SU1681882A1 - Crystallizer - Google Patents

Abstract

The invention allows to intensify the process of crystallization in liquid solutions by direct contact with the coolant or refrigerant and can be used in the chemical and related industries. The purpose of the invention is to increase the efficiency of interfacial exchange and reduce the entrainment of liquid. The mold includes a housing 1, along the axis of which a circulation pipe 2 is placed. Between the lower end of the pipe and the bottom 3 there is a gap 4. The lower end of the nozzle 5, which is tightly attached to the bottom, enters the lower part of the circulation pipe. A coaxial circulation pipe 2 and nozzle 5 contain a pipe of smaller diameter 6. In the upper part of the apparatus, there is a coaxial screen with fitting 7 coaxially installed over the circulation pipe. Nozzles are provided for supplying the initial solution, withdrawing the suspension and gas. 1 il. 1 S L O 00 00 00 y

Description

This invention relates to. apparatuses for carrying out crystallization processes in liquid solutions with their direct contact with a coolant or coolant, which can be used as gases or liquids that are immiscible with the treated solutions, and can be used in chemical and related industries.

The goal of the prevention is to intensify the interfacial heat exchange by supplying a fresh portion of gas to the two-phase flow and reducing the entrainment of liquid.

The drawing shows the mold

The mold consists of a cylindrical body 1, along the axis of which a circulation pipe 2 is placed. A gap 4 is provided between the lower end of the pipe and the conical bottom 3. The lower end of the nozzle 5, which is tightly attached to the bottom, enters the lower part of the circulation pipe. A coaxial circulation pipe 2 and nozzle 5 contain a tube 6 of smaller diameter, the upper end of which is located in the cavity of the circulation pipe above nozzle 5. A chipper with fitting 7 is installed above the circulation pipe. To supply the initial solution, remove the suspension from the apparatus and gas pipes 8-10 are provided.

The device works as follows.

The main stream, gas (dotted arrows) is fed from the bottom through the pipe 5. Through the pipe 8, the initial solution enters the apparatus. Fluid (solid arrows) through the gap 4 flows from below into the internal cavity of the circulation pipe, where it is picked up by the gas flow exiting the nozzle 5. The resulting gas-liquid flow moves upwards, and this creates favorable conditions for heat exchange between the phases. In the middle of the pipe, a fresh portion of the gas coming out of the tube 6 is fed into the stream, which, as noted above, contributes to the intensification of the exchange. At the outlet of the circulation pipe, the gas-liquid flow interacts with the oncoming jets of gas entering the apparatus through the nozzle 7, which creates an active hydrodynamic environment in this zone, intensified by the Compounder A

Editor N. Lazorenko Tehred M. Morgenthal

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redachu heat. At the same time, under the influence of oncoming jets, the gas-liquid flow slows down and changes its direction: the liquid is thrown downwards, and the gas, expanding and losing speed, is directed upwards and leaves the apparatus through the nozzle 10.

Thereafter, the fluid re-enters the circulation pipe and the interfacial interaction pattern is repeated.

The precipitated crystals accumulate in the cavity formed by the conical bottom and the wall of the apparatus, which plays the role of a crystal growing chamber, reducing the mechanical effect on

crystals in the process of their growth. The product exits from the apparatus through pipe 9.

The ability to sequentially supply fresh portions of gas to a two-phase flow contributes to an increase in temperature differential, creating favorable conditions for efficient heat exchange between phases. In addition, at the exit from the circulation pipe, a two-phase flow interaction with a fresh gas flow occurs. Moreover, not only conditions are created for further intensification of the interphase exchange, but also the kinetic energy is quenched.

flows, which contributes to the subsequent separation of the phases.

Claims (1)

The invention includes a crystallizer including a vertical cylindrical body, a conical bottom, a circulation pipe, nozzles for supplying the initial solution and withdrawing gas and suspension, a means for supplying gas, characterized in that in order to intensify the interfacial heat exchange by supplying a fresh portion of gas in a two-phase flow and a decrease in liquid entrainment, the gas supply means is made in the form of two coaxial tubes installed inside the circulation pipe, the large diameter tube adjoins the bottom, and the upper end of the smaller diameter tube is located above the upper end of the smaller diameter tube, and the casing is provided with a branch pipe installed above the upper end of the circulation pipe for additional gas supply with a baffle mounted on it. ndor Proofreader S. Cherni