SU955972A2 - Film-type evaporator - Google Patents

Description

(54) FILM EVAPORATOR

The invention relates to the desalination of sea and salt waters by thermal distillation and can be used as ship and stationary evaporators of desalination plants, as well as evaporators in some industries, for example, chemical, food, etc.

According to the main auth. 837348. known film. Evaporator, containing a vertical body, upper and lower tube boards, fixed in them vertical heat exchange tubes, distribution perforated plate, tapered film formers installed coaxially with tubes and fixed with upper ends in the distribution plate, nutrient, camera and placed in it the flow divider source fluid. In addition, the nutrient chamber is equipped with a bellows compensator installed between the upper tube plate and distribution plate i.

A disadvantage of the known film evaporator is that it does not provide synchronous regulation of the brine drainage depending on the flow rate of the initial liquid in the feeding chamber.

The purpose of the invention is to provide a synchronous control of the brine removal depending on. the flow rate of the original fluid in the feeding chamber.

This is achieved by the fact that the branch pipe for removal of brine is equipped with a retaining valve connected rigidly with a conical film former.

The drawing shows a film evaporator, a vertical section.

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The evaporator includes a housing 1, inside of which are placed heating tubes 2, fixed in tube plates 3 and 4.

In the upper part of each evaporator tube are inserted with a gap relative to its inner surface, conical film formers 5, Bepxrike ends, which are fixed in a perforated grid 6.

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A bellows compensator 7 is installed between the grate 6 and the tube plate 3. A feeding chamber 8 is placed in the upper part of the evaporator. A separator 10 of the secondary steam is located in the lower part 9 of the apparatus.

And the perforated plate 11. The space below the plate 11 serves as a reservoir 12 for receiving brine with a brine nozzle 13 and a control valve 14 coaxially placed in it, which is connected by a rigid connection 15 to one of the conical film-forming units 5.

For the supply to the apparatus of the source fluid, the coolant, as well as for the removal of brine, secondary steam and coolant from it, the corresponding connections are provided.

Film evaporator works as follows.

The original liquid to be evaporated is fed into the feeding chamber 8, from which then the passage through the perforated grill b goes to the heating pipes 2. Due to the annular gap between the conical film-forming agents 5 and the internal surfaces of the vertical heating pipes 2, the original liquid flows down heating tubes in the form of a vaporizing film. The heat carrier is pumped in this way: et.sub.c in the annular space of the evaporator part of the apparatus. The secondary vapor and brine generated during the distillation of the initial liquid then enter the lower part 9, where the secondary vapor and brine are separated on the perforated plate 11.

Further, the secondary steam is cleaned in the separator 10 and removed to condensation. The brine is removed through a brine pipe 13, equipped with a control valve 14. The presence of a control valve allows you to synchronously control the removal of brine, depending on the flow rate of the original fluid in the feed chamber. Regulation is as follows. In the case of, for example, an increase in the flow rate of the source fluid coming from the feeding chamber, the pressure of the fluid increases at the level of the bellows 7 compensator, which lengthens. As a result, the conical film formers 5, moving upwards, increase the annular gap for the passage of fluid and, accordingly, the amount of fluid flowing through the heating pipes. In addition, when the film formers 5 are moved upwards, due to the presence of a rigid connection 15, the control valve 14 is raised in the brine nozzle 13. As a result, the top section of the nozzle increases, ensuring that the increased amount of the brine is removed from the apparatus at a constant position.

In the case of reducing the flow of the original fluid bellows compensator

0 is compressed, the conical film former and the control valve are lowered, reducing the amount of brine being withdrawn. In addition, the movement of the conical film-forming bodies prevents clogging of the annular gaps between them and the internal surfaces of the heating tubes by deposits of salts and isham, which makes the evaporator more reliable and reliable.

0 stable.

Thus, the presence of a regulating device placed in the brine nozzle to reliably io maintains the level of brine in the apparatus at a predetermined level when changing over a wide range of flow rates of the initial liquid entering the distillation.

The possibility of synchronous adjustment allows us to refuse manual adjustment of the brine removal, which significantly increases the operational characteristics of the proposed film evaporator when used. In addition, it is very easy to modernize the existing evaporators with a bellows compensator for the solution we propose without significant additional costs.

Claims (1)

1. Copyright certificate v 837348, cl. B 01 D 1/22, 1979. eight / fffflffATffJf f