SU1821522A1 - Soil stratification method - Google Patents

Description

The invention relates to blasting operations in land reclamation and can be used for desalinization of hardly reclaimed lands subject to secondary salinization, requiring major leaching.

The aim of the invention is to accelerate the process of washing the massif and reduce water consumption.

Figure 1 shows a cross-section along the area to be washed; figure 2 is a fragment of the washed area in plan.

The proposed method is implemented as follows. The area 1 subjected to desalinization is drilled with drainage wells 2 with a diameter of 230 mm along a 4x4 square grid with a UGB 50 drilling rig, passing through the fertile 3 and waterproof 4 layers to the aquifer 5, starting at a depth of 3.2 mm. The depth of these wells is 3.5-3.6 m. Then these wells. fill up with a sand-gravel mixture 6 to a level of 1.45-1.7 m (with a fertile layer thickness of 1.2 m), after which the remaining volume of drainage wells is covered with a previously loosened fertile soil layer 7. At the end of this process on a square grid 2 x 2 in the massif, by the same installation, wells with a diameter of 110 mm are passed to a depth of a fertile layer equal to 1.2 m, into which charges of explosives 8 are installed, while the mass of the charge installed at the bottom of the well is 1.0 kg. The second is installed at a depth of 0.6-0.2 kg. The gap between the charges and the wellhead is filled with drill cuttings. After filling with water 9 of the brine section from the irrigation canal, the blasting of loosening charges 8. As a result of the explosion, a compression wave propagates through the massif, weakening the strength of the skeleton and thereby contributing to a more rapid dissolution of salts and their removal through drainage wells. Expanding explosion products form numerous cracks in the massif, and the massif density decreases.

t .Λ

1821522A1 as a result of which the rate of water filtration increases sharply.

Experimental work carried out showed that during an explosion with its calculated parameters, the density of the massif decreases by 1.3 times.

When the distance from the boundary of the fertile layer to the sand and gravel cushion of the well is less than the 1st diameter of the well, the overlying damming of the loosened soil is partially washed out into the sand and gravel mixture, as a result of which the steepness of the depression curve and, consequently, a significant part of the soil ( up to 20%) between wells remains unwashed.

When the distance from the sand-gravel mixture in the well to the boundary of the fertile layer is more than 2 borehole diameters, the depression curve sharply flattens, which leads to an increase in the period of desalinization of the fertile layer by 20-30%.

When compaction of the stemming from the loosened soil at the wellhead to a density higher than the density of the massif to be settled, the depression curve improves, increasing the desalinization time by 20-30%.

When replacing the stemming from the loosened soil at the wellhead with a sand-gravel mixture, the slope of the depression curve sharply increases, which causes non-flushing of up to 30% of the desalinization volume lying between the wells.

Due to the fact that instead of horizontal drainage according to the method taken for the prototype, vertical drainage wells with sand and gravel filling are made, the flushing speed increases sharply by 1.4-1.6 times due to the fact that one flat depression curve in the massif is broken per row. corresponding to the number of wells, which leads to an increase in the steepness of these edges and, accordingly, to a more intensive drainage of water into drainage wells. At the same time, the water consumption is reduced by 1.2 times.

Claims (1)

Claim The method of soil desalinization, including loosening the fertile soil layer by means of an explosion of explosive charges, which are introduced into the wells drilled at the site, embankment and water supply, characterized in that, in order to accelerate the washing process and reduce water consumption, before loosening, they drill Greening wells according to the design grid to the depth of the aquifer, fill them with a sand-gravel mixture to a depth not reaching the lower boundary of the fertile soil layer at a distance equal to 1-2 diameters of the well, and the rest of the wells are filled with loosened fertile soil.