DE4217802A1 - Drinking water condensation appts. - has vacuum locks in feed and take=off from evacuated zone to prevent vacuum loss - Google Patents

Abstract

The appts. to give a condenstion, from a liquid to be cleaned, has at least one vacuum sealed entry lock (27) and outlet lock (28) for each supply line (13) and each take-off line (22). Pref., the locks are bucket wheel locks. The outlet lock is within a closeable outlet branch of the outflow from the condensation catch tank, after the condenser, and connected to the suction system. The suction system has a vacuum pump with a preceding condensation separator. The condenser is a coolant coil in the take-off, passing through a tank with liquid to be processed which is connected through a closeable feed to the evacuated zone. The entry lock is in the feed branch of the feed channel. The supply tank has a closeable outlet for dirt. A number of evaporation pans are over each other, where the topmost is fed by the supply and the others through overflow. A float switch at the bottom pan controls the opening and closing of the supply. Each pan has heating, pref. through heating channels at the base. The pan base is lined with film. USE/ADVANTAGE - The assembly is esp. for the provision of drinking water from sea water and/or brackish or soiled water, using an evacuated zone with a heating system using primary energy from the environment. The system gives a continuous operation, with an effective action, without vacuum loss.

Description

The invention relates to a device for generating egg condensate from a liquid to be cleaned, ins special for the production of drinking water from sea and / or brackish and / or dirty water or the like, with at least an evacuable room in which at least one means a heating system that draws primary energy from the environment device heated, at least one lockable Supply line with liquid to be cleaned beatable evaporation pan is arranged and from which at least one lockable sampling line goes out.  

In the known arrangements of this type, there is Ge drive that when opening the supply line and / or the extraction line can result in a loss of vacuum. This results in a comparatively poor overall efficiency. In a known arrangement (DE 31 31 882 C2) becomes a big up to avoid this disadvantage wall in the form of a multiple arrangement of alternative and taxable containers accepted. Despite that This effort does not exclude vacuum losses bar, since ventilation of the container cannot be avoided. Apart from that, this arrangement also proves to be not easy to use.

Based on this, it is therefore the task of the present the invention, a device of the generic type with simple and inexpensive means and under avoidance to improve their disadvantages so that not just one continuous operation, but also a good one Efficiency can be achieved.

This object is achieved in that every supply line and every extraction line with we at least one assigned vacuum-tight inlet or exit gate is provided.

These measures result in an extremely simple and compact Construction. Anyone can use the locks according to the invention desired amount of substrate refilled or any desired The amount of condensate can be removed without the risk ner undesired ventilation of the evacuable room stands. The evacuation device therefore takes advantage  ter comparatively little performance. Info therefore, the measures according to the invention also offer the Possibility of using a vacuum pump as an evacuation device to provide, whereby the in the known arrangements for the creation of a barometric water column required l effort can be eliminated. The energy consumption of the Vacuum pump remains within limits and can be used without further by so-called alternative energy, for example wise in the form of electricity generated by selenium cells, cover. It also offers the possibility to use it a vacuum pump also guarantees that the vacuum can always be kept at a high level. Den A high level of user friendliness is still guaranteed continuous With the measures according to the invention task at the beginning is extremely simple and knockout solved in a most cost-effective way.

Advantageous configurations and practical training General measures are in the subclaims Chen specified. So the entrance and exit locks be expediently designed as cellular wheel sluices. Here it is particularly compact and reliable Elements that have already been tried and tested many times are available cheaply.

Another advantageous measure can consist in that the exit gate in a lockable outlet branch the sampling line is arranged by a condenser comes off sat catcher, which nachge a capacitor arranges and on the suction port of an evacuation device connected. These measures allow in front  partial simultaneous evacuation and Ab tapping of condensate from the condensate collector.

In a further development of the measures according to the invention the capacitor can be acted upon in a substrate Ren storage container can be arranged, the one from lockable, preferably contain the entrance lock the feed line of the supply line with the evakuierba space is connected. These measures allow in advantageously the use of the heat of condensation to preheat the substrate, which is beneficial to the achievable overall efficiency. At the same time ge the measures mentioned also ensure a quick Condensation.

In further training of the general measures several evaporation pans arranged one above the other be provided, of which the uppermost by means of the zu running branches and the ones below each by overflow from the evaporation pan arranged above are beatable, with the bottom evaporation pan a float switch is assigned, by means of which the Shutting off the inlet branch is controllable. This measure Despite their compact design, men allow a high volume throughput.

The evaporation pan or pans can be advantageous each a liner formed by an insert film dung. This simplifies the removal of back stands.  

Another useful measure can be that the evacuable space as an autoclave on a Bo the attachable hood that can be sealed at the edge is trained det. This results in a high level of operation and maintenance friendliness.

Despite the use of so-called alternative energies such as Son energy, this allows a high degree of independence and an operation that is independent of the time of day most that the heating device has a memory, the in series with the preferably as a flow absorber trained facility for absorbing primary energy and / or with the heating elements of the evaporation pan or -pans is switchable.

Further advantageous configurations and expedient There are further training courses for the higher-level measures from the description of an embodiment below game based on the drawing in connection with the restli Chen subclaims.

The drawing shows:

Fig. 1 is a schematic representation of an inventive plant for the production of drinking water and

Fig. 2 is an enlarged view of an evaporation pan of the above system.

The FIG. 1 underlying system contains an autoclave 1, which is evacuated by a vacuum pump 2. The evacuable interior of the autoclave 1 is limited by a mountable on a base plate 3 , the edge by circumferential sealing profiles 4 sealable hood 5 be. This can be designed such that it can be lifted off the base plate 3 by means of a lifting device, which is indicated here by crane eyes. In the evacuable interior of the autoclave 1 , a plurality of re, superposed evaporation pans 6 comprising a pan arrangement is provided here. The Verdampfungspfan NEN 6 are so formed and arranged that on the one hand evaporation area is present sufficient and on the other hand, a water overflow from an upper evaporation pan 6 in each underlying evaporation pan can take place 6 unge interfere, as indicated in the 7th

The evaporation pans 6 consist of a good heat-conducting material, for example copper. Each evaporation pan 6 is seen with an integrated heating element ver. In the example shown, as can best be seen in FIG. 2, the pan bottom is equipped with heating channels 8 which are in contact with it and which can be charged in series or in parallel with a heating medium, for example warm water. The interior of the evaporation pans 6 is clad by a thin film 9 , for example in the form of a thin rubber blanket, etc. This lining protects the pan wall and enables easy removal of evaporation residues, such as salt.

The evaporation pans 6 are acted upon in the game shown with sea water. This can, for example, be fed to a reservoir 11 by means of a pump 10 , which is connected to the autoclave 1 via a supply line 13 which can be shut off by means of a valve 12 . The storage container 11 is simply designed here as an open pot. A shut-off dirt outlet 14 can be provided near the floor. At the final cross-section of the supply line 13 is at a somewhat higher level, so that only clarified sea water is discharged via the supply line 13 . The reservoir 11 acts accordingly accordingly as a clarifier.

The supply line 13 is inserted over the stationary bottom plate 3 in the autoclave 1 , so that the hood 5 can be lifted freely. The valve 12 , which functions as a general shut-off valve when the system is shut down, can also be arranged in the autoclave 1 . The end of the supply line 13 on the autoclave side is designed as a pipe bend opening into the uppermost evaporation pan 6 .

The shut-off valve 12 is up and down controllable by means of a float switch 15 which can best be seen in FIG. 2 and which senses the water level in the lowermost evaporation pan 6 . The float switch 15 is arranged so that the bottom evaporation pan 6 does not overflow. In the example shown, the float switch 15 is connected directly to the shut-off valve 12 arranged in the autoclave 1 . But it would also be conceivable an electrical command transmission. In this case, the shut-off valve could also be arranged outside the half of the autoclave. A zuverlässi gen overflow from the respective top to the underlying evaporation pan 6 to ensure that Ver dampfungspfannen can have an upwardly widening cross-section. 6 But it would also be conceivable to provide Ver evaporation pans with different, downwards increasing diameter. In any case, the bottom evaporation pan is slightly larger than the others in order to ensure reliable follow-up control and to reliably avoid overflow.

The evaporation pans 6 or their neck channels 8 are heated here with hot water. This is warmed up by solar energy. For this purpose, a flow absorber 16 is seen before, which is connected to the pan-side heating channels 8 via a ring line 17 which is also introduced and executed in the autoclave 1 via the base plate 3 . A circulation pump 18 is located in the return branch of the ring line 17 . The flow absorber 16 can be received on a bogie, not shown here, and can be used to track the position of the sun. Of course, it would also be conceivable to provide a different type of collector or a heat pump etc. instead of the flow absorber 16 . In the illustrated case, a boiler 19 is additionally provided, which can be placed in series with the flow absorber 16 or in series with the pan-side heating channels 8 . For this purpose, suitable bypass lines 20 and shut-off valves 21 are provided. In any case, the circulating pump 18 functions as a circulating element. The boiler 19 can be charged, for example, in good solar radiation and can be emptied later, for example at night. Accordingly, this results in an operation independent of the time of day despite the use of solar energy.

The gas introduced into the evaporation pan 6 sea water is heated in direct contact set by the heating channels. 8 To lower the evaporation temperature so far that the achievable through the heating channels 8 heating is sufficient to evaporate, the evaporation pan 6-receiving interior of the autoclave 1 will pump 2 by the vacuum evacuated. For this purpose, the autoclave 1 has a comparatively large cross-section removal line 22 which, in the form of a cooling coil 23 , passes through the reservoir 11 which can be acted upon by sea water and then opens into a closed condensate collecting container 24 which is formed on the cover side by a suction port of the vacuum pump 2 Evacuation branch 22 a of the extraction line 22 and the bottom is connected to an outlet branch 22 b of the extraction line 22 that can be shut off by means of a shut-off valve 25 . The cooling coil 23 acts as a condenser in which the water vapor of the air-steam mixture sucked in via the removal line 22 condenses. The condensation heat released in this process is released to the sea water stored in the storage container 11 , which thereby preheats it. The condensate flows into the condensate collecting tank 24 in the form of clean water. Any residual steam that is still present can flow out via the evacuation nozzle 22 a to the vacuum pump 2 , which can be preceded by a water separator 26 . If the vacuum pump 2 is so out that the lubrication is carried out by water, the water separator 26 can be omitted.

In the supply line 13 a here the shut-off valve is upstream or downstream 12, arranged as an inlet lock 27 acting rotary valve. In the discharge branch 22 b of the extraction line 22 , a cellular wheel sluice downstream of the shut-off valve 25 and functioning as an output sluice 28 is provided. The cellular wheels of the cellular wheel sluices arranged in a vacuum-tight housing form separate chambers 29 which communicate alternately with the input or output of the assigned housing, so that the desired vacuum seal remains. The cellular wheels of the cellular wheel locks can be driven or designed so that the medium flowing through them self-propels them. If the water separator 26 is provided with a separate water outlet, this can also be assigned a lock arrangement of the type described above. The same naturally also applies to all other system inputs and outputs.

In the example shown, in addition to the warm water-generating flow absorber 16 , a selenzellenkol lector 30 is also provided, which generates the current that is used to operate the vacuum pump 2 and / or the supply pump 10 and / or the circulation pump 18 and / or, if applicable, the cellular wheel locks associated drive motors and / or the actuators assigned to the valves is required. The selenium cell collector 30 can be accommodated together with the flow absorber 16 on the bogie mentioned above. The output 31 of the Selenzellenkollek tors 30 may be due to a control and storage device, not shown here, from which the individual consumers in the form of motors, controls, etc. can be supplied.

Claims (15)

1. Device for generating a condensate from a liquid to be cleaned, in particular for the manufacture of drinking water from sea and / or brackish and / or dirty water or the like, with at least one evacuable space in which at least one by means of one of the Surrounding primary energy-removing heating device is arranged, via at least one lockable supply line ( 13 ) which can be supplied with liquid to be cleaned, evaporating pan ( 6 ) and from which at least one shut-off breather line ( 22 ) comes off, characterized in that each supply line ( 13 ) and each extraction line ( 22 ) is provided with at least one associated vacuum-tight entrance lock ( 27 ) or exit lock ( 28 ). 2. Device according to claim 1, characterized in that the input and output lock ( 27 and 28 ) are designed as cellular locks. 3. Device according to one of the preceding claims, characterized in that the outlet lock ( 28 ) in a lockable outlet branch ( 22 b) of the Ent receiving line ( 22 ) is arranged, which comes from a condensate collecting container ( 24 ), which is a condenser downstream and is connected to the suction port of an Eva cooling device. 4. The device according to claim 3, characterized in that the evacuation device is designed as a vacuum pump ( 2 ), preferably with an upstream condensate separator ( 26 ). 5. Device according to one of the preceding claims 3 or 4, characterized in that the condenser gate is designed as a cooling coil ( 23 ) of the extraction line ( 22 ), which acts on a liquid to be cleaned with liquid reservoir ( 11 ) through which a lockable inlet branch of the supply line ( 13 ) is connected to the evacuable space. 6. The device according to claim 5, characterized in that the input lock ( 27 ) in the feed branch of the United supply line ( 13 ) is arranged. 7. Device according to one of the preceding claims 5 or 6, characterized in that the Vorratsbe container ( 11 ) is provided with a lockable dirt outlet ( 14 ). 8. Device according to one of the preceding claims, characterized in that several, arranged one above the other evaporation pans ( 6 ) are provided, of which the uppermost by means of the supply line ( 13 ) and the underlying one can each be acted upon by overflow. 9. The device according to claim 8, characterized in that the lowest evaporation pan ( 6 ) is assigned a float switch ( 15 ), by means of which the shut-off of the feed branch of the supply line ( 13 ) can be opened or closed. 10. Device according to one of the preceding claims, characterized in that each evaporation pan ( 6 ) has a heating element, preferably in the form of bottom-side heating channels ( 8 ). 11. Device according to one of the preceding claims, characterized in that each evaporation pan ( 6 ) each has a lining formed by an insert film ( 9 ). 12. Device according to one of the preceding claims, characterized in that the evacuable space as an autoclave ( 1 ) with a bottom ( 3 ) aufetzba rer, edge-sealable hood ( 5 ) is formed. 13. The device according to at least one of the preceding claims, characterized in that the Heizein direction at least one by means of a vorgeordne th circulation pump ( 18 ) acted upon collector, preferably in the form of a flow absorber ( 16 ). 14. Device according to one of the preceding claims, characterized in that at least one preferred, the flow absorber ( 16 ) adjacent selenium cell collector ( 30 ) is provided, through which we can supply at least one power consumer of the system with electricity. 15. Device according to one of the preceding claims, characterized in that the heating device comprises a boiler ( 19 ) which is designed in series with the device, preferably as a flow absorber ( 16 ), for receiving primary energy and / or with the heating elements of the evaporation pan or pans ( 6 ) is switchable.