DE321378C - Circulation evaporator - Google Patents

Description

Circulation evaporator.

There are circulation evaporators for thickening liquids of all kinds, in particular juices from sugar production, salt solutions o. The like., Known in which the liquid a number of housed side by side in a common outer jacket, standing heating chambers flows through one behind the other in the same direction. These vaporizers therefore have a high degree of efficiency because of the regular circulation the liquid achieves the greatest possible utilization of the available heating surfaces and because the frequent change of direction of the liquid causes a frequent, light and intense vapor release is caused.

However, these evaporators are always built so that a larger part the heating surface of the heating chambers remains unused and is lost, be it that touch the heating chambers in larger or smaller places or the outer jacket of the evaporator to the boundary wall or both arrangements have one another find. In each of these cases, these spots or areas come out as usable Vaporizer area not effective; Rather, this will be largely or largely formed by the tubes penetrating the heating chambers. The delimitation of the heating chambers thanks to the cold outer jacket of the evaporator, this also means immediate substantial heat loss.

According to the invention these disadvantages are eliminated in that the adjacent, standing heating chambers both from each other and be separated from the common outer shell of the evaporator by walls. Through this it is achieved that the overflow of the liquid from one heating chamber to the other along the entire surface of this heating chamber, separately from the surface the adjacent heating chamber and the outer evaporator jacket takes place, whereby the entire heating jacket of each of the adjacent heating chambers as heat-insulated Evaporation surface is made usable.

There is a contact between the liquid and the outer jacket of the evaporator by no means completely excluded.

In the one in the drawing in an exemplary embodiment The circulation evaporator shown in longitudinal and cross section is in a known manner in a common outer jacket I a number of standing heating chambers4 next to one another housed that of the liquid to be evaporated. one after the other in the same Direction to be flowed through. According to the example shown, the outer jacket contains a tube sheet 2 for the boiler tubes and a base 3 above for a Number of cylindrical heating jackets 4 which are closed at the top by tube sheets 5. In the floors 2 and 5, the boiler pipes 6 are drawn, which the rooms under respectively, connect over these floors.

7 are partition walls of a corresponding height in the room above the floor 3 and 7 'are partitions in the space below the floor 2. These partitions, which are shown in dashed lines for the lower chambers in FIG are, form superimposed chambers, which by tubes 8, expediently of large diameter, are connected in such a way that the one through the boiler tubes 6 Liquid thrown up in the heating chamber is passed into the next lower chamber and so is forced to pass one department at a time, whereby every change of direction is associated with a release of steam.

In this case, however, the entire area around each heating chamber jacket is called heat-insulated evaporation surface made usable, because the from the boiler pipes above exiting liquid along the entire heated jacket 4 of each heating chamber, and both separately from the coat. the neighboring heating chamber as well as from the outside, cold one Evaporator jacket 1 .. can flow off in a more or less thin layer.

The liquid to be evaporated is discharged at 10 and at II. The heating steam enters at 12 and the condensed water flows out at I3. The steam is deducted at 14. In the drawing, the tubes 8 are inside the evaporator arranged, but they can also be performed outside of the evaporator.

Claims (1)

PATENT CLAIM: Circulation evaporator in which the liquid is a Number of standing units accommodated next to one another in a common outer jacket Flows through heating chambers one behind the other in the same direction, characterized in that that the adjacent, standing heating chambers both from each other as are also separated from the common outer shell of the evaporator by walls (7), so that the overflow of the liquid from one heating chamber into the one next to it Heating chamber along the entire circumference of this heating chamber, separately from the The surrounding area of the neighboring heating chambers as well as the outer evaporator jacket takes place.