RU34162U1 - Pressure flotation unit - Google Patents

Abstract

1. Pressure flotation unit, comprising a pump, saturator and flotator connected by pipelines, separated by an internal partition into flotation and separation chambers, and a thin-layer cleaning module installed in the separation chamber, characterized in that a flow distributor is installed in the separation chamber at the outlet of the flotation chamber, adjacent to the upper edge of the dividing wall. 2. Installation according to claim 1, characterized in that the thin-layer cleaning module is made in the form of a package of inclined plates. Installation according to claim 1, characterized in that the thin-layer cleaning module is made in the form of a block of pipes open at both ends. Installation according to any one of claims 1 to 3, characterized in that the flow distributor is made in the form of a block of rectangular channels. Installation according to claim 4, characterized in that on the flow distributor, made in the form of a block of rectangular channels, a restriction plate is installed on top. Installation according to any one of claims 1 to 5, characterized in that a filter is installed at its output.

Description

IPC 7 with 02 F 1/24

INSTALLATION OF HEAD FLOTATION

The utility model relates to the treatment of contaminated water and can be used in the treatment of industrial and domestic wastewater.

A known installation for pressure flotation cleaning, containing a flotator connected by pipelines, separated by an internal partition into flotation and separation chambers, and a saturator connected to a pump equipped with a bypass line with an ejector, and a flow distributor adjacent to the flotation chamber is installed adjacent to the flotation chamber the upper edge of the dividing wall (Utility Model Certificate No. 26546, IPC 7 C 02 F 1/24, 2002).

Such an installation has an insignificant degree of purification.

The closest in technical essence and the achieved result is a pressure flotation unit containing a pump, a saturator and a flotator connected by pipelines, separated by an internal partition into flotation and separation chambers, and a thin-layer cleaning module installed in the separation chamber (RF Patent for Utility Model by Application No. 2002121417 , IPC 7 C 02 F 1/24, 2002).

Such an installation also does not provide a sufficiently high degree of purification of waste water.

The task to which the utility model is directed is to increase the degree of wastewater treatment.

The problem is solved in that in a pressure flotation installation containing a pump, a saturator and a flotator connected by pipelines, separated by an internal partition into flotation and saturation chambers, and a thin-layer cleaning module installed in the separation chamber, a flow distributor is installed in the separation chamber at the outlet of the flotation chamber . Adjacent to the upper edge of the dividing wall. In addition, the thin-layer cleaning module can be made in the form of a package of inclined plates or in the form of a block of pipes open at both ends, and the flow distributor is made in the form of a block of rectangular channels with a restriction plate mounted on top of it. A filter may be placed at the output of the installation.

In FIG. 1 schematically shows the installation, a General view; figure 2 - installation, top view.

Installation pressure flotation contains a pump 1 with an ejector 2 in its bypass line 3, which are connected to a saturator 4 connected to the flotator 5.

The flotator 5 is divided by an internal partition 6 into a flotation chamber 7 and a separation chamber 8. In the separation chamber 8, at the outlet of the flotation chamber 7, a flow distributor 9 is installed adjacent to its upper edge of the separation partition 6. A restriction plate 10 is installed at the top of the flow distributor 9 at the beginning. Inside the separation chamber 8, a thin-layer cleaning module 11 is installed, made in the form package inclined plates. Above the flotator 5, a sludge removal mechanism 12 is installed. In the separation chamber 8 there is a slurry tray 13. A drain pocket 15 is adjacent to the outer wall 14 of the flotator 5. An overflow comb is installed on the wall 16. At the output of the installation, a filter 17 is placed.

Installation pressure flotation works as follows.

The polluted water is pumped through the pump 1 to the saturator 4. The ejector 2 in the bypass line 3 draws in atmospheric air, where it is dispersed and mixed with the polluted water. The water-air mixture passes through the saturator 4, where there is almost complete dissolution of air in water under pressure. After the saturator 4, water enters the flotation chamber 5 of the flotation chamber 5. When water passes through the control valve in the pipeline, a sharp drop in pressure occurs in the flotation chamber 7, while a large number of small air bubbles form in the mass of water, accumulating pollution particles on its surface. Air bubbles with pollution particles float to the surface of the water in the flotation chamber 7, forming a layer of contaminated foam.

After the flotation chamber 7, water in a laminar mode passes through the flow distributor 9 through rectangular channels. The laminar mode of motion provides optimal conditions for the separation of the smallest air bubbles with particles of impurities on the water mirror in the separation chamber 8 of the flotator 5. The total flow area of the flow distributor 9, the number and dimensions of its rectangular channels are selected from the conditions of the laminar flow of water, i.e. for the values of the Reynolds criterion no more than 1500 - 2000. The time of water passage through the channels of the flow distributor 9, depending on the speed of water in the distributor 9, should not be less than the time of the ascent of the air bubble-particle pollution aggregates, determined by the size separation conditions.

After the flow distributor 9, water passes through a thin-layer purification module 11, where precipitation occurs with coagulation of finely dispersed non-flotated mineral particles. The sediment accumulated in module 11 under its own weight periodically slides over inclined surfaces and accumulates at the bottom of the separation chamber 8, from where it is discharged under hydrostatic pressure.

In the module 11 of thin-layer cleaning also the final separation of the smallest air bubbles with particles of contamination occurs with their coalescence on inclined surfaces and the emergence of water on the mirror in the separation chamber 8.

Contaminated foam (flotation sludge) is removed from the water mirror of the flotator 5 by a scraper mechanism 12 of sludge removal into the sludge tray 13.

The additional purification of water from the uncaught tiny mineral particles and some dissolved pollutants takes place in the filter 17c with a sorption filter load. After this, purified water is gravity drained from the unit.

Thus, the provision of two-stage separation of air bubbles in the flow distributor 9 and in the thin-layer cleaning module 11 with the deposition of the smallest non-flotated mineral particles in the module 11, as well as post-treatment on the filter 17, can significantly increase the degree of cleaning and reduce the size of the separation chamber 8.

Claims (6)

1. Pressure flotation unit, comprising a pump, a saturator and a flotator connected by pipelines, separated by an internal partition into flotation and separation chambers, and a thin-layer cleaning module installed in the separation chamber, characterized in that a flow distributor is installed in the separation chamber at the outlet of the flotation chamber, adjacent to the upper edge of the dividing partition. 2. Installation according to claim 1, characterized in that the thin-layer cleaning module is made in the form of a package of inclined plates. 3. Installation according to claim 1, characterized in that the thin-layer cleaning module is made in the form of a block of pipes open at both ends. 4. Installation according to any one of claims 1 to 3, characterized in that the flow distributor is made in the form of a block of rectangular channels. 5. Installation according to claim 4, characterized in that on the flow distributor, made in the form of a block of rectangular channels, a restriction plate is mounted on top. 6. Installation according to any one of claims 1 to 5, characterized in that a filter is installed at its output.