CS259985B1 - Waste water oil removal plant - Google Patents

Abstract

The device for removing oil from wastewater using pressureless flotation has a rotary air disperser installed at the bottom, which allows the generation of bubbles of the desired parameters, but at the same time promotes water turbulence and the movement of the bubbles has a significant tangential component. This disadvantage is eliminated by placing the bumps in the device chamber. During cleaning using a rotary disperser, the bumps increase shear stresses, so they contribute to the formation of real bubbles. Furthermore, they contribute to their uniform distribution and prevent their tangential movement and water turbulence, thereby preventing foam degradation on the surface.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a waste oil removal device by a combination of pressureless flotation and solubilization.

The devices previously used to remove oils from wastewater utilize a physicochemical process of pressureless flotation in combination with solubilization. Solubilization is achieved by suitable additives which are mixtures of certain surfactants. The additive releases dissolved oil and, in conjunction with flotation under the influence of bubbles of suitable parameters, forms micelles which collect in the form of foam on the surface. The closest known device consists of a chamber, usually in the form of a vertical square vessel, from whose bottom the purified water is drawn. Just above the bottom is a rotary air dispersant, above which an additive inlet opens into the chamber. At the top, there is a water inlet and a foam overflow overflow. When using a rotary air disperser, the bubbles are released by centrifugal and shear forces earlier than when using a static disperser, where only buoyant forces are applied and are therefore reduced. Due to the rotation, however, the movement of the bubbles acquires a tangential component, which increases the turbulence of the water and thus adversely affects the stability of the foam at the surface. The size of bubbles can be changed by changing the speed, but their reduction is achieved at the cost of reducing foam stability through increased turbulence.

Essentially, the present invention is a device for removing oil from wastewater by means of a non-pressurized flotation consisting of a chamber with a wastewater inlet at the top and a bottom part provided with a rotary air disperser and purified water outlet, the supply of additives to the space above the rotary dispersing agent, and is characterized in that at least two vertical upwardly tapering stops are disposed within the chamber, forming a free slot along the wall and bottom of the chamber.

Compared to the prior art oil removal devices, a higher effect is achieved in that the deflection of the bubbles is removed and thus the stability of the foam is increased. In addition, a smaller bubble size can be achieved, since a higher dispersant speed can be selected than in the prior art devices.

A particular example of the device according to the invention is schematically shown in the attached drawing, wherein Fig. 1 is a vertical section through a device consisting of two chambers arranged in series and Fig. 2 - 2 shows a top view of the device of Fig. 1.

The device according to the invention consists of a series of chambers 1, each chamber 1 having an inlet 2 of polluted water at the top, a rotating air disperser 2 at the geometric center of the bottom 10 and an inlet into the siphon 6 at the bottom. Inside each chamber 1 are located upwardly tapering stops χ, fixed such that a gap remains along the wall S 10 of the chamber 1.

8. The last ^{of the} chambers 1 has, in the lower part, an outlet 2 of purified water at the point of entry into the siphon 8. The drain 2 may be provided with an adjustable overflow outlet 6, as shown .čárkovaně ^e j.

The polluted water is supplied through the inlet 2 at the top of the chamber 1 and moves downwards to the inlet to the siphon £ ♦

In the opposite direction, the bubbles from the rotary disperser 2 and the additive flow, carry away the resulting silences and collect like foams on the surface. From there the foam is discharged at regular intervals. Water inlet 2 below water level

and the entrance to the siphon £ ^U ANA provides upstream bubble effect and improves the interaction of flotation and additives. In the lower part of the chamber 1, the pre-treated water is sucked into the siphon 8 and via the overflow is discharged into the upper part of the following chamber 1, where the whole process is repeated. From the last chamber 1, the purified water is discharged via an outlet 2 through an adjustable overflow 6. During cleaning using a rotary disperser 2, the cusps X increase the shear stress so that they cooperate in the formation of small bubbles. Furthermore, they contribute to their uniform distribution and prevent their tangential movement and water turbulence, thereby preventing foam degradation at the surface.

The device described is not the only solution according to the invention. The chambers 1 can be more sequentially arranged and in parallel to increase the flow. It is also possible to use one chamber 1 as a separate unit.

The device according to the invention can be used for the purification of waste waters contaminated with oil or other substances, where the use of pressureless flotation is suitable.

Claims (1)

Installations for the removal of oil from wastewater by means of a non-pressurized float comprising a chamber with a wastewater inlet at the top and at the bottom provided with a rotary air disperser and a purified water outlet, the supply of additives to the space above the rotary disperser. the chambers (1) are positioned at least two vertically upwardly tapering stops (7) such that they form a free slot (8) along the wall (9) and the bottom (10) of the chamber (1).