RU2570177C1 - Apparatus for classification of solid phase of suspensions - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: device includes case with variable section, which consists of cylindrical ferrules of different diameter. These ferrules are connected to each other by conic transitional side-bars. There is conic bottom, supplying barrel, located in upper part on case axis, branch-pipes for supplying suspension to classification and selection of classification products and unit of washing liquid supply. Mixing device of mechanical type with drive, made in form of mixers, fastened on one shaft in some layers by body height, is installed on case axis. These mixers are different from each other in diameter. Baffle is installed under the supplying barrel on the shaft. Unit of washing liquid supply is placed in lower part of case between cylindrical ferrules of larger and smaller diameters. At least one mixer is placed directly above it in zone, limited by surface of conic side-bar, which connects said cylindrical ferrules. Mixer, placed in zone, which is limited by surface of cylindrical ferrule of the largest diameter, is made in form of traverses, radially placed in one plane and rigidly fastened on the shaft. On these traverses scrapers are installed at angle to surface of cylindrical case part.

EFFECT: increase of efficiency and classifying ability of apparatus.

2 cl, 2 dwg

Description

The invention relates to equipment for hydrometallurgical production and is intended to carry out a classification process according to the dispersed composition of the solid phase of various suspensions, for example, aluminum hydroxide suspensions in the production of alumina from various types of alumina-containing raw materials, and can also be used in other industries where classification of the solid phase contained in suspension.

Known hydroseparator for the hydroclassification of suspensions of aluminum hydroxide in alumina production technology (Handbook of non-ferrous metals. Production of alumina. M., Metallurgy, 1970, p. 206).

This apparatus consists of a cylindrical body with a conical bottom, a supply cup located in the upper part of the apparatus along the axis of the body, nozzles for supplying the suspension to the classification and removal of products obtained in the classification process. The apparatus is simple in design and is used in some alumina refineries for the hydroclassification of the solid phase of aluminum hydroxide suspensions by disperse composition.

The disadvantage of this apparatus is the low degree of separation of solid, which is especially manifested in the classification of suspensions containing a polydisperse solid phase, for example, suspensions of aluminum hydroxide. In addition, with an increase in the concentration of solids in the product taken from the lower part of the hydroseparator, in which the content of larger particles is increased, there is a high probability of “clogging” of the discharge pipe with sediment, which leads to the need to stop the apparatus for cleaning. Thus, the coefficient of its use is reduced.

The closest in technical essence and the achieved technical result is an apparatus for the classification (particle size separation) of suspensions (FR, application No. 2511894, B01D 11/02, B03B 5/62, B03B 5/66, B03B 5/02, published 04.03.1983 g.). The apparatus consists of a cylindrical body of variable cross section, conical tsars (transitions) connecting the cylindrical parts of the body of various diameters, as well as a conical bottom. The internal volume of the apparatus along the height of the casing is divided by horizontal perforated partitions, which are designed to improve the distribution over the cross section of the “washing” liquid. The washing liquid is fed into the lower zone of the classifier under the lower perforated partition. The apparatus is equipped with a feeding cup for supplying a suspension to the classification, which is installed in the upper zone along the axis of the housing, as well as nozzles for selecting a suspension enriched with large and small solid particles located respectively in the lower and upper zones.

The disadvantages of this apparatus design are low performance and high energy costs for the implementation of the process, since in order to obtain acceptable results for the classification of the suspension, it is necessary to ensure uniform distribution of the washing liquid over the cross section of the apparatus, reduce the "live" section (the ratio of the total area of the holes in the perforated partition to the area of the partition itself.) of all partitions. With an increase in the living cross-sectional area, which is necessary to reduce energy costs, i.e. with an increase in the diameter of the holes in the horizontal partitions, the uniformity of the distribution of the washing liquid deteriorates significantly, since in the central zone the washing liquid moves up, and at the walls the suspension “falls through” the holes in the partitions and moves down, because in these

no rinsing liquid enters. In addition, in the classification of suspensions, the continuous phase of which is saturated solutions, i.e. solutions prone to crystallization (for example, in the production of alumina, where in almost all cases the solid phase of the suspensions are various intermediate intermediates, and the liquid aluminate solutions of various concentrations), there is a high probability of "overgrowth" of the holes of the perforated partitions with a crystallizing precipitate and, as a result, an increase in hydraulic device resistance while reducing classification indicators.

The basis of the invention is the task aimed at reducing energy costs by reducing hydraulic resistance to the supply of washing fluid, increasing the utilization rate of the apparatus and indicators for the separation of the solid phase of the suspension in the dispersed composition.

In this case, the technical result is to increase the efficiency and classifying ability of the apparatus.

The technical result is achieved by the fact that in the apparatus for classifying the solid phase of suspensions, including a housing of variable cross-section, consisting of cylindrical shells of various diameters, interconnected by conical adapter shells, a conical bottom, a feeding cup placed in the upper part along the axis of the housing, supply pipes suspensions for classification and selection of classification products and a device for supplying washing liquid; a mixing device of a mechanical type with a drive is installed along the axis of the housing; in the form of agitators fixed on one shaft in several tiers along the height of the casing, different in diameter, a chipper is installed under the supply cup on the shaft, and a flushing fluid supply device is located in the lower part of the casing between the cylindrical shells of larger and smaller diameters, at least one mixer is installed

directly above it in the zone bounded by the surface of the conical shell that connects the specified cylindrical shells, and the mixer installed in the zone bounded by the surface of the cylindrical shell of the largest diameter can be made in the form of radially located in the same plane, rigidly mounted on the shaft traverse, on which under scrapers are installed at an angle to the surface of the cylindrical part of the body.

In areas bounded by the surfaces of the cylindrical shell of the case of a smaller diameter and a conical bottom, stirrers are fixed on the shaft, with at least one of them being placed in a volume bounded by the surface of the conical bottom.

Thanks to the installation of an agitator of a mechanical type with a drive along the axis of the casing, made in the form of agitators fixed on one shaft in several tiers along the height of the casing, differing in diameter from each other, by placing the device for supplying washing liquid in the lower part of the casing between the cylindrical shells of larger and smaller diameters and at the same time installing at least one mixer directly above it in the area bounded by the surface of the conical drawer connecting these cylindrical shells, uniform distribution of washing liquid over the cross section of the apparatus is ensured with minimal hydraulic resistance, an increase in the utilization rate of the apparatus and indicators for the separation of the solid phase of the suspension according to the dispersed composition.

The implementation of the mixer, installed in the area limited by the surface of the cylindrical shell of the largest diameter, in the form of radially arranged in the same plane, rigidly fixed to the shaft traverses, on which scrapers are installed at an angle to the surface of the cylindrical part of the body, provides movement of the solid phase deposited on the surface of the conical king connecting cylindrical shells

the case of larger and smaller diameters, into the central zone of the apparatus through which part of the washing fluid moves up.

Agitators fixed on the shaft of the mixing device, located in the area bounded by the surface of the cylindrical shell of a smaller diameter and the conical bottom, when at least one of them is installed in the area bounded by the surface of the conical bottom itself, prevents the solid phase of the suspension from being enriched with large particles in this zone, i.e. provide reliable selection of the classified suspension from the apparatus.

The invention is illustrated by the following drawings. In FIG. 1 shows a diagram of an apparatus for classifying the solid phase of suspensions; in FIG. 2. - a mixing device, consisting of traverses rigidly fixed to the shaft, on which scrapers are mounted.

The apparatus for classifying the solid phase of suspensions consists of a housing of variable cross section, including cylindrical shells of various diameters 1, 2, 3, tapered transition collets 4, 5 connecting the cylindrical parts of the housing, as well as the conical bottom 6. A mixing device including a shaft is installed along the axis of the apparatus 7, on which agitators 8, 9, 10, 11 are installed in several tiers along the height of the casing. A stirrer 13 is located on the cover 12, the output shaft of which is connected by a coupling to the shaft 7. Strictly vertical position the shaft 7 is fixed in the lower part by the thrust bearing 14. In the upper zone along the axis of the casing, a feeding cup 15 is installed, consisting of two cylindrical shells 16 and 17 connected to each other by a conical drawer 18. The suspension is fed into the supply cup 15 through a pipe 19. Under the feeding cup 15 a baffle 20 is installed on the shaft 7, the purpose of which is to change the direction of movement of the suspension flow exiting the supply cup 15. In the area bounded by the cylindrical shell 1 of the housing, a mixer of a special design 8 is installed on the shaft 7 one of radially located in one plane a traverse 21, on which scrapers 22 are fixed at an angle to the surface of the cylindrical shell 1 of the housing. In the zone of transition from the conical drawer 4 to the cylindrical shell 2 of the case of a smaller diameter, a device 23 is arranged for supplying washing liquid to the classifier. The washing liquid enters the device 23 through the collector 24, which is connected to it by nozzles 25. Above the device 23 in the area bounded by the surface of the conical collet 4, a mixer 9 is installed on the shaft 7. In the lower zone of the apparatus, mixers 10 and 11 are also installed on the shaft 7, the purpose of which is the homogenization of a suspension enriched in large particles. The selection of the suspension enriched in large particles is carried out through the nozzle 26. The suspension containing small particles (the so-called drain) is taken from the upper zone of the apparatus through the collector 27, into which the nozzles 28 are connected, connecting it to this zone. In the conical bottom 6, a hatch 29 is installed.

The apparatus for the classification of the solid phase of suspensions works as follows.

The suspension, the solid phase of which is subject to classification by the disperse composition, is fed through a pipe 19 to the supply cup 15. Under the supply cup 15, a baffle plate 20 is installed on the shaft 7. Using the bump plate 20, the direction of movement of the suspension entering the apparatus changes from axial to radial. At the same time, the flow rate exiting the cup 15 is also suppressed, and thus the turbulization of the suspension mass in the apparatus is excluded.

When the flow direction changes, centrifugal forces inevitably arise, which contributes to the “primary” classification of suspension particles in a centrifugal field depending on their size. Large particles, the speed of which is higher than the velocity of the upward flow, enter the main classification zone, limited by the cylindrical shell 1 of the body, and are partially deposited on the surface of the conical transitional collet 4.

For additional separation ("washing") of small particles from the total mass of the initially classified suspension, a washing liquid is supplied to the device 23, which is necessary to improve the hydrodynamic conditions for the separation of particles by size by reducing the concentration of solid directly in the classification zone and increasing the speed of the upward flow. This ensures the removal of small particles into the upper zone of the apparatus (discharge zone), the speed of which is lower than the speed of the upward flow.

The uniformity of the distribution of the washing liquid over the cross-section of the classifier is provided by a mixer 9 mounted on the shaft 7, which is located directly above the device for supplying the washing liquid 23.

Most of the previously classified solid phase of the suspension settles on the surface of the conical shell 4 and then moves to the lower zone of the apparatus, limited by the surface of the cylindrical shell 2 and the bottom 6. Part of the solid phase of the suspension enters directly into the specified zone of the suspension bypassing the surface of the conical shell 4. Part of the washing liquid with a mixer 9 moves to the periphery and in countercurrent mode contacts with the mass of the solid phase of the suspension moving down the surface of the conical shell 4, “washing” and fine particles of this mass. Since the number of revolutions of the mixing device is negligible, a certain part of the washing liquid does not fall under the “action” of the mixer 9 and moves up along the axis of the apparatus. To increase the efficiency of the use of washing liquid in the classification process and to prevent the occurrence of the so-called longitudinal circulation of the suspension (due to even an insignificant difference in the density of the suspension at the walls of the apparatus and in the central zone), which worsens the performance by the classification itself, an agitator 8, consisting of traverse 21 mounted on the shaft 7, on which are installed at an angle to the cylindrical surface of the housing

scrapers 22. With the help of the latter, a certain mass of the suspension “moves” from the periphery to the center of the apparatus, thereby ensuring uniform distribution of both the solid phase of the suspension and the washing liquid over the cross-section of the classifier.

Mixing the suspension in the area of the apparatus, limited by the surface of the cylindrical shell 2 of the case of a smaller diameter and the surface of the conical bottom 6, is carried out by mixers 10 and 11, which, like all others, are mounted on the shaft 7.

The suspension, containing mainly large particles, is withdrawn from the apparatus through the nozzle 26. The suspension enriched in small particles is removed through a manifold 27 into which the nozzles 28 are connected, connecting it to the upper zone of the apparatus (discharge zone).

The dispersed composition of the products taken from the lower and upper zones of the classifier is regulated, ceteris paribus, by changing the speed of the mixing device and the flow rate of the washing liquid.

Claims (2)

1. The apparatus for the classification of the solid phase of suspensions, including a housing of variable cross-section, consisting of cylindrical shells of various diameters, interconnected by conical adapter legs, a conical bottom, a feeding cup placed in the upper part along the axis of the housing, pipes for feeding the suspension for classification and selection classification products and a device for supplying washing liquid, characterized in that a mixing device of a mechanical type with a drive, made in the form of mounted on the same shaft in several tiers along the height of the mixer body, differing in diameter in diameter, a chipper is installed under the feed cup on the shaft, and a flushing fluid supply device is located in the lower part of the housing between the cylindrical shells of larger and smaller diameters, at the same time at least one mixer is installed directly above it in the area bounded by the surface of the conical drawer connecting these cylindrical shells, and the mixer installed in the area bounded by the surface of the cylinder Coy largest diameter of the sleeve is formed as a radially arranged in one plane, rigidly fixed to the traverse shaft, which at an angle to the surface of the cylindrical body portion mounted scrapers. 2. The apparatus according to claim 1, characterized in that in areas bounded by the surfaces of the cylindrical shell of the case of a smaller diameter and a conical bottom, stirrers are fixed on the shaft, while at least one of them is placed in a volume limited by the surface of the conical bottom.

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