RU2708435C1 - Method of restoration and prevention of further destruction of disturbed slope soil sections of great steepness - Google Patents

Abstract

FIELD: ecology.

SUBSTANCE: invention relates to environmental safety, namely for restoration and further protection of slope sections with slope of more than 45 degrees, disturbed as a result of technogenic impacts, destruction due to erosion processes, as well as for restoration and protection of slopes of soil planning embankments, roads and railroads, open pits, slopes of earth dams, etc. Method of recovery and prevention of further destruction of disturbed slope soil sections of great steepness, during which protective coating is laid on surface of reinforced disturbed soil slope or slope with subsequent fixation on reinforced surface. As a protective coating of the strengthened slope there used are webs of high-density biomass, besides, each of the biomate webs contains external, i.e. upper and lower layers and inner layer. Upper and lower layers are made in the form of woven or non-woven fabrics of decaying natural fibers of vegetal origin, and the internal layer of the biomass includes seeds of plants, mineral or organic fertilizers, growth stimulators and water-retaining components. Reinforcing devices are used to fix the biomass on the strengthened slope. After laying and fixing biomats on their surface synthetic chutes and water drains are installed, and in lower part of broken reinforced slope receiving groove is installed. Said synthetic chutes fixed on the surface of biomats are arranged parallel to each other and interconnected by said water drains, besides, said chutes and water drains, fixed on the surface of biomats, are connected to the receiving chute fixed in the lower part of the strengthened slope, with the possibility of formation of a drainage system.

EFFECT: disclosed is a method of recovery and prevention of further destruction of disturbed slope soil sections of high steepness.

1 cl, 4 dwg

Description

The method of restoration and prevention of further destruction of disturbed slope soil sections of high steepness is intended for use in the field of environmental safety, namely, restoration and subsequent protection of slope areas with a steepness of more than 45 degrees, disturbed as a result of anthropogenic impacts, destruction due to erosion processes, as well as for restoration and protection of slopes of soil planning embankments, roads and railways, quarries, slopes of earthen dams, etc.

There is a method of strengthening landslide slopes on permafrost soils in order to increase their stability and prevent deformation of the landslide massif of soil, during which excavation of the soil of the upper part of the slope, storage of the excavated soil in temporary embankments, clearing with the creation of a slope in the direction of the catchment, creating a slope in the direction of the catchment, catchment collector, continuous filling of cracks with filtering heat-conducting material, followed by intermittent filling of cracks with stored cargo volume with compaction, dumping of soil from embankments, followed by compaction over the entire surface of the lower part of the slope, including cracks (RF patent No. 2571477 C1, “METHOD FOR STRENGTHENING LANDSCAPE SLANDS ON PERENNIAL FROZEN SOILS”, patent holder BabelloPO Victor Anatolevich, 17/20 (2006.01), publ. 20.12.2015).

Also, a method is known that is designed to prevent the development of deep landslide motions, during which the length, width and depth of the landslide block, the angle of internal friction and the specific gravity of the soil of the deforming horizon, in which the laid out, essentially horizontal part of the sliding surface of the landslide array passes, are determined , carry out the removal of soil in the array of potential landslide block according to the size of the unloading excavation for the construction of an underground operated structure (pat nt RF №2340729 C1, "METHOD FOR STRENGTHENING landslide slope", Viktor Ivanovich Osipov patent (RU) et al., IPC E02D 17/20 (2006.01), publ. 10.12.2008).

In addition, there is a method of strengthening a soil slope or hillside, mainly to stabilize landslide processes or to prevent shear, collapse, landslides and dumps of soils or rocks, talus, rockfalls, etc., during which they are laid on the surface, at least one reinforced section of the soil slope or hillside of the protective coating and the metal mesh, fixing the latter on this section, which occurs by means of anchors fixed in pre-samples urea in slope or rock slope wells by injecting hardening material into wells with anchors installed in them, as well as cleaning the surface of the site from vegetation (RF patent No. 2345194 C1, “METHOD FOR STRENGTHENING A GROUND SLOPE OR MOUNTAIN SLOPE”, patent holder Mikhail Sokovykh (Mikhail Sokovich RU) and others, IPC E02B 3/12 (2006.01), E02D 17/20 (2006.01), published on January 27, 2009).

The problem to which the claimed technical solution is directed is the collapse of unreinforced soil sections of great steepness (with a slope of more than 45 degrees) during landslides, mudflows, heavy rains and other climatic and technogenic and erosion processes.

The technical result, to which the claimed technical solution is directed, is to improve the quality of protection against the destruction of weakly stable or disturbed slopes with a steepness of more than 45 °, for example, under conditions of soil erosion by water flows, and, accordingly, to reduce the financial costs necessary for the periodic restoration of violated slope surfaces of great steepness (namely, to add them, reclamation, replanting, etc.).

The technical result is achieved through the development of a method of restoration and prevention of further destruction of disturbed slope soil sections of high steepness (more than 45 °), during which a protective coating is laid on the surface of the reinforced soil slope or slope, followed by fixing it on the reinforced surface, while as a protective coatings of the reinforced slope use high-density biomat canvases, each of the biomat canvases containing external, that is, upper and lower, layers and the inner layer, while the upper and lower layers are made in the form of woven or non-woven canvases from decaying natural fibers of plant origin, and the inner layer of the biomat includes plant seeds, mineral or organic fertilizers, growth stimulants and moisture-retaining components, as a means of fixing the biomat on the slope to be strengthened, reinforcing devices are used, and after laying and fixing the biomats, synthetic gutters and drains are installed on their surface, and in the lower part a receiving chute is installed in the attached slope, said synthetic gutters mounted on the surface of the biomats being arranged parallel to each other and interconnected by the said drains, moreover, the said gutters and drains mounted on the surface of the biomats are connected to the receiving chute fixed in the bottom of the reinforced slope, with the possibility of the formation of a drainage system.

In addition, the specified technical result is achieved due to the fact that these synthetic gutters on the surface of the biomat are installed parallel to each other under an interval of 2 meters.

The essence of the claimed technical solution is illustrated by drawings:

FIG. 1 is a general view of strengthening a weakly stable or disturbed slope;

FIG. 2 - fortified weakly stable or disturbed slope, side view;

FIG. 3 - scheme of laying the web of biomat and gutters on a weakly stable or disturbed soil slope surface;

FIG. 4 is a diagram of fixing the biomat on a weakly stable or disturbed slope surface,

which show:

1 - canvas biomats (Fig. 1 - Fig. 4);

2 - disturbed section of the slope (Fig. 1 - Fig. 3);

3 - synthetic gutters (Fig. 1 - Fig. 3);

4 - gutters (Fig. 1 - Fig. 3);

5 - a receiving chute organizing the flow of water, for example, into natural reservoirs or into receiving tanks (Fig. 1 - Fig. 3);

6 - lowering in the microrelief on the disturbed area (Fig. 1, Fig. 3);

7 - a sloping surface (Fig. 2);

8 - undisturbed part of the slope (Fig. 1, Fig. 3);

9 - reinforcing elements (Fig. 3);

10 - holes for fixing the biomat and gutters with drains on the undisturbed part of the slope (Fig. 1, Fig. 3, Fig. 4);

α is the angle of inclination (steepness) of the violated slope;

D is the distance between the synthetic gutters;

L is the distance between the holes for attaching the biomat in the longitudinal direction;

K is the distance from the edge of the biomat to the center of the hole for mounting it;

S is the distance between the holes for mounting the biomat in the transverse direction.

The implementation of the specified technical solution is as follows.

The surface of the disturbed section 2 of the reinforced slope, in which, as a rule, there are microdepressions 6 (cracks, bumps, pits, etc.), they are flattened (flattened, that is, flattened as far as possible) and cleaned of possible debris. Then, on a flat surface of the disturbed section 2 of the reinforced slope, webs of durable biomat are laid 1, made, for example, on a linen basis, 2-3 mm thick, the density of which is not lower than 450 g / m ² , with a reinforcing mesh inside. Laying of the biomat sheets 1 is carried out manually, while the biomat sheets 1 are fixed using reinforcing elements (devices) 9, mainly pegs 40-60 cm long. The biomat sheets 1 are laid in such a way that they completely cover the disturbed section 2 of the slope, leaving them beyond their borders undisturbed section 8 of the slope.

Canvas 1 biomat contains the upper and lower layers (outer layers) made of woven or non-woven fabrics, for example, either cotton, or linen, or jute, or coconut, or from other decaying natural fibers of plant origin or combinations thereof , the outer layers are fastened inside the biomat by a reinforcing mesh, while the inner layer of the biomat, the so-called filling, is composed of grass seeds (grass mixtures) adapted to local climatic conditions, mineral and / or organic fertilizers growth stimulants, water-retaining components, etc.

One of the recommended mixtures of grass mixtures includes herbs such as: meadow bluegrass, beetroot boneless, meadow fescue, red fescue, meadow timothy grass, creeping wheatgrass, oats, rye.

The rate of application of grass mixtures with a germination rate of 100% is 100-250 kg / ha.

Laying of canvases 1 of the biomat is carried out at air temperatures above 5 ° C (the most favorable time of the year is the beginning of the summer period, after the snow cover has melted and the seasonal freezing layer has thawed to a depth of at least 20 cm). The biomat is laid on disturbed (degraded) inclined ground surfaces (disturbed sections of the 2nd slope) in the direction of unwinding of the roll on pre-arranged and cleared of foreign objects (stones, gravel and lumps of soil with a diameter of more than 50 mm).

Cloths 1 of the biomat are necessarily connected to each other with an overlap of 10 to 15 cm, as well as to the surface of the disturbed section 2 of the slope using connecting reinforcing devices 9, which can serve, for example, pegs, astringent penetrating solution, etc.

After laying the canvases 1 biomate necessarily carry out their moistening at the rate of not less than 100 m ³ water per 1 ha (10 l / m ² ). In order to accelerate the emergence of seedlings, it is desirable to provide regular watering before the appearance of grass stand. It is advisable to adjust the amount of watering based on climatic and weather conditions.

After fixing the biomat webs 1 to each other and with the surface to be strengthened, synthetic gutters 3 and drains 4 are installed on the surface of the biomat webs 1 in order to divert the volume of water concentrated in the gutters 3 to the lower levels of the slope (see Fig. 1-3). The gutters 3 and drains 4 are made of plastic (for example, polyvinyl chloride (PVC)). Synthetic gutters 3 are installed parallel to each other, and these gutters 3 are interconnected by said gutters 4, the distance D between these gutters in the transverse direction is 2 meters (see Fig. 4). These synthetic gutters 3 are fixed on the surface of the biomate canvases 1 with metal brackets longer than 1 m. The use of synthetic gutters 3 helps to reduce the erosive speed of water and its organized flow to the underlying horizons. Next, install the underlying receiving chute 5 (Fig. 1-3), installed in the lower part of the reinforced slope, where the entire fluid stream flows from the biomat gutters 3 and drains 4 fixed on the surface of the webs 1.

With a certain periodicity (once every 2-3 years), it is necessary to clean the gutters 3 from the possible flushing of soil particles, dust, debris.

Within 1-2 years, a stable (perennial) herbage with a developed root system, which penetrates deep into the soil, will bind the soil and form a turf with high mechanical strength, is formed from the grass mixture, which is part of the paintings of 1 biomat. This, in turn, will reliably protect the soil from the manifestation of dangerous erosion processes.

The proposed method allows to prevent destruction and to ensure the restoration of weakly stable or disturbed slopes with a steepness of more than 45 ° (and in some cases more than 70 °). This task is relevant for conditions of the Far North with vulnerable soils.

As a result of the implementation of this method, a state is achieved that contributes to the prevention of destruction and the restoration of weakly stable or disturbed slopes of high steepness (more than 45 °).

Claims (2)

1. A method of restoring and preventing further destruction of disturbed slope soil sections of great steepness, during which a protective coating is laid on the surface of the strengthened disturbed soil slope or slope, followed by fixing it on the surface to be strengthened, while high density biomat fabrics are used as a protective coating for the strengthened slope wherein each of the biomat webs contains outer, that is, upper and lower, layers and an inner layer, while the upper and lower layers are they are not in the form of woven or non-woven webs of decaying natural fibers of plant origin, and the inner layer of the biomat includes plant seeds, mineral or organic fertilizers, growth stimulants and moisture-retaining components, reinforcing devices are used as means to fix the biomat on the strengthened slope, after laying and fixing the biomats, synthetic gutters and gutters are installed on their surface, and a reception is installed in the lower part of the disturbed reinforced slope. a plurality of troughs, said synthetic gutters attached to the surface of the biomats being arranged parallel to each other and interconnected by said gutters, in addition, said gutters and gutters attached to the surface of the biomats are connected to a receiving trench fixed to the bottom of the reinforced slope, with the possibility of the formation of a drainage system. 2. The method according to p. 1, characterized in that the synthetic grooves on the surface of the biomat are installed parallel to each other under an interval of 2 meters.

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