SU1686074A1 - Water intake method - Google Patents

Abstract

The invention relates to the construction, water supply, can be used for drainage and water intake of groundwater, and is aimed at improving the flow rate of the well and reducing soil removal. This is achieved by forming a well in water-saturated ground, placing an additional filter coaxially installed in the water intake device with a specific filtration resistance and a duty cycle exceeding the corresponding indicators of the main filter, carrying out the additional drainage of the soil after which additional filter is removed. 3 silt

Description

SP

WITH

The invention relates to the construction, water supply and can be used for drainage and groundwater intake.

The purpose of the invention is to increase well production and reduce soil removal.

FIG. 1 shows the scheme for implementing the method, the installation stage of the filters: FIG. 2 is the same, the stage of forming a cavity; Fig. 3 is the same, the step of extracting an additional filter.

The method is carried out as follows.

In the rock mass 1, a rising well 3 is constructed from the mine workings 2 into the upstream aquifers 4 that are to be drained. For 1-1.5 m before the water-bearing rocks, a water intake device is mounted - a filter column 5 with the main 6 and an additional 7 filters, the sizes of the holes of which determine granulometric

composition of water-bearing rocks, with this1 the dimensions of the holes in the additional filter should be smaller than that of the main one, and the porosity of the filter should be larger. The packer 8 and the packer tube 9 are placed inside the additional filter, the space between the filters is isolated from the non-working part of the filter string by an elastic sealing element 10. In the upper part of the filter string, a drill bit 11 is installed through which the flushing fluid 12 is fed to the bottom hole. Further drilling of the well 3 is carried out by the filter column 5. After the aquifers 4 are opened to the required depth, the packer 8 and the packer tube 9 are removed from the filter column 5 and the water 13 is removed from the aquifers 4 through the main filter 6 and the additional 7. At the same time from aquifers 4 due to natural

About 00

about o vj

The hydrodynamic pressure of the groundwater flow 14 causes the removal of rock particles 15 to form a cavity 16 and lower the level 17 of the groundwater to position 18 (reduced groundwater level). After the removal of rock particles through the primary and secondary filters, which is determined by stopping the sanding of the well, the additional filter 7 is removed (indicated by the arrow in FIG. 3) and the water is removed through the filter column 5. As a result additional removal of rock particles and an increase in the size of the cavity 16, and, consequently, an increase in well production.

In the case of a downhole well (not shown), water is taken from the well by a pump, and an additional filter 7 is removed from the main 6, for example, with a winch cable and increased in the non-operating part of the filter string.

Example. Consider the intensification of the water intake device in the implementation of the mine floor of an underground mine. Dried aquifers are represented by sands. The diameter of sand particles corresponding to 10% of their content in the rock is (d o) 0.05 mm or less. The diameter of sand particles, corresponding to 60% of their content in the rock, is (deo) 1 mm or less. Based on the particle size distribution, the size of the openings of the primary and secondary filters is determined.

The diameter of the holes of the main filter

D (2 - 3) deo

The diameter of the holes of the additional filter

D2 (2-3) dio.

The diameter of the holes of the main filter is 3 mm, and an additional 0.15 mm. So that the hydraulic resistance of the additional filter does not exceed

the hydraulic resistance of the main, an additional filter is made with a frame winding (25% duty cycle), and the main filter is made tubular with calculated hole sizes (18% duty cycle).

To simplify the extraction, the additional filter is made conical and is connected to the main one by means of an elastic seal in the non-working part of the filters on the extraction side.

The method improves the productivity and stability of the well with limited sand removal during its operation by controlling the hydraulic resistance of the filter.

In this case, the method increases the durability of the well and reduces the labor costs for the execution of works by reducing the number of wells.

Claims (1)

Invention Formula The method of water intake, which includes the formation of a well in water-saturated soil, the placement of a water intake device with a filter in it, the removal of water with the removal of part of the soil in the initial period and Removing a part of the water intake device, characterized in that, in order to increase the flow rate of the well and reduce soil removal, in the process of draining the water filtering until the termination of soil removal by means of an additional filter installed in the water intake device with a specific filtration resistance and a duty cycle exceeding the corresponding parameters of the main filter. what about soyu SC1 H / N / H / NX H V H / H / f / tf.J