DE485069C - Evaporator device with gradient storage - Google Patents

Description

Evaporator device with gradient storage tank It is already known the temperature gradient of a gradient storage system for the production of make-up water to use. However, such institutions have not been implemented in practice, because the make-up water yield was relatively low and inconsistent With the investment costs stood, the facility also does not often fluctuate strongly Adjusted operating conditions and the like.

The invention provides a device which under Adaptation also to fluctuating operating conditions, both during charging and when discharging the incline storage tank allows a large amount of make-up water to distill with known and proven apparatus.

A device according to the invention is in the accompanying drawing exemplified and symbolically illustrated.

The device essentially consists of a gradient storage tank a, an upstream charging evaporator b, a downstream discharging evaporator c, separating tanks d and e and a collecting tank f. A is the higher-pressure steam network line, B the lower-pressure steam network line. Instead of individual evaporators b and c, evaporator groups can of course also be arranged. i is the heating steam line of the charge evaporator b, which feeds this evaporator with the steam from the steam network line A, 2 the line which feeds the discharge evaporator with steam from the gradient storage tank rz. According to the invention, behind the heating systems of the evaporator, an overflow or reducing valve 3 or q is switched on, for example, in lines 5 and 6, which lead to the separating vessels d and e. These valves are expediently controlled in a known manner from the steam network lines, as in? and 8 indicated. The vapor line 9 of the charge evaporator b is routed into the gradient storage tank via a line io with a non-return valve ii, the vapor line 12 opens into the low-pressure steam network line B. An exhaust line 13 or 14 of the separator vessels d or e opens into the vapor lines 9 or 12 of their vaporizers. The condensate from the separation tanks is fed through lines 15, 16 to the collecting tank f.

The evaporation rooms are with the water to be evaporated in any Way, e.g. B. through lines 17, 18 via known water level controller i9, 2o fed to the slope storage tank.

This facility allows the gradient storage to be kept up to the pressure to feed the steam network line A, furthermore the steam of this Pressure as well as the pressure in the gradient storage tank in the evaporators full for the distillation of Take advantage of additional water.

A circuit is also conceivable in which the heating steam for the evaporator does not pass through directly as through lines i and 5 or 2 and 6 the heating systems of this evaporator is passed through, but in which one Branch line to be connected before the overflow or reducing valve after the radiators the vaporizer led and the one in it. not precipitated vapor on the evaporator is passed by. However, this arrangement would not work as beneficial by the condensate drain or the steam supply to the radiators through again a special control unit would have to regulate, otherwise the evaporator would be permanent would remain in operation, i.e. would also evaporate at the wrong time and load the memory.

It is essential that a line 2i from the vapor line g of the evaporator b is branched off and introduced into the vapor line 2, which removes the heating steam the gradient accumulator for the evaporator c leads. This way it is possible too to make the steam usable for distillate production, which for whatever reason, z. B. complete filling of the gradient storage, not be introduced into this can.

Claims (3)

PATENT CLAIMS: i. Evaporator device with gradient storage, characterized in that a charging evaporator (b) and a discharge evaporator (c) are connected upstream of the memory (a). 2. Evaporator device according to claim i, characterized in that the loading valve (3) and the unloading valve (q.) are behind the evaporators (b, c) are switched on - so that they are always finite to the full Pressure of the charging line or with the full respective storage pressure. 3. Evaporator device according to claim i and 2, characterized in that behind the loading or unloading valve each a water separator is arranged, whose Steam chambers connected to the storage line (g, = o) or the low-pressure network (i2, B) are. q .. damper device according to claim i to 3, characterized in that the storage line (g) with the storage discharge line leading to the discharge evaporator (c) (2) is directly connected.