RU182736U1 - Device for the treatment of oily wastewater - Google Patents

Abstract

The utility model relates to wastewater treatment and can be used to isolate various impurities from them, for example, petroleum products. A device for cleaning oily wastewater includes a housing containing a flotation chamber with an ultrasound emitter located parallel to the bottom in the center, nozzles for supplying contaminated and discharging treated liquid, and additionally contains communicated sludge chamber for contaminated liquid. For this, two additional vertical partitions are made in the body cavity, the first of which separates the flotation chamber from the first sludge chamber, and the second separates the first sludge chamber from the second sludge chamber, while the lower edge of the first partition is located with a gap above the bottom of the housing, and the upper edge of the second the partitions are located below the liquid mirror, the contaminated fluid supply pipe connected to the upper part of the flotation chamber, and the treated fluid discharge pipe connected to the bottom of the second chamber sludge sludge, away from the second partition and communicated with both the drain valve of the cleaned liquid and the aeration unit, the outlet of which, through the shutoff valve, is connected to the supersaturated fluid supply pipe located in the center of the bottom of the flotation chamber in the cavity of the ultrasound emitter. The flotation chamber is equipped with a scraper cleaner for flotted contaminants and a receiver for the flotted product. The technical result is expressed in increasing the efficiency of purification of oily wastewater from fine impurities by reducing the size of the formed bubbles and increasing their number. 2il.

Description

The utility model relates to wastewater treatment and can be used to isolate various impurities from them, for example, petroleum products.

A device for purifying oily wastewater by flotation is known, in which part of the purified liquid is mixed with air, the resulting air-water mixture enters the pumps connected in series, with most of the air being dissolved in the liquid. A supersaturated liquid enters a flotation tank where, as a result of a pressure drop, air bubbles are released that extract particles of contaminants (see RU 87159, IPC C02F 1/24, 2009).

The disadvantage of this solution is the relatively large size of the bubbles, due to the coalescence of germinal vesicles.

A device for cleaning liquid, comprising a housing containing a flotation chamber with an ultrasound emitter located parallel to the bottom in the center, nozzles for supplying contaminated and discharging treated liquid (see RU 2132820, IPC C02F 1/36, 1999).

The disadvantage of this device is the inability to use it for wastewater treatment containing petroleum products and other hydrophobic particles. Additional emulsification of these particles by cavitation bubbles will reduce the efficiency of their extraction.

The problem to which the claimed solution is directed is to increase the efficiency of purification of oily wastewater from fine impurities.

The technical result achieved by solving the problem is expressed in increasing the efficiency of purification of oily wastewater from fine impurities by reducing the size of the formed bubbles and increasing their number.

The problem is solved in that the device for the treatment of oily wastewater, including a housing containing a flotation chamber with an ultrasound emitter located parallel to the bottom in the center, nozzles for supplying contaminated and discharging treated liquid, differs in that it additionally contains contaminated fluid sludge chambers interconnected why two additional vertical partitions are made in the body cavity, the first of which separates the flotation chamber from the first sludge chamber, and the second separates the first sludge chamber from the second sludge chamber, in this case, the lower edge of the first partition is located with a gap above the bottom of the housing, and the upper edge of the second partition is located below the liquid mirror, and the contaminated fluid supply pipe is in communication with the upper part of the flotation chamber, and the treated fluid removal pipe communicated with the bottom of the second sludge chamber, away from the second partition and communicated with both the drain valve of the cleaned liquid and the aeration unit, the outlet of which, through the shut-off valve, is in communication with the patrol com supersaturated fluid feed located at the center of the bottom of the flotation cell in the cavity ultrasound emitter, wherein, flotation cell is provided with a dirt scraper and cleaner sflotirovannyh receiver sflotirovannogo product.

A comparative analysis of the features of the claimed solution with the signs of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

Moreover, the set of features of the distinctive part of the utility model formula provides a reduction in the diameter of the formed bubbles and an increase in their number, which leads to an increase in the efficiency of purification of oily wastewater from fine impurities.

A sign indicating that the device "additionally contains communicated between each other sludge sludge contaminated liquid" can reduce the pollution of water that has passed the flotation, due to the allocation of fine impurities.

Signs indicating that “two additional vertical partitions are made in the body cavity, the first of which separates the flotation chamber from the first sludge chamber, and the second separates the first sludge chamber from the second sludge chamber, while the lower edge of the first partition is located with a gap above the bottom of the body , and the upper edge of the second partition is located below the liquid mirror ”allows us to provide a hydrodynamic regime of movement of the liquid being cleaned, in which there will be unhindered separation of the pop-up otocomplexes.

The sign "... the nozzle for supplying contaminated liquid is in communication with the upper part of the flotation chamber ..." allows for an oncoming regime of movement of bubbles and particles of contaminants, and prevents dispersion of particles of contaminants by ultrasonic cavitation.

The sign "... the outlet pipe of the treated liquid is in communication with the bottom of the second sludge chamber, away from the second partition ..." prevents the flotation complexes and contaminants from being carried away with the liquid being cleaned.

Signs indicating that the outlet of the treated liquid is “communicated ... with the drain valve of the cleaned liquid and with the aeration unit, the outlet of which, through the shut-off valve, is connected to the suction port of the supersaturated liquid located in the center of the bottom of the flotation chamber in the cavity of the ultrasound transducer” allow to saturate part of the purified liquid air and feed it into the area of ultrasonic cavitation, in which the bubbles released from the supersaturated liquid will be further dispersed by collapsing cavitation bubbles bones, which will ensure a decrease in their average volume-surface diameter and increase the efficiency of extraction of pollution particles.

The sign “... the flotation chamber is equipped with a scraper cleaner of the flotted contaminants and the receiver of the flotted product ...” allows for the removal of the flotted product.

1 shows a longitudinal section of the device, FIG. 2 cross section of the device.

The drawings show the housing 1, flotation chamber 2, ultrasound transducer 3, nozzles 4 for supplying contaminated and 5 discharges of treated liquid, chambers 6 and 7 for settling contaminated liquids, vertical partitions 8 and 9, valve 10 for discharging purified liquid, aeration unit 11, shut-off valve 12, a supersaturated fluid supply pipe 13, a scraper cleaner 14, a swallowed product receiver 15. In addition, the valves 16, 17 are shown in the drawings.

A device for cleaning liquid includes a housing 1 containing a flotation chamber 2 with an ultrasound transducer 3 located parallel to the bottom in the center, nozzles 4 and 5, respectively, supplying contaminated and discharging treated liquid. The device additionally contains interconnected chambers 6 and 7 of contaminated liquid sludge, for which two additional vertical partitions 8 and 9 are made in the body cavity. The first partition 8 separates the flotation chamber 2 from the first sludge chamber 6, and the second partition 9 separates the first sludge chamber 6 from the second chamber 7 sludge. The lower edge of the first partition 8 is located with a gap above the bottom of the housing 1, and the upper edge of the second partition 8 is located below the liquid mirror. The pipe 4 for supplying contaminated liquid is in communication with the upper part of the flotation chamber 2, and the pipe 5 for discharging the treated liquid is communicated with the bottom of the second chamber 7 of the sludge, at a distance from the second partition 9 and communicated with the valve 10 for removing the purified liquid and with the aeration unit 11, outlet which, through a shut-off valve 12, is in communication with a supersaturated fluid supply pipe 13 located in the center of the bottom of the flotation chamber 2 in the cavity of the ultrasound transducer 3. In this case, the flotation chamber 2 is equipped with a scraper cleaner 14 of swallowed pollutants ulcer and receiver 15 of the swallowed product. The contaminated fluid supply pipe is provided with a valve 16, and the aeration unit 11 is in communication with the compressed air supply valve 17.

The claimed device operates as follows.

The contaminated liquid is supplied for cleaning through the nozzle 4, while the flow rate of the contaminated liquid is controlled by valve 16. A portion of the treated liquid, regulated by the purified liquid drain valve 10, enters the aeration unit 11, where it is saturated with air supplied through the compressed air supply valve 17 at a given pressure . Saturated liquid passes through the shut-off valve 12, while there is a decrease in pressure, as a result of which a gas emulsion is formed, consisting of air bubbles of various diameters. The gas emulsion is fed through the supersaturated fluid supply pipe 13 to the bottom of the flotation chamber 2. Under the action of ultrasound generated by the ultrasound emitter 3, a cavitation region is created above the exit point of the gas emulsion, while cavitation bubbles disperse air bubbles, thereby reducing their average volume-surface diameter. Surfacing, the smallest air bubbles extract the present particles of contaminants from the water, and a layer of a swallowed product will form on the surface. The flotated product is discharged by a scraper cleaner 14 in the direction perpendicular to the movement of water into the receiver 15. The purified liquid passes under the vertical partition 8 into the chamber 6, and then above the vertical partition 9 into the chamber 7 of the contaminated liquid, while flotation complexes removed from the liquid by the fluid flow from flotation chamber 2 into the chamber 6 of the sludge contaminated liquid. The purified liquid is discharged through the pipe 5 of the outlet of the treated liquid.

Claims (1)

A device for cleaning oil-containing wastewater, comprising a housing containing a flotation chamber with an ultrasound emitter located parallel to the bottom in the center, nozzles for supplying contaminated and discharging treated liquid, characterized in that it further comprises contaminated fluid sludge chambers connected to each other, for which purpose in the cavity of the housing two additional vertical partitions are made, the first of which separates the flotation chamber from the first sludge chamber, and the second separates the first sludge chamber from the WTO swarm chamber, while the lower edge of the first partition is a gap above the bottom of the housing, and the upper edge of the second partition is located below the liquid mirror, and the nozzle for supplying contaminated liquid is in communication with the upper part of the flotation chamber, and the nozzle for draining the treated liquid is in communication with the bottom of the second chamber sludge away from the second partition and communicated with the valve drainage of the cleaned liquid and with the aeration unit, the output of which through the shutoff valve is in communication with the pipe for supplying supersaturated liquid laid in the center of the bottom of the flotation chamber in the cavity of the ultrasound transducer, while the flotation chamber is equipped with a scraper cleaner swallowed contaminants and receiver swallowed product.

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