SU747823A1 - Separator - Google Patents

Description

(54) SEPARATOR The invention relates to the field of wastewater treatment from tar, oils, oil, mineral suspensions and other light impurities. The closest in technical essence and the achieved effect is a device for sewage treatment, flotation, including a case made in the form of a drum mounted for rotation, along the axis of which coaxial pipes for feeding the pelvis and waste water, bent in the direction of the right direction of rotation of the drum, moreover, the end of the inner nozzle is made with holes on its side surface and is plugged with a disk, the diameter of the larger diameter of the end of the outer Nozzle, forming with it an annular gap, and the pipeline for removal of light impurities, bent in the direction opposite to the rotation of the drum and installed with the possibility of radial movement 1. However, in this separator, the fixed location of the nozzles of the gas and waste water supply is irregularly assimilating the volume of the waste liquid in the drum formed by the cavitational flow. near the poorly flowing yaD1 ha, you will have more, but less distance. In order for the volume of wastewater to be sufficiently saturated far from the nozzle in the axial direction, additional time is required, which reduces the separator's capacity. In order to increase productivity and intensify the process of wastewater treatment from the lungs, in the proposed separator, the nozzles of the gas supply and the waste liquid are mounted with the possibility of moving the axis of rotation of the drum in the direction of rotation and is equipped with a screen placed on the nozzle of the gas supply and made in the form of a hemisphere, facing the convex side disk. . FIG. 1 given the proposed longitudinal section of the device; in FIG. 2, view A of FIG. 1. The separator includes a drum 1 rotatably mounted and partially filled with waste water 2. Gas supply pipes 3 and waste water pipelines 4 are connected by flexible hoses 5 and 6 to coaxial gas supply pipes 7 and waste water 8, which are installed with

axial movement. The ends 9 and 10 of the radial nozzles 7 and 8 are bent in the direction opposite to the rotation of the drum 1. On the side surface of the end 9 of the inner nozzle 7, holes 11 are made, and the end 9 is plugged with a disk 12 with a diameter greater than the diameter of the end 10 of the outer nozzle B, and the disk 12 and the end 10 of the outer pipe 8 form an annular gap. In the annular gap between the disk 12 and the end 10 of the external nozzle on the internal nozzle 7 there is a hemispherical screen 13, with the convex side facing the disk. The pipeline 14 for removal of the fat concentrate is provided with a radial nozzle 15 and is installed with the possibility of radial overflow. The end of the 16 nozzle 15. Bent in the direction opposite to the rotation of the drum.

The separator works as follows.

The drum 1 is driven up and draws liquid 2 poured into it to form a liquid ring layer with a free surface. When the liquid reaches a sufficient speed, a zone of developed hydrodynamic cavitation is formed behind the disk 12 - a cavity, the pressure in which is equal to the pressure of saturated vapors of the filled fluid.

Due to the low pressure in the cavity, gas through pipeline 3, flexible hose 5,; internal nozzle 7, end 9 and through holes 11 flows by gravity or, if necessary, forcibly into the cavity. Sewage water through conduit 4, flexible hose b, external nozzle 8 and the end of the water falls on the hemispherical screen 13, interacts with it and abruptly changes its direction to the opposite direction at an angle of 150 -. In this case, the stream of waste water is broken up into small droplets, which are mixed with gas in the end region of the cavity, filled with foam, to form a multitude of tiny gas bubbles, to which even very fine dispersed particles of fat are attached. These bubbles, leaving the cavity, fall into the region of increased (up to 4-5 atm) pressure, which is created by the rotation of the fluid, where they collapse with the release of mechanical and thermal knowledge. Under the influence of collapse pulsations and temperature, the fat is coagulated or whipped into a pellet of 3-4 mm, which quickly emerges onto the surface of the liquid ring layer.

At the same time, axial movement in the forward and reverse directions of the coaxial gas supply pipes and the waste liquid occurs, which leads to the saturation of the entire liquid volume with gas bubbles, and as a result, the productivity increases.

The pressed fat granules are removed through the pipe 15 of the fat concentrate concentrate pipe. The pipe 15 is installed with the possibility;

radial movement, which makes it possible to regulate the amount of concentrate discharged, as well as emptying the drum of purified liquid. When the process is carried out continuously, the end 16 of the nozzle 15 can be buried in the liquid and discharge the purified liquid first, a; then light impurities collected on the free surface.

Other impurities contained in

0 waste water, due to the centrifugal force Hx of the rotating fluid, is thrown against the walls of the drum and can be removed by known methods.

Claims (1)

1. Application 2460903/26,. cl. From 02 C 5/00, 1977, according to which the decision to issue an author's certificate was made - a prototype.