SU1579515A1 - Climbing-film evaporator - Google Patents

Abstract

The invention relates to film evaporators for concentrating solutions, can be used in chemical and microbiological industries, it allows to increase the productivity of the device and to improve reliability in operation. The secondary vapor rises through pipes 2 and entrains the solution, which moves upwards in the form of a liquid film. In the upper part of the apparatus, said liquid film is connected with additional rasters entering the surface of the pipes from the pressure section 10. This prevents the formation of deposits and intensifies the evaporation process. 1 hp f-ly, 2 ill.

Description

The invention relates to an evaporation apparatus with an upward liquid film for concentrating solutions and can be used in chemical, microbiological and other permeability.

The purpose of the invention is to increase the productivity of the apparatus and increase the reliability of its operation.

FIG. 1 shows the apparatus, a general view; in fig. 2 - heating tube with channels for passage of the solution and flanged nozzle.

Film evaporator consists of a heating chamber 1, made of pipes 2, separation device 3 with a baffle

1 liquid, a receiving chamber 5, a circulation pipe 6, fittings for input 7, output 8 of the solution and output 9 of the pair. In the upper part of the heating chamber 1, a pressure section 10 is installed across the section;

The 2 heating chambers 1 are provided with channels 11 for the passage of the solution, and coaxial nozzles 12 are installed inside the pipes 2 opposite the holes, the lower end 13 of which is flanged. The inner diameter of the pipe 2 and the outer diameter of the flanging are equal to each other. In the pressure section 10 there is an additional fitting 14 for supplying the initial solution and an additional fitting 15 for connection to the circulation pipe. The solution is fed through line 16.

The device works as follows.

The initial solution for evaporation is fed through the nozzle 7 into the lower part of the apparatus, into the pipes 2 of the heating chamber 1, the annular space of which is heated by heating steam that moves from top to bottom. As a result, the solution boils and forms secondary steam. The secondary steam rises through pipes 2 and carries with it the solution, which begins to move in the form of a thin film, "creeping in along the inner surface of the pipes 2, intensively evaporating at the same time. Another part of the initial solution is fed through the fitting 14 into the pressure section 10, passes into the channels 11, and then, formed as a liquid ring in the annular gap formed by the inner surface of the pipe 2 and flanged pipe 12, is transported as a liquid film by secondary vapor, mixing with the liquid film formed in the lower part of the pipes 2, is intensively evaporated and prevents the upper ends of the pipes 2 from being exposed and scaling on them.

When reaching the upper ends of the pipes 2, the evaporated solution is separated from the steam in the baffle 4 and enters the tube plate of the heating chamber, from where a part of it is fed for recirculation through the circulation pipe 6 to the pressure section 10, the other part is taken out evaporated solution, and the secondary vapor is removed from the apparatus through the nozzle 9.

Thus, placing the pressure section in the upper part of the heating chamber section, in which additional nozzles are installed, making passage channels in the heating chamber pipes that communicate the pressure section cavity with the pipe cavity, the presence of flanged pipes inside the pipes allows increasing productivity and increasing the reliability of the evaporator, which ultimately reduces the cost of the product.

Claims (2)

1. A film evaporator containing a heating tube chamber, a separation device with a liquid screen, a receiving chamber, a circulation pipe, pipelines and nozzles for inlet and outlet of solution and steam, characterized in that, in order to increase productivity and increase reliability , the device is equipped with a pressure section with additional fittings, one of which is connected to the pipeline to enter the solution, and the other to the circulation pipe, while the pressure section is located in the upper part of the heating chamber, and in pipes This camera has channels through which the cavity of the chamber communicates with the cavity of the pipe. 2. The apparatus according to claim 1, characterized in that it is provided with branch pipes with a screening in the lower part, placed coaxially inside the pipes opposite the channels, wherein the inner diameter of the heating chamber pipe and the outer diameter of the flanging are equal to each other. eleven. 12