RU2299858C2 - Flotation installation for purification of the industrial waste waters - Google Patents

Abstract

FIELD: food industry; petroleum refining industry; flotation installations for purification of the industrial waste waters.

SUBSTANCE: the invention is pertaining to the flotation installation for purification of the industrial waste waters, which one can be used at the enterprises of food industry, petroleum refining industry. The flotation installation includes the flotation settling tank (3) with the nozzle for the compulsory coalescence of the micro- and macro-air bubbles, the pump (12), the compressor (11) for compression of the air, the pressure tank of the saturator (10), the pressure reducing valve (14) made for operation under the pressure of no less than 15 MPa, the foam collecting chute (17). The nozzle is made in the form of the holders (15) with the brushes (16) with the length of no less than 1.5 m with the cross-section profile coinciding with the cross-section profile of the flotation settling tank (3) arranged under the intake of the initial waste water (4) and the water with the dissolved in it air (9). The caprone filamentary brushes (16) in the holders (15) are fixed vertically with the step equal to the diameter of the cross-section of the brush uniformly along the whole cross-section of the holders (15). The flotation settling tank (3) is supplied with the system of the bubblers (19) of the regeneration of the brush nozzle (16), which are located under the holders (15). Along the internal perimeter of the flotation settling tank (3) at the level of the intake of the initial waste water (4) there is the shell ring of the flotation settling tank (3), which is equipped with the nozzles (8) of the intakes of the recirculation purified waste water from the outlet branch-pipe (5) of the flotation settling tank (3). The nozzles (8) are connected with the low-pressure pump (7) creating rotation of the being purified waste water inside the flotation settling tank (3). The technical result of the invention is reduction of the flotation installation power input, simplification of its operation and elimination of pollution of the froth product by the reactants or the inert impurities.

EFFECT: the invention ensures reduction of the flotation installation power input, simplification of its operation and elimination of pollution of the froth product by the reactants or the inert impurities.

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Description

The invention relates to a device for flotation wastewater treatment and can be used in technology for the treatment of industrial wastewater.

Known flotation plant, including flotation tank, pressure tank of the saturator with a pressure reducing valve that keeps the pressure of the air-water mixture "to yourself", a circulation pump and a compressor for creating pressure in the pressure tank of the saturator and dissolving air in water, described in the book Gvozdeva VD, Xenophon B .C. Industrial wastewater treatment and sludge disposal. M.: Chemistry, 1988, pp. 60-76 [1]. When depressurizing a wastewater in a flotation tank, air dissolved in it in the form of bubbles is released. At the same time, finely dispersed hydrophobic particles adhere to the bubbles and, in the form of particle-bubble complexes, float to form a foam layer. The foam layer is removed with a special device from the surface of the water mirror of the flotation tank, and the purified liquid is discharged from the zone below the formation of particle-bubble flotocomplexes.

Using the known flotation system does not allow to achieve the efficiency of wastewater treatment from hydrophobic impurities above 70-80%.

Part of the air bubbles follows the flow of the wastewater being cleaned and, in a place with a particle of adherence adhering to it, is removed from the flotation tank.

Closest to the technical solution that improves the efficiency of flotation of wastewater treatment is a flotation unit that implements the known method of flotation of wastewater described in the patent of the Russian Federation No. 2108974, class. 6 C02F 1/24, 04.20.1998 [2].

In the 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 collection tray, a flotation tank is provided with a hydrophobic nozzle of a filtering hydrophobic surface of a solid or perforated, stationary or in a state of motion, located at an angle under the formation zone of flotation complexes of a particle-bubble 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 from 1: 1 to 1:10.

The disadvantages of the known flotation plant are the pollution of the foam layer of the flotation product and the foam cake by filtration products, inert impurities, excluding their direct use, for example, for food needs returning to production or for burning in a torch due to clogging of the nozzles of the burners; the difficulty of retaining a finely divided filter load in the sump; high loss of water pressure in the filter load.

The objective of the invention is to reduce the energy intensity of the flotation plant, simplifying its operation, eliminating the contamination of the foam product with reagents.

The tasks are solved in that the flotation plant, which includes a pump and compressor for compressing air and water, a saturator pressure tank, a pressure reducing valve, a foam collection tray, a flotation tank with a nozzle for forced coalescence of micro and macro air bubbles, is equipped with a pump, a compressor, a saturator pressure tank, and a pressure reducing a valve made for operation under a pressure of at least 15 MPa, forced coalescence of micro- and macrobubbles is made using cassettes with a ruff nozzle placed under the inlet of the original waste liquid and water with air dissolved in it under high pressure, while cassettes with a brush nozzle are made at least 1.5 m long and with a cross-sectional shape that matches the cross-sectional shape of the settler, nylon fiber ruffs in the cassettes are fixed vertically, in increments equal to the diameter of the cross section of the ruff, uniformly throughout the cross section of the cassettes, the flotation tank is also equipped with a system of bubblers for the regeneration of the brush nozzle located under the cassettes, and along the inner perimeter of the flotation tank in the horizontal noy plane at the level of the liquid waste inlet original shell is equipped with nozzles flotootstoynika inlets recirculation of treated waste liquid from flotootstoynika outlet, communicating with the low-pressure pump, which creates a rotary motion cleaned waste liquid inside flotootstoynika.

Patent studies have shown that neither in the patent nor in the scientific and technical literature there is information about flotation plants for the treatment of industrial wastewater of the design proposed in the claims, which suggests that the proposed flotation device meets the patentability criterion of “novelty”.

A comparative analysis of devices that are used in known technical solutions, including in the prototype, showed significant features that distinguish the proposed solution.

The advantages indicate that the tasks that are solved are performed at the inventive level, since they do not follow, obviously, from solutions known in the art and therefore meet the patentability criterion of "inventive step".

The proposed fleet for the treatment of industrial wastewater is shown in the drawing in the form of a technological scheme.

A flotation plant for wastewater treatment consists of a receiving chamber 1 of the initial wastewater, a gravity pipe 2 for supplying wastewater to the flotation tank 3, equipped with an inlet 4 of the initial wastewater, a nozzle 5 for the discharge of purified water with a nozzle 6 for supplying a recirculated stream of purified water to the pump 7 for returning the purified water into the flotation tank 3 through nozzles 8 located in the same horizontal plane with the inlet pipe 4 of the original waste fluid and located uniformly along the inner perimeter of the flotation tank 3 of the tank 3 tangentially to the wall of the flotation tank 3 in one direction to create a rotational movement of the volume of liquid in the flotation tank 3.

In the same horizontal plane with the inlet pipe 4 of the source of the waste fluid, a water inlet pipe 9 is located opposite it, saturated with air under a pressure of more than 15 MPa. Saturation of drinking-quality water is carried out in the pressure tank of the saturator 10 by pumping air into it at the same time with the compressor 11 and water with the pump 12. The air-water mixture saturated in the pressure tank of the saturator 10 is transported through the pipe 13, which can withstand pressure more than 15 MPa, to the pressure reducing valve 14, holding pressure "to yourself", and then to the pipe 9.

In the flotation tank 3, under the inlet pipes 4 and 9 of the initial wastewater and air-air mixture, there is a cartridge 15 with a nozzle 16 of nylon ruffs mounted vertically in the cartridge with a step equal to the diameter of the ruff, uniformly over the entire cross-sectional area of the cartridge 15, matching the shape of the cross cross-section with the cross-sectional shape of the sump 3. The height of the cassette and the length of the ruffs is not less than 1.5 m. In the upper part of the sump 3, a foam collection tray 17 with a foam pipe 18 is mounted, and in the lower part of the sump 3 ika cassette 15 is installed under the air spargers regeneration system 19 Ershovoy nozzle 16 from the blower 20.

Flotation unit is equipped with a capacity of 21 regeneration fluid flotation tank 3.

Flotation works as follows.

The original waste fluid from the receiving chamber 1 through the pipe 2 by gravity continuously enters the flotation tank 3 through the pipe 4 of the inlet of the waste fluid. From the opposite side of the perimeter of the flotation tank 3, a water-air mixture enters the flotation tank 3 through the pipe 9, which is formed in the pressure tank of the saturator 10 with the help of the compressor 11 and pump 12 and brought by the pipe 13 to the pressure reducing valve 14, and then to the pipe 9.

Due to the receipt through the nozzles 8 with the help of the pump 7 of the recirculation flow of the waste fluid cleaned in the sump 3, taken from the nozzle 6 of the pipe 5 of the outlet of the cleaned sewage from the sump 3, the entire volume of the waste fluid rotates. The rotation is ensured by the tangential introduction of recirculated wastewater through each nozzle 8 located uniformly along the perimeter of the shell of the flotation tank in a horizontal plane with nozzles 4 and 9 of the inlet of the original wastewater and air-water mixture. The performance and pressure of the pump 7 are selected so that the number of movements created by the jets of circulating purified waste fluid from the nozzles 8 is sufficient to provide rotational movement of the volume of the waste fluid 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 nozzle 16, fixed in the cassette 15.

The jets of the initial wastewater and air-water mixture are picked up by the rotating fluid 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, centripetal and gravitational forces acting on micro- and macrobubbles of air, as well as sticking to the hydrophobic surface of the bubbles of particles of wastewater contaminants (hydrophobic or hadrophobic using surfactants), ascent occurs product to the foam collecting tray 17. Periodically or constantly the foam product is removed from the foam collecting tray 17 through the pipe 18 for disposal.

Since the wastewater to be cleaned is discharged from the sump 3 together with the circulating wastewater from its lower part through the outlet 5, some microbubbles, especially those that stick together with contaminants having a bulk density greater than the bulk density of the wastewater, do not move upwards as well as a stream of wastewater.

Cassette 15 with a ruff nozzle 16 installed under the nozzles 4 and 9 of the inlet of the initial wastewater and air-water mixture is located in the path of the cleaned wastewater and creates a filter curtain. Since the brush nozzle 16 consists of a mixture of hydrophobic nylon fibers of various diameters (from 0.015 to 0.4 mm), as in the prototype, coalescence of micro- and macrobubbles of air-particle complexes occurs on the surface of the hydrophobic nozzle and their fixing. Considering the presence of a highly developed surface of the brush nozzle 16, very low hydraulic resistance to the fluid flow, high efficiency of catching the brush brush of the brush brush 16 of air bubbles and wastewater impurities is guaranteed.

As pollution of the brush nozzle 16 with silting off the supply of the original waste fluid through the nozzle 4 and the turned-off pump 7 of the circulation wastewater is regenerated, the brush brush 16 is regenerated by blowing the contents of the flotation tank 3 with air of the blower 20 through the bubblers 19.

During the regeneration period of the brush nozzle 16 by air with the open nozzle 5 for the release of purified waste fluid, the contents of the flotation tank 3 are emptied into a special capacity 21 of the regeneration waste fluid. The function of the capacity 21 of the regeneration wastewater can be performed by a grease trap or oil trap prior to flotation of clarification of the initial wastewater.

The implementation of the tasks of the invention provide:

- significantly (tens of times) lower energy consumption of the pump and compressor to obtain high-pressure water-air mixture of drinking quality on the basis of water;

- lack of dosing of hydrophobic reagents and a filter of hydrophobic materials with significant hydraulic resistance to water flow (the resistance of a brush nozzle is hundreds of times less than the resistance of a granular filter);

- elimination of contamination of the foam product recovered during flotation with extraneous impurities, which contributes to their disposal without additional treatment, and therefore, simplifies the operation of the flotation system.

The use of a pump and compressor with a pressure of more than 15 MPa is due to the need and feasibility of reducing the consumption of potable water to 1 ... 2 liters per 1 m ^{3 of} wastewater being cleaned. For example, per 1000 m ^{3 of} waste liquid, to ensure flotation, no more than 2 m ³ of drinking water quality and no more than 10 m ^{3 of} air are required. To compress up to 15 MPa such an amount of water and air, no more than 10 kWh of electricity is required, and for flotation according to the prototype 1000 m ^{3 of} waste liquid, hundreds of kWh of electricity will be needed.

The limitation of the length of the cartridge with a brush nozzle (at least 1.5 m) is due to the low hydraulic resistance of the brush nozzle (a few millimeters per meter length of the cartridge). Therefore, to eliminate the leakage of the cleaned wastewater and micro- and macrobubbles of air with particles of dirt adhering to them through the filter curtain from the brush nozzle, the minimum length of the cartridge was established experimentally.

The mixture of fibers in the brush nozzle can be selected in any ratio of fibers of different material and diameters, therefore, for each wastewater composition and the properties of impurities recovered by flotation, it is advisable to select the composition of the fibers of the brush nozzle, although the design of the flotation unit does not tolerate changes.

It is also possible to vary the gas supply by a high-pressure compressor (instead of air or in combination with air).

The industry produces small high-pressure compressors up to 25 MPa for refueling scuba tanks or diving suits, which can be equipped with the proposed fleet.

It is very important that the air-water mixture formed using drinking-water does not produce large bubbles for 1 ... 2 minutes when moving through the pipeline after the pressure reducing valve, since there are no impurities in pure water - centers for coalescence of hydrophobic air bubbles and only after mixing with contaminated sewage, coalescence is violent.

Claims (1)

A flotation plant for treating industrial wastewater, including a flotation tank, saturator pressure tank, a compressor and a pump with high-pressure communications, a pressure relief valve holding the pressure "to oneself", a foam collection tray, a hydrophobic nozzle surface inside the flotation tank for forced coalescence of micro- and macrobubbles of gases in the cleaned wastewater, characterized in that the pressure tank of the saturator, pressure reducing valve, compressor and pump with communications are made for work under a pressure of at least 15 MPa, n the cage with a hydrophobic surface is made in the form of a nylon fiber ruff placed under the inlet of the initial wastewater and water with air dissolved in it under high pressure, the flotation tank is equipped with a system of bubblers for the regeneration of the brush nozzle located under the cassette holding the brush nozzle in the volume of the flotation tank, the cartridge with a brush the nozzle is made with a length of at least 1.5 m and with a cross-sectional shape matching the cross-sectional shape of the sump, ruffs in the cassette are fixed vertically, in increments equal to the diameter of the ruff cross section, over the entire cartridge section, along the inner perimeter of the flotation tank in a horizontal plane at the level of the inlet of the initial wastewater, the flotation tank shell is equipped with nozzles for inlets of recirculated cleaned wastewater from the outlet of the flotation tank, connected to the low-pressure rotary pump that creates a low-pressure rotary pump that creates inside the sump.