SU1337110A1 - Crystallizer - Google Patents

Abstract

The invention relates to the field of chemical engineering and allows for increased productivity. The mold includes a housing 2, a cooled drum 3, a paddle stirrer 5, a partition 6 disposed in the upper part of the housing with overflow openings 7, a fitting 12 for supplying the initial solution and a fitting 13 for withdrawing the suspension. The original solution enters the upper part of the housing 2 through the fitting 12, is carried away in the direction of the rising of the drum 3; the formed large crystals are discharged through the nozzle 13, which is mixed below the axis of rotation of the drum 3. The small crystals with the solution are poured through the holes 7 in the partition 6 and are mixed with the initial solution. Making holes 7 in the septum 6 makes it possible to create a directional circulation of the solution, increase the residence time of the crystals in the saturated solution, and classify the crystals according to their grain size distribution. 2 Il. with e /) - A (L OS with b- /

Description

The invention relates to chemical engineering, in particular to apparatuses for carrying out crystallization processes from solutions.

The purpose of the invention is to increase the productivity of the crystallizer by classifying the crystals according to their grain size distribution.

FIG. 1 shows a mold, a general view; in fig. 2 shows section A-A in FIG. one.

The mold contains a frame 1 for mounting the main assembly units and parts on it, a housing 2 for containing the initial solution, a drum 3 equipped with a jacket 4 for cooling the drum from the inside, a paddle stirrer 5 for mixing the solution, a partition 6 equipped with overflow holes 7, not touching , uus of the drum surface and separates the lowest volume of the upper part of the body into the zone 8 of the inlet solution and zone 9 of the suspension removal from the crystallizer, the actuators 10 and 11 for transferring rotation of the drum and the paddle mixer. The housing is equipped with a fitting 12 for supplying the initial solution and fitting 13 for withdrawing the suspension.

The drum is installed in the housing on the hollow pins 14 and 15, equipped with fittings 16 and 17 for supplying and discharging the coolant. The inner cavity of the drum is partitioned by longitudinal partitions 18 to increase the speed of movement of the coolant in sectors 19.

At the bottom of the casing, under the drum, there is a paddle stirrer 5, which is not in contact with the surface of the drum, designed to circulate inside the casing and keep the suspension in suspension.

The rotation of the drum is carried out from the electric motor 10 through a gear pair of wheels 20 and 21.

Emptying the body from the solution when the crystallizer is stopped is performed through lUTyuep 22.

The mold works as follows.

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A fresh, hot solution of crystallizable salt enters the upper part of body 2 through nozzle 12 into zone 8, is entrained in the suspension flow in the direction of rotation of drum 3 and is cooled to the crystallization temperature, while the large crystals formed in zone 9 are discharged through nozzle 13, and small crystals with a solution are poured through the overflow holes 7 provided in the partition 6, and flow back into zone 8, mixing with the initial saturated solution.

An intensively operating paddle stirrer 5 creates a directional circulation and turbulization of the suspension in a closed volume of the housing 2. This increases the heat transfer coefficient and eliminates the possibility of incrustation, while the crystals are kept in suspension at all times.

Making flow-through openings 7 in a vertical partition 6 installed in the upper part of the body 2 above the drum 3 parallel to the axis, allows the directional circulation of the solution with small crystals around the rotating drum 3 to be created, increasing their residence time in a saturated solution, while the crystals are classified by granulometric composition.

Claims (1)

Invention Formula A mold containing a bed, a housing, a cooled drum, a paddle stirrer, a vertical partition placed in the upper part of the shell, tongs for supplying the initial solution and withdrawing the suspension, drum drives and a stirrer, characterized in crystals by particle size, the vertical partition is provided with overflow holes, and the fitting for removal of the suspension is located below the axis of rotation of the roller.