RU2093470C1 - Flotator - Google Patents

Abstract

FIELD: treatment of sewage water to remove by flotation of oil products, fats, proteins, surface active substances, and other pollutants. SUBSTANCE: flotator is provided with additional vortex chambers installed on pipes supplying water-air mixture. Due to it water-air flow moves in pipes by helical path that makes its effluent through hole more uniform along body length. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to a device for the treatment of water, industrial and domestic wastewater, is intended for water purification by flotation method.

A known flotator containing a rectangular housing with paired parallel partitions installed in its upper part, between which there are pipes for supplying the air-water mixture in communication with the supply pipe, diamond-shaped reflectors placed under the partitions, a purified water outlet assembly made in the form of perforated pipes with installed over them inverted Y-shaped grooves located in the lower part of the housing and communicated with the receiving pocket, as well as containing a mechanism for removing foam Skimmer [1]
A disadvantage of the known invention is the low cleaning effect, which is due to the uneven distribution of the air-water mixture over the living section of the housing, especially at high capacities (30 m ³ / h and above). The pipes for supplying the water-air mixture have a large length, as a result of which the mixture leaves the holes unevenly, which leads to a decrease in the volumetric utilization coefficient and the cleaning effect.

 The purpose of the invention is to increase work efficiency by improving the flow and distribution of the air-water mixture.

 This goal is achieved by the fact that in the flotator containing a rectangular housing with paired parallel partitions installed in its upper part, forming mixing zones, between which there are pipes for supplying the air-water mixture, connected with the supply pipe, diamond-shaped reflectors placed under the partitions, assembly the outlet of purified water, as well as a mechanism for removing foam and a foam collector, according to the invention, swirl chambers are additionally installed on the pipes for supplying the air-water mixture, The feed pipe is tangentially attached to the vortex chambers, which are connected to the pipes for supplying the air-water mixture coaxially. In a preferred embodiment, the vortex chambers are mounted on the pipes with the possibility of axial movement.

 The supply of vortex chambers for supplying the water-air mixture, firstly, prevents the coalescence of air bubbles, and, secondly, provides a spiral motion of the mixture inside the pipes. All this contributes to a uniform distribution of the mixture inside the pipes and its discharge throughout the living section of the mixing zones. This improves the efficiency of the use of the flotator.

 Attaching the supply pipe tangentially to the vortex chamber allows you to get a rotating stream in it, which improves the mode of its movement in the pipes for supplying the air-water mixture and the inlet into the mixing zone.

 The connection of the vortex chamber with the pipe coaxially provides the possibility of maintaining the rotational mode of motion inside the outlet pipe, which contributes to a uniform outflow of flow into the mixing zone. Moreover, the placement of the camera with the possibility of axial movement allows you to select the optimal mode of operation.

 In FIG. 1 shows a side view of a flotator; in FIG. 2 shows a front view of a flotator; in FIG. 3 shows a vortex chamber in section.

 The flotator contains a housing 1, inside which are placed paired parallel partitions 2, forming a mixing zone. Between the partitions 2, perforated pipes 3 for supplying the water-air mixture are located, which are coaxially attached to the vortex chambers 4. The supply pipe 5, equipped with couplings 6, is tangentially attached to the chambers 4. Diamond-shaped reflectors 7 are installed under the mixing zones water, including gutters 8 and pipes 9, connected with the receiving pocket 10, divided by a partition 11 into two compartments, one of which is attached to the discharge pipe 12. On the outside, attached to the housing 1 en foam collector 13 with a pipe 14 for the removal of foam.

 The mechanism for raking the foam and the device for emptying are not shown in the figures.

 The flotator operates as follows.

The water-air mixture formed in a saturator or dispersant (not shown in the figure) is tangentially fed into the vortex chambers 4 through the supply pipe 5, where it acquires a rotational movement. Further, the rotating flows enter the perforated pipes 3 and, thanks to the rotation, uniformly pour into the mixing zones formed by the partitions 2. The flows of the water-air mixture uniformly rise up, filling the entire living section of the housing 1, which contributes to the effective floating of the floatation complexes formed in the mixing zones. The purified water is turned through 180 ^o , flows around the reflectors 7 and the grooves 8, is collected by pipes 9 and enters the receiving pocket 10. Then it is poured through the partition 11, which maintains a constant level in the housing 1, and is discharged through the pipeline 12. The foam product that has surfaced is foamed up ( not shown in Fig.

 If necessary, the rotation mode of the flow inside the pipe 3 can be adjusted due to the axial movement of the vortex chambers 4. For this, the couplings 6 are driven off by disconnecting the chambers 4 from the pipeline 5 and the chambers 4 are moved through the pipes 3. The chambers 4 may have a thread or an oil seal. After adjustment by means of couplings 6, the chambers 4 are again communicated with the pipeline 5.

 These design differences allow you to increase the efficiency of the proposed flotator compared with the flotator on.with. N 1212962 by a more uniform distribution of water and air in the mixing zones and inside the housing in the zones of sedimentation.

Claims (2)

 1. Flotator, containing a rectangular casing with installed parallel parallel partitions in its upper part, forming mixing zones, between which there are pipes for supplying the air-water mixture in communication with the supply pipe, diamond-shaped reflectors placed under the partitions, the purified water outlet, mechanism for foam removal and a foam collector, characterized in that it is equipped with vortex chambers coaxially mounted on pipes for supplying a water-air mixture, while the supply pipe tangential on is connected to the vortex chamber.  2. The flotator according to claim 1, characterized in that the vortex chambers are mounted with the possibility of axial movement along the pipes for supplying the air-water mixture.

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