RU1790966C - Film-type evaporator - Google Patents

Description

separator, pipe 9 for supplying heating steam to the heat exchange elements, pipe 10 for removing secondary steam from the apparatus body, pipe 11 for supplying the initial solution. to the distributor 5, pipe 12 for draining the evaporated solution from the storage tank, pipe 13 for draining condensate heating steam, pipe 14 for discharging non-condensing gases from the plate heat exchange elements 3, a recirculation pump 15 and a recirculation pipe 16.

Film evaporator operates as follows.

The initial solution to be evaporated, enters through the pipe 11 to the switchgear-5. With this device, the solution through perforated holes evenly flows onto the film-forming nozzles 6 installed on the upper ends of each plate heat-exchange element and then flows in the form of a continuous film to the bottom on the surface of the plate heat-exchange elements, evaporates and concentrates. One stripped off solution is collected in the accumulator 2 and through the nozzle 12, the recirculation pipes 16 are taken from the apparatus by means of a pump 15. Heating steam through the pipe 9 enters the plate heat exchange elements 3. Condensate of the heating steam and non-condensing gases are removed from the apparatus through pipes 12 and 14. The secondary steam generated by the evaporated solution moves between the plate heat exchange elements to the separation spray separator 7 and then through the pipe 10 is withdrawn from the apparatus body.

The presence of film-forming nozzles at the ends of each plate heat-exchange element provides an increase in the productivity of the apparatus with evaporated water.

F. Formula for Acquisition A film evaporator for concentrating solutions, comprising a housing with vertically lamellar heat exchanger elements placed in it, a switchgear with holes for supplying the concentrated solution to. heat exchange elements, a recirculation pump connected to a switchgear and a concentrate solution accumulator, nozzles for supplying a starting solution and heating steam, nozzles for removing an evaporated solution, secondary steam and condensate, characterized in that, in order to increase the productivity of the apparatus due to uniform distribution film evaporated solution over the entire surface of the heat transfer, it is equipped with film-forming nozzles mounted on the upper ends of each plate heat transfer element and made in the form of an inverted trough with a curvilinear profile, with the side surface of the nozzle mating with the side surface of the heat exchange element, and the ratio of the circumference of each opening of the switchgear to the arc length of the cross section of the plate heat exchange element is 2.2-2.8.

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