RU109125U1 - Foam sewage treatment separator from sludge - Google Patents

Abstract

 1. A separator for foam wastewater treatment from sludge, comprising a housing with a nozzle for supplying contaminated water and a nozzle for removing purified water, a rod coaxially located inside the housing and with the possibility of vertical vibration, on which perforated disks are mounted, characterized in that in the upper part of the housing blades are fixed to the rod with the possibility of their rotation, and in the lower part of the body under the perforated disks there is a bubbler device with an air supply pipe, while in the zone of rotation of the blades the tangential but the diameter of the housing and the blade rotation direction of the second air inlet located pipe and a foam outlet nozzle. ! 2. The separator according to claim 1, characterized in that the housing is made in the form of a truncated cone with a large lower base and an angle of inclination of the generatrix to the vertical axis of 60-80 ° and the cylindrical part at the location of the blades. ! 3. The separator according to claim 1, characterized in that a reflector is installed in front of the purified water outlet pipe inside the housing to ensure that foam does not get into this pipe.

Description

The utility model relates to devices for cleaning liquids from sludge, surface-active substances (surfactants) and can be used in the petrochemical, pulp and paper, electrochemical, machine-building industries.

Known devices for wastewater treatment from sludge, surfactants and other suspended solids using foam separators (D. A. Krivoshein, P. P. Kukin, V. L. Lapin and others. "Engineering protection of surface water from industrial effluents." Textbook allowance. M. Higher School 2003, 344 pp. 161-163, Fig. 6.13), in which air is supplied in the bottom of a multi-section separator with subsequent removal of foam from the surface of the separator into the foam collector. The disadvantage of such foam separators is the low productivity and cleaning efficiency.

Known capacitive apparatus with a vibrating mixing device that vibrates in the vertical direction. It contains a housing, a rod coaxial to the housing with perforated disks fixed to it, a magnetic core and solenoid coils in the housing. Vibration mixers are single- and multi-disk (M.A. Prromtov. Machines and apparatus with pulsed energetic effects on the processed substances. Moscow, “Mashinostroenie-1” Publishing House, 2004 - 136 pp. Fig. 3.18., P. 75).

The disadvantages of the prototype are as follows: Inadequate foaming required for the flotation process, which reduces the cleaning efficiency. The presence of a cap makes it difficult to remove foam from the surface of the liquid. To remove the foam, it is necessary to periodically dismantle the installation and use some device (scraper, blow-off, etc.) to remove the foam.

The technical result, which is achieved by the claimed utility model is to increase cleaning efficiency and ensure continuous removal of foam.

The technical result is achieved by the fact that in the separator of foamy wastewater treatment from sludge containing a housing with a nozzle for supplying contaminated water and a nozzle for removing purified water, a rod coaxially located inside the housing and with the possibility of vertical vibration on which perforated discs are mounted is new, that in the upper part of the housing on the rod fixed blades with the possibility of rotation, and in the lower part of the housing under the perforated disks there is a bubbler device with a pipe for supplying air, while in the zone of rotation of the blades tangentially to the diameter of the casing and in the direction of rotation of the blades are the second pipe for supplying air and pipe for removing foam.

The separator body is made in the form of a truncated cone with a large lower base and an angle of inclination of the generatrix to the vertical axis of 60-80 ° and the cylindrical part at the location of the blades.

A reflector is installed in front of the purified water outlet pipe to ensure that foam does not enter this pipe.

The proposed separator is presented in figures 1, 2, 3 (a, b, c).

Here: 1 - body, 2 - rod, 3 - blades, 4 - cover, 5 - casing, 6 - magnetic core, 7 - solenoid coil, 8 - reflector, 9 - pipe for cleaning purified water, 10 - perforated disks, 11 - air supply pipe, 12 - bubbler device, 13 - contaminated water supply pipe, 14 - foam discharge pipe, 15 - second air supply pipe.

The separator is a housing 1, made in the form of a truncated cone with a large lower base and a cylindrical part at the top, the angle of inclination of the generatrix to the vertical axis is 60-80 °. The housing has a polluted water supply pipe 13 located in the lower part of the housing 1 and a purified water discharge pipe 9 located in the upper part of the housing 1. A reflector 8 is installed in front of the purified water removal pipe 9 to ensure that foam does not get into this pipe. In the housing 1, near the bottom and below the nozzle 13, there is a bubbler device 12 with an air supply pipe 11. The bubbler device can be made in the form of a spiral tube with holes (Fig. 3a), in the form of radial tubes with holes (Fig. 3b) or concentric tubes with holes (figv). Inside the housing 1 and coaxially there is a rod 2 on which perforated disks 10 are fixed, and above the disks, in the upper part of the case having a cylindrical section, blades 3 are mounted with the possibility of rotation both separately from the rod and together with the rod. In the area where the blades 3 are located, tangentially to the diameter of the casing and in the direction of rotation of the blades, there is a second air supply pipe 15 and foam outlet pipe 14. A magnetic core 6 with a solenoid coil 7, enclosed in a casing 5, is fixed on the rod 2 above the cover 4.

The separator works as follows. Contaminated wastewater is supplied through the nozzle 13 and fills the volume of the housing 1. At the same time, air begins to flow into the bubbler device 12 through the nozzle 11, and alternating current is supplied to the solenoid coil 7 from an external power source. The magnetic core 6, and with it the rod 2 with the disks 10 fixed on it, begin to perform vertical vibrations, which create active mixing of air bubbles with sludge particles without the formation of a funnel. Due to active flotation, the sludge in the form of foam rises to the upper part of the housing 1, into the area where the blades 3 are located. The blades 3 begin to rotate under the influence of air pressure supplied through the nozzle 15, and the slurry in the form of foam is carried away and discharged through the nozzle 14. Inclined walls the housing 1 contribute to the thickening of the flotation foam as it rises, and the presence of a reflector 8 eliminates the ingress of foam into the outlet pipe of purified water 9.

Thus, the proposed device allows you to effectively clean the liquid from sludge and provide continuous removal of sludge from the surface in the form of foam.

Claims (3)

1. A separator for foam wastewater treatment from sludge, comprising a housing with a nozzle for supplying contaminated water and a nozzle for removing purified water, a rod coaxially located inside the housing and with the possibility of vertical vibration, on which perforated disks are mounted, characterized in that in the upper part of the housing blades are fixed to the rod with the possibility of their rotation, and in the lower part of the body under the perforated disks there is a bubbler device with an air supply pipe, while in the zone of rotation of the blades the tangential but the diameter of the housing and the blade rotation direction of the second air inlet located pipe and a foam outlet nozzle. 2. The separator according to claim 1, characterized in that the housing is made in the form of a truncated cone with a large lower base and an angle of inclination of the generatrix to the vertical axis of 60-80 ° and the cylindrical part at the location of the blades. 3. The separator according to claim 1, characterized in that a reflector is installed in front of the purified water outlet pipe inside the housing to ensure that foam does not get into this pipe.