RU204563U1 - Groundwater aerator - Google Patents

Abstract

The utility model relates to the field of groundwater purification for autonomous water supply of individual housing construction (cottage) with drinking water. The technical task of the proposed utility model is to create a simple design, easy to operate, available for the industry of individual housing construction. A groundwater aerator containing a column made of plastic, with a conical bottom with a capacity of 300-400 liters, a diameter of 500-600 mm and a tight-fitting lid, in the upper part of which an air and gas outlet pipe is connected along the central axis, under the lid on the raw water inlet pipe to the column, equipped with a regulating with a valve, a flow divider is installed along the column axis, containing an inverted parabolic profile cup and a sleeve with a calibrated hole; an overflow device is installed under the cover on the water discharge pipe to the sewer, located at the upper permissible water level, including a funnel and a water seal; a device for bubbling water in the form of a disc aerator is installed in the lower part of the column on the air supply pipeline by means of a threaded connection; the aerated water outlet pipeline is connected to the conical bottom of the column on the side under the aerator and is equipped with a shut-off valve, the drainage pipeline for water with sediment, equipped with a shut-off valve, is connected along the longitudinal axis to the bottom of the column. ...

Description

The utility model relates to the field of autonomous water supply of an individual housing construction object (for example, a cottage building). The groundwater aerator is intended for use in technological schemes for treating groundwater from dissolved gases (radon, carbon dioxide, hydrogen sulfide) and dissolved forms of iron and manganese contained in them. In addition, the device has a water capacity of 300-400 liters and can act as a water storage tank and ensure uniform water supply for further purification or for a consumer.

Known installation for degassing water, RF patent No. 2160712 "Method for degassing water". MPK C02F1 / 20, 20.12.2000 The installation consists of a degasser made in the form of a column with a nozzle and a water collector placed in it, and an atmospheric air flow rate stimulator. The unit operates at a pressure below atmospheric air. The main disadvantage of this installation is the insufficient degree of gas removal from the water and the ineffective operation of the air supply system. The installation is large, heavy and practically unsuitable for use in a cottage.

A known installation for degassing natural waters, RF patent No. 2230706 "Installation for removing radon from natural waters", IPC C02F1 / 20, 20.06.2004, the Installation consists of a degasser, a collection tank, a pump for supplying natural water to the degasser and a flow rate stimulator atmospheric air with an additional stripper. The collecting tank is equipped with a circulation pump, the desorber is installed in air and circulating water in parallel with the degasser, and a shut-off valve is placed on the circulating water supply line to the degasser. The disadvantage of this installation is the complexity, as well as the contamination of the packing materials with radioactive products of radon decay. The installation is large and heavy to operate in a cottage.

Known installation for water purification, patent RU 2641122C1, "Installation for water purification from total alpha radioactivity and radon", IPC C02F 1/20, 01/16/2018, Water purification installation contains a degasser in the form of a column with a lid and pipes for supply purified water and gas removal in the upper part of the column and branch pipes for air supply and purified water removal in the lower part of the column filled with packing, a collection tank, an apparatus for air supply. The installation is equipped with an additional branch pipe in the lower part of the column above the packing layer, and one of the branch pipes is connected to the wash water supply, and the second branch pipe is connected to the wash water outlet or storage tank. Stop valves are installed on the purified water outlet. The nozzle is placed between two perforated diaphragms. The column is equipped with ultrasonic emitters placed along the perimeter of the volume filled with the packing. The disadvantage of the installation is the complexity of the design.

The technical task of the proposed utility model is to create a simple design, easy to operate, available for the industry of individual housing construction.

The technical task is achieved due to the fact that the groundwater aerator according to the utility model contains a column made of plastic, with a conical bottom with a capacity of 300-400 liters, a diameter of 500-600 mm and a tight-fitting lid, in the upper part of which an outlet pipeline is connected along the central axis air and gases, under the lid on the pipeline inlet of the source water to the column, equipped with a control valve, along the axis of the column there is a flow divider containing an inverted parabolic bowl and a sleeve with a calibrated hole; an overflow device is installed under the cover on the water discharge pipe to the sewer, located at the upper permissible water level, including a funnel and a water seal; a device for bubbling water in the form of a disc aerator is installed in the lower part of the column on the air supply pipeline by means of a threaded connection; the aerated water outlet pipeline is connected to the conical bottom of the column at the side under the aerator and is equipped with a shut-off valve, the drainage pipeline for water with sediment, equipped with a shut-off valve, is connected along the longitudinal axis to the bottom of the column.

The device implements three methods of physical removal of dissolved gases from water. Firstly, by spraying water in the air under the column cover using a splitter. Secondly, a thin film runs down from top to bottom along the inner surface of the column, which is washed by a stream of air moving from bottom to top. Thirdly, due to bubbling a volume of water with compressed air, supplied to the bottom of the aerator. Each of these methods is linked to the water level in the column. Water spraying and film formation are most effective at a low water level in the column (at the time of initial filling or maximum draw-off), and vice versa, bubbling is most effective at a high level of column filling (there is no film runoff due to flooding of the inner surface of the column). With an average water level in the column, all three methods work to create the maximum contact area of water and air at the same time. This technique makes it possible to intensify the processes of removing gases from water and oxidation of dissolved forms of iron and manganese, to reduce the residence time of the volume of water in the column, and, consequently, to reduce the size of the column. Compact dimensions, lightness of the device allow you to operate the aerator in the utility rooms of the cottage.

During the aeration process, deposits are formed on the inner surface of the apparatus. These are insoluble salts of carbonates and sulfates during the removal of carbon dioxide, iron hydroxides during the removal of iron and products of radioactive decay of radon, as well as suspended and colloidal substances supplied with the original water. To remove deposits, periodic flushing with a high-pressure water jet of the inner surface of the device is required, for which a removable cover is made, and a drain into the sewer is organized at the bottom of the column.

The description of the essence of the utility model is illustrated in the drawing (Fig.). The groundwater aerator consists of: column 2 with a diameter of 500-600 mm, having a conical bottom and a removable, tight-fitting top cover in the form of a truncated cone 1; a flow divider 3 installed on the feed water inlet pipeline under the cover 1 along the axis of the column 2; a device for bubbling water 4 installed in the lower part of the column 2 on the air inlet pipeline; a control valve 5 installed on the feed water inlet pipeline; a shut-off valve 6 installed on the aerated water outlet pipeline, a shut-off valve 7 installed on the pipeline for draining water with sediment into the sewer; an overflow device 8 connected to the pipeline for draining the sediment into the sewer; air and gas outlet pipe installed in the upper part of the removable cover 1. Divider 3 is an inverted parabolic bowl and a sleeve under the bowl with a calibrated hole, is located in the upper part of the aerator under the lid and is never flooded with water. Water Bubbling Device 4 Introduces Membrane Disc Aerator,connected to the air supply pipeline by a ¾ "thread and can be removed for repair or replacement. The diameter of the aerator is determined by calculation when selecting the compressor. The overflow device 8 contains a funnel and a water seal installed inside the column 2 at the upper permissible water level. The structural material of the groundwater aerator is plastic ...

The column diameter is selected within the range of 500-600 mm, which ensures efficient bubbling of the water volume. The column capacity of 300-400 liters provides the minimum required supply of water for the auxiliary needs of the water treatment system (operation with a minimum volume of water, no stagnant zones, intensive circulation of water in the column reduces the likelihood of water bloom).

Example. The estimated flow rate of initial water is 0.5-1.5 m ³ / hour, the estimated flow rate of aerated water is 0.5-2.5 m ³ / hour, the estimated flow rate of air is 20-160 l / min, with these parameters, water purification is ensured. The air is supplied by the compressor through the air inlet pipe. The exact air consumption is determined by calculation and depends on the concentration of pollutants (radon, hydrogen sulfide, carbon dioxide, iron, manganese) in the source water. The compressor head required to overcome the loss of air pressure during bubbling and air outlet outside the unit through the air and gas outlet pipe in the cover is determined by calculation. Based on the obtained air flow and pressure, a compressor is selected.

The device works as follows.

A stream of water is supplied under the divider 3. Water is sprayed in the form of a cone and flows down the walls of the column 2. The flow rate of the initial water to the divider 3 is regulated by the valve 5. The water level in the device during water intake can be any within the lower and upper levels and depends on the flow rate of source water and flow rate of aerated water. The upper and lower water level in column 2 is controlled by float level sensors that are installed in the body of the column 2. Water, having passed the aeration zone from the splitter 3 to the bubbling device 4, enters the sedimentation zone, where the precipitate of insoluble substances is actively released. The sediment is discharged into the sewer by opening the tap 7. The volume of the sediment depends on the quality of the source water, therefore the frequency of its discharge is determined by calculation and is specified by operating experience. The intake of aerated water is carried out by a pump above the sediment accumulation zone under the water bubbling device 4 through the aerated water outlet pipeline with the shut-off valve 6 open. The air supply to the bubbling device 4 is carried out continuously during the water intake.

The device design guarantees the removal of radon from the source water with a concentration of up to 400 Bq / kg. The unit is designed to operate in water treatment process flow diagrams with a flow rate of up to 1.5 m ³ / hour. This consumption does not, on average, exceed that required for autonomous water supply to a cottage.

A prototype of the proposed utility model for aerating groundwater was used in water treatment plants in cottages in settlements of the Chelyabinsk region. At the same time, a decrease in the concentration of radon 222 after 30 minutes of operation of the apparatus from 293 ± 29 Bq / l in the source water to 75 ± 10 Bq / l in aerated water was recorded, and a decrease in the concentration of radon 222 after 33 minutes of operation of the apparatus from 1500 ± 315 Bq / l in source water up to 600 ± 138 Bq / l in aerated water.

Claims (1)

Groundwater aerator, containing a column made of plastic, with a conical bottom with a capacity of 300-400 liters, a diameter of 500-600 mm and a tight-fitting lid, in the upper part of which an air and gas outlet pipeline is connected along the central axis, under the lid on the inlet pipeline of the original water into the column, equipped with a control valve, along the axis of the column there is a flow divider containing an inverted parabolic bowl and a sleeve with a calibrated hole; an overflow device is installed under the cover on the water discharge pipe to the sewer, located at the upper permissible water level, including a funnel and a water seal; a device for bubbling water in the form of a disc aerator is installed in the lower part of the column on the air supply pipeline by means of a threaded connection; the aerated water outlet pipeline is connected to the conical bottom of the column at the side under the aerator and is equipped with a shut-off valve; the drainage pipeline for water with sediment, equipped with a shut-off valve, is connected along the longitudinal axis to the bottom of the column.

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