RU2080036C1 - Method of desalinization of soil in conditions of permafrost - Google Patents

Abstract

FIELD: agricultural technology. SUBSTANCE: according to method, simultaneously with ploughing of fertile layer of soil, performed is partial loosening of low-lying soil with formation of parallel mole drains in middle part of dividing layer. If land areas for cultivation are inclined, then canals are dug out in lower part to undercut drains. On horizontal land areas, installed in staggered order are drain columns resting on drains. After that fertile layer is saturated with water and after mineralized water goes out to surface and gets frozen in cold season of year, ice is removed from drain columns and from canals. EFFECT: high efficiency. 4 dwg

Description

 The invention relates to agriculture, in particular to a method for desalination of solonetzic soils under permafrost conditions.

 The purpose of the invention is the simplification and cheapening of work on the desalinization of soils.

 In FIG. 1 shows a portion of a saline inclined soil area; in FIG. 2 plot of horizontal area; in FIG. 3, section AA in FIG. one; 4, the size BB in FIG. 2.

 The drawings show: 1 saline area; 2 fertile layer; 3 - underlying soil, 4 mole drain; 5 active layer; Channel 6 7 - drainage column; 8 lower boundary of the permafrost screen (Permafrost screen); 9 upper boundary of frozen rocks; 10 plastic bag or sleeve.

 The method is as follows.

 On saline area 1 to be desalinized, plowing (loosening) of the fertile layer 2 and partial loosening of the underlying soils 3 are performed with the formation of parallel mole drains 4 in the middle part of the active layer 5. By the active layer is meant the depth of seasonal thawing of soils. If the cultivated area is inclined, then drainage channels 6 are made in its lower part, cutting drains 4. On the horizontal area, drainage columns 7 are installed in the area of drains 4, while the distance between drains 4 is no more than 5 m, and the distance between drainage columns 7 is not more than 50 m.

 After the implementation of the above works, which are carried out during this period of summer-autumn time, when the depth of defrost reaches its full value and the screen of permafrost begins to rise, the fertile layer 2 is saturated with water. Watering of area 1 can be carried out using various means of mechanization.

 Water entering the fertile layer 2 dissolves the mineral salts contained in it, and then, penetrating the cracks of the partially loosened underlying massif 3 and the slit from the drainage knife, it enters the mole drains 4.

 If area 1 is sloping (has a slope), then saline water drains along drains 4 into channel 6 and further beyond the area.

 With a horizontal area of 1 or a lowland relief, mineralized water entering the underlying loosened soil 3 and mole drains 4 is stored in them until winter frosts. In the process of cooling when negative temperatures occur, the lower boundary of the frozen rocks 8 begins to rise up, and the upper, starting from the surface, the appeared boundary of the frozen rocks 9, goes down. With this freezing of rocks, the non-mineralized water in them first freezes. It is as if its desalination. As a result, the salinity of the water in the still-frozen layer increases. In this case, frozen rocks increase in volume and hydrostatic pressure arises between the frozen rocks in the intermediate melt massif. With further freezing of the rocks of the active layer 5, mineralized water of significant concentration begins to pour out through the drainage columns 7 to the surface and finally freezes.

 In order to simplify the collection of ice and remove it from area 1, drain bags 7 are reinforced with plastic bags or sleeves 10, into which pouring water enters, where it freezes. When implementing the method, the simultaneous use of drainage channels and drainage columns is possible.

Claims (1)

 The method of desalinization of soils mainly under permafrost conditions, including plowing the fertile layer, cutting parallel mole drains with partial loosening of the underlying layer. laying a channel for collecting and discharging saline water, saturating the soil with water, followed by draining saline water, characterized in that mole drains are cut in the middle part of the active layer at a distance of no more than 5 m from each other while plowing the fertile layer, and in areas with steady the drainage columns are installed in a staggered manner on the drains with a distance of not more than 50 m between them, and after pouring mineralized water to the surface and freezing them when the cold period begins, ice from drainage columns and canals are removed.

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