SU1586739A1 - Extractor - Google Patents

Abstract

This invention relates to the field of chemical technology and can be used to produce phosphoric acid. The invention allows to increase the productivity of the extractor and to improve the filtering properties of phosphogypsum due to the spiral movement of the phase flows. This is achieved by the fact that in an extractor containing two cylindrical containers interconnected by a channel, shafts with agitators mounted on the axes and on the periphery of the tanks, devices for feeding weak phosphoric acid, raw materials and sulfuric acid are placed on the axis of one of the tanks. The embracing, embracing shaft with a stirrer, the guide is connected to the bottom and is elliptical in shape, while its greater semi-axis is oriented perpendicular to the channel axis, and at the apex of the elliptical guide located on its major axis At a distance from the channel of the side wall, near the bottom, holes are made, the axes of which are directed to points on the side surface of the vessel located between the shafts of the agitators. 2 Il.

Description

The invention relates to chemical technology and can be used to produce phosphoric acid.

The purpose of the invention is to increase the productivity of the extractor and improve the filtering properties of phosphogypsum due to the spiral movement of the phase flows.

FIG. 1 shows the extractor, general view, longitudinal section; in fig. 2 shows a section A-A in FIG.

The extractor contains tanks 1 and 2, connected by channel 3, shafts 4 with agitators 5, mounted on the periphery and axes of tanks 1 and 2. The shafts 4 are connected to motors 6. A device 7 for introducing sulfuric acid is placed inside tank 1, on its axis a guide 8 is installed, covering the central shaft with a stirrer. A device 9 for introducing raw materials and a device 10 for supplying weak phosphoric acid are introduced into the container 1. The guide 8 is elliptical and set so that the big semi-axis is oriented perpendicular to the channel axis, and at the top of the elliptical guide in the side wall furthest from the channel the side wall near the bottom has holes 11, the axes of which are directed to points on the side wall of the tank 1 located between the shafts of agitators. The cross section of the hole located at the apex of the elliptical guideline should be 3-5 times greater than the total cross-sectional area of the remaining holes. The extractor works as follows.

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Inside the tank 1, through the device 10, weak phosphoric acid is fed into the inside of the guide 8. From the device 9, the phosphate raw material is also fed into the inside of the guide 8. Next, the pulp passes through the guide 8 and through the holes 11 in the guide 8 in the form of jets enters the container 1. In the container 1, the pulp is mixed with the sulfuric acid supplied to this container by the device 7. The pulp is intensively mixed with peripheral mixers 5, the shafts 4 of which are driven into rotation by the engines 6. Next, the pulp through channel 3 enters the second tank, in which the decomposition of phosphates ends. From tank 2, pulp is pumped (not shown) to the filters.

The implementation of an elliptical guiding shape and in its lower part of the holes allows the circulation of the pulp in the container around the axis of the container to be organized. Since all the mixers in the extractor rotate in one direction, a total impulse of movement in one direction is created near the side wall, and near the guide, a total impulse of movement directed to the other side is created. This causes the pulp to move in the direction of the wall in one direction, and near the guide in the other direction. The installation of this guideline drastically reduces the flow area in the first extractor tank in two sections, which leads to a sharp decrease in the intensity of pulp movement along the guide, while the flow section at the junction of the first tank with the channel becomes significantly larger and, consequently, the mixing intensity decreases in this area, i.e. the probability of particle skipping decreases, moving along the bottom to the surface, and from there to the channel. In addition, the exit of the jet system from the guide allows completely eliminating the movement of the pulp along the guide and, therefore, the entire pulp in the first container moves in one direction relative to the axis of the container, which reduces the likelihood of small crystals passing through.

Claims (1)

phosphogypsum into the second tank, and from there to the washing. It also allows the helix to raise the pulp in the first vessel. Inside the first container, the pulp exiting the guide moves along the axis of the tank near the bottom (the holes in the guide are located near the bottom). The pulp, having made a detour along the guide, stumbles upon a jet emerging from the apex of the cylindrical guide and overlapping the section near the bottom. Thus, in the first tank, a spiral movement of the pulp is created, with all the phosphogypsum crystals reaching a certain value (since the residence time becomes the same for the entire pulp) and only after that through the channel located in the upper part of the tank does the second capacity. Inside the rail, mass transfer processes are sharply intensified due to the ellipticity of the cross sections of the rail, since the energy of turbulent pulsations sharply rises. 5 Formula of Invention An extractor containing two cylindrical containers interconnected by a channel, shafts with agitators mounted on axes and on the periphery of tanks, devices for feeding weak phosphoric acid, raw materials and sulfuric acid installed in one of the tanks, on the axis of which a guide shaft with an agitator is placed, which differs by 35 n and in order to increase the productivity of the extractor and to improve the filtering properties of phosphogypsum due to the spiral movement of the phase flows, which is connected to the bottom Its large semi-axis is oriented perpendicular to the axis of the channel, and at the top of the elliptical guide located on its major semi-axis, in the side wall most distant from channel 45 near the bottom, holes are made, the axes of which are directed to points on the side surface tanks located between the shafts of the agitators. Raw material eleven / 77 1