SU882442A1 - Method of reclamation of industrial quarries - Google Patents

Description

The invention relates to agricultural reclamation, in particular, · to methods for restoring land disturbed by the extraction of minerals by an open method.

A known method of reclamation of iron ore quarries, including flattening slopes to 28 °, applying to the ledges with toxic soils an artificial substrate (a layer of river sand. And Quaternary sediments of 50 cm, on which potential fertile soil is applied) and planting of wood and shrub species £ 1].

There is also known a method of combating water soil erosion, including marking the area, partial planning of the surface of the ledges with giving it a reverse slope, crafts longitudinal drainage shafts, creating on the surface of the ledges plant substrate, planting fruit crops and fertilizing C2].

A disadvantage of the known methods is that they do not ensure the rational conservation and accumulation of moisture ’of atmospheric precipitation and are not effective enough in relation to the erosion protection of cultivated lands.

The purpose of the invention is a more effective protection of reclaimed land from water erosion and a uniform distribution of precipitation.

This goal is achieved by the fact that according to the method, shafts are poured from crushed stone and additionally transverse drained shafts are created, a plant substrate is created in layers: crushed stone 30-40 cm, loam 40-50 cm, tailings sand 30-50 cm, loam 30-40 cm, shafts fasten with a grid of corrosion-resistant material and plant climbing plants.

In this case, the transverse drained shafts are staggered, and hops are used as climbing plants.

In FIG. 1 shows a reclaimed industrial quarry, section ·, 'on. FIG. 2 - the same, top view.

For better moisture conservation, a partial layout is made with a cut of 2-3 ° in the direction of the slopes of all the ledges of the quarry sides, as well as the cleaning and leveling of the steep slopes.

Then, longitudinal drained shafts are poured to a height of 1.3-1.8 m on the ledges of the sides 30-40 cm from a steep slope of crushed stone and fine stone. (Production waste) 1.

To rationally preserve the moisture of atmospheric precipitation in a layer-by-layer substrate of greater shaft strength and their optimal drainage, 20-30% loam is added to the stony-gravel material (such mixing can be carried out, for example, by a grader). Rollers compact.

3040 cm of crushed stone 2, 40-50 cm of loam 3, 30-40 cm of sand from tailings 4 and 30-40 cm of loam 5 are layered on the planned surface of the ledges between the longitudinal drained shafts and vertical slopes and the bottom of the quarry. This layer-by-layer application of heterogeneous production waste allows to achieve optimal water-physical properties of the substrate.

The longitudinal drained shafts are added with crushed stone so that they protrude * 3040 cm above the layered substrate. At the same time, they fill the transverse drained shafts of crushed stone to the same height (30-40 cm).

The construction of such shafts makes it possible to well accumulate, rationally preserve and evenly distribute the moisture of atmospheric precipitation during all periods of the year and plays a significant role in preventing water erosion. For a uniform distribution of moisture in the atmospheric precipitation, the transverse drained wads are placed on the ledges in a checkerboard pattern (Fig. 2) with a drain interval, depending on the slope of the surface of the ledges, of '30 -45 ml. In this case, water accumulation in the upper parts of the inter-drain spaces is excluded, as well as provides a more uniform absorption of moisture into the layer-by-layer substrate without the occurrence of erosion: processes.

Sheer stony slopes and protruding longitudinal drained shafts are mechanically fixed with a metal mesh 6, 5, protected from corrosion, having a mesh size of more than 15 * * 15 cm. Then, on the ledges and the bottom of the quarry, fruit and berry crops 7 and 8 hops are planted in holes, • which contribute 5-6 kg of fertile Yu soil. For better survival of the planted crops in the first period, 2-3 irrigation per hole is performed.

To create a cultivated fertile layer, meadweeds are seeded with a bean-cereal mixture and fertilizers are applied according to the generally accepted method.

The cultivation of climbing plants, such as hops, in quarry conditions ₂₀ allows greening, additionally securing and protecting rocky steep slopes and longitudinal drained shafts from destruction, precipitation and sunlight.

₂₅ On the ledges of the quarry to the bottom between the fruit and berry crops and climbing plants, a road is built 9, for example, from stony-gravel production waste 2.0-2.5 m wide, which allows ₃ θ to widely use small-sized implements and vehicles for caring for plantations and collection of fruits, berries and hops for industrial purposes.

The proposed method of reclamation allows for relatively small ³⁵ expenses quickly cultivate rocky ledges and steep slopes of the bead industrial quarries efficient use precipitation without additional irrigation shown to prevent ⁴⁰ tit water erosion, and also provides the cultivation, for example, fruit crops and hops for industrial purposes .

Claims (3)

The invention relates to the agricultural reclamation, in particular to methods of restoring land disturbed during the extraction of minerals by the open method. There is a known method of reclamation of iron ore quarries, including flattening slopes up to 28, deposition on ledges with a current: artificial grounds of artificial substrate (river sand layer. Quaternary sediments 50 cm, on which potential fertile soil is applied) and planting trees and shrubs of rocks Known also a method of combating water erosion of the soil, including once marking the area, partially leveling the surface of the ledges with giving it a reverse slope, handicrafts of longitudinal drained shafts, creating elevated ledges to grow The main substrate, the planting of fruit crops and fertilization. 2 3 The disadvantage of the known methods is that they do not provide for the rational conservation and accumulation of moisture from precipitation and are not sufficiently effective for the erosion protection of the reclaimed lands. The purpose of the invention is more effective protection of the land to be rehabilitated against water erosion and even distribution of precipitation. The supplied chain is achieved by the method of shafting the shaft from crushed stone and creating additional transverse drained shafts, the vegetable substrate is created in layers: crushed stone 30-40 cm, loam 40-50 cm, sand tailings 30-50 cm, loam 30-40 cm, shafts secured with a net of corrosion-resistant material and planting of climbers. In this case, the transverse drained shafts are arranged in a checkerboard pattern. 3 a-hops are used as climbers. FIG. 1 shows reclaimed industrial quarry, section; .on. FIG. 2 - the same, top view. In order to better retain moisture, a partial planning was carried out with cutting all sides of the quarry slope to the side, as well as cleaning and leveling the sheer slopes. . Then, on the ledges of boards 30–40 cm from the steep slope of rubble and small stones (production waste), longitudinal drained shafts 1 are poured to a height of 1.3–1.8 m. To rationally preserve the atmospheric moisture in the stratified substrate greater strength of the shafts and their optimal drainage add 20–30% loam to the stony material (this can be done, for example, by a grader). The rollers are compacted. 3040 cm of rubble 2, 40-50 cm of loam 3, 30-40 cm of sand of tailing dumps 4 and 30-40 cm of loam 5 are applied in layers onto the planned surface of the ledges between the longitudinal drained shafts and steep slopes and the bottom of the quarry 5. Such layer-by-layer deposition of dissimilar production wastes allows you to achieve optimal water-physical properties of the substrate. The longitudinal drained shafts are filled with rubble so that they spin over a layer-by-layer substrate at 3040 cm. At the same time, the transverse draining shafts of rubble are made to the same height (30-40 cm). The construction of such shafts makes it possible to accumulate well, to rationally preserve and evenly distribute the moisture of precipitation during all periods of the year and plays a significant role in preventing water erosion. In order to evenly distribute moisture from precipitation, transverse drained shafts are placed on ledges in a checkerboard pattern (Fig. 2 with an interdirectional interval, depending on the gradient of the surface of the ledges, 30-45 M. This prevents the accumulation of water in the upper parts of the more uniform absorption of moisture into the stratified substrate without the occurrence of erosion processes: sheer stony slopes and protruding longitudinal drained shafts mechanically fix the metal net 6, having a cell size of more than 15-t 15 cm. Then, on the ledges and the bottom of the quarry, fruit crops 7 and hop 8 are planted in the wells, in which 5-6 kg of fertile soil are added. In the first period, crops are planted in 2-3 irrigation wells. In the day of the creation of a cultivated fertile layer, crops are sown with legume-grass mixture and mineral fertilizers are applied according to the generally accepted method. Cultivation of climbing plants, such as hops, in greenhouse conditions allows for greening additionally secure and protect stony steep slopes and longitudinal drained shafts from destruction, precipitation and sunlight. On the ledges of the pit to the bottom between fruit crops and climbing plants, road 9 is built, for example, from 2.0-2.5 m wide stony-stone waste, allowing wide use of small-sized tools and transport for ear and plantings. fruit harvesting, year and hop for industrial purposes. The proposed reclamation method allows, at a relatively low cost, to quickly cultivate stony ledges and sheer sides of industrial quarries, to rationally use atmospheric precipitation without additional irrigation, to prevent water erosion, and also to cultivate, for example, horticultural crops and hops for industrial purposes. Claim 1. Method of reclamation of industrial quarries, including area marking, partial leveling of the surface of the ledges with giving it a reverse slope, handicrafts of longitudinal drained trees, creating on the surface of the ledges of plant substrate, planting fruit crops and fertilizing, characterized in that in order to more effectively protect reclaimed land from water erosion, the shafts are filled with rubble and create additional transverse drained shafts, the vegetable substrate is created in layers: rubble 30-40 cm, loam 4050 cm, sand tailings 30-50 cm loam 30-40 cm, the shafts are secured with a net of corrosion-resistant material and planting of vines is planted. 2. A method according to claim 1, characterized in that, in order to more evenly distribute the atmospheric precipitation, the transverse draining shafts are arranged in a checkerboard pattern. 3. The method according to claim 1, wherein hops are used as climbing plants. Sources of information taken into account in the examination 1.Terehova A.E. and others. Experimental landings of dumps and boards of iron ore quarries in northern Kazakhstan with the application of certain mining engineering measures. - Reclamation of lands disturbed in the extraction of minerals, Tartu, 1975, сi 61. 2. The Agricultural Encyclopedia. Soviet encyclopedia. Ed. 4, t. 6, p. 143 (prototype).