RU2746485C1 - Method of protecting slopes from water erosion - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture, in particular, to methods of water erosion control on slopes. Method of protection of slopes from water erosion consists in creation of water-distributing trench, oriented horizontally, with water-retaining earth shaft. Further, on the trench wall adjacent to the water-retaining eccentric shaft and on the shaft itself, the geocomposite drain material is laid with the geomembrane, and geocomposite drainage material is laid on opposite wall and bottom of water-distributing trench. Trench is filled with water-conducting organic filler representing ceramsite gravel with fraction of 20-40 mm.EFFECT: method ensures prevention of water erosion and improved reliability and stability of the erosion-proof structure operation.1 cl, 1 dwg

Description

The invention relates to agriculture, in particular to methods of combating water erosion on slopes.

There is a known method of protecting slopes from erosion (RU 1653553, 06/07/1991), including making a trench with a shaft, filling it with inorganic water-absorbing material and laying at different levels diagonally to the main slope of drainage elements in the form of pipes with holes and planting woody plants in the upper part slope.

The disadvantages of this method are: the high cost of the materials used (polyethylene pipes); high labor intensity; trenches filled with inorganic material freeze deeply in winter, and for this reason, in spring, water is poorly passed to drainage elements.

A known method of protecting soil from water erosion (RU 2644569, 02.13.2018), including the creation of a water-retaining trench filled with an inorganic filler, connected by a drainage system with a water storage basin.

The disadvantages of this method are: low efficiency and temporality of the action of the water-retaining trench due to the lack of strengthening of the walls; high labor intensity.

The closest technical solution is a method for protecting slopes from water erosion (RU 2467543, 11/27/2012), including the creation of an arched trench with a water-retaining earth wall and a water-retaining screen located in it and filled with an inorganic filler.

The disadvantages of this method are: low efficiency and short-term functioning of the trench due to the destruction of the upper edge of the trench slope by the runoff and a decrease in the culvert capacity of the inorganic filtering filler as a result of its clogging.

The objective of the invention is to improve the efficiency of combating water erosion by increasing the reliability and stability of the functioning of the water redistributing trench filled with organic filler.

The technical result is the prevention of water erosion by redistributing surface runoff to the underlying layers of the soil profile, and increasing the reliability and stability of the anti-erosion structure.

The technical result is achieved by a method of protecting slopes from water erosion, including the creation of a water redistributing trench, oriented horizontally in the terrain, with a water-retaining earth wall and a water-retaining screen. The trench is filled with a water-conducting organic filler. The wall of the trench adjacent to the water-retaining earth wall (bottom wall), together with the shaft, is covered with a geocomposite drainage material with a geomembrane, forming a water-retaining screen, and the opposite wall (upper wall) and the bottom of the trench are covered with a geocomposite drainage material.

Geocomposite drainage material with a geomembrane combines the functions of drainage and waterproofing, providing high water permeability in the plane of the canvas, as well as normal to this plane, but only on one side (in the direction from the trench), allows to ensure the retention of surface runoff and redirect it to the lower part of the trench and further under the action of gravitational forces into the depth of the soil profile, and also to prevent the erosion of the water-retaining earth wall. Geocomposite drainage material performs the function of drainage, providing high water permeability in all directions of the plane of the canvas, and prevents the destruction of the upper wall of the trench and clogging of the water-conducting filler of the trench. The canvases are thermally bonded to each other, anchors are attached to the ground.

The use as a water-conducting organic filler of expanded clay gravel with a fraction of 20-40 mm, which is an environmentally friendly material, inexpensive, has high water and frost resistance, does not rot and does not decompose, provides increased water throughput, and as a result, a stable redistribution of water in underlying layers of the soil profile. Falls asleep flush with the ground.

The size of the trench depends on the size of the planned flow retention. Hydrological calculations are carried out taking into account the retention of runoff at 10% supply (maximum runoff once every 10 years).

During snowmelt and rains, water flowing down the slope and penetrating deep into the soil, hits the wall of the water-distributing trench, covered with a geocomposite drainage material with a geomembrane (lower wall), as a result of which it flows into the lower part of the trench and further, under the action of gravitational forces, into the depth of the soil profile ... Surface runoff is retained by a water-retaining earthen embankment covered with a geocomposite drainage material with a geomembrane, and also enters the water distribution trench, passing through a layer of water-conducting organic filler, directed to the bottom of the trench and further to the underlying layers of the soil profile.

As a result of the interception and redirection of surface runoff into the underlying layers of the soil profile by a water-distributing trench, soil washout is prevented, and erosion processes are reduced. In addition, the passage of water through a layer of expanded clay gravel, which does not freeze and does not deform, contributes to its purification from suspended solids, which favorably affects its quality. At the same time, covering the trench wall with a geocomposite drainage material (upper wall) prevents its destruction and, as a consequence, clogging of the organic filler, which helps to prevent a decrease in the culvert capacity of the trench as a whole, and covering the opposite wall of the trench (lower wall) and shaft with geocomposite drainage material with a geomembrane ensures the retention of the flow and its redirection to the underlying layers, preventing the erosion of the structure. In the aggregate, the stability and reliability of the functioning of the water redistributing trench is increased, and the service life is increased.

The way to protect slopes from water erosion is illustrated by the drawing. The drawing shows: water redistributing trench 1, water-retaining earth shaft 2, geocomposite drainage material with geomembrane 3, geocomposite drainage material 4, anchors 5, water-conducting organic filler 6, installation site of geocomposite materials 7.

According to the invention, a method for protecting slopes from water erosion includes creating on a slope at a certain distance a water-distributing trench 1, horizontally oriented terrain, which is developed with the movement of soil into a water-retaining earth shaft 2 followed by rolling (soil compaction). Further, a geocomposite drainage material with a geomembrane 3 (GOST 33068-2014) is laid on the wall of the trench adjacent to the water-retaining earth shaft 2 and on the shaft itself, and geocomposite drainage material 4 (GOST 33068-2014) is laid on the opposite wall and bottom of the water-distributing trench 1 ... The canvases are thermally bonded to each other at the place of installation of geocomposite materials 7 at a distance L, which is determined by the minimum technological distance of welding of the material. Attach to the ground with anchors 5. Fill the trench 1 flush with the ground surface with a water-conducting organic filler 6, which is expanded clay gravel with a fraction of 20-40 mm (GOST 32496-2013).

The method of protecting slopes from water erosion works as follows. Surface runoff, flowing down the slope, is delayed by a water-retaining earth wall 2 and a trench wall covered with a geocomposite drainage material with a geomembrane 3 (bottom wall), enters the water distribution trench 1 filled with a water-conducting organic filler 6 in the form of expanded clay gravel, which conducts water into trenches, and then under the action of gravitational forces into the underlying layers of the soil profile. At the same time, the water-conducting ability of the filler is preserved in the early spring (the period of snow melting). Coating the opposite wall and bottom of the trench with a geocomposite drainage material 4 (top wall) prevents the destruction of the edge and wall of the trench and, as a result, clogging of the water-conducting organic filler 6, which contributes to the preservation of its cultivation capacity for a long time, and in aggregate - to increase stability and reliability the functioning of the anti-erosion structure. In the process of passing water through a layer of expanded clay gravel, it is purified from suspended particles, which has a beneficial effect on the quality of water entering the water body.

Claims (1)

A method of protecting slopes from water erosion, including the creation of a water redistributing trench, oriented horizontally, with a water-retaining earthen embankment and a water-retaining screen filled with filler, characterized in that the water-retaining screen is made by covering a geocomposite drainage material with a geomembrane wall of a trench adjoining , together with the shaft, and the opposite wall and bottom of the trench are covered with a geocomposite drainage material, while a water-conducting organic filler in the form of expanded clay gravel with a fraction of 20-40 mm is used as a filler.

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