SU816488A2 - Centrifugal extractor - Google Patents

Description

(54) CENTRIFUGAL EXTRACTOR

The invention relates to the construction of centrifugal devices and can be used in chemical technology for carrying out extraction processes in loloprotochnogo reZhprFb

According to the main author. St. 544444, a centrifugal semi-current extractor is known that contains a casing with two horizontal partitions, the bottom of which is installed with a peripheral clearance to the body and attached to the top with the help of vertical partitions, a distributor with agitators and a device for input and output of liquids. The apparatus is designed to carry out extraction processes in semi-direct current mode f,

The disadvantage of the apparatus is that the emulsion from the mixed chamber enters the delamination chamber through the annular gap and returns cHOBaf to the mixing chamber through the same hard phase. As a result, the circulation of liquids melodies is indicated by the camera and is difficult. This circumstance leads to an increase in the retention capacity of the extractor, which adversely affects the separation of elements, and reduces the productivity of the process. .

The purpose of the invention is to intensify the extraction process by improving the circulation of liquid phases between chambers.

The goal is achieved by the fact that the extractor is equipped with a partition, made in the form of a glass with a central hole and attached to the lower horizontal partition with the help of slats. Such a device allows an increase in the circulation of the emulsion through the displacement chamber due to the differential pressure of the liquid in the mixing chamber and the cavity between the bottom and the proposed baffles. The pressure difference results from the inhibition of the emulsion in the mixing chamber with immobile agitators.

The cylindrical part of the proposed glass-like partition is located in the gap and the exfoliation chamber. This makes it possible to separate the incoming and outgoing streams and direct them perpendicularly to the deistillation of the force (centrifugal) floor, which significantly improves the conditions for the separation of the emulsion and, as a result, increases the efficiency of the extractor. .

The drawing shows a diagram of a centrifugal extractor.

The centrifugal extractor contains a rotating body 1, inside of which an upper horizontal partition 2 is installed, forming the selection chamber 3, the lower horizontal 1 | a partition 4, mounted with a gap to the body and forming a delamination chamber 5; a partition 6, made in the form of a stack with a central opening, which is attached to the partition 4 by means of strips 7 and forms cavities 8 and 9 for the flow of fluid. In the center there is a fixed distributor.

10 with a channel 11 for injecting liquids with a sampling tube 12 for outputting a light phase and with stirrers 13 located in KciMepe mixing 14.

The extractor works as follows.

Rotation of the device through the channel

11 is filled with a heavy (stationary) phase which during the entire extraction process is not removed from the apparatus. After that, through the same channel into the mixing chamber 14, the light phase is fed with a certain pa; The agitation is carried out by the agitators 13. As a result of the inhibition of the emulsion with immobile agitators, its rotation speed (and hence the pressure) in the mixing chamber is less than

in the cavity 8.

Due to the pressure differential, a forced circulation of fluid is created: through the cavity 8, the fluid continuously enters the exfoliation chamber 5 and then through the cavity 9

returns to the mixing chamber (the directions of the fluid flows are indicated by arrows). Under the action of centrifugal forces S chamber 5 is the separation of the emulsion. The light phase, pushed back to the center, flows through the central opening of the partition 2, enters the KeiMepy 3 selection, from which it is withdrawn by the selection tube 12. The yellow phase in chamber 5 moves to the periphery and returns through the cavity 9 to the mixing chamber 14.

The centrifugal extractor of the developed design can be successfully used for the separation of substances that have little different distribution coefficients using liquids of similar density. The productivity of the -f extraction process, using the developed design, increases by more than 10 times as compared with the known, which is currently the most efficient extractor of this class.

Claims (1)

1. USSR author's certificate 544444, cl. In 01 O 11/04, 1975 (prototype). %