DE3501505A1 - Apparatus for treating seawater or brackish water by evaporation of the raw water on heated surfaces and subsequent condensation of the trapped vapour - Google Patents

Abstract

An apparatus for treating seawater or brackish water comprises a heat-resistant belt conveyor which is covered over its length with identical, evenly mutually spaced evaporation bodies. These first travel through a tunnel oven where they are heated and then into a vapour collection hood where they are sprayed with raw water. The steam resulting from the evaporation of water, together with air, is removed by suction as vapours and conducted to a heat exchanger, where the raw water to be treated is used as cooling water and is then sprayed in the hood on the evaporation bodies. The metering of the sprayed water is such that the evaporation bodies leave the vapour collection hood dry and having a salt crust. After reversal about the drive drum, the adhering salt is detached by ultrasonic sources, shakers or the like and collected. To utilise solar radiation, the conveyor belt, in the running direction prior to the tunnel oven, can have a section measuring up to 70% of the belt length where the evaporation bodies are preheated by solar irradiation.

Description

Device for sea water treatment

The invention relates to a device for processing sea or brackish water by evaporation of the raw water on heated surfaces and then Condensation of the captured vapors.

Systems for seawater desalination come in different designs well known. In practically all of them, the raw water supplied to the system is used not completely, but only to a small extent for the extraction of fresh water evaporated and then returned as slightly thickened raw water. Through this the constant circulation of a multiple of the amount of fresh water obtained is required. Such systems are for example in the publications DE-AS 1 052 950, DE-AS 1 200 218, DE-AS 15 17 492 and DE-OS 28 29 903 described. But there also with repatriation of the slightly thickened raw water, it is impossible to avoid encrustations in the systems are, they have to be kept at relatively short intervals to remove the incrustations be taken out of service.

Accordingly, the invention is based on the object of a device to provide raw water treatment in which the water completely evaporates and a continuous removal of the accumulating salt deposits is made. This object is achieved by an apparatus of the type described at the outset Kind of solved, which is characterized by the fact that one with a number evenly Evaporation bodies distributed along its length occupied conveyor belt from a tunnel furnace and one that is preferably immediately connected to it, with a spray system for the raw water is covered with a vapor collection hood, the brother collecting hood is connected via a vapor line to a condenser, from which a condensate line The spray system leads to the consumer via a raw water pipe with raw water is supplied, devices for detachment in the area of the rear band section and underneath a salt collector to collect the salt-laden evaporation bodies adhering salt are provided. The raw water is advantageous initially passed as cooling water through the heat exchanger serving as a condenser and thereby preheated before it is heated in the exhaust collection hood to the one previously heated in the tunnel oven Evaporation body is sprayed on. The upper surface of the conveyor belt can lie in an essentially horizontal plane, but the tape can also - especially when using solar energy - increase in the conveying direction, whereby then Tunnel furnace and exhaust hood only part of the belt strand facing the sun cover; the remaining part of the belt lies in front of the tunnel furnace in the direction of belt travel. The proportion of the belt area between the deflection roller and the drive drum, that is consumed by the tunnel furnace and the vapor hood, together around 30% to a maximum 70%; the belt surface is preferably black.

When using the device in areas with strong sunlight it can be advantageous to make the belt pitch continuously variable, possibly to put the entire device on a turntable and so the possibility to manage to track the sun during the solar irradiation time in such a way that that the most favorable angle of incidence is always maintained. Proves to be beneficial There is also a heat-insulating encapsulation of the device, but this is then expedient The heat exchanger and salt collector remain outside the encapsulation. The part of the cover however, over the part of the belt surface that is accessible to solar radiation for the radiation the sun should be as well permeable as possible.

The conveyor belt exposed to the temperature of the tunnel furnace must be heat-resistant be. For example, it can be made of a metal band with high flexibility, a metal mesh, a mesh or fabric made of carbon and / or aramid fibers, but also, for example consist of articulated metal plates of equal length. In the latter Case, but also when using rigid evaporation bodies, have pulley and Drive drum as a cross-section is a regular polygon, the length of which is one side Plate length or, in the case of the flexible strips, of an evaporation body division, i.e., an evaporation body length plus a distance between adjacent evaporation bodies, is equivalent to.

The evaporation bodies can be elastically deformable and in their volume can be temporarily reduced in size, for example by being made from a fabric Metal, carbon or aramid fibers are made. You can also as in yourself non-deformable blocks composed of parallel plates of sheet metal which have a large surface area. The surfaces are functional with a Non-stick coating, for example made of polytetrafluoroethylene (PTFE). In a special form of training, for example for high tunnel furnace temperatures and high throughputs can be achieved by the individual plates forming an evaporative body be flat hollow bodies, the cavities with water, heat transfer oils such as "Diphyl", a mixture of biphenyl and diphenyl ether, or one of the applied Oven temperatures filled with molten salt such as nitrite-nitrate mixtures are.

The tunnel oven can be heated as desired; she directs according to the desired temperature level, the available form of energy and also the nature of the evaporation bodies. So can by gas, oil or electric Heated infrared heaters are used, but also the open gas or oil flame. When using porous, deformable evaporation bodies, the use of Hot air can be useful as a heating medium, but then one as possible across Forced circulation directed towards the belt is required to reduce the heat losses and also to keep the influence of the neighboring vapor formation as low as possible.

The spray system in the vapor collection hood is preferably placed in such a way that that the evaporation bodies are sprayed with raw water immediately after the inlet. It is advantageous to use a suction fan to remove the resulting vapor supported as active suction. The exhaust collection hood can directly adjoin the tunnel kiln, but in any case through a partition wall be separated. The hood and oven extend laterally beyond the belt surface at the bottom and leave as small a gap as possible on the side. The passage openings for the evaporation bodies should advantageously be adapted to this as precisely as possible be. For the operation of the device it is important that on the evaporation bodies no more raw water is sprayed on than when passing through the vapor collection hood can evaporate or evaporate; only if the escaping bodies or the deposits are dry on them, they can be removed without difficulty.

The removal of the residues adhering to the evaporation bodies can in the case of the porous versions through multiple receding deformations and subsequent shaking treatment, in the case of the rigid designs, that they are subjected to the action of ultrasound or an intensive shaking process will take place. The material removed in this way is placed appropriately by a Salt collector caught. This can, for example, be a simple tub Exit or removal opening towards sloping floor, but also a vibrating conveyor trough or a belt conveyor, expediently with a trough-shaped belt. The salt collector however, it is not necessary for the device according to the invention to function properly essential.

The invention is described in more detail using the accompanying drawing: The horizontally running, moved by the drive drum 3 and the pulley 2 deflected conveyor belt 1 is over its entire length with evaporation bodies 4 occupied. They are all of the same design and are equally spaced from one another on. The arrow 11 indicates the direction of travel of the tape.

The evaporation bodies 4 initially enter the tunnel oven 5 with the Heater or radiator 6 and are brought to the intended temperature. the heated bodies 4 then change to the area of the exhaust collection hood where they immediately after entry with the aid of the spray head 8 from the heat exchanger 13 can be sprayed through the line 20 incoming raw water. Its dosage is so that the evaporation bodies 4 are dry when leaving the vapor hood 7. They are now covered with deposits or sea salt and are shown as such in the drawing labeled 4A.

After the deflection around the drum 3, the loaded bodies 4A come in the area of devices 22, 23 and 24, which here are ultrasonic transducers and / or Vibrators are. The adhering salt dissolves and falls into the one below Salt collector 25. It has a bottom sloping towards the removal opening 26; the salt can optionally be conveyed to the opening 26 by shaking the bottom and ejected.

The salt collector 25 is shown in phantom. This is supposed to point out indicate that its shape is arbitrary and not dependent on the function of the device is of particular importance.

That which is applied to the evaporation bodies 4 with the aid of the spray head 8 Water evaporates or evaporates and the resulting vapors, a water vapor-air mixture, is with the help of a suction 8 out of the exhaust collection hood 7 and through the Vapor line 12 is fed into the heat exchanger 13, where it passes through the pipe coil 14 flows and the water vapor content condenses.

Fresh raw water (direction arrow 18) serves as the cooling medium the inlet 17 is delivered. After flowing through the cooling water space 19 is it passed through line 20 to spray system 8. The condensed water vapor leaves the coil 14 in the direction 15 through a clean water line 16; before, at the outlet of the heat exchanger 13, was by a conventional, not particularly shown Arrangement of the entrained air separated from the condensate.

The drawing has a purely schematic character and represents as such represents an example embodiment of the device according to the invention.

REFERENCE SIGNS 1 conveyor belt 2 deflection roller 3 drive drum, Drum 4 evaporation body 4A with salt-laden evaporation body 5 tunnel oven 6 heater, heater 7 vapor collection hood, hood 8 spray system, spray head 9 suction, Extraction fan 10 conveying direction 11 running direction, belt running direction 12 vapor line 13 Heat exchanger, condenser 14 Coiled pipe 15 Flow direction 16 Clean water pipe, Condensate line 17 inlet, raw water inlet 18 flow direction 19 cooling water space 20 Pipeline, raw water pipeline 21 Direction of flow 22) 23) Ultrasonic transducer, vibrator 24) 25 Salt collector 26 Outlet opening, removal opening

Claims (23)

Claims 1. Device for treating sea or brackish water by evaporation of the raw water on heated surfaces and subsequent condensation of the captured brothers, characterized in that one with a number evenly Evaporation bodies (4, 4A) occupied by the same evaporation body (4, 4A) distributed over its length (1) of a tunnel furnace (5) and a preferably directly adjoining it, covered with a spray system (8) for the raw water provided vapor collection hood (7) the vapor collection hood (7) via a vapor line (12) with a condenser (13) is connected, from which a condensate line (16) leads to the consumer, the spray system (8) is supplied with raw water via a raw water pipe (20), in the area of the rear band section devices (22-24) for detaching and including a salt collector (25) to collect the salt-laden evaporation bodies (4A) adhering salt are provided. 2. Apparatus according to claim 1, characterized in that the raw water initially via an inlet (17) to the condenser (13) serving as a heat exchanger supplied as coolant and then via a line (20) from the heat exchanger (13) is led to the spray system. 3. Apparatus according to claim 1 or 2, characterized in that the conveyor belt with its covered by the tunnel furnace (5) and the exhaust collection hood (7), overhead transport surface runs in a substantially horizontal plane. 4. Apparatus according to claim 1 or 2, characterized in that the belt surface covered by the tunnel furnace (5) and the vapor collection hood (7) in the direction of belt travel (11) increases, tunnel furnace ~ 5) and exhaust collection hood (7) together around 30% to a maximum Take up 70% of the belt area between deflection roller (2) and drive drum (3) and the preferably black tape surface in the direction of tape travel not covered by them (2, 3) (11) is in front of the tunnel furnace (5). 5. Apparatus according to claim 4, characterized in that the angle which the upper band surface forms to the horizontal, arbitrarily and preferably continuously is changeable. 6. Apparatus according to claim 3 or 4, characterized in that the conveyor belt (1) with heat exchanger (13) and salt collector (25) as well as the cover (5; 7) and separation units (22-24) mounted on a bogie and in the direction and preferably the height of the sun can be tracked. 7. Device according to one of the preceding claims, characterized in that that all device parts, possibly with the exception of the heat exchanger (13) and the salt collector (25) heat insulating are encapsulated. 8. Apparatus according to claim 7 in conjunction with one of the claims 4 to 6, characterized in that the part of the cover over the not from the tunnel furnace (5) and the exhaust collection hood covered strip section for sun rays permeable and is preferably transparent. 9. Device according to one of the preceding claims, characterized in that that the conveyor belt (1) consists of a metal mesh. 10. Device according to one of claims 1 to 8, characterized in that that the conveyor belt (1) consists of a mesh made of carbon and / or aramid fibers is made. 11. Device according to one of claims 1 to 8, characterized in that that the conveyor belt (1) consists of metal plates of the same length, connected to one another by joints consists. 12. The apparatus according to claim 11, characterized in that the Deflection roller (2) and the drive drum (3) in cross section as regular polygons are formed and the side length of the polygons with the length of a metal plate to match. 13. Device according to one of the preceding claims, characterized in that that the evaporation body (4) is made of a preferably elastic metal fabric are. 14. Device according to one of claims 1 to 12, characterized in that that the individual evaporation bodies (4) consist of metal sponge. 15. Device according to one of claims 1 to 12, characterized in that that the individual evaporation bodies (4) each consist of a number with a small spacing between them arranged parallel to one another, in the belt running direction (11) or transversely for this purpose aligned sheet metal or metal plates are constructed. 16. The apparatus according to claim 15, characterized in that the Metal plates designed as flat hollow bodies to increase the heat capacity and the cavities are filled with water, heat transfer oils or molten salt. 17. Device according to one of the preceding claims, characterized in that that for heating the tunnel oven (5) heating elements (6) are provided, which act as infrared radiators are operated with electrical energy or thermal energy generated by oil or gas. 18. Device according to one of claims 1 to 16, characterized in that that the heating of the evaporation body (4) in the tunnel furnace (5) by gas or Oil burner takes place. 19. Device according to one of the preceding claims, characterized through a suction system (9) at the outlet of the vapor collection hood (7) 20th Device according to Claim 13 or 14, characterized in that the Salt-laden evaporation body (4A) when passing through the devices (22-24) first deformed several times and then emptied by shaking. 21. Apparatus according to claim 15 or 16, characterized in that that the individual evaporation bodies (4A) laden with adhering salt as they pass through of the detachment devices (22-24) an ultrasonic irradiation and / or a mechanical one Are exposed to the vibration process. 22. Device according to one of the preceding claims, characterized in that that the salt collector (25) has a substantially over the length of the conveyor belt (1) reaching collecting vessel with sloping bottom and an outlet opening (26) on his deepest point. 23. Device according to one of claims 1 to 21, characterized in that that the salt collector (25) is a trough-shaped vibratory conveyor or a trough-shaped one Belt conveyor is.