SU1376325A1 - Multistage multicyclone installation - Google Patents

Description

The invention relates to a device for the separation of suspensions and can be used in the chemical, food industry and a number of other industries, in particular in starch production.

The purpose of the invention is to increase the separation efficiency.

The drawing shows a multi-stage multi-cyclone installation, General view.

The installation includes an inlet pipe 1 of the pump 2, the discharge pipe of which is connected to the pipe 3 of the input suspension of the multicyclone 4.

The nozzle 5 of the liquid outlet of the multicycloia 4 is connected to the nozzle 6 of the liquid outlet of the multicyclone 7 and the inlet pipe 8 of the pump 9 of the multicyclone 10. The nozzle 11 of the condensed descent of the multicyclone. 4 is connected to the nozzle 12 of the condensed descent of the multicyclone 10 and to the inlet nozzle 13 of the pump 14 of the multicyclone 7 °. The multicyclones 4, 7 and 10 form the stages of separation of the initial suspension into fractions.

The nozzle 15 of the condensed descent of the multicyclone 7 is connected to the inlet port 16 of the pump 17 of the multicyclone 18 and the nozzle 19 of the liquid outlet of the multicyclone 20. The nozzle 21 of the condensed descent of the multicyclone 18 is connected to the inlet port 22 of the pump 23 of the multicyclone 20 and the nozzle? 5 24 of the liquid outlet of the multicyclone 25. At the inlet pipe 26 of the pump 27 of a multicyclone (for example, a multicyclone 25) of the last stage of washing the heavy component, a pipe 28 for introducing washing water is installed.

Multicyclones 18,20 and 25 with pumps 17,23,27 and a rinse water inlet 28 form the washing stages of the heavy component, the number of multicyclones, and, accordingly, the washing stages of the heavy component can be any.

The nozzle 29 of the liquid outlet of the multicyclone 10 is connected to the inlet pipe 30 of the pump 31 of the multicyclone 32 and to the nozzle 33 of the condensed outlet of the multicyclone 34. The nozzle 35 of the liquid outlet of the multicyclone 32 is connected to the inlet of the pump 36 of the pump 37 of the multicyclone 34 n to the nozzle 38 of the condensed outlet of the multicyclone 39. Port 40 multicyclone liquid gathering is connected to the inlet pipe 41 of the pump 42.

Multicyclones 32.34 and 39 with pumps 31.37 and 42, respectively, form stages of light component isolation.

The pipe 43 of the condensed descent of the multicyclone 32 and the pipe 44 of the liquid of the multicyclone 18 of the first stage of washing the heavy component are connected to the inlet pipe 45 of the pump 46 of the aftercare 47, the pipe 48 of condensed descent of which 15 is connected to the inlet pipe 1 of the pump 2 of multicyclone 4, the first separation stage of the original suspension, and the pipe 49 of the liquid outlet with the inlet pipe 30 of the pump 31 20 of the multicyclone 32 of the first stage of selection, the light component.

The inlet nozzles of multicyclones 4,7,10,18,20,25,32,34,39 of all stages and the multicyclone 47 of the aftertreatment co25 are connected to the pressure nozzles of the pumps 2,9,14,17,23,27,31,37,42 and 46 respectively.

The multistage installation of multicyclones works as follows - "30 ^times '

The initial suspension, for example, a potato gruel, is fed into the multicyclone 4 through the pump inlet 1. Under the action of centrifugal forces, it separates the product into fractions, one of which is enriched in the heavy component (condensed descent), and the second (liquid descent) is enriched in the light component. The liquid gathering of the multi-, cyclone 4 of the first separation stage is mixed with the liquid gathering of the multicyclone 7 of the second separation stage and is supplied by the pump 9 to the multicyclone 10.

The thickened gathering of the multicyclone 4 is mixed with the thickened gathering of the multicyclone 10 and the pump 14 is fed to the multicyclone 7.

The thickened gather of the multicyclone 7, containing mainly the heavy component (starch), enters the first stage of washing the heavy component into the pump 17. of the multicyclone 18, pre-mixed with the liquid gather of the multicyclone 20. The thickened gather of the multicyclone 18 is mixed with the liquid gather of the multicyclone 25 and the pump 23 is fed on a multicyclone 20.

Similarly, in the case of more multicyclone; a, consequently, and washing steps, the initial suspension for the next multicyclone (next washing step) is a mixture of condensed previous and liquid vanishing subsequent multicyclones for any number of washing steps

The liquid gathering of a multicyclone of the last stage of isolation of a light component (for example, multicyclone 39) is a liquid gathering of the entire plant as a whole and contains only a light component (for example, a mixture of pulp with potato juice).

heavy component.

At the inlet of the multicyclone pump (for example, 25) of the last washing stage, a condensed descent of the penultimate multicyclone and washing water are supplied.

The condensed descent of the multicyclone of the last washing stage is the condensed descent of the entire installation and contains mainly a heavy component (starch).

Liquid gathering of a multicyclone; 10 of the second stage of separation of the initial suspension is mixed with the condensed descent of the multicyclone 34 and is fed by the pump 31 to the multicyclone 32, which is a multicyclone of the first stage of separation of the light component.

Similarly, each gather of a multicyclone 32, containing mainly a light component (for example, a mixture of pulp with potato juice), after being mixed with the condensed gather of a multicyclone 39, is pumped into a multicyclone 34, etc. for any number of stages of isolation of the light component. Thus, at these steps a countercurrent of condensed descent is provided, which is most effective in isolating the light component.

The thickened gathering of a multicyclone 32, which is a condensed gathering of all stages or a site of extraction of a light component, and the liquid gathering of a multicyclone 18, which is a liquid gathering of all steps or a section of washing, is pumped to a multicyclone 46. 47 post-treatment, the liquid gathering from which in a mixture with the liquid gathering of the multicyclone 10 and the condensed gathering of the multicyclone 34 is fed to the input of the first stage of separation of the light component in the pump 31 of the multicyclone 32.

The condensed descent of the tertiary treatment multicyclone 47 is supplied together with the initial suspension through the pipe 1 to the inlet of the pump 2 of the multicyclone 4 of the first separation stage of the initial suspension.

VNIIIPI Order 3087

Thus, an increase in the separation efficiency in the proposed multicyclone unit is achieved by the fact that without increasing the number of multicyclones on the light component separation line, the multiplicity of processing the liquid vanishing of the aftertreatment multicyclone 47 and the liquid vanishing of all washing stages containing a significant amount of the heavy component (starch) increases.

Claims (1)

Claim A multistage multicyclone installation containing pumps, connecting pipelines, multicyclones with nozzles for introducing a suspension and for discharging liquid and condensed outlets, forming stages of separation outcome! hydrochloric suspension into fractions, Isolation and lung lavage heavy component nozzle to enter the washing water mounted on the inlet pipe of the last stage pump multicyclone washing heavy component of ¹ · one multicyclone tertiary treatment, to the inlet pipe of which is connected condensed vanishing first multi-cyclone separation stage lung component, and the nozzle of the condensed ⁴ θ descent of the tertiary treatment multicyclone is connected to the inlet pipe of the multicyclone pump of the first separation stage of the initial suspension, distinguishing The scientific research institute is related to the fact that, for the purpose of more efficient separation, the cartridge-shaped exit of the multicyclone perpendicular washing of the heavy component is connected to the inlet pipe of the post-treatment multicyclone pump, the branch pipe of the liquid outlet of the post-treatment multicyclone is connected to the inlet pipe of the multicyclone pump of the first stage of separation of the light component and to the condensed pipe the descent of a multicyclone of the second stage of light component isolation Circulation 464 Subscription Custom polygr. ave, city of Uzhhorod, st. Project, 4