RU2555034C1 - Method of desalinisation of heavy saline lands - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: for desalination of heavy saline lands, water is supplied to the desalinisation site, the slits 3 are cut, the irrigation pipes 6 with droppers 7 are placed along the central axis of the inter-slit bands, the inter-slit bands are covered with waterproof screens. Then the wash water is fed through the droppers 7, the soil with salt is moved from the walls of the slits 3 at their bottom after the termination of washing, and the slits 3 are poured. Before cutting the slits 3 the deep loosening 2 is carried out. The slits 3 are cut with a bias of the bottom towards the collector and matched with it. Along the central axis of the inter-slit bands the troughs 5 are formed by compacting, in which the pipes 6 with droppers 7 are placed. After moving to the bottom of the slits 3 of soil with salt they are poured first with gravel as the layer of 0.2-0.3 m, then with sand of the field surface. Then, the site surface is levelled and ploughing is carried out with the formation of the arable layer.

EFFECT: increased efficiency of desalination of heavy saline lands with minimal cost of water, diversion of excess precipitation with removal of salts beyond the desalinisation site.

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Description

The present invention relates to the field of agriculture and will find application in restoring the fertility of heavy saline lands.

A characteristic feature of these lands is the heavy particle size distribution and a high degree of saturation of the soil with ions of toxic salts, which have a depressing effect on plants. In addition, these lands have low water permeability and, when wet, are difficult to pass for agricultural machinery, which does not allow to cultivate crops on them.

A known method of washing heavy saline lands, implemented using the reclamation system. This method includes laying deep closed drainage, cutting the water supply and drainage network and the system of slots. During the washing process, water is supplied to the site until the gaps and soil layer are completely filled, then water with salts dissolved in it is diverted to the closed drainage (Aut. St. USSR No. 1358848, IPC A01G 25/00, 1987, BI No. 46) .

The disadvantage of this method is the cost of large amounts of water (15-20 thousand. M ³ / ha).

The closest to the proposed is a method of desalination of the soil, including the supply of water to the brine site, cutting cracks, forming ridges, placing pipelines with droppers on them, covering the inter-slot space with a screen, supplying washing water, displacing soil with salt from the walls of the cracks after washing to the bottom of the slot forming a waterproof screen above it and filling the gap with soil (RF Patent No. 2273693, IPC EV 02/13, 10/04, 2006). The application of this method allows more than halving the cost of water for flushing.

The disadvantages of this method are the insufficient efficiency of desalinization of heavy lands due to the low filtration rate, as well as the risk of secondary salinization during the gradual destruction of the waterproof layer over buried salts.

These disadvantages are eliminated by the proposed method for the salinization of heavy saline lands, including water supply to the salinized area, cutting slits, placement along the central axis of the inter-gap strips of irrigation pipelines with droppers, covering the inter-gap strips with waterproof screens, supplying washing water through droppers, moving soil with salt from the walls cracks to their bottom after stopping washing and filling the cracks, in which according to the invention, on the brine site before cutting the cracks Deep loosening is carried out, the cracks are cut with a slope of the bottom towards the collector and mated with it, along the central axis of the inter-slit strips, hollows are formed by compaction, into which irrigation pipelines with droppers are laid, and after moving soil slots with salt to the bottom, they are first covered with gravel with a layer of 0 , 2-0.3 m, then sand to the surface of the field, after which the surface of the site is leveled and plowing is carried out with the formation of arable layer.

A new positive result from the application of the proposed method is that loosening the soil increases its water permeability, compaction of the troughs for laying pipelines with droppers ensures the formation of capillaries and the movement of moisture along the capillary pores with the removal of salts on the walls of the gap. Filling the gaps with gravel eliminates the capillary rise of salts to the surface. At the same time, the gravel and sand layers provide precipitation to the collector, which dissolves and carries out the buried salts from the bottom of the slots, which prevents the wetting of the washed soil layer and greatly reduces the risk of its secondary salinization.

The invention is illustrated by drawings, where in Fig.1 shows a General view of the pickled area in plan, in Fig.2 is a section of the cracks in the washing process, in Fig.3 is a section of the cracks after completion of work.

The proposed method for desalination of heavy saline lands is as follows.

In the desalted area 1, deep loosening of the soil is carried out, forming a loosened layer 2. Then, the cracks 3 are cut to a depth of 1.5-2.0 m over a distance of 2-3 m and they are mated with the collector 4. The bottom of the cracks 3 has a slope towards the collector 4. On the central axis of the inter-slit strips, densities 5 are formed by sealing, along the bottom of which irrigation pipelines 6 with droppers 7 are connected, connected to the supply pipe 8. The surface of the inter-crevice space is covered with a moisture-proof screen 9, the edges of which are fixed along the edge of the cracks 3.

After the installation is complete, water is supplied to the desalted section 1 from the water supply pipe 8 through irrigation pipes 6 through droppers 7. Water enters the surface of the densified hollow 5 and, together with the salts dissolved in it, is transferred along the capillary pores to the direction of greatest evaporation, namely to the walls cracks 3. At the same time, part of the moisture evaporates under the screen 9, condenses on its inner surface and, flowing to the bottom of the hollow 5, is involved in the process of moving salts to the walls of the cracks 3. Upon completion, The water supply is stopped, the screens 9 and pipelines 6 with droppers 7 are removed from the surface of section 1. The salts deposited on the walls of the slots 3 are moved to their bottom, forming a layer 10. On top of this layer, a layer of gravel 11 with a thickness of 0.2-0 is poured, 3 m, sufficient to break the capillaries, and a layer of sand 12 to the top of the cracks 3. Then, alignment and plowing is performed on the site with the formation of a saline arable layer.

An excess of precipitation during the growing season, as well as in the autumn-winter period, seeps through the sand layer 12, gravel 11 and flows down the bottom of the cracks 3 into the collector 4, and from it into the water intake. In the process of movement of this water, the salts dissolve in layer 10 and carry them out of the area 1.

Thus, the proposed method provides an increase in the efficiency of desalinization of heavy saline lands with minimal water consumption, removal of excess precipitation with the removal of salts outside the saline area.

Claims (1)

The method of desalination of heavy saline soils, including water supply to the salinized area, cutting cracks, placing along the central axis of the inter-slit strips of irrigation pipelines with droppers, covering the inter-crevice strips with waterproof screens, supplying washing water through droppers, moving soil with salt from the walls of the cracks to their bottom after cessation of washing and filling the cracks, characterized in that in the desalinated area before cutting the cracks deep loosening is made, the cracks are cut with a slope of the bottom towards the collector and mating t with it, along the central axis of the inter-crest bands, densities are formed by compaction, into which irrigation pipelines with droppers are laid, and after moving to the bottom of the soil slots with salt, they are first covered with gravel with a layer of 0.2-0.3 m, then with sand to the field surface after which the surface of the plot is leveled and plowing is carried out with the formation of an arable layer.

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