SU1466773A2 - Foam evaporation apparatus - Google Patents

Abstract

The invention relates to chemical engineering and can be used for evaporating a solution of a working fluid of a precipitating and plasticized bath in the production of viscose fibers. The apparatus allows for improved performance and reduced fluid loss. The device contains a vertical cylindrical body with nozzles for supplying the initial solution of the working fluid, hot gases, and removal of the vapor-gas mixture. An annular trough is provided above the gas supply nozzles, equipped with an inclined diaphragm with a central hole and a guiding element made in the form of a ring with centering ribs. A nozzle made of Raschig rings is placed in the upper part of the housing. In the lower part of the case there is a branch pipe of the working well. The inner gutter is located along the inner surface of the casing, above the annular trough and above the supply pipes of the initial solution of working fluid with a slope to the pipeline connected to it. 3 il. with e

Description

The invention relates to chemical engineering, D.1I can be used to evaporate a solution of a working liquid of a precipitating and plasticized bath in the production of viscose fibers and plastic film and is an improvement of the apparatus according to the author. St. No. 1243755.

The aim of the invention is to increase the productivity of the apparatus by preventing the separated solution from mixing with the initial solution. FIG. 1 shows a foam evaporator, a section along the vertical axis of the cylinder; in FIG. 2 a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2

Foam evaporator contains a vertical cylindrical body 1 with nozzles for feeding the initial solution of the working fluid 2, hot gases 3, withdrawing the gas-vapor mixture 4 and working product 5, placed above the nozzle 3 for feeding

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gas ring trough 6, provided with an inclined diaphragm 7 with a central hole 8 and a guiding element made in the form of a ring 9 with centering ribs 10, a nozzle 11 of Raschig rings placed in the upper part of the body, while the hole 8 is cylindrical, and the guide the element 9 is a cylindrical ring gutter 12 located along the inner surface of the lining of the housing with a slope to the pipelines 13 passing through the diaphragm, in plan between the nozzles 2.

Evaporator works as follows.

The initial solution of the working fluid enters the apparatus through nozzles 2 and enters the annular trough 6, from there, overflows through the side of the annular trough 6. merges along an inclined diaphragm 7, and then

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through the annular gap formed by the vertical surfaces of the diaphragm 7 and the ring guiding element 9, merges downwards in the form of a "film cup with the formation of foam and enters the contact heating zone with hot gas flowing through the nozzle 3. The flow of hot gases is directed into the upper part of the body where the heat and mass exchange between the evaporated solution of the working fluid and the upward flow of hot gases takes place. At the nozzle of Raschiga rings, the working fluid condenses first of all, since it has a higher condensation and evaporation temperature than water vapor, the latter with gas flow is carried away by the nozzle 4. The evaporated working fluid drains down from the nozzle from the Raschig downward, breaking The resistance of the ascent of shchebb flow of hot gases enters the central opening of the diaphragm and into the zone of its collection. Another part of it, flowing from the peripheral part of the nozzle from the Raschiga rings, flows along the chute 12 and the pipelines 13 to the collection zone of the working fluid.

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The proposed foam evaporator makes it possible to increase the productivity and reduce the loss of the evaporated liquid — its emission with steam through the use of a liquid that condenses on the peripheral part of the nozzle and the lining of the body. This is achieved due to the fact that on the inner surface of the lining of the body above the level of the annular trough and above the supply pipes of the initial solution of the working fluid there is an annular trough with pipes connected to it to drain the finished product - evaporated working fluid.

Claims (1)

Invention Formula Foam evaporator according to ed. St. No. 1243755, characterized in that, in order to increase productivity by preventing displacement of the separated solution from the initial solution, it is provided with an annular groove located above the supply pipe of the initial solution on the inner wall of the housing, and pipelines for draining the evaporated solution from the groove to the lower part of the apparatus . 72 5 A noSepHi mo