SU593710A1 - Extractor - Google Patents

Description

(54) EXTRACTOR

the mixing 3 and settling 4 and 5 chambers, the pulsation chamber 6, the pulsator (not shown) connected by pipeline 7 with the pulsation chamber 6, and unions 8, 9, 10 and 11 for input and output of the hard and light phases, respectively .

The extractor is provided with a reverse truncated cone 12 located in the lower part of the building:; h, and the pulsation chamber 6 is installed coaxially with the housing above the truncated cone 12 and connected with the upper part to the nasa, tsky 2.:

A submersible pump 13 is connected inside the pulsation chamber and connected to the outlet 10 of the heavy phase. For the overflow of the heavy phase from the upper settling chamber 5, there are holes 14 in the housing 14. At the outlet 10 there is a device 15 for controlling the flow of the heavy phase interlocked with the instruments, following the phase separation level (not shown in the drawing).

The extractor works as follows.

The hard phase through the fitting 8 and the distributor 16 is fed to the upper part of the extractor body i, is easy through the choke 9 and the distributor 17 is fed to the lower part of the body. The phase mixing takes place in the extractor housing. The phase displacement process is intensified by the nozzle 2 and the reciprocating movement of fluid in the extractor by varying the pressure of air supplied to the pulsation chamber 6. The separation of the fluid mixture occurs in the upper fluid mixture in the upper settling chamber 5 and the lower settling chamber 4.

The fluid flow during a pulse (the stage of pulsating air supply to the pulses chamber) hits the inner surface of the reverse, truncated cone 12 and BBepix is directed into the mixing chamber 3 evenly over the cross section of the extractor housing. Considering that the main hydraulic flow is directed upwards, its influence on the separation of the mixture in the bottom settling chamber is insignificant and is determined by the gap between the truncated back cone 12 and the submersible pump 13.

T hela Phase from the upper settling chamber r flows into the mixing chamber through the opening 14.,

The presence of a truncated inverse cone located in the lower part of the body under the pulsation chamber, the location of the pulsation chamber coaxially with the body and connecting it with the nozzle allows to intensify the process in the extractor, since at the moment of air supply to the pulsation chamber the flow of liquid is directed upwards and distributed uniformly over the cross section of the mixing chamber and, consequently, the effect of the operation of the pulsation chamber on the delamination of the liquid mixture decreases sharply. In addition, the presence of a submersible pump installed inside the pulsation chamber makes it possible to improve the withdrawal of a heavy phase from the extractor and thereby eliminate the connections under the liquid inlet and improve the working conditions.

Claims (2)

1. The extractor for fluid systems containing a vertical cylindrical body, a nozzle located in the body and dividing it into a mixing one. and settling chambers, a pulsation chamber, a pulsator connected by a pipeline with a pulsation chamber, and inlets and outlets of the hard and light phases, which are also distinguished by the fact that, in order to intensify the process, it is equipped with a reverse truncated cone located in the lower part of the body , and the pulsation chamber is mounted coaxially with the body above the truncated cone and connected to the upper part with the nozzle. An extractor according to claim 1, characterized in that, in order to improve the output of the heavy phase from the extractor, it supplies the submersible pump to the inside of the pulsation chamber and connected to the output connection of the heavy phase. .. Sources 1 Formations taken into account during the examination: 1. V. Sudarikov, E. Rakov. Processes and apparatuses of uranium production M., Mashinostroenie, 1969, p.123. 2. The patent of Holland 132673, cl. 12g, 50, 1971.