RU138211U1 - DEVICE FOR DRAINING WATER FROM A DEEP WATER BODY - Google Patents

Abstract

1. A device for collecting water from a deep water reservoir, including a storage tank and a deep water conduit with a head installed in the deep waters of the water body, and the second end of the water conduit is installed in the storage tank below the water level in the water body, characterized in that it is equipped with a pump with a pressure pipe outlet, the second end of the pipeline is installed above the water level in the reservoir, the pump inlet is installed in the storage tank below the water level in the reservoir, the tank is installed in the reservoir, the top of the tank is installed above the water level in pond, and the conduit is installed in the waters of the pond. 2. The device according to claim 1, characterized in that the storage tank is installed at the bottom of the reservoir closer to the shore. The device according to claim 1, characterized in that the pump outlet is installed in the tank through the wall of the tank, 4. The device according to claim 1, characterized in that the pump inlet is installed in the tank through the tank wall. The device according to claim 1, characterized in that the pump inlet is installed at the bottom of the storage tank.

Description

The invention relates to the production of drinking water and can be used in the preparation of water from deep water bodies packaged in bottles or bags of various capacities.

A known method of producing Baikal drinking water according to the patent of the Russian Federation 2045478, Cl. C02F 1/00. 1995, according to which water is drawn through a deep water conduit from a layer of deep water defined by upper and lower horizons depending on the depth of the water body at the place of water intake. The pumping station is installed on the surface of the shore, which requires energy consumption, complicates water intake and reduces the volume of water taken from the reservoir.

A known method for the production of bottled drinking water according to the patent of the Russian Federation 2108296, Cl. C02F 1/00, A23L 3/34, 1997. Water is taken in the areas of Lake Baikal with depths of more than 400 meters with a deep water conduit with an intake located from 25 to 100 meters from the bottom. A pumping station installed on the surface of the shore, which requires energy, complicates water intake and reduces the volume of water taken from the reservoir

The closest (prototype) is the "Device for water intake from a reservoir" according to the patent for utility model RU 83260, IPC E03B 3/00, application 2008106535/22 of 02.19.2008.

A known device for collecting water from a reservoir includes a deep conduit with a head installed in the deep waters of the reservoir, a storage tank installed in the ground on the shore of the reservoir, and the second end of the conduit is installed in the storage tank below the water level in the reservoir.

Water flows into the tank by gravity due to the difference in water levels in the reservoir and in the tank.

On the shore near the reservoir there is a high level of groundwater, it is difficult to make a deep storage tank with a feed conduit installed deep in the ground. This reduces the difference in water levels, complicates water intake and reduces the volume of water withdrawn from the reservoir.

The technical task of the invention is the simplification of water intake, an increase in the volume of water taken from the reservoir.

The technical result is achieved due to the fact that the device for taking water from a deep water reservoir, including a storage tank and a deep water conduit with a head installed in the deep waters of the water reservoir, and the second end of the water conduit is installed in the storage tank below the water level in the water body, is equipped with a pump with a pressure pipe at the outlet, the second end of the pipeline is installed above the water level in the reservoir, the pump inlet is installed in the storage tank below the water level in the reservoir, the reservoir is installed in the reservoir, the top of the reservoir has become higher than the water level in the reservoir, and the conduit throughout is installed in the waters of the reservoir.

The storage tank is installed at the bottom of the reservoir.

The pump outlet is installed in the tank through the wall of the tank.

The pump inlet is installed in the tank through the wall of the tank.

The pump inlet is installed at the bottom of the storage tank.

The invention is illustrated by the drawings of FIG. 1, FIG. 2, FIG. 3 which shows a diagram of a device for taking water from a reservoir. Arrows schematically show the movement of water.

The drawings indicate: head 1, deep conduit 2, second end 3 of conduit 2, storage tank 4, water level 5 in reservoir 6, water level 7 in reservoir 4, pump 8 with inlet 9 and outlet 10, pressure pipe 11, second end 12 of the pressure pipe 11, shore 13. The top of the tank is installed above the level 5 of water in the reservoir 6.

Water is taken from Lake Baikal from a depth of 400 meters through head 1 and a deep water conduit 2, longer than 3 km, at the enterprise of the company Baikalika LLC, located in the village of Sukhoi Stream, Slyudyansky District, Irkutsk Region, produces drinking water of the first category Baikalika.

The conduit 2 is installed along the entire length in the waters of the reservoir 6, below the level 5 of the water in the reservoir 6, therefore, the water through the second end 3 of the conduit 2 by gravity fills the storage tank 4 the more intensively, the greater the difference between the water levels 5 and 7 in the reservoir, breaking the reservoir 4, those. the deeper the storage tank 4 is installed in the reservoir 6. The installation depth of the reservoir 4 in the reservoir 6 is determined from the technological needs.

This simplifies water intake, increases the rate of water inflow into the tank and the volume of water withdrawn from the reservoir, with constant parameters of the deep water conduit.

After filling the tank 4, water using the pump 8 through the pressure pipe 11 installed at the outlet 10 of the pump 8, through the second end 12 of the pressure pipe 11, installed above the water level 5 in the reservoir 6, is fed to the treatment (see Fig. 1)

The inlet 9 of the pump 8 is installed in the tank 4 below the level of the water 5 in the reservoir 6. The water from the tank 4 is pumped out efficiently when the inlet 9 of the pump 8 is installed at the bottom of the storage tank 4. According to the scheme shown in Fig. 1, the pump 8 with the pressure pipe 11 can be replaced.

When the output 10 of the pump 8 is installed in the tank 4 through the wall of the tank 4, and the pump 8 is installed inside the tank 4, the system is compact, mobile, easy to install (see Fig. 2).

When the input 9 of the pump 8 is installed in the tank 4 through the wall of the tank 4, and the pump 8 is installed outside the tank 4, the pump 8 minimally contacts with deep water in the tank 4 (see Fig. 3).

Capacity 4 can be installed at the maximum depth permissible for deep conduit 2 without destruction.

For example, at a depth of installation of a tank of 4,100 meters, the difference in water levels of 5 and 7 in a body of water against a tank of 4 will be 100 meters of water column. The pressure of the water column on the outer surface of the deep conduit 2 at the point of entry of the conduit 2 into the tank 4 will be about 10 atmospheres, since the pressure in the tank 4 is atmospheric.

The water pressure at the deep water inlet to the deep water conduit 2 is equal to the difference in water levels 5 and 7 and will be 10 atmospheres. The increase in pressure increases the rate of flow of water into the conduit 2.

With an increase in the depth of installation of reservoir 4 in reservoir 6, the difference in water levels 7 and 5 in reservoir 4 and reservoir 6 increases, the pressure of water at the entrance to conduit 2 increases, the rate of inflow of deep water into reservoir 4 and the volume of water withdrawn from reservoir 6.

It is optimal to install the tank 4 at the bottom of the reservoir 6, closer to shore 13.

At LLC Baikalika, work is underway to prepare the device. As a storage tank 4, the use of large diameter polyethylene pipes is promising.

Claims (5)

1. A device for collecting water from a deep water reservoir, including a storage tank and a deep water conduit with a head installed in the deep waters of the water body, and the second end of the water conduit is installed in the storage tank below the water level in the water body, characterized in that it is equipped with a pump with a pressure pipe outlet, the second end of the pipeline is installed above the water level in the reservoir, the pump inlet is installed in the storage tank below the water level in the reservoir, the tank is installed in the reservoir, the top of the tank is installed above the water level in pond, and the conduit is installed in the waters of the pond. 2. The device according to claim 1, characterized in that the storage tank is installed at the bottom of the reservoir closer to the shore. 3. The device according to claim 1, characterized in that the pump outlet is installed in the tank through the wall of the tank, 4. The device according to claim 1, characterized in that the pump inlet is installed in the tank through the tank wall. 5. The device according to claim 1, characterized in that the pump inlet is installed at the bottom of the storage tank.

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