SU886931A1 - Pulsation extractor - Google Patents

Description

(54) PULSE EXTRACTOR

The invention relates to apparatus for carrying out mass transfer processes and can be used in the chemical and petrochemical industries for carrying out solvent extraction processes.

A pulsating extractor is known, including a cylindrical body, branch pipes for feeding and draining heavy and light phases, a pulsator, contact plates with ejectors 1 located on them.

The disadvantage of this pulsation extractor is the low efficiency of the mass transfer process, due to the fact that the ejectors effectively work only with one direction of the pulsation movement of liquids, and when the liquid moves backward, the passage through the ejectors does not mix, and the longitudinal mixing in the apparatus increases and decreases efficiency.

The aim of the invention is to increase the efficiency of the process by increasing the degree of mixing.

The goal is achieved by the fact that in a known pulsation extractor, which includes a cylindrical body, branch pipes for supplying and discharging phases, a pulsator and contact plates located on

they are ejectors, ejectors are equipped with non-return valves and are located on opposite sides of the tray in alternating sequence towards each other

b friend on neighboring plates. In this case, the ejectors can be located obliquely to the plane of the plate.

Such arrangement of ejectors will allow intensive mixing of liquids.

10, for both forward and reverse impulses, the installation of non-return valves on them will make it possible to disconnect ejectors located opposite the course of the fluids.

The location of the ejectors obliquely to

15 the plane of the plates will allow to create in the apparatus, in addition to the countercurrent and pulsating motion, steady rotation of fluid flows, which will reduce the transverse non-uniformity over the cross section of ap20 and increase energy dissipation by flows, thereby further increasing the efficiency of the mass transfer process. The drawing shows a pulsating extractor, longitudinal.

25 The pulsating extractor consists of a cylindrical body 1, nozzles 2 and 3 of supply and nozzles 4 and 5 of discharge of the heavy and light phases, respectively, pulsate 6, contact plates 7 with ejectors 8 and 9, which are mounted on them to pass the hard and light phases, respectively equipped with check valves 10.

Pulsation extractor works as follows.

The heavy and light phases are fed to the extractor 1 through the nozzles 2 and 3 and move through the apparatus in countercurrent. A pulsating reciprocating motion is applied to the countercurrent movement of fluids, the pulsation is supplied through the pulpline 6. The processed fluids accumulate above and below the contact plates 7. When the impulse is fed up through the ejectors 9 located along the light phase, under the action of a pressure differential created by the pulsation system The light phase is moving, capturing the accumulated 7 t solid phase above the plate and moving with it. The check valves 10 of the ejectors 8, located along the heavy phase, are closed at this time. When the direction of the pulsation movement of liquids is changed, the check valves 10 on the ejectors 9 located along the light phase are closed and the check valves on the ejectors 8 open. The hard phase, passing through the ejectors 8, captures the light phase accumulating under it 7 and moving it intensively.

The proposed pulsating extractor effectively operates at a pulsation frequency close to or equal to the natural oscillation frequency of liquids in the column, which allows a significant reduction in the energy consumption for the extraction process.

The use of the present invention will improve the efficiency of the pulsating extractor and reduce energy costs for the extraction process. i

Claims (2)

1.Pulsation extractor, including a cylindrical body, nozzles supplying and retraction of phases, pulsopipe and contact plates with ejectors located on them, characterized in that, in order to increase the efficiency due to the increase in the degree of movement, the ejectors are equipped with non-return valves and are located on opposite sides of the tray in an alternating sequence towards each other on adjacent plates. 2. The extractor according to claim 1, characterized in that the ejectors are inclined to the plane of the tray. The source of information received by BQ attention in the examination: 1. Copyright certificate № 121776, cl. On 01 D 11/04, 1959 (prototype). , ; ten 7 fO /