SU1082447A1 - Extractor - Google Patents

Abstract

EXTRACTOR for a solid-liquid system, a housing, a reversing shaft with screw cuts in an alternating sequence of right and left directions, covered by nuts with perforated plates mounted on them, entering into a right-hand direction, pat of each input and output fa, different by the fact that, in order to increase the efficiency of the mass transfer process by activating the transverse mixing of the contacting phases, the perforated plates are made of at least three parts, articulated interconnected, the peripheral parts of the plates are made in the form of a corner, the body is equipped with kerchiefs installed between the shelves of the corner, and the guide is made in the form of stops located on the inner surface of the body in the plane passing through the axis of rotation. (L e X) N0 4 ;:

Description

The invention relates to chemical technology and can be used in mineral processing processes for mineral fossil method of washing and extraction. Known extractor, comprising a housing, a vertical reversing wa with screw cuts in alternating sequences of right and left directions, nuts, perforated plates, installed symmetrically to the shaft and pivotally interconnected 1 .. The closest in technical essence and the achieved result to this invention is appa The steam, including the housing, inside of which is mounted a rotor in the form of a reversing shaft with screw cuts in an alternating sequence of right and left direction with nuts, and which are provided with perforated plates with slots, to be within a guide fixed to the inner surface of the housing f2 disadvantages of the known devices are relatively low degrees cross stirring contacting phases and relatively low residence time of the phases in the apparatus, Thu reduces mass transfer efficiency. The purpose of the invention is to increase the efficiency of the mass transfer process by activating the transverse mixing of the contacting phases. The goal is achieved by the fact that in an extractor comprising a housing, a reversing shaft with screw cuts in an alternating sequence of right and left directions, covered by nuts with perforated plates installed on the plates entering the direction fittings of the input and output phases the perforated plates are made up of at least three parts hinged together, the peripheral parts of the plates are made in the form of a corner, the casing is provided with kerchiefs installed between the corner shelves, and the guide is made in the form of stops located on the inner surface of the housing in the plane passing through the axis of rotation. FIG. 1 shows schematically the proposed extractor; in fig. 2, section A-A in FIG. 1. The extractor consists of a housing 1, inside which a reversing shaft 2 is installed with multidirectional screw cuts covered by nuts 3 with perforated plates fixed to them, each of which consists of a central section 4 and peripheral parts 5 shaped as a corner, connected to the central part 4 hinges 6, gussets 7, lugs 8 mounted on the device body, nozzles 9 and 10, respectively, supply and output of the light phase and nozzles 11 and 12, respectively, supply and output of the heavy phase. The extractor works as follows. The light phase continuously enters the apparatus through the nozzle 9 and is withdrawn from the apparatus through the nozzle 10. The yellowing phase enters the apparatus through a small jacket 11 on the upper composite perforated plate. When the shaft 2 is rotated in one direction (for example, to the right), the nut 3 (for example, the top) with the central part 4 of the perforated plate fixed on it goes down, while the horizontal peripheral parts 5 of the plate, abutting the supports 8 from above, turn in the hinges 6 and occupy a vertical position, and the vertically located peripheral parts 5 of the plates are horizontal. When the peripheral part 5 of the plate moves to a vertical position, transverse pulsations are applied to the two-phase flow and a partial phase of the heavy phase is released into the pockets formed along the periphery. The second part of the flow of the solid phase, the passage through the perforation of the plate, together with the part of the flow passing through the pockets, goes to the lower level. When the plates are moved in the vertical direction, the kerchiefs 7, resting against the lugs 8, prevent them from turning. Due to the presence of a multi-directional screw thread on the shaft, on the lower plate adjacent to the top plate, the opposite is observed: the nut 3 with the central part 4 of the perforated plate rises up, while the grisontally located peripheral parts 5 of the plate turn in the hinges 6 and occupy an upright position imposing transverse pulses on a two-phase flow, and vertically located peripheral parts 5 of the plates are horizontal. When the shaft is turned 2 ° to the other side (for example, to the left), the nut 3 (for example, the bottom) with the central part 4 of the perforated plate fixed on it rises, and the lower part adjacent to the nut 3 is lowered. Next, a process similar to that described.

Thus, with each transition of the peripheral portions 5 of the plate to a vertical position, transverse pulsations are impulsively applied to the two-phase flow above the plate, then under the plate, which increases the efficiency of the mass transfer process as a result of decreasing longitudinal mixing, and at the overlap of the pockets formed at the periphery phases on the plates, which increases the contact time of the phases

and contributes to the effectiveness of the mass transfer process.

In the salt industry, this apparatus can be found near the procession in installations for the enrichment of common salt of Baskunchak lake enterprises. Aral

Technical and economic advantages of the proposed device in comparison with the known ones consist in intensifying the process of mass exchange by activating the transverse displacement of the contacting phases (by 510%).

Claims (1)

EXTRACTOR for the system solid - liquid, containing a housing, a reversing shaft with screw threads in an alternating sequence of right and left directions, covered by nuts with perforated plates installed on them, included in the guide, phase inlet and outlet pipes, characterized in that, for the purpose of to increase the efficiency of the mass transfer process by activating the transverse mixing of the contacting phases, the perforated plates are made of at least three parts pivotally connected between y is, the peripheral portion of the plates are formed as corner gussets housing is provided, mounted between the bracket flanges, and the guide is in the form of stops disposed on the inner surface of the housing in a plane passing through the axis of rotation.