RU1792742C - Equipment for flotating sewage - Google Patents

Abstract

 04V CAPTURE The invention relates to the field of wastewater effluent (CB), clarification of finely dispersed suspensions of chemical, microbiological, medical and other industries. The essence of the present invention is that a plant for flotation of CB is proposed, including a flotation separator (F) with nozzles for supplying the initial CB, discharging purified water and foam product, connected by a recirculation loop to a saturator and a CB mixer with reagents. In this case, Ф is made in the form of a cylindrical container, inside of which a cylindrical Ф is coaxially mounted, having on the side surface of the window the area (P) of which is 1.1-2.0 times greater than P of the photoreactor’s cross section and the conical foam thickener (CS) on top product made in the form of a confuser with a screw device located at an angle of 30-90 ° to the axis of the flotation reactor, and the outlet pipes of the purified water are located below the level of the beginning of the COP. 1 s.p., f-ly, 1 ill. ate

Description

 The alleged invention relates to water purification, and more particularly to methods and plants for wastewater treatment |

Flotation units are known that are basic in various methods for dispersing gas or air. The most widely used are pressure flotation plants, the principle of operation of which is based on dissolving air in the liquid phase with increased pressure, then releasing it on pollution particles at normal pressure and flotation of the resulting complexes, the particle | is an air bubble. At the same time, impeller flotation units, pneumatic and chemical flotation units are used along with pressure flotation plants for wastewater treatment. Impeller flotation wastewater treatment plants operate at a reduced air flow rate, resulting in very small air bubbles.

A well-known four-stage flotation impeller installation Wemco (USA) for the purification of oil-containing water, comprising a flotation chamber inside which a stator with a rotor is installed. Water enters the rotor through a perforated plate and a circulation pipe. Air is drawn in from above when the rotor rotates. The design of the gas saturation system provides a significant degree of aeration of the water. Rotational speed for Wemco-type flotation units in production of

Yu

2

Yu

With a capacity of 11.1 m3 / h, it is 559 rpm, and with a capacity of 1110.0 mph / h, the rotor speed is 194 rpm. Moreover, the power at the above values of the productivity of flotation units varies from 6.1 to 118.1 kW.

A disadvantage of the known impeller flotation unit is the low degree of thickening of the particles of contaminants formed during flotation of the foam layer, as well as the low extraction of pollution from wastewater.

A flotation unit is known in which air is dissolved under hydrostatic pressure without the use of a saturator. The enrichment of water with dissolved air is carried out in a vertical shaft with a downward direction of movement of its flow towards the introduced air bubbles. The release of air bubbles from a supersaturated liquid occurs during its upward movement due to a gradual decrease in hydrostatic pressure. At the same time, the depth of the shaft is 8-15 m.

A significant disadvantage of the known installation is its large size, in particular its depth (height), as well as the insufficiently high degree of condensation formed during the flotation of a foam layer consisting of particles of pollution, water and air .:

The Spenstead flotation unit is also known, which consists of two chambers: a flotation reactor and a flotation separator. In the flotoreactor, air bubbles are released on pollution particles and the formation of particle-bubble complexes. The separation of the particle-bubble complexes from water is carried out in a float separator. At the same time, part of the clarified water and the separator are returned to the receiving tank to exclude various fluctuations in the water level in it, which improves the operating conditions of the gas saturation system.

Spenstead two-chamber flotation units have a significant drawback, which is the difficulty of evenly distributing water in the separator, as well as in these installations a high degree of thickening of the foam layer (product) is not achieved and the purified water contains a lot of suspended solids.

The purpose of the invention is to increase the degree of condensation of the foam product and to reduce the content of suspended solids in purified water.

This goal is achieved by the fact that the proposed installation for flotation of wastewater, including a flotation separator with nozzles for supplying source wastewater, drainage of purified water and foam product, connected by a recirculation circuit with a saturator and a wastewater mixer with reagents, according to the invention, the flotator is made in the form a cylindrical container, inside which a cylindrical

flotation reactor having on the side surface of the window, the area of which is 1.1-2.0 times greater than the cross-sectional area of the flotation reactor, and on top is a conical thickener of the foam product with a screw device located at an angle of 30-90 ° to the axis of the flotation reactor, and the outlet pipes for purified water are located below the start level of the conical thickener, and the cross-sectional area of the flotoreactor is 1.5-2.5 times less than the cross-section of the flotation separator.

The implementation of a window on the lateral surface of the flotator, the area of which is 1.1-2.0 times larger than the cross-sectional area of the flotator, as well as the execution of a conical thickener of the foam product in the form of a confuser located at an angle of 30-90 ° to the axis of the flotation reactor, is new in relative to the prototype. Also new is the location of the outlet pipe for purified water below the start level of the conical thickener.

The study of solutions known in science and technology showed that joint

The use of a flotation separator made in the form of a cylindrical tank, inside which a cylindrical flotation reactor with side windows on the side surface is coaxially mounted, was not found, while only their combined use leads to the achievement of the set goal.

The execution of a window on the lateral surface of the flotator is 1.1-2 times larger than the cross-sectional area of the flotation reactor due to the fact that the speed of the suspension in the flotation reactor must be lower than in the window in order to preserve the bubble-particle flotation complex. If the window area is less than 1.1 times the cross-sectional area of the flotation reactor, then the destruction of the flotation complex is possible. If the window area exceeds the cross-sectional area of the flotation reactor by more than 2 times, productivity will drastically decrease.

The location of the confuser at an angle of 30-90 ° due to the fact. that at an angle of less than 30 °, productivity decreases

installation, and at an angle greater than 90 °, separation efficiency is reduced.

The drawing shows the proposed Stop.

The installation consists of a mixer 1 connected to a saturator 2 and nozzles 3, 4 fl) of a separator 5, inside which a conical thickener 7 is installed, made in the form of a confuser connected to a screw device 8, the screw of which is driven using an electric motor 9 .. The condensed foam product is discharged through a tray and a nozzle 10. The purified water passes through the nozzle 11 from the pocket 12, where it enters through the window 13. The accumulated sediment is removed through the nozzle 14, and the purified water is recycled using a pump fifteen.

The principle of operation of the proposed installation 1 for wastewater flotation is as follows.

The initial wastewater enters mixer 1, which also sends purified recycle water and coagulant .1, flocculant After treating the initial wastewater with reagents (coagulants and flocculants) and mixed with recirculated purified water saturated with air at high pressure in saturator 2, the resulting mixture is sent through nozzle 3 to flotoreactor 6. The aggregates of particles formed in the flotoreactor — air bubbles rise together with the moving liquid phase up into the condensation condensation zone Ithel - converger 7. The resulting foam layer

using a screw unit 8, it is transported to the tray 10, the purified water is discharged through the windows 13 into the float separator and then through the pipe 4 and the pipe 11. The purified water through the pipe 4 is recycled through the saturator 2. mixer 1, pump 15 and again in the flotation reactor 13. From the nozzle 11 purified water is discharged in the form.

The use of the proposed installation in flotation wastewater treatment processes makes it possible to obtain a foam layer (product) 1.5-2.5 times denser than in known plants. In addition, with the proposed flotation unit, the degree of water purification is increased by 15-30%.

the claims 1. The installation for flotation of wastewater, including a flotation separator with nozzles for supplying source wastewater, drainage (purified water and foam product, connected by a recirculation circuit with a saturator and a wastewater mixer with reagents, characterized in that, with In order to increase the thickening of the foam product and reduce the content of suspended solids in purified water, the flotation separator is made in the form of a cylindrical tank; inside of which a cylindrical flotation reactor having coaxially mounted

on the side surface of the window, the area of which is 1.1-2.0 times larger than the cross-sectional area of the flotation reactor, and on top is a conical thickener of the foam product made in the form of a confuser with a screw device located at an angle of 30-90 ° to the axis of the flotation reactor moreover, the outlet pipes of the purified water are located below the start level of the conical thickener.

. 2. Installation according to claims 1 and 2, with the exception that the cross-sectional area of the flotation reactor is less than the cross-sectional area of the flotation separator by 1.5-2.5 times.

Compiled by B. Ksenofonov Editor S. Kulakova Tehred M. Morgenthal Corrector N. Milyukova

Order 470 Circulation Subscribed

VNIIIPI of the State Committee for Inventions and Discoveries under the USSR SCST 113035, Moscow. J-35. Rauska na B .. 4/5