DE1102702B - Method and device for evaporation of liquids in falling film evaporators in multiple effect - Google Patents

Description

Method and device for evaporation of liquids in falling film evaporators with multiple effects When evaporating liquids with multiple effects, each the following stage the vapors of the previous one at higher pressure and higher temperature working stage as heating steam take up; to do this in spite of the differing level too Level due to the decreasing temperature and increasing viscosity To enable the heat passages 5, it is common to use the heating surfaces of the individual Evaporator bodies of a multi-stage evaporation system are designed to be of different sizes in such a way that that the first stage is the smallest and the last stage is the largest, e receives. While a multi-stage evaporation system is now available when using Tubular evaporators of the usual design (in which the tubes are more or less with circulating liquid are filled), without difficulty in the specified manner can be carried out, this is not the case when working according to the downdraft principle should be where the liquid only covers the inner walls of the tubes as a film. There the amount of liquid from stage to stage as a result of the progressive evaporation decreases, the heating surfaces should also be mine from level to level, to everywhere to enable an even and complete coverage with liquid. In order to face two demands; d. i.e., because of the deteriorating Heat transfer, the downstream stages are to be provided with larger heating surfaces, because of the decreasing amount of liquid, however, the heating surfaces should be smaller be.

According to the present invention, this problem is solved by that the vapors coming from the respective previous evaporation stage enter the boiler room is only partially fed to the downstream, next lower level in printing, while the rest together with the liquid to be evaporated through the heating pipes this downstream stage is passed.

A device for performing this method consists in that the vapor discharge from the separator of the respective upstream stage both to the heating jacket of the downstream stage, as well as to the liquid from the upstream stage receiving expansion chamber of the downstream stage connected. It is useful to divide the brother from the upstream Stage on the heating jacket and the expansion chamber of the downstream stage a throttle body adjustable.

The drawing shows, for example, a two-stage falling film evaporator to carry out the method according to the invention.

The liquid to be evaporated becomes that which forms the first evaporation stage Evaporator 1 through the Line 1 supplied overheated. She relaxes in the Expansion chamber 2 and is distributed over the heating pipes 3, these are located in the heating jacket 4, which is fed through the nozzle 5 heating steam.

As a result of the heating effect, part of the liquid and it evaporates a mixture of liquid and vapor emerges from the bottom of the pipes. The liquid is sucked off by means of the pump 7 and the second stage through the line 8 forming evaporator II supplied. The vapor leaves the separator through the Line 9. Part of the vapor enters the heating jacket 11 through the nozzle 10, where it heats the heating tubes 12. The rest of the brother is through line 13 of the Expansion chamber 14 supplied, where it meets with the emerging from the line 8 Liquid mixes. A fixed or adjustable one is used to limit this amount of vapor Throttling device 15.

The mixture of liquid and vapor flows at high speed through the tubes 12, whereby a further part of the liquid evaporates. It gets into the separator 16, from which the concentrate is sucked off by means of the pump 17 is, while the vapor through line 18 to the condenser, not shown flows.

The high speed caused by the added vapors A very turbulent liquid movement is generated in the heating pipes 12 and as a result a good heat transfer even with highly viscous liquids.

On the other hand, as a result of the withdrawal of part of the brother Heating steam serving the second stage is reduced, a proportionately sufficient small heating surface to condense these heating vapors. So it is possible to carry out the second stage with fewer pipes than the first, which - as explained above - in the sense of a complete covering of the inner walls of the tubes with liquid necessary is. The described method according to the invention allows much higher Achieve concentrations than an ordinary multiple-effect evaporation. The risk of encrustation of the pipes is reduced and the evaporation capacity depending m2 of heating surface increased considerably through the improvement of the N heat transfer. A special advantage is that the liquid to be evaporated is not included comes into contact with foreign steam or gas, but only with their own vapors.

The procedure can be used for two-stage as well as three-stage and multi-stage evaporation can be applied. The admixture of vapors remain limited to the last stage, but also to any number of the first Level can be extended to the following levels. The application of the procedure is final also regardless of whether the Evaporation plant is heated directly or whether it is with Steam jet vapor compression is equipped.

PATENT CLAIMS 1. Process for evaporation of liquids in Falling film evaporators with a multiple effect, characterized in that the The vapors coming from the previous evaporation stage are fed to the boiler room of the downstream in the printing next lower level is only partially fed, while the rest is combined with the liquid to be evaporated through the heating pipes downstream of this Stage is directed.

Claims (1)

2. Apparatus for performing the method according to claim 1, characterized characterized in that the vapor discharge (9) from the Ahscheider (6) of the respective upstream Stage (I) both to the heating jacket (11) of the downstream stage (II) and to the expansion chamber receiving the liquid from the upstream stage (1) (14) of the downstream stage (11) is connected. 3. Apparatus according to claim 2, characterized in that the division of the vapor from the upstream stage (1) on the heating jacket (11) and the expansion chamber (14) of the downstream stage (II) can be regulated by a throttle element (15).