SU352659A1 - CRYSTALIZER - Google Patents

Description

The invention relates to the field of chemical technology, to the design of crystallizers for crystallization from solutions.

The known mold contains a housing with a hollow cooling cylinder coaxially located inside it, around which there is a mixing device. This crystallizer is ineffective for the crystallization of substances like ethoxyde, since it is impossible to create optimal conditions for cooling and for the progressive inlay of heat transfer surfaces.

The aim of the invention is the creation of such a continuous crystallizer, in which the process of separating the crystals is carried out in two stages: at the beginning, slow cooling from 149 to 80-90 ° C, fast (up to 20 ° C), and without overgrowing heat transfer surfaces and without mechanical damage to the forming crystals. For this purpose, in the proposed crystallizer, a mixing device is made in the form of a ciliidre, installed with respect to a hollow cooling cylinder with a radial clearance of from 5 to 50 mm. The body of the mold is sponge-like with a breaker made in the form of two differently sized coiuses, with matching bases, and an attached top of the larger cone to the lower edge of the hollow cooling cylinder by means of radial partitions in the place of their mutual non-cutting.

In the present design of the continuous installer for ethoxide, there are two installation zones: the first formed by the internal cavity of the stationary cooling cylinder 1. and the second formed by the housing and the mixing cylinder, which gives the rotational movement of the suspension to improve the ten-pattern and prevent the pattern, a pattern is applied, and a pattern is applied.

iia FIG. 1 nokazai mold in longitudinal section; on fng. 2 - bump stop with a partial section of the cylinder (plan view).

The stabilizer consists of a cylindrical-conical body / with a cooling jacket 2, in which two coaxially arranged cylinders are placed — stationary 3 and rotating 4. The stationary cylinder has a hollow axis 5 through which the supply pipe 6 is passed for supplying the solution. The annular space formed by the threading tube and the axis of the fixed cylinder serves as thermal insulation to prevent the solution from crystallizing in the feed pipe. The lower cut of the stationary cylinder is welded on the ribs 7 dp of the conical clamp 8.

The mold works as follows.

The solution to be crystallized continuously nodal through the supply pipe 6 into the internal cavity of the cylinder 3 — the first crystallization zone, where it is slowly cooled due to heat transfer through the walls of the stationary cylinder and weak convective currents. The small layer of crystals formed on the inner walls of the stationary cylinder makes a small heat exchange difficult and creates the necessary conditions for long-term cooling, which contributes to the growth of crystals. The suspension obtained in the first zone through the lower section of the cylinder 3 enters the second crystallization zone formed by the rotating cylinder 4 and the cooled housing. The rotating cylinder spins the suspension in the second zone without its turbulization. The number of revolutions is chosen in such a way that the linear speed of the suspension (1 -1.5 m1 sec) relative to the walls of the case prevents incrustation. In addition, the rotation of the suspension dramatically increases the coefficient of heat transfer from the cooling stack to the suspension, which contributes to the rapid cooling of the latter to the discharge temperature. The installation of the tapered baffle 8 and the lower section of the stationary cylinder 3 is necessary to eliminate the cyclone effect in the first crystallization zone.

The bump consists of two equal-sized cones 9 and 10 adjoining the bases, and is attached by the top of the upper, larger cone 9 to the lower section of the cylinder 3 by means of radial partitions 11 at the place of their intersection 12.

The unloading of the finished product Osun1, is passed through the lower opening 13 in the housing of the apparatus by means of the unloading device 14.

Subject invention

Claims (2)

1. A crystallizer, for example, for ethoxide, comprising a housing with a hollow cooling cylinder coaxially located inside it, around which a mixing device is placed, characterized in that that, in order to determine the process, the mixing device is made in the form of a cylinder mounted relative to a hollow cooling cylinder with a radial clearance of from 5 to 50 mm. 2. The mold according to claim 1, characterized by the presence of a bump stop, formed in the form of two, different-sized cones with matching bases, and attached by the top of the upper, larger cone to the lower edge of the hollow cooling cylinder by means of radial partitions at their intersection. Al eleven ten Fig 2