RU153348U1 - WASTE WATER TREATMENT CLEANERS - Google Patents

Abstract

Waste water treatment plant for a car wash, including a flotation tank, saturator pressure tank, compressor, high-pressure communications pump, pressure relief valve that holds pressure "to oneself", a foam collection tray, a ruffled nozzle with a hydrophobic surface inside the flotation tank on a micro- and coalescence cassette macrobubbles of air, located under the inlet of the source wastewater and water with air dissolved in it under a pressure of at least 15 MPa, made of kapron fibrous material, with fiber diameter from 0.015 to 0.4 mm and a length of at least 1.5 m in the cassette, and with a cross-sectional shape matching the cross-sectional shape of the flotation tank, while the nozzle brushes are mounted vertically with a step equal to the diameter of the brush ruff over the entire cross section of the cartridge, recirculated wastewater inlet nozzles and a recirculation pump, the nozzles being in a horizontal plane at the level of the inlet of the original wastewater and air-water mixture and installed tangentially to create a rotational movement of the entire volume of liquid located inside the flotation tank, bubblers for the regeneration of the brush nozzle, characterized in that the pressure tank of the saturator is equipped with a mixer for saturating the water with air for a short period of time.

Description

WASTE WATER TREATMENT CLEANERS

The utility model relates to devices for wastewater treatment by physicochemical methods and can be used to create recycled water supply at car wash stations in the city.

A known flotation unit that implements the known method of flotation of wastewater described in the patent of the Russian Federation No. 2108974 (Published: 04/20/1998) In a flotation system of the known method, including a pressure tank of a saturator with a pressure reducing valve, a circulation pump and a compressor, a foam collector, is provided with a hydrophobic tank the nozzle of the filtering hydrophobic surface is continuous or perforated, stationary or in a state of motion, located under the formation zone of the particle-bubble flotation complexes, at an angle to the flow of purified water 5-90 °, with a particle size or holes of the filter load of 0.01 ... 0.1 mm, made of coal or peat in a volume ratio of 1: 1 to 1:10.

The disadvantages of the known flotation plant are pollution of the foam layer of the flotation product and foam cake by filtration products, high pressure losses of the water in the filter load, the inability to ensure high quality of purified water.

The closest technical solution is a flotation plant for treating industrial wastewater (RF Patent for the invention No. 2299858, publ. 05/27/2007, bull. No. 15) including a flotation tank, saturator pressure tank, compressor and pump with high-pressure communications, pressure-reducing pressure-reducing valve “to yourselves”, foam collecting tray, hydrophobic surface of the nozzle inside the flotation tank for forced coalescence of micro- and macrobubbles of gases in the treated waste fluid, and saturator pressure tank, pressure reducing valve, compressor The essor and pump with communications are designed to operate at a pressure of at least 15 MPa, the ruff nozzle with a hydrophobic surface is made of kapron fiber ruffs located under the inlet of the source wastewater and water with air dissolved in it under high pressure, the flotation tank is equipped with a system of bubblers for regeneration of the ruff nozzle located under the cassette holding the brush nozzle in the volume of the sump, the cartridge with the brush nozzle is not less than 1.5 m long and has a cross-sectional shape matching the shape of of the cross section of the sump, the ruffs in the cassette are fixed vertically, with a step equal to the diameter of the cross section of the ruff, along the entire cross section of the cassette, along the inner perimeter of the sump in the horizontal plane at the level of the inlet of the original waste fluid, the shell of the sump is equipped with nozzles for inlets of the recirculated sewage pipe from the outlet in communication with a low-pressure pump, creating a rotational movement of the treated wastewater inside the sump.

The disadvantage of this installation is the inability to minimize the duration of the compressor and pump with high pressure communications and to ensure stable operation of the installation.

The objective of the utility model is to increase the stability of the flotation system and reduce the energy consumption of the installation, due to the guaranteed saturation of water with air and a reduction in the time of its dissolution in water.

The problem is solved in that the installation for wastewater treatment of a car wash includes a flotation tank, a pressure tank of a saturator, a compressor and a pump with high-pressure communications, a pressure-reducing valve that holds the pressure "to oneself", a foam collection tray, a brush nozzle with a hydrophobic surface inside the flotation tank on a cassette forced coalescence of micro- and macrobubbles of air, located under the inlet of the source wastewater, and water with air dissolved in it under a pressure of at least 15 MPa, consisting of a new fibrous material with a fiber diameter of 0.015 to 0.4 mm and a length of at least 1.5 m in the cassette and with a cross-sectional shape matching the cross-sectional shape of the flotation tank, with the nozzle brushes installed vertically with a step equal to the diameter of the ruff throughout the cross section of the cartridge, the nozzles of the inlets of the recirculated wastewater and the recirculation pump, while the nozzles are in a horizontal plane at the level of the inlets of the original wastewater and air-water mixture and are installed tangentially to create a rotational about the movement of the entire volume of water inside the flotation tank, the bubblers of regeneration of the brush nozzle and the pressure tank of the saturator is equipped with a mixer to saturate the water with air.

The proposed technical solution is presented in the figure in the form of a technological scheme.

The technological scheme has the following positions:

1. The receiving chamber of the source of wastewater draining from the site of washing vehicles

2. The pump for supplying the initial wastewater from the receiving chamber 1 to the flotation tank 3, equipped with a nozzle 4 for the inlet of the initial wastewater, a nozzle 5 for discharging the treated wastewater from the flotation tank 3 to the pump 7 for recycling the treated wastewater, supplying water to the nozzles 6 to the nozzles 8 of the recirculation inlet purified wastewater into the inner perimeter of the flotation tank 3 tangentially in the same plane with the inlet pipe 4 of the source of the wastewater to impart a rotational movement to the entire volume of liquid inside the flotation tank 3

8. Inlet nozzles for recirculated wastewater

9. Air inlet pipe

10. Saturator pressure tank for saturating water with air

11. A compressor providing an air pressure of at least 15 MPa

12. High-pressure pump supplying water to the saturator

13. The pipeline for supplying water to the saturator 10

14. Pressure-reducing pressure relief valve

14 'mixer

15. The cartridge with a ruffled nozzle 16 with a hydrophobic surface is made of nylon fiber material 1.5 m high

17. Foam tray

18. Foam pipe from the foam tray 17

19. Bubblers of regeneration of the brush nozzle 16 from the blower 20

21. Recovery fluid collection tank

Works installation of water purification from washing vehicles as follows. The source wastewater collected in the capacity of the receiving chamber 1 by means of a pump 2 for supplying the source wastewater is piped 4 to the flotation tank 3. From the opposite side, a water-air mixture is formed into the flotation tank 3 from the saturator 10 from the saturator 10 using the saturator 10 pressure tank the compressor 11, the high-pressure pump 12 and brought by the pipe 13 of the pressure reducing valve 14, and then to the nozzle 9. During the operation of the compressor 11 and the high-pressure pump 12, the mixer screw rotates in the pressure tank of the saturator 10 14 'with a speed of 3000 rpm, creating continuous mixing of water and air in the pressure tank of the saturator 10. As a result of the intake of recycled wastewater through the nozzle 8, using the recirculation pump 7 in the flotation tank 3 wastewater taken from the nozzle 6 of pipe 5 drainage of treated wastewater from the flotation tank 3 to the car wash and recirculation, inside the flotation tank 3, water is rotated due to the tangentially installed nozzles 8 of the recirculated cleaned sewage inlet water located evenly around the perimeter of the shell of the flotation tank 3 in a horizontal plane with nozzles 4 and 9 of the inlet of the original waste water and air-water mixture.

The capacity and pressure of the recirculation pump 7 are selected so that the number of movements created by the jets from the nozzles 8 of the inlet of the recirculated purified water is sufficient to ensure the rotational movement of the volume of wastewater inside the flotation tank 3, to overcome the resistance to friction of water on the inner surface of the flotation tank 3 and the brush head 16 fixed in the cassette 15. The jets of the source wastewater and the air-water mixture are picked up by rotating water and washed out over the entire cross section of the flotation tank 3. Due to the coalescence of air bubbles from small bubbles to larger ones and the presence of centrifugal and centripetal forces, as well as gravitational forces acting on micro- and macrobubbles of air, as well as adhesion of pollution particles (hydrophobic or hydrophobized) to the hydrophobic surface of the brush nozzle 16 ) the action of surfactants used to wash vehicles causes the foam to rise to the foam collecting tray 17. Periodically or constantly the foam product is removed from the foam tray 17 through the pipe 18 for disposal.

Since the treated wastewater is discharged from the flotation tank 3 together with circulating wastewater from its lower part through the outlet pipe 5 of the treated wastewater, part of the macrobubbles and particles of impurities, those that stick together with air bubbles, especially those with a volumetric weight greater than the volumetric weight of the wastewater water, do not move up, but along with the stream of treated wastewater. The cartridge 15 with the brush nozzle 16, which is installed under the nozzle 4 and 9 of the inlet of the source wastewater and air-water mixture, is in the way of the treated wastewater and creates a filter curtain. The cross-sectional shape of the cartridge 15 coincides with the cross-sectional shape of the flotation tank 3, while the brush nozzles are mounted vertically with a step equal to the diameter of the brush along the entire section of the cartridge 15. Since the brush nozzle 16 is made of kapron fiber material with a hydrophobic surface with a positive charge (fiber diameter 0.015 to 0.4 mm), then on the surface of the fibers there is a coalescence of micro- and macrobubbles of air and particles of suspended matter and fixing of the latter. Considering the presence of a highly developed surface on the brush nozzle 16, its low hydraulic resistance to water flow, high efficiency of catching the brush brush 16 of sewage water impurities by the fiber filter is guaranteed. As the brush nozzle is silted up with 16 wastewater contaminants, the supply of the initial wastewater and air-water mixture is turned off, the recycling pump and auto transport washes are turned off, and the brush nozzle 16 is regenerated by blowing the contents of the flotation tank 3 with air from the blower 20 through bubblers 19 while emptying the drainage chamber 3 to drain the drainage chamber 3. . During the regeneration of the brush nozzle 16 by air with the open pipe 5 for the release of treated wastewater, the flotation tank 3 can be emptied into a special tank 21 for preliminary separation into sediment and pop-up impurities (like a sand trap-grease trap) with the subsequent disposal of settled and floating substances. The use of a high-pressure pump 12, a compressor 11 with a pressure of at least 15 MPa and a mixer 14 'in the pressure tank of the saturator 10 is due to the need and expediency of reducing the time of dissolution of air in water. Flotation requires 1.2 liters of air per 1 liter of wastewater. Therefore, the performance of the high-pressure pump 12 and compressor 11 is small, given the performance of the installation for washing vehicles no more than 5 .... 10 m / h. To compress not less than 15 MPa of such an amount of water and air, no more than 10 kWh of electricity is required. But it is necessary to minimize the duration of their work. For this, a mixer 14 'is placed in the saturator 10.

The limitation of the length of the cartridge 15 with a brush nozzle 16 of at least 1.5 m is due to its low hydraulic resistance (mm per meter of the cartridge length) and to prevent the breakdown of treated wastewater and micro- and macrobubbles of air with dirt particles adhering to them through the filter curtain from the brush nozzle 16, the minimum cassette length was set. The mixture of fibers in the brush nozzle 16 is selected experimentally for each type of wastewater and the impurities present in them. The industry produces low-capacity pumps and compressors, for example, for scuba divers there are compressors with a pressure of up to 25 MPa, which can be equipped with flotation units.

Claims (1)

Waste water treatment plant for a car wash, including a flotation tank, saturator pressure tank, compressor, high-pressure communications pump, pressure relief valve that holds pressure "to oneself", a foam collection tray, a ruffled nozzle with a hydrophobic surface inside the flotation tank on a micro- and coalescence cassette macrobubbles of air, located under the inlet of the source wastewater and water with air dissolved in it under a pressure of at least 15 MPa, made of kapron fibrous material, with fiber diameter from 0.015 to 0.4 mm and a length of at least 1.5 m in the cassette, and with a cross-sectional shape matching the cross-sectional shape of the flotation tank, while the nozzle brushes are mounted vertically with a step equal to the diameter of the brush ruff over the entire cross section of the cartridge, recirculated wastewater inlet nozzles and a recirculation pump, the nozzles being in a horizontal plane at the level of the inlet of the original wastewater and air-water mixture and installed tangentially to create a rotational movement of the entire volume of liquid located inside the flotation tank, bubblers for the regeneration of the brush nozzle, characterized in that the pressure tank of the saturator is equipped with a mixer for saturating the water with air for a short period of time.

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