SU1273335A1 - Flotation device - Google Patents

Abstract

The invention relates to devices for flotation treatment of waste and natural waters, can be used in the oil, oil refining, petrochemical, chemical and other industrial sectors, where it is necessary to purify water from oil products, suspended and colloidal particles, and allows increasing the degree of purification and fluid degassing. The flotation cell has a nozzle 2 for the entrance of the liquid, which is installed in the upper part of its body 1 and coaxially with it. A distribution unit for the source fluid, consisting of radially arranged pipes 7, plugged from the free ends and having openings in the lower part, is connected to the nozzle. In the housing there are horizontal partitions 1 with perforation 12 and a central hole 13, each of which is fitted with foam (L collector I4, which is made in the form of a vertical pipe 15 with a cone 16 in the upper part, with a toothed edge 17). 2 zi f-ly, 1 ill. / 7 79

Description

The invention relates to devices for flotation treatment of waste and natural waters and can be used in the oil, oil refining, petrochemical, chemical, gas and other industries, where it is necessary to clean the water from oil products, suspended and colloidal particles, and also to degas it.

The purpose of the invention is to increase the degree of purification and degassing of the liquid.

The drawing shows the proposed flotation plant.

The flotation machine has a housing 1 with nozzles of fluid inlet 2, exit of fluid 3, removal of froth product 4, removal of sludge 5 and gas outlet 6. Nozzle 2 is installed in the upper part of housing 1 along its axis, and the source fluid distribution unit is attached to this nozzle consisting of radially arranged pipes 7. The latter are plugged on the side of the free ends 8 and have holes 9 in the lower part. In case 1, pipes 7 are placed arranged one above the other with the formation of flotation chambers 10 horizontal partitions 11 with perforation 12 and The central openings 13, in each of which the foam collector 14 is mounted. The latter is made up in the form of a vertical pipe 15 with a cone 16 in the upper part having a serrated edge 17. Each partition 11 is provided with a gas outlet pipe 18 installed in a vertical position. .

The flotation cell works as follows.

The gas-cleaning enriched mixture under pressure, higher than atmospheric, flows through pipe 2 into pipes 7 and, through holes 9, gushes forth in the form of jets onto the upper partition 11, entraining the gas released from the liquid above the partition into the joint movement.

When gas-liquid streams penetrate the liquid layer on the upper partition 11, phase inversion occurs, and the droplets are mixed with the main mass of the liquid and the gas in the form. bubbles float up, capturing impurities and creating foam on the liquid-gas interface.

The frothy product is directed downward through the edge 17 of the upper sump 14, and the liquid from the upper partition 11 flows down through the perforation 12

in the form of jets on the downstream partition I1. The process then repeats.

From the lower partition I1, the liquid gets to the bottom of the housing 1, where it undergoes final cleaning with degassing, and through pipe 3 flows out of the flotation cell. The foam from the lower part of the housing 1 leaves through the edge 17 of the lower foam collector 14, where it mixes with the foam product coming from the above-arranged foam collectors and flows out of the flotation cell through the nozzle 4.

The gas leaked from the liquid fills the space between the partitions 11 and goes through pipes 18 to the upper part of the housing 1, from where it goes out of the apparatus through the nozzle 6

Compared with the known, the proposed flotation cell provides a developed and continuously updated interfacial surface due to dispersion of the liquid into droplets, the involvement of the gas removed from the liquid in a joint motion, as well as the penetration of liquid-liquid jets in the liquid layer, in addition, the proposed phases.

5 The economic effect obtained as a result of the use of the proposed flotation cell arises due to an increase in the degree of purification and degassing of the liquid, and the utilization of the separated

0 when degassing a liquid gas, as well as completely eliminating the risk of environmental pollution.

Claims (3)

1. A flotation cell, comprising a housing with nozzles for inlet and outlet of liquid, removal of sludge, output of a frothy product, distribution unit for initial fluids and scrapers, characterized in that, in order to increase the degree of cleaning and degassing of the fluid, the distribution unit of the initial fluid is made in the form of radial pipes with plugged ends and openings in the lower part connected to the liquid inlet pipe located along the axis of the housing in its upper part; the flotation machine is equipped with horizontal perforated partitions with central openings placed one above the other with the formation of flotation chambers each $ ryh equipped with penosborikov installed on its axis. 2. The flotation cell according to claim 1, which is also distinguished by the fact that the foam collectors were made 354 in the form of vertical pipes with cones in the upper part with a jagged edge, 3. The flotation cell according to any one of claims 1 to 5, of which it is equipped with a gas outlet nozzle, and the partitions are provided with vertical flue gas pipes.