SU912195A1 - Extractor - Google Patents

Description

(A) EXTRACTOR

I

The invention relates to - and extractors can be used to carry out batch or continuous mass transfer processes in liquid-liquid systems while ensuring forced separation of the phases.

Known extractor with alternating-. Arrangement located attached to the vertical body and to the rod, so. reciprocating movements of perforated plates, which create rotational impulses of fluid movement around the axis of the apparatus p j.

However, such an extractor has insufficient efficiency due to the absence of a forced separation of the phases in the final settling zones, the possibility of repeated complete or partial circulation of the extract or raffinate provided by the extractor itself.

The aim of the invention is to intensify the process by providing a forced separation of the phases of the liver.

This goal is achieved by the fact that in the extractor between the input and output of equal liquids are placed alternate, fixed to the stem and the body of the dish, the perforations of which are made in the form of radial

1C holes with plates that form confused openings, which are on the smaller concentric circle and are directed towards the exit side of the light liquid, and

Circular circles are directed to the right side of the output of the liquid liquid; all confused openings have the same circular direction on both sides of the plate.

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Claims (5)

Crusher openings have a greater length, located on a smaller concentric circle at the outlet of a light liquid and located on a larger concentric circle at the outlet of a heavy liquid. The inlet and outlet of each fluid are made from opposite zones of overpressure and underpressure and are connected via a return valve. The rod is hollow with windows in the extreme and middle parts of it. Kvnfuzornye. The openings of the plates located in the middle part of the body are directed in the opposite direction relative to the openings of the treadlocks located in its upper and lower parts. In the fluid entry zones, there is a plate with opposite circular directions of confused openings on different sides. Installing the described plates between the inlet and outlet of different liquids allows the use of centrifugal forces to adopt the extractor in the presence or absence of natural gravity. Making confused orifices on these plates with a longer longitudinal length on a smaller concentric circle at the outlet of a light liquid and on a larger concentric circle at the outlet of a heavy liquid reduces the hydraulic resistance to the flow of the liquid towards its outlet and obtain an increased pressure during backward movement. plates. When the plates oscillate, alternating zones of overpressure and underpressure are created between the non-movable and movable plates. Connecting the input and output of any liquid located in the opposite zones through a pipeline with a non-return valve allows the circulation of the liquid. Making the rod hollow with windows in the outermost and intermediate portions avoids mixing the incoming light fluid from the withdrawing rotating fluid with the heavy fluid and using the rod instead of the pipeline. Performing confused holes in the plates of the outermost parts of the apparatus with a reverse circular direction relative to the central part The effect of the rotating medium of the extreme parts with the central part on the apparatus, this reduces the impact of the apparatus on the support. The installation in the zone of the fluid injection plate with opposite circular directions of the confused holes on opposite sides allows for a constant circular rotation of the medium in the zone of entry. Figure 1 shows the vibrating extractor, a longitudinal section; on ig.2 - a plate, installed between the input of a heavy liquid and the output of a light liquid, a longitudinal section; in fig. 3 - plate, installed between the entry of light and the output of heavy liquids, longitudinal section; on ig. C section aa on fig.Z. . The extractor has a cylindrical body 1 with fittings for liquid inlet and outlet, alternating, fixed to vibrating rod 2 and body 1 Perforated plates 3 through which extraction is carried out using centrifugal forces located between the input and output liquids, additionally installed between the input and output different liquids alternating, fixed to the rod 2 and the body 1 of the plate k, the perforations of which are made in the form of radial holes 5, with plates 6 forming confused holes, at which matured on concentric circle directed towards the light liquid outlet and at a higher concentric circle directed towards the heavy liquid outlet, convergent all openings have the same circumferential direction on both sides of the plate. At the inlet of a light liquid, confused orifices may have a greater longitudinal length, located on a smaller concentric circle, and for a heavy liquid outlet, confusing orifices may have a greater longitudinal length, located on a larger concentric circle. The input and output of any fluid made in the opposite zones of high 7 and low 8 pressure (depending on the direction of movement of the rod 2) can be interconnected through pipe 9 with a check valve 10, the rod 2 can be made hollow with windows in the outermost 11 and an average of 12 parts x. For the cosmic variant, confused holes in the plates of the central part of the apparatus have a reverse circular direction than those of the extreme parts of the apparatus. In the entry zones, you can install a plate with opposite circular directions confused, holes on opposite sides. The extractor works as follows. Into the housing 1 through the nozzles of the inlet, heavy and light liquids are extracted using centrifugal forces with a counter flow of fluids through alternating, fixed to the vibrating rod 2 and the housing 1, perforated plates 3- Since alternating, fixed between the inlet and outlet of different liquids are installed to the stem 2 and the body 1 of the plate. Perforations of which are made in the form of radial holes 5 with plates 6 forming confused openings that are directed toward the exit of a light liquid on a smaller concentric circle, and directed towards a exit of heavy fluid toward a larger concentric circle, all confused openings have the same circular direction, therefore, a constant separation, rotation and flow of the light liquid in the center and the heavy liquid on the outer circumference to its outlets is maintained. Due to the fact that the confusing holes, having a greater longitudinal length, located on a smaller concentric circle at the outlet of a light liquid and located, on a larger concentric circle at the outlet of a heavy liquid, create a large difference in hydraulic resistance to the flow of fluids through elongated confuser and shortened diffuser holes in the direction of the output, and when the plate moves back through the same elongated, which become diffuse, and shortened, which become confused, the holes are open to the center an rata at the terminals of the unit will create an increased pressure fluids. The light liquid is drawn out and entered into the opposite alternating zones of high 7 and low 8 pressure, therefore when the rod 2 moves upward, flow through pipe 9 with a non-return valve 10 light liquid re-extracts through the windows in the extreme 11 and middle parts 12 in hollow stem 2. The reciprocal effect of moving and stationary parts of the apparatus through the medium is not transmitted to the external support, since the confused openings in the plates of the central part of the apparatus have a reverse circular direction than the extreme parts of the apparatus In this way, the opposite rotation of the medium is ensured. Since a plate with opposite circular directions is established in the liquid inlet zone, the directions of the confused orifices on the opposite side, the light flowing into the inlet zone from different sides and the heavy liquids rotate in one direction, are less mixed and remain more divided. 1. An extractor for liquid-liquid systems, including a cylindrical body, vibrostrka with perforated plates fixed to it, alternating with perforated plates fixed to the body, and phase and outlet connections, characterized in that, in order to intensify the process, Ensuring the forced separation of the phases, perforation of the plates installed in the upper part of the body to the nozzle of the heavy phase and in the lower part of the body, is made in the form of confused radial holes, They are mounted in concentric circles and fitted with plates, while the holes located on smaller concentric circles are directed towards the exit of the light phase, and: at large holes towards the exit of the heavy phase. 2. The extractor according to claim 1, wherein the confused openings of the smaller concentric circles of the plates located in the upper part of the body and the large circles of the plates located in the lower part of the body are made of greater length. 3. The extractor according to claim 1, wherein it is connected with the fact that the inlet and outlet connections of the light and heavy phases are connected via pipelines to the reverse valve. 4. Extractor on PP. 1-3, which is based on the fact that the rod is hollow with windows in its extreme and middle parts. 5. The extractor according to claim 1, about the fact that the confused openings of the plates located in the middle part of the body are directed to the opposite side relative to the openings of the plates, according to JO t FIG. laid in the upper and lower parts of it. Sources of information taken into account in the examination 1. USSR author's certificate in application number 2882688 / 23-26, cl. B 01 D P / O, 1980.