SU997825A1 - Multistage multicyclone plant - Google Patents

Description

(54) MULTI-STAGE INSTALLATION OF MULTICYCLONES

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This invention relates to ulticlone plants designed to separate heavy and light components and can be used in the food, chemical, coal and other industries, in particular potato starch production for the separation of starch grains and potato fiber particles (pulp).

The known multi-stage installation of multicyclones is designed to isolate the light component from the suspension and increase the concentration of the heavy component, including pumps, multi-cyclones with liquid and thick nozzles, forming separation stages, and pipelines connecting them.

The multi-cyclone first-stage liquid vanishing pipe is connected to the second-stage multi-cyclone inlet pipe, which processes the liquid stage. A first stage condensed-out multicyclone pipe is connected to a second-stage multicyclone inlet pipe, which processes a thickened gathering.

A condensate discharge pipe of the second stage, processing a first stage liquid multicyclone.

connects with a second stage liquid cyclone discharge pipe processing a condensed discharge and with a first stage multicyclone feed pipe. Condensed liquid gathering of the entire installation is withdrawn through the pipe of the condensed (liquid) descent of the multi-cyclone-second stage, which processes the condensed (liquid) descent of the multi-cyclone of the first stage I.

Closest to the invention in its technical essence and the achieved result is a multi-stage installation containing separation stages and connecting pipelines, each subsequent to the first stage is made in the form of two multicyclones with inlet pipes 15, liquid pipes and condensed conversions.

The installation stage thus formed has two inlets to ensure the separate processing of condensed and liquid discharges of the previous stage.

° Liquid gatherings are connected only with liquid gatherings, more and more enriched with each stage by a light component, and a concentrated gathering is mixed only by a concentrated gathering, enriched with each subsequent stage by a heavy component of the suspension 2.

A disadvantage of the known installation is a large number of pumps. For example, seven pumps should be installed for a four-stage installation. Having a large number of pumps makes installation much more difficult and difficult to maintain.

The aim of the invention is to facilitate its maintenance by simplifying it.

The goal is achieved by the fact that in an installation containing separation stages and pipelines connecting them, each subsequent first stage is made in the form of two multicyclones with inlet pipes, liquid pipes and condensed descents, the liquid pipes of both multicyclones in the separation stages are connected to the multi-cyclone inlet pipe liquid descent of each subsequent stage, and the nozzles of the condensed descent of both multicyclones of the separation stages are connected to the inlet nozzle of the multicyclone of the condensed descent Doi subsequent stage.

For normal operation of one stage, a certain pressure drop is required. It is a drop, not an absolute pressure. So, for example, a multicyclone having a pressure of 1 MPa at the inlet and a back pressure of 0.5 MPa gives the same results as the same multicyclone working At an input pressure of 0.5 MPa and a back pressure equal to Zero.

Based on this position, we assume that the pump serving the proposed multicyclone installation must develop a pressure that exceeds the pressure required for the operation of multicyclones by as many times as the stages the installation has. So for a four-stage installation of multi-cyclones, if it is assumed that the difference of one multi-cyclone is sufficient for its operation, is 0.5 MPa, the pump must reach a pressure of 2.0 MPa.

Thus, for operation of a multi-cyclone unit, a single pump operating under increased pressure is sufficient.

The drawing shows the scheme of multi-stage installation of multicyclones.

The installation contains an inlet pipe 1, a Pump 2, the pressure pipe of which is connected to the inlet pipe 3 of a multicyclone. Pump 2 and multicyclone 4 form the first stage of installation. The liquid discharge pipe 5 of the multicyclone 4 is connected to the inlet pipe 6 of the multicyclone 7 belonging to the second stage. The condensate discharge pipe 8 of the multicyclone 4 is connected to the inlet pipe 9 of the multicyclone 10, also belonging to the second stage.

The liquid discharge pipe 11 of the multicyclone 7 is connected to the inlet pipe 12 of the multicyclone 13 of the third stage, and the condensed discharge pipe 14 of the multicyclone 10

connected to the inlet 15 of the multicyclone 16 and the third stage.

Multi-cyclones 17 and 18 form, by analogy, the fourth stage of separation.

Multistep installation of multicyclones works as follows.

The pump 2 through the inlet pipe 1 and the discharge pipe 3 supplies the initial suspension to the inlet pipe of the multicyclone 4 of the first stage. Under the action of centrifugal forces, the product is divided into a liquid and condensed gatherings. The liquid gathering of the multicyclone 4 through the liquid nozzle 5 enters the inlet 6 of the multicyclone 7 of the second stage. Condensed gathering multicyclone 4 through the condensed discharge pipe 8 enters the inlet 9 of the multicyclone 10 of the second stage.

In multi-cyclones, the second stage also separates the product into liquid and condensed discharges.

Liquid, descent from the multicyclone 7 through the liquid discharge pipe 11 through the inlet pipe 12 enters the third stage multicyclone 13. Here in the inlet 2 of the multicyclone 13 enters the liquid sho,: g multicyclone 10 of the second stage. The condensed descent from this multicyclone 10 through the pipe 14 enters the inlet pipe of the multicyclone 16 of the third stage. In the same inlet 15 enters a condensed gathering from the multicyclone 7 of the second stage.

After separation of the product into the third stage of multicyclones, the resulting liquid and condensed convergences are distributed as follows.

Liquid discharge from the multicyclone 13 enters the inlet of the multicyclone 17 of the fourth stage. Well, this is not the liquid flow from the multicyclone 16 of the third stage. The condensed gathering of the multicyclone 3 enters the multicyclone 18 of the fourth stage. The condensed gathering of the multicyclone 16 of the third stage also enters the fourth-stage multicyclone 18.

After separation of the products in the fourth stage of hydrocyclones, the liquid flows from multicyclones 17 and 18 are combined together in the same way as condensed gatherings from these multicyclones.

In order for the installation to work, it is necessary that the pressure at the input of the multicyclone of the first CTjneHH be 2.0 MPa. Since a drop of 0.5 MPa is required for the operation of a multicyclone of the first stage, then after the first 0 stage before the second, the head pressure will be 1.5 MPa. After the second stage, the available head will be 1.0 MPa. In this case, the pressure of the liquid and condensed convergence of both multicyclones of the second stage will be the same. This means that without disrupting the operation of multicyclones, their pipes can be connected in the way that is convenient. This applies equally to all other steps.

Thus, the liquid discharge pipes of both multicyclones of the second stage of the volume. Diyu and go to the input of the multicyclone of the liquid discharge of the third stage. Similarly, the condensate discharge nozzles of both second-stage multi-cyclones are combined and sent to the input of the third-stage condensed-out multi-cyclone. All subsequent stages are connected in the same way.

As can be seen from the diagram, all the stages operate with the same pressure drop. This means that all multicyclones work in the design mode.

Thus, for the operation of a multi-stage multi-cyclone installation, one pump is required that operates with increased pressure. Reducing the number of pumps provides a one-time cost reduction, simplifying installation and easier maintenance (shortening the time required for packing stuffing boxes).

The annual economic effect from the use of the new installation is 1.9 thousand rubles.

Claims (2)

Invention Formula Multistep installation of multicyclones, containing separation stages and pipelines connecting them, each following the first stage are made in the form of two multicyclones with inlet pipes, liquid pipes and condensed descents, which are designed to simplify the maintenance of the installation by simplifying it. , the branch pipes of the liquid gatherings of both multicyclones of the separation stages are connected to the inlet branch pipe of the multicyclone of the liquid gathering of each subsequent stage, and the branch pipes of the condensed discharges of both multicyclones of the stage its separation is connected to the inlet of the multicyclone of the concentrated descent of each subsequent stage. Sources of information taken into account in the examination of 1- UK Patent No. 1174478, cl. In 2 P, 1970. 2. USSR author's certificate No. 762986, cl. B 04 C 5/24, 1978. The product has 0.5mpa