SU712100A2 - Extractor - Google Patents

Description

The invention relates to constructions of extractors of the mixer-settler type used in chemical technology.

According to the main author. St. No. 438429 known mixer-settler type extractor used in liquid extraction processes. The extractor consists of a cylindrical body divided by coaxial cylindrical baffles into the mixing and sludge chambers, of a dispersing-transporting device installed in the mixing chamber and made in the form of a double-suction mixer with a movable sleeve that controls the height of the upper suction hole, a movable guide tube and a chamber primary delamination formed by an annular cavity between the mixing chamber and the guide tube [1].

The initial liquids are fed through the lower suction pipe into the mixing chamber, the emulsion flows into the sludge chamber through the lower hole, where it is completely stratified into light and heavy phases, which merge at the end of the sludge chamber through the outlet tubes. The phase separation level is controlled by the height of the heavy phase discharge. The extractor runs continuously.

However, in most cases, at the interface 2, an intermediate layer arises consisting of suspended particles of various contaminants. As the extractor works, the height of the intermediate layer increases, which leads to a deterioration of delamination, separation of liquids and requires a periodic stop to clean the cavity of the extractor. Moreover, with an increase in the specific productivity of the extractor, the rate of accumulation of contaminants increases.

The aim of the invention is the provision of mechanical cleaning from contamination.

This goal is achieved by the fact that the proposed extractor is equipped with a ring-shaped tube with outlet pipes movably mounted on the housing cover with vertical movement, at the ends of which collectors are arcuate in shape, immersed in the liquid layer of the sludge chamber.

With the accumulation of contaminants in the sludge chamber, the annular tube is periodically connected to the vacuum and the contaminant layer is removed by suction through the outlet tubes. The collectors contribute to the accumulation of contaminants near the ends of the bypass tubes and improve the cleaning of the cavity of the sludge chamber, with the optimal position of the phase boundary in the sludge chamber being half the height of the light phase overflow tube.

Such a constructive solution provides mechanical cleaning of the extractor cavity from contamination without stopping the process.

The drawing shows an extractor, section.

The extractor includes an outer casing 1, to the bottom 2 of which an inner cylinder 3 is welded, forming a mixing chamber in the center and a sludge chamber on the periphery, a mixer 4 with a double-suction turbine 5 through a hollow shaft and an upper hole 6 and a lower suction pipe 7, reflective walls 8, on which the guide tube 9 is movably fixed, an emulsion exit window, a drain pipe with an adjustable overflow height and a water seal for passage of the heavy phase, a light phase drain pipe, a cover 10 with a sleeve 11 into which the pc is inserted Utser 12 communicating with an annular tube 13, to which outlet pipes 14 are connected with collectors 15 fixed at their ends.

When the feed liquids are supplied to the pipe 7 during the rotation of the turbine 5, the resulting emulsion is divided into two streams. Part of the emulsion is ejected through the window into the sludge chamber, delaminated and merged through tubes in the form of light and heavy phases, and the other part of the emulsion, mainly large drops of the light phase, circulates through the upper hole 6 in the hollow shaft.

Gradually, a layer of contaminants accumulates in the sludge chamber mainly at 5 collectors 15 at the level of the phase boundary. To clean the sludge chamber, the nozzle 12 is connected to a vacuum tank and a layer of impurities, together with part of the solution, is sucked out through the outlet pipes 14 of 10 of the extractor cavity. In this case, the optimal level of phase separation, equal to half the height of the tube for draining the light phase, is set using a height-adjustable drain pipe for the heavy phase.

Using the invention will allow cleaning the cavity of the extractor from contamination without stopping the process.

Claims (1)

Claim 20 Extractor type mixer-settler according to ed. St. No. 438429, characterized in that, in order to ensure mechanical cleaning of contaminants, it is equipped with a ring-shaped tube with drain pipes movably mounted on the housing cover with the possibility of vertical movement, at the ends of which collectors are arcuate in shape, immersed in the liquid layer of the sludge chamber. 30 Sources of information taken into account in the examination 1. USSR author's certificate No. 438429, cl. On 01D 11/04, 05/03/73 (prototype). to f