SU762986A1 - Multistage multiple cyclone plant - Google Patents

Description

one

The invention can be used in food, chemical, coal and other industries that use the separation of suspensions containing light and heavy components, 5 in particular, in potato-starch production for the separation of starch grains and particles of potato fiber (pulp).

Multi-stage multi-cyclone plants are known, designed to isolate the light component from suspensions and increase the concentration of the heavy component. For example, an installation for extracting undiluted or slightly diluted cell sap and pulp from starch potatoes, on the one hand, and starch on the other {ί].

Similar installations are used 20 in corn starch production for the separation of mill starch milk and gluten ..

Each multicyclone installation, forming the processing stage of the product, 25 is connected through a pump to the next multicyclone. The inlet of each pump is connected to the condensed discharge pipe of the previous multicyclone and the next liquid discharge pipe.

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It is worth noting that in the future the term "step" will be understood as such a part of the multistage. that multicyclone installation intended for multiple processing of the product, in which the initial product ^- or recycled products of other parts of the installation are processed once, while parts of the multi-stage installation with the same ordinal multiplicity of processing (in the direction of product movement from the initial state to the final state) to one step.

The principal disadvantage of this installation is that the light component (gluten, pulp), separated from the liquid third and all subsequent stages of the installation, is mixed with the heavy component (starch) _g obtained in the first and subsequent steps.

The main goal of a multicyclone installation is the separation of heavy and light components. Therefore, the installation of multicyclones, in which, after the separation of the components, their mixing is performed, does not work sufficiently affectively.

-ί

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Closest to the invention, according to the technical essence and the achieved result, is an installation that includes pumps, multicyclones with liquid and condensed discharge pipes, forming separation stages and pipelines connecting them]. ·

A first stage liquid discharge of a multicyclone of the first stage is connected to the second stage inlet of a multicyclone of the second stage, which processes a liquid discharge.

The branch pipe of the condensed descent of the multicyclone of the first stage is connected by the ““ ^ • ^^^^^^^ the second stage of the multicyclone that processes the condensed gathering. .....

The second stage condensed multicyclone branch pipe processing the first stage multicyclone liquid discharge connects to the second stage multicyclone liquid branching branch processing the condensed discharge and the first stage multicyclone branch pipe.

The liquid gathering of the entire installation is discharged through a second stage liquid cycling branch, a multicyclone, which processes a liquid multicyclone of the first stage.

Condensed gathering of the entire installation is brought out through the pipe of the condensed sho ..... and the multi-cyclone of the second stage, processing the condensed, the multi-cyclone of the first stage.

In this unit, at the second stage, the suspensions containing light and heavy components are mixed, which reduces the separation efficiency of the whole plant as a whole. · - · ^. ··: · «· '- ·· ··

In addition, the installation can consist of only two stages, which does not provide a complete separation of the light and heavy components of the suspension (pulp and starch, gluten and starch).

The aim of the invention is to increase the efficiency of separation by preventing the mixing of conversions, enriched with a light component, with conversions enriched with heavy components both within the steps and between the steps of the installation.

This goal is achieved by the fact that each subsequent after the first * stage is made in the form of two multicyclones and two pumps, with the inlet of the first multicycle pump * Ηί "connected to the liquid outlet of the second multicyclone, and the inlet of the pump of the second multicyclone is connected to the nozzle of a condensed: go the first multicyclone.

The installation stage formed in this way, unlike the known ones, has two inlet pipes, which bake separate processing of the condensed and liquid gatherings of the previous level. Liquid gathering ¹ Soydiyaytstszh only with liquid gathering, more and more

getting rich with every step easy ^? component, and condensed gathering is mixed only with condensed gathering, ^ν enriched with each subsequent stage of the heavy component of the suspension.

Since in this hydrocyclone ⁵ installation only

similar assemblies of the same name, containing mostly one of the selected components, this achieves a high separation efficiency of the suspension components.

Improving the efficiency of separation is also achieved by the fact that in the proposed installation the number of stages is not limited by anything and can be Selected by anyone, based on the conditions for obtaining the required results.

The drawing shows the scheme of the proposed multi-stage (in this example, four-stage) installation of multicyclones.

The installation consists of an inlet pipe 1, a pump 2, the pressure pipe of which is connected to the inlet pipe 3 of a multicyclone 4. A pump 2 and a multi25 cyclone 4 form the first stage of the installation.

The liquid discharge pipe 5 of the multicyclone 4 is connected to the inlet pipe 6 of the pump 7 belonging to the second stage.

The condensate discharge pipe 8 of the multicyclone 4 is connected to the inlet pipe 9 of the pump 10, also belonging to ^ 5 to the second stage. The inlet 6 of the pump 7 is also connected to the liquid discharge pipe 11 multicyclone 12. The discharge pipe of the pump 7 is connected to the inlet 13 of the multicyclone 14. The discharge pipe of the pump 10 40 is connected to the inlet 15 of the multicyclone 12. The liquid discharge pipe 16 of the multicyclone 14 is connected to the third-stage pump 18, and the multi-cyclo 45 concentrated discharge pipe 17 to 12 is connected to the third-stage pump 19 inlet. Pumps 7, 10 and multicyclones 14, 12 form the second stage of installation. Pumps 18, 19 and multicyclones 20, 21 50 'form the third stage of separation, and pumps 22, 23 to multicyclones 24,

25 - the fourth stage of separation.

Multistage installation of multicyclones works as follows.

“The initial suspension through the inlet ³³ nozzle 1 of pump 2 is fed into a multicyclone 4. In a multicyclone, under the action /.” “We curl the centrifugal forces, the separation of the liquid is concentrated into a liquid and condensed descent. The liquid discharge of the multicycle 60 by 4, containing an increased amount of light-weight component (pulp), which is increased in comparison with the initial suspension, is mixed with the liquid discharge of the multicyclone 12 and the pump 7 is fed to the treatment 65 kic in the multicyclone 14.

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Condensed multi-cyclone 4, containing mostly heavy component (starch), is mixed with condensed multi-cyclone 14 and pump 10 is fed for processing into multi-cyclone 12.

Similarly, the original suspension for multi- ³ cyclone 25 is a mixture of condensed multicyclones 20 and 24. The original suspension of multicyclone 24 is a mixture of liquid multicyclone discharges 21 and 25, etc., of any number of stages.

The liquid gathering of the last stage is a liquid gathering of the entire installation as a whole and contains only a light 15 components (pulp). The condensed descent of the last stage is a condensed descent of the entire installation and contains only the heavy component (starch).

In the proposed installation, once a light component isolated on one multicyclone is not mixed with a heavy component anywhere during further processing. As a result, the separation efficiency of the suspension increases significantly.

Economic efficiency from the introduction of a multi-stage plant with a capacity of 100 tons of potatoes

per day will be 234 thousand rubles a year.

Claims (1)

Multi-stage installation of multi-cyclones, including pumps, multi-cyclones with liquid and condensed discharge pipes, forming stages of separation and pipelines connecting them. components both inside the stages and between the stages of the installation, each following the first stage is made in the form of two multicyclones and two pumps, and in a pump discharge pipe of the first multi-cyclone is connected to the liquid pipe gathering the second multi-cyclone, and the inlet pipe of the pump of the second multi-cyclone underflow pipe is connected to the first multi-cyclone descent.