SU1033146A1 - Film-type evaporator - Google Patents

Abstract

1. FILM EVAPORATOR, containing a vertical body, installed one below another section of vertical heating pipes, placed between sections feeding chambers separated by a horizontal partition and equipped with a brine outlet pipe, fixed above the perforated partition, characterized in that, in order to intensify heat exchange due to the stabilization of the hydrodynamic regime in the sections, the feeding chambers are provided with tubular film formers reinforced in a perforated partition; ontsy which are placed in tubes vyscheraspolozhennoy section. 2. Film evaporator according to Claim 1, characterized in that the intermediate chambers are equipped with source liquid inlet nozzles installed under a perforated partition. (L

Description

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The invention relates to the desalination of sea and salt waters by the method of distillation and can be used as an evaporator of stationary and transport desalination plants, as well as evaporation devices of some industries, such as chemical, refrigeration, food, etc.

Known evaporator with a falling film of a solution, containing a vertical body, installed therein one above another section of vertical heating pipes with collectors located between them for draining heating steam condensate and chambers for collecting and transferring brine of the original liquid 1.

Also known is a film evaporator containing a vertical housing with evaporator tubes provided with film-forming agents at the upper ends, wherein the tubes are fixed in tube lattices; dividing the body of the apparatus into sections 2.

A disadvantage of the known evaporators is the uneven distribution of the liquid between the heat exchange tubes in the sections of the apparatus.

Known film multistage evaporator, sectional feeding chambers in which are separated by a horizontal partition and are equipped with a brine outlet branch pipe fixed above the perforated partition 3.

However, each section of the apparatus has a different hydrodynamic regime of film flow of the liquid, since its flow from stage to stage decreases due to evaporation, and an increase in the brine concentration occurs.

These drawbacks lead to a heterogeneous hydrodynamic mode of operation of individual sections, reduce the intensity of heat exchange in heating pipes from section to section, worsen the reliability of generating a liquid film and cause salinity of the secondary vapor.

The purpose of the invention is to intensify heat exchange by stabilizing the hydrodynamic regime in sections.

The goal is achieved by the fact that in a film evaporator containing a vertical case, one below another section of vertical heating tubes, feed chambers separated between sections, separated by a horizontal partition and equipped with a brine outlet pipe, reinforced above the perforated partition, are supplied with reinforced chambers in the perforated partition tubular film-forming agents, the upper ends of which are placed in the tubes of the distended section.

In addition, the intermediate chambers are equipped with nozzles for introducing the source liquid, which are installed under the perforated partition.

The drawing shows the proposed film evaporator, a longitudinal section.

The film evaporator contains a vertical case 1, having the shape of a shell, inside which one section of vertical heating pipes 2 are installed, fixed with their ends in tube plates 3. Between the sections of the apparatus are nourished chambers 4, separated by a horizontal perforated partition 5, in which tubular film formers 6, the upper ends of which are placed in the pipes of the disposed section for the purpose of separate removal from the brine and secondary steam pipes, and the lower ends - in the heating pipes of the top laid section.

In addition, each feeding chamber is provided with nozzles 7 and 8 for output from

 the camera brine and supply it with fresh source liquid, installed respectively above and below the horizontal partition 5.

In the upper chamber of the evaporator is

5 upper feeding chamber 9. At the same time, in the upper part of the heating tubes 2 of the first section, blind cylindrical film-forming materials 10 are installed.

In the lower part of the annular space of the heating tubes of each section, chambers 11 are provided for resetting the heating steam condenser. The separator 12 of the secondary steam is located in the lower part of the film evaporator.

During the operation of the film evaporator, a liquid, such as seawater, is supplied

5 at the same time, both into the upper 9 and into the sectional feeding chambers 4 under the horizontal perforated partition 5 through the nipple 8. From the upper feeding chamber 9, the seawater passes through the collar between the film formers 10 and the inner surface of the heating tubes 2 and flows down the tubes in the form of a liquid film. The secondary vapor generated in the first section as a result of evaporation from the liquid film surface

5 down in one direction with the film of liquid and then through the film-forming agents 6 enters the heating tubes of the downstream section, and the liquid film is removed at the outlet of the heating tubes by means of the upper part of the film-forming agents.

0 biv in the form of a concentrated brine accumulates over the perforated partition 5 of the first sectional feed chamber 4. Next, part of the brine from this chamber through pipe 7 is discharged from the evaporator,

With a, the remaining brine passes through a perforated partition down the chamber and is mixed with a fresh portion of seawater that enters the chamber below

Claims (2)

1. FILM EVAPORATOR, comprising a vertical casing, sections of vertical heating pipes installed one below the other, feed chambers between sections separated by a horizontal partition and equipped with a brine outlet pipe mounted above the perforated partition, characterized in that, in order to intensify heat transfer due to the stabilization of the hydrodynamic regime in the sections, the feed chambers are equipped with tubular film formers fixed in the perforated partition, the upper ends to toryh placed in the upstream pipe section. 2. Film evaporator according to π. 1, characterized in that the intermediate chambers are equipped with nozzles for the input of the source fluid installed under the perforated partition.