SU1258964A1 - Installation for artificial replenishment of subsoil water resources - Google Patents

Description

The invention relates to water supply, in particular, to systems for the production of drinking water from underground aquifers with their artificial replenishment, and is an improvement of the installation for artificial replenishment of groundwater reserves according to the main author. St. No. 1004553.

The purpose of the invention is to increase the productivity of the installation in free-flow aquifers.

FIG. 1 shows the layout plan for the installation of an artificial replenishment of groundwater reserves; in fig. 2 shows section A-A in FIG. 1 (hydrogeological profile, including infiltration basin).

The installation includes infiltration basins 1, cut through, and a weakly permeable roof 2 non-pressure water pumping horizon 3 that lies on the reservoir 4, water wells with filters 5, equipped with submersible electric pumps 6, providing pumping water from the wells to flow into the collecting pressure pipe 7, air inlets 8 connected by an air duct 9 to vacuum pumps 10, which carry out air pumping from wells 8, an impermeable curtain 11 cutting through the aeration zone from a low-permeable roof 2 to a dynamic DMS 12 groundwater and defining a suction cavity 13 under tional infiltration basin 1.

Installation of artificial groundwater recharge works as follows.

When infiltration pools 1 are filled with water, vacuum pumps 10, which pump air from the air intake wells 8, are simultaneously put into operation, which reduces the pressure in the vacuumized cavity 13 under the bottom of the infiltration pools 1. Creating a vacuum under the pool increases the pressure gradient of the filtration flow in a silt film formed at the bottom of the infiltration basin 1, and in a roll-up layer of the filter charge.

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By increasing the pressure gradient, the intensity of water infiltration from the infiltration basin 1 into the aquifer 3 increases, which allows to increase the productivity of water wells 5. At this, an impermeable curtain 11 isolates the vacuumized cavity 13 from atmospheric air from the aeration zone, which periodically stop the evacuation of air from the cavity 13 after creating a vacuum in it and resume it only if it is necessary to increase the hydraulic gradient or for the purpose of evacuating the air; Payuschie in the cavity 13 due to incomplete it ger15 metichnosti. As the water from the pools 1 infiltrates, a low-permeable silt film forms at the bottom of them. In order to restore the capacity of the installation in the presence of several pools 1, they are alternately emptied and the clay film 20 is removed. Before emptying each pool, the air is pumped out of the vacuumized cavity 13 directly under the empty pool and is maintained,

5 because vacuumized cavities 13 under each pool are insulated from each other by an impermeable curtain 11.

An artificial groundwater recharge installation allows you to adjust the performance of infiltration basins in non-pressure aquifers, i.e., in the most common conditions for artificial groundwater recharge, if there are several basins, they can be alternately emptied for regeneration

5 this ensures the operation of the installation, since the evacuated cavities under each pool are isolated from each other and do not communicate with the atmosphere through the bottom of the emptied structure; behind

0 by reducing the volume of the evacuated cavity to significantly reduce the time of operation of the air intake devices and, consequently, reduce operating costs.

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8 3

U 5

7 2

FIG. 2

VNIIPI Order 5099/32 Circulation 688 Subsidiary Subsidiary PPP "Patent, Uzhgorod, ul. Project, 4

Claims (1)

INSTALLATION FOR ARTIFICIAL SUPPLY OF UNDERGROUND WATER RESERVES by ed. St. No. 1004553, characterized in that, in order to increase the productivity of the installation in non-pressure aquifers, it is equipped with a vertical impenetrable curtain installed in the soil along the contour of the infiltration pool to a dynamic groundwater level. Figure 1> SU „„ 1258964