SU827099A1 - Extractor - Google Patents

Description

Placed upward into the expanded part of the upper chamber, opening the upper disk 6 to pass through the gap between the disk 6 and the expanded part of the housing 1 of the solid (heavy) phase B, the chamber located under the disk 6, where the solid forms a solid (hard) phase; (light) phase biphasic mixture.

When the stem 5 with the discs 6 is moved downward, the two-phase mixture enclosed in the volume between the disks and the horizontal partitions 2 is streamed out of the enrichment of the predominantly heavy phase through the flow pipe 3 into the upper chamber of each downstream section, and the two phase is displaced through the flow pipe 4 the mixture in the form of streams, predominantly enriched in the light phase, into the upper chamber of each upstream section.

In the upper chamber of each section, the light phase separates from the heavy one and then through the nozzle 12 leaves the apparatus, and in the lower chamber of each section, the hard phase separates from the light one and then through the nozzle 10 is removed from the apparatus.

With further movements of the shaft 5 upwards, a heavy phase is loaded with the upper chamber and similar to the processes described above in the upper chambers of each downstream section.

Under the action of compressive forces of the discs 6, the two-phase mixture is displaced from the upper chamber of each section, and the two-phase flow enters the now predominantly heavy phase through the overflow pipelines 4 into the lower chamber of each downstream glass and into the same chambers of each upstream section the section receives a two-phase flow enriched predominantly in the now light phase.

Further, the solid (heavy) phase is removed from the apparatus through the nozzle 11, and the slow (light) phase through the nozzle 12.

Thus, when the solid (heavy) phase moves downward, its continuous depletion of the extracted component and its enrichment of the liquid (light) phase goes down. Cyclic displacement of a two-phase mixture from one chamber of each section results in cyclic discharge in the other chamber of each section, which contributes to partial suction of the phase flows from the lower and upper sections through the overflow pipelines, reducing the hydraulic resistance to the flow through the overflow pipelines, and therefore , improving the performance of the device. The presence of overflow pipelines with tangential inlets in the chambers contributes to the emergence of one or oppositely directed impulsive swirling flows, which increases the turbulization of the two-phase flow, as a result of which the contact surface of the phases increases and the efficiency of mass exchange increases. In addition, when unidirectional pulsed swirling flows occur, enriched with solid (heavy) and liquid (light) phases, respectively, a reduction in the longitudinal movement and an increase in the contact time of the phases is achieved, which also increases the mass transfer efficiency. The pulsed occurrence of local swirling streams of two-phase systems in each chamber provides additional energy input, which increases the speed of movement and turbulization of the phases, which increase the efficiency of the extraction process.

Claims (2)

1. Extractor for solid-liquid system containing a vertical cylindrical body with a bottom and an expanded upper part, a vibrating rod located along the axis of the body, a vibrodrive placed above the body and connected to the rod, horizontal discs fixed on the brush, flow pipes connected to the housing, and an input and output device of the phases, characterized in that, in order to intensify the process by improving the mixing and distribution of the phases throughout the apparatus, it is provided with fixed on the housing and dividing it in the steps there are horizontal partitions with central apertures made in them through which the shafts pass, and the disks are located in steps divided by them into chambers, with overflow pipes connecting the upper and lower chambers of the upper steps with the lower and upper chambers of the lower steps, respectively. 2. The extractor according to claim 1, characterized in that the overflow pipes are tangentially connected to the housing. Sources of information taken into account in the examination 1. Japanese patent number 7634, cl. 13C 31, 1963. IB Fig. { BUT -/)