SU1510740A1 - Method of controlling gully erosion - Google Patents

Abstract

The invention relates to the reclamation of disturbed lands and can be used to combat ravine erosion under permafrost conditions. The aim of the invention is to reduce erosion processes in permafrost conditions. The method includes the manufacture of drainage shaft-ditches and backfilling of ravines and towers. In order to implement the method, along with the backfilling of ravines and openings along the backfill boundary, a drainage system and an earthly layered dam are constructed. At the same time, perennial grasses mixed with mineral fertilizers are sown on the surface of the backfill of ravines and openings, and the dam crest and slopes are covered with latex and sown with herbs. 2 hp f-ly, 1 ill.

Description

The invention relates to the reclamation of disturbed lands and can be used to combat ravine erosion under permafrost conditions.

The aim of the invention is to reduce erosion processes in permafrost conditions.

The drawing shows the scheme of implementation of the method, where 1 drainage, 2 - inlet end of the drainage with trash grate, 3 - dissipating threshold 4 - ground to the dam, 5 - drainage shafts-ditches, 6 - backfill of the ravine with grass sowing.

The method is carried out as follows.

In the frost-free period prepare the basis for laying the pipe - the water passage. At the beginning of the frosty period, the installation of parts and the laying of the water outlet 1 are carried out. A trash grate is fixed at the inlet head of the water outlet 2. The top of the inlet cap is located 1.1-1.6 m below the ridge of dam 1, which is determined by the maximum storm discharge rate of 10% security (CH 435-72) and throughput of the pipe. At the end of the pipe-outlet 1, a scattering threshold 3 is set. The pipe is filled up with tamping and compaction of the sinuses at the embankment 1 of the dam body 4. For stability of n, iOTHiii i in permafrost conditions, the embankment of the dam 4 is carried out in 1.0 m thick layers with the alternation of a layer of local soil with a sealing layer of coarse blasting material. The top layer of the dam 4 and the slopes are thoroughly compacted, plan and cover with grass sowing. At the same time, when the ground freezes by 30–40 cm, the device of the drainage shafts-ditches 5 meters. Is manufactured. Before starting work, the surface of the site is cleared of snow cover at a height of more than 20 cm (at a lower height, in order to avoid disturbing the natural cover,

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only compacted snow cover). The ditches are constructed with a depth of up to 1.0 m triangular in cross section (to ensure maximum storm discharge of 10% security up to 1.0 M VC). The bottom of the ditches is filled with the minimum possible thin layer of coarse debris (to protect it from erosion at the beginning of seasonal thawing). In April - May, backfilling 5 is started on frozen ground (after having removed the snow) from the top of the ravines. Backfilling 5 is made by local ground (except clay), backfilling material 5 is harvested in advance in the autumn-summer time. The shipment is carried out in autumn and winter from special quarries. Backfilling 5 is done in layers. A layer of local soil 1.0 m thick alternates with a compacting layer of coarse clastic material 0.5 m thick. At the end of the backfill of the ravine, there is a slope of 1: 3. At the end of the backfill, plannings are made at ground level and sowing perennial grasses in mixtures with mineral fertilizers. The use of the proposed method of dealing with ravines in permafrost conditions makes it possible to eliminate the existing ravine by constructing a valley with drainage and backfilling of ravine holes. The dam is designed to ensure the collection of talas and storm waters, as well as to protect the drainage system and is the boundary to protect the area from water erosion. In this case, the embankment of the dam is produced in layers of 1 m thickness with alternation of rocky soil, which provides drainage.

Drainage shafts ditches are intended for organized removal of thawed and storm water. The bottom of the ditches, as well as the surface of the shafts, is coated with latex, which prevents erosion at the beginning of the seasonal thawing of the soil. To protect against

premature thawing of the upper layer of the structure produces a coating of the dam ridge and slopes, as well as lateral ravine filling slopes, with grass sowing,

which not only prevents the formation of erosion processes, but also contributes to the shedding of ravines, which is ecologically (advantage) more acceptable in comparison with the known method.

The application of the proposed set of measures is consistently aimed at eliminating the factors that are the mechanism for the formation of a ravine in permafrost conditions, which is not provided for in a known manner.

The possibility of preserving ravines and turning into a sodded surface leads to a reduction in damage to industrial buildings and structures.

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Claims (3)

1. A method of dealing with gully erosion, which includes the manufacture of drainage shafts, ditches, filling of ravines and openings, characterized in that, in order to reduce erosion processes in permafrost conditions, additionally along the border of the ravines, they arrange drainage and earth dam, while the water outlet is laid at the beginning of the frosty after the soil freezes to a depth of 30–40 cm. 2. A method according to claim 1, characterized in that, in order to preserve the seawater waters from erosion, the crest and slopes of the dam are covered with grass sowing latex. 3. Method according to paragraphs. 1 and 2, characterized in that, in order to increase the efficiency of fixing the filling ravines and openings overgrown with perennial grasses mixed with mineral fertilizers.