RU1789287C - Centrifuge - Google Patents

Abstract

Usage: sewage treatment with selective, adapted to certain types of pollution by aerobic and anaerobic microorganisms microbial method, in centrifuges with non-rigid filtering partition at the treatment plant. SUMMARY OF THE INVENTION: a plate 10 and a disk 5 are mounted on the rotor drive shaft 4, forming an annular gap 11 between them, the disk 5 being made with holes 14 matching the holes 15 of the wall 9 of the annular chamber 8, which serves for supplying compressed air. If holes 14 and 15 coincide in the annular gap 11, gas jet pulses are generated, which involve the suspension flow in the rotational movement and prevent the flow from stratifying into separate spiral jets, which contributes to the formation of a continuous and continuous flow of the suspension on the filtering partition 6 of the rotor, increasing the productivity by 40 60% due to efficient use of the filter surface. 2 ill. (L C

Description

The invention relates to a technique for treating wastewater with selective aerobic and anaerobic microorganisms adapted to certain types of pollution, the so-called microbial method, and can be used in centrifuges with a non-rigid filtering partition in wastewater treatment plants.

A known centrifuge containing a housing with a filtrate collector having a nozzle for draining the latter, a rotor mounted in the housing on the drive shaft, including a disk and a cone-shaped non-rigid filtering partition freely suspended on it with a smaller base and a supply pipe (AS USSR No. 1740077, class. On 04/3/00, 1989, application No. 4759211/13 - a positive decision dated 03/27/1991) the disadvantage of which is the low productivity. .

The purpose of the invention is to increase productivity.

The goal is achieved in that it is provided with an annular chamber for supplying compressed air located above the rotor disk, having a hole in the wall facing the disk for the passage of the latter, and a plate mounted under the disk to form an annular gap, with windows for passage made in the disk suspensions from the supply pipe through an annular gap into the rotor cavity, and openings located under the openings of the chamber for supplying compressed air and coinciding with them.

The implementation of a centrifuge with an annular chamber for supplying air, having openings in the wall facing the disk, openings for the passage of the latter through openings located under the openings of the chamber, creates an effect in the annular gap between the disk and the plate on the suspension entering through the windows from the supply pipe, accelerating entering it in the annular gap, i.e. the speed of movement of the suspension becomes close to the speed of rotation of the rotor, which increases productivity. At the same time, gas jets flowing out of the disc openings prevent the formation of spiral jets that disrupt the continuity of the suspension flowing to the filtering partition, i.e. the degree of its use is increased, which allows to increase the productivity per unit of its surface due to eliminating gaps between the jets of the suspension, and the increase in the use of the surface due to this factor and, accordingly, productivity is up to 40-60%.

In FIG. 1 shows a longitudinal section through a centrifuge; in FIG. 2 - longitudinal section

a disk with an annular chamber for supplying compressed air.

The centrifuge comprises a housing 1 with a filtrate collector 2 having a nozzle 3

for removal of the latter, a rotor mounted in the housing 1 on the drive shaft 4, including a disk 5 and a cone-shaped non-rigid filter partition 6 freely suspended on it with a smaller base

and a supply pipe 7. The centrifuge is provided with an annular chamber 8 for supplying compressed air located above the rotor disk 5, having openings in the wall 9 facing the disk 5 for passage of the latter;

and a plate 10 installed under the disk 5 with the formation of an annular gap 11. In this case, the windows 5 are provided with windows 12 for passage of the suspension from the supply pipe 7 through the annular gap 11 into the cavity 13 of the rotor, and holes 14 located under the holes 15 of the chamber 18 for compressed air supply and matching them. The housing 1 is made with a pipe 16 discharge sediment and a guide cone 17, and the camera 8 with

the nozzle 18. The chamber 8 is mounted on a rotation support 19 of the drive shaft 4 and is provided with slide supports 20 and 21.

The centrifuge operates as follows.

Suspensions, for example, biomass of effluents with aerobic or anaerobic microorganisms, come from the pipe 7 through the windows 12 into the annular gap 11 between the plate 10 and the disk 5, rotating on the drive shaft 4. When the disk 5 is rotated, its holes 14 overlap the holes 15 in the wall 9 of the annular chamber 8, into which compressed air is supplied through the pipe 18, as a result, gas pulses arise in the annular gap 11, which act on the suspension and involve it in the rotational movement of the disk 5 corresponding to the rotational movement, which prevents waiting for the delamination of the suspension into

individual spiral jets and its centrifugal inertia become comparable with the speed of the partition 6.

The absence of delamination creates conditions for the continuity and continuity of the movement of the suspension on the partition 6, which increases the productivity of the centrifuge by 40-60%. At the same time, the pulsed oscillating treatment of the suspension creates vibrations of the partition 6, which facilitates the separation of the filtrate, which is discharged along the guide cone 17 from the collector 2 of the housing 1 to the tangential nozzle 3, and the sediment, the biomass of microorganisms, is removed from the housing 1 through the nozzle 16 .

The technical and economic effect consists in the fact that the centrifuge opens up the possibilities for introducing the microbial method of wastewater treatment, which is certainly more advanced and more productive than using activated sludge (borrowed from the book by M.N. Rotmistrov, P.N. Gvozd k, S. S. Stavka, Microbiologists of water purification, Kiev, 1978, p. 185.

Claims (1)

SUMMARY OF THE INVENTION A centrifuge comprising a housing with a filtrate collector having a nozzle for the latter’s gadfly, a rotor mounted in the housing on the drive shaft, including a disk and a cone-shaped non-rigid filtering partition freely suspended on it with a smaller base, and a feeding nozzle, characterized in that, for the purpose of to increase productivity, it is equipped with an annular chamber for supplying compressed air located above the rotor disc and having a hole in the wall facing the disk, holes for the passage of the latter, and a plate. Formation below the disc to form an annular gap, while in the disk there are windows for the passage of the suspension from the supply pipe through the annular gap into the rotor cavity and the holes located under the openings of the chamber for supplying compressed air and matching with them.