SU797729A1 - Apparatus for separating non-uniform liquid media - Google Patents

Description

This invention relates to the separation of non-uniform liquid media, for example. fine suspensions such as yeast and algae, and can be used in the microbiological, food, chemical, medical, and other growth zones.

The closest in technical essence and the achieved result to the proposed is a device for separating inhomogeneous liquid media, comprising a cylindrical body with a spiral channel in its lower part and with pipes for BBO-V and medium and tangentially installed patrugs for removing the separated fractions, disk and disk drive rotation xi.

The disadvantage of this device is that it is practically. it is impossible to ensure tightness. In addition, the speed of the rotated disk is limited due to the large space between the spiral channel and the edge, which reduces the separation efficiency of suspensions with particles less than 10 microns,

The purpose of the invention is to improve performance and reliability when

working under sterile conditions for tightness.

The goal is achieved by the fact that the body has an additional spiral channel located in its upper part, and collection chambers of the separated liquid attached to the end walls of the body, while the disk is mounted between the upper and lower parts of the body, the body channels have the same spiral direction, and The end walls of the casing are made of porous material.

FIG. 1 shows the device

s view; in fig. 2 shows section A-A in FIG. one.

The fixed housing 1 has a spiral channel 2, for example of rectangular cross section. Peripheral end

0 the wall 3 of the housing 1 is made of a porous material. On the outer side of the end wall 3 there is a chamber 4 with a pipe 5 for draining the liquid. In the central part of the spiral

5 of channel 2 there is a nozzle 6 for introducing the suspension. In the lower part 7 of the housing 1 there is an additional spiral channel B, made in the form of a mirror reflection of the spiral channel 2, Peripheral end

The wall 9 of the lower part 7 of the housing 1 is also made of a porous material and has on the outside KciMepy 10 with a pipe 11 for draining the liquid. In the central part of the spiral section of the channel 8 there is a pipe 12 for introducing the suspension. Between the spiral channels 2 and 8, an axial gap 13 is formed in which the rotating disk 14 is placed. On the side surface of the body there are tangential nozzles 15 for draining the clarified liquid located closer to the ends, and a tangential nozzle 16 for draining the thickened suspension, located in the middle part of the side housing surfaces

The device works as follows.

The initial slurry is fed through nozzles b and 12 into spiral channels 2 and 8. Due to the rotation of the disk 14 in the direction of the flow of the suspension and at a speed exceeding the flow rate in channels 2 and 8, the layers of the suspension adjacent to the disk move at a higher and increasing speed. In this case, a velocity gradient arises in the flow, under the action of which the solid particles of the suspension rotate, as a result of which a hydrodynamic force arises in the flow, moving the suspended particles. to disk 14. Condensed suspension is discharged through pipe 16. More clarified liquid is discharged from channels 2 and 8 through porous surfaces of end walls 3 and 9 into chambers 4 and 10 and from them pipes 5 and 11, and less clarified liquid - through pipes 15 .

The proposed device, due to the reliable tightness of the case, can be used for carrying out sterile processes. The speed of rotation of the disk, due to the absence of friction due to the gap, is limited only by the strength of the material and can be sufficiently high to obtain a large velocity gradient, which makes it possible to separate particles less than 10 microns in size. The performance of the proposed device is increased more than twice as compared to the known one, due to the presence of the second channel and the implementation of the end peripheral walls of the casing of porous material.

Claims (1)

1. USSR author's certificate No. 514637, class B 04 B 5/00, 1972. T1 jS / 15 YU