC RUSAL Achinsk using non-toxic industrial waste and with minimal material and labor costs.

The proposed invention provides a new technical solution to the method of restoring disturbed lands, based on the use as a soil layer of a substrate from a mixture of overburden clay from a limestone mine, sludge from city sewage treatment plants and overburden of a sand mining quarry, which allows us to conclude that the technical solution meets the criterion of "inventive step ".

The method of restoring disturbed lands during open-pit mining of mineral deposits was carried out as follows.

Samples of overburden from the limestone quarry of the Mazulskiy limestone mine, silt from the city treatment facilities of the city of Achinsk of 5-year storage and overburden from the quarry of sand extraction from the floodplain the Chulym rivers and made their layer-by-layer application on the contaminated surface of the disturbed section of the layer thickness of the proposed method. Previously, to neutralize the alkali contained in the contaminated soil, before applying the layers, the surface of the disturbed area was treated with ammonium sulfate in an amount of at least 200 g per 1 m ^{2 of the} surface of the disturbed soil and then harrowing was carried out.

Examples of the implementation of the method for restoring disturbed lands in the open development of mineral deposits are given in table. 1. Example 1 - prototype, examples 2-6 of the claimed method.

The claimed method of restoring disturbed lands during opencast mining of mineral deposits has been tested by the example of its use for restoring disturbed lands around the sludge storage of the alumina production of JSC RUSAL Achinsk. As sludge from the treatment facilities, a 5-year-old sample was taken from the sludge pads of the city's left-bank treatment facilities in the city of Achinsk, Krasnoyarsk Territory. It is not advisable to use sludge with a shelf life of less than 5 years, as it contains harmful microorganisms. The 5-year-old sludge did not contain toxic components and contained a large amount of organic matter and total nitrogen, which provided a positive effect on the agrochemical properties of the resulting substrate when mixed with the overburden of the Dolomit LLC sand extraction pit. The overburden of the sand extraction pit from the Chulym river floodplain was a non-toxic soil and was temporarily placed in the form of sand production waste at sites at a distance of up to 2 km from the territory of the sludge storage facility of JSC RUSAL Achinsk, which reduced the cost of transporting it to the site of reclaimed areas. Overburden (clay) of the limestone quarry of the Mazul limestone mine was used as a waterproofing layer.

The use of soil groups with the claimed composition and layer thickness improves the productive properties of the grass mixture. The use of overburden clay from a limestone mine less than 20 cm thick did not provide waterproofing from groundwater and led to drought of the resulting grass mixture. The use of a sand extraction pit less than 30 cm thick to create a potentially fertile overburden layer led to its mixture with overburden clay and the destruction of the waterproofing layer. The use of sludge from urban wastewater treatment plants with a thickness of less than 5 cm as an organic fertilizer did not provide high productivity indicators due to the low humus content in the substrate. An increase in the amount of silt from urban wastewater treatment plants with a layer thickness of more than 10 cm in the substrate led to a more rapid drought of the formed grass mixture. An increase in the dosage of ammonium sulfate in the contaminated soil over 200 g per 1 m2 of surface resulted in a high content of ammonium nitrogen in the soil, the use of dosages of ammonium sulfate less than 200 g did not allow neutralizing the alkaline environment of the contaminated soil.

For pilot tests according to the claimed method and the method adopted as a prototype, an identical mixture of grass mixtures of the following composition was used: meadow bluegrass - 40%, timothy grass - 40%, white clover - 20%, which was tested in the laboratory of Krasnoyarsk State Agrarian University and showed the highest indicators of germination and productivity of plants.

Thus, on the basis of laboratory research data and experimental-industrial tests, the claimed method provides, in contrast to the prototype, an increase in the productivity of the grass mixture on the restored surface of disturbed lands due to the qualitative composition of the substrate. The use of the proposed method with the composition of the substrate based on middlings of alumina production allows, in contrast to the prototype, to provide the necessary productivity of the grass mixture and the restoration of the surface of disturbed lands.

The use of the invention can significantly increase productivity and ensure the restoration of disturbed lands using non-toxic industrial materials, while excluding the use of mineral and organic fertilizers.

Claims (1)

A method for restoring disturbed lands during opencast mining of mineral deposits, including the movement and laying of soil groups, characterized in that before laying the substrate, the soil is preliminarily subjected to treatment with ammonium sulfate in an amount of at least 200 g per 1 m ^{2 of the} surface of disturbed lands, the laying of soil groups is applied layer by layer from overburden clay of a limestone mine with a thickness of at least 20 cm and on top of it overburden from a sand mining quarry with a thickness of at least 30 cm; as an organic fertilizer, use sludge from treatment facilities for at least 5 years of storage with a thickness of 5-10 cm, followed by harrowing.