SU1731248A1 - Film evaporator - Google Patents

Abstract

The film evaporator can be used as a steam generating plant for brewing columns, as well as for concentrating solutions of food and other products at low heat fluxes and allows to increase productivity and efficiency by evenly distributing the liquid over the heat exchange surface. The film apparatus contains evaporative tubes, made like a tube in a tube, forming annular channels 8. The annular channels are in communication with the chambers of inlet 13 and outlet 14 of the evaporated liquid, and the internal evaporator tubes 9 from the upper 15 and lower 16 steam chambers. Lower steam chamber connected to intertube

Description

The invention relates to an evaporating technique and can be used as a steam production plant for production distillation columns and for the concentration of solutions of food and other products at low heat fluxes.

The purpose of the invention is to increase productivity and efficiency by uniformly distributing the liquid over the heat exchange surface.

Figure 1 shows the proposed film evaporator, a General view; figure 2 - section aa in figure 1: fig.Z - section bb in fig. 1.

The film evaporator contains a vertical cylindrical body 1 with nozzles for supplying heating steam 2 and liquid 3 for discharging secondary steam 4, condensate 5, non-condensable gases 6 and one stripped off liquid 7, in which evaporator tubes are installed, which are made like a pipe in a pipe and form annular channels 8 consisting of inner 9 and outer 10 pipes fixed in the respective upper and lower tube sheets 11 and 12. The annular channels communicate with the chambers of inlet 13 and outlet 14 of the evaporated liquid. The device is equipped with an upper distributing 15 and lower receiving 16 chambers of heating steam, the latter is connected to the annular space of the external evaporator tubes by a bypass steam pipe 17,

The switchgear is made in the form of a perforated metal sheet in the shape of a hexagon 18 with sides 19 and slots 20 in them, and inserts 21 installed in the switchgear holes coaxially to the internal evaporation pipes with gaps to them. Horizontal two-row ones are made in the upper part of the external evaporation pipes slots 22 located above the top tube sheet. The evaporator is equipped with an integrated louvered separator 23 for secondary steam.

Film evaporator works as follows.

Fluid is supplied through pipe 3 into the inlet chamber 13 to the perforated metal sheet 18 of the distribution device, where the liquid level is maintained by the beads 19, and enters the gaps between the inner tubes of the annular channels 9 and the inserts 21, uniformly irrigating the heat exchange surface. The rest of the liquid is poured over the slots 20 in the sides of the sheet and enters the upper tube sheet 12, where the liquid level is maintained due to the outflow of the outer tubes above the tube grid. The liquid is poured through the horizontal two-hole slots 22 in these pipes, uniformly irrigating the inner surface of the external pipes. The heating steam flows into the apparatus by the nozzle 2 into the dispensing chamber 15 and enters the inner pipes 9 of the annular channels, where part of the steam condenses and the other part enters the reception chamber 16, from where the steam pipe 17

0 is transferred to the annular space of the external evaporator tubes for complete condensation. Condensate is discharged from the apparatus through nozzles 5, non-condensable gases through nozzle 6, the Solution is removed

5 from the apparatus pipe 7, and the secondary steam after separation in the louvered separator 23 through the pipe 4.

Claims (1)

Claims of the invention: A film evaporator comprising 0 vertical casing, evaporating pipes, pipes made in the pipe and fixed in the corresponding upper and lower tube sheets, upper and lower steam chambers, inlet and outlet chambers and one stripped off liquid, a bypass steam pipe connecting the lower steam chamber with the annular outer vapor space pipes, separator, pipes for supply and removal of steam, liquids, 0 condensate, non-condensable gases, due to the fact that, in order to increase productivity and efficiency by uniformly distributing the liquid over the heat exchange surface, the chamber The fluid inlet 5 is located between the upper tube sheets and is provided with a distribution device made in the form of a perforated metal sheet in the shape of a regular hexagon with sides and cuts in them, and inserts, installed in the holes of the switchgear coaxially to the internal evaporator tubes with a gap to them, and the liquid outlet chamber is located between the lower tube sheets, with this, in the upper part of the external evaporator tubes there are horizontal two-slot slots located above the corresponding upper tube sheet. 23