DE19728494A1 - Solar powered evaporator for desalinating salt water - Google Patents

Abstract

A solar powered evaporator for obtaining potable water from salt, lake, or brackish water has a trough (2) for the raw water. An arrangement to collect solar energy includes a transparent window (4) above the trough (2) to admit sunlight, and on which water vapour from the trough condenses. A trap (11) collects condensate which drips from the window (4). The novelty is that the depth of water in the trough (2) is less than 50 mm.

Description

State of the art

The invention relates to a device Fresh water production from salt water or the like using of solar energy according to the genus of the main claim.

Such devices with those by solar heat Salt water is evaporated, then used as the steam Condensing fresh water is known in many ways.

In a known device of the generic type (DE-GM 82 20 249) becomes a tub that absorbs the salt water used that is so deep that even with the strongest impact from solar heat the evaporation of water about two Would take months. It will be about one Liters of fresh water evaporation per 24 hours and per Square meter of water surface. That included Any salt produced should be used to advantage. At Use of fresh water as drinking water is said to again mixed with salts to the required extent will. However, the disposal of salt is in practice a significant problem. With the large commercial  Desalination plants are salt piles over time arose, which in any case are not disposed of can be transported back to the sea - this would destruction of vegetation and killing of animals to lead. Another problem is that the evaporation performance in this known system is too low to make sense to use.

In another known device of this type (DE-GM 94 04 427) a solar cooker is used that is collected over Solar heat is heated, taking the water vapor again condensed and collected as fresh water should be used. To make reasonable condensation too achieve, the roof is curved inwards like a roof Container used, which is arranged above the solar cooker and the one filled with cold water, especially sea water is. This sea water can thereby be preheated to then later to be heated in the solar cooker. Except of the fact that considerable losses arise from the fact that the solar cooker supplies heat via a heat transfer medium, For example, water receives what was previously in one Solar panel is heated must also with this device the resulting salt can be removed with the above Disadvantages.

In yet another known device of this type (DE-GM 83 14 553) the sea water is in a hexagon box heated, in which a filled with sea water Heat storage is arranged, surrounded by salt water is, with a layer above the sea water reservoir Salt water remains for evaporation. The one through the  Steam generated by the sun is partly at the Cover plate condensed and collected as fresh water and essentially on one Heat exchanger condenser caught there warms up and then back into the salt water drops. The heat absorbed by the heat exchanger is transferred to the water in the seawater storage tank, which can serve as a night storage heater.

Such a facility is less for the extraction of Fresh water as for the accumulation of heat in one Memory provided, the area of application not quite is recognizable.

In other known devices (EP 0 240 427, DE-PS 37 16 266, DE-OS 32 13 084) are different methods described, especially those in which a compression or Vacuum position of the still saline water takes place in order through subsequent relaxation a particularly favorable one To achieve evaporation. All of these systems require one considerable effort in energy, which is also in the Facility must be plugged in for it to work. In addition, these facilities are inherently expensive and therefore hardly worthwhile in practice.

The invention and its advantages

The device according to the invention with the characteristic Features of the main claim and of itself as Supplementary claim asserted claim 2  on the other hand the advantage that, on the one hand, since it is known that the Warming in an almost quadratic function Depends on the depth of the water in the pool, very quickly temperatures required for evaporation can be achieved are and that on the other hand the disposal of the accruing Salt is eliminated. By draining the salt easily enriched salt water and pumping fresh Salt water or during the nighttime standstill on the one hand a total cleaning of the pelvis and one Salt depletion of the amounts of salt water there. Especially in the case of tubs with large surface areas the heating up takes a relatively long time if one appropriate water depth is available, because the water is the Properties of an inherently good mix has through natural internal circulation. Most of all go up in time the water has reached the evaporation temperature, too much Lost time without a higher one afterwards Evaporation performance could exist. An essential one The advantage of this facility is its simplicity and apart from that very quick amortization option of that by dispensing with elaborate Control devices theoretically maintenance-free is working. The disc can be designed in many different ways it is decisive that the condensed water can drain off.

According to an advantageous, known design of the Invention (DE-PS 30 15 254) can above Water level and under the pane above one Vacuum pump a slight vacuum at least periodically be generated, the one already at lower Evaporation takes place at temperatures.  

The vacuum pump is preferably powered by solar energy driven, for example by an electric motor from a battery is supplied, which uses its energy voltaic solar panels. By switching from Negative pressure and normal pressure can be a relapse Evaporation occurs with simplified condensation. The Pressure control line can be in the lower area of the room branch off.

According to a further advantageous embodiment of the invention can get out of the tub especially in the transitional periods Salt water is led over the outside of the pane, thereby cooling the disc to increase the Temperature difference for the condensation and also a to achieve additional warming of the salt water.

According to a further advantageous embodiment of the invention the tub has a maximum depth of 20 mm. This can a facility to be available, if necessary the smaller ones required during daily operation Supplying quantities of salt water.

According to a further advantageous embodiment of the invention there is a membrane in the tub below the water level arranged, which prevents the solar radiation up to reaches the bottom of the tub and thus a quick one Water heating causes on the water surface.

After another advantageous in this regard Embodiment of the invention can be made semipermeable Membrane only salt water with the dissolved salts of  flow upwards, but crystallized salts or more concentrated brine remain above the membrane. When water is exchanged at night, the above the The brine that collects is pumped away.

According to a further advantageous embodiment of the invention is supplied from the outside by the salt water in the tub Ambient air conducible. As a result, the Evaporation promoted and on the other hand, especially at the beginning heating an additional heating of the salt water reached.

According to an advantageous embodiment of the Invention is a device for air supply in salt water or distribution available. This facility can consist of one Pipe system having exit holes exist, so Similar to how it is used for the supply of the gas boiler Knows heating gas.

According to a further advantageous embodiment of the invention is the swashplate in its inclined position to the vertical and / or adjustable to the sun position to a Minimize reflecting sun rays.

According to a further advantageous embodiment of the invention the facility serves as the roof closure of buildings or shady paths, creating an additional through the evaporative cooling resulting cooling can be achieved.

According to a further advantageous embodiment of the invention is the disc or are the discs to reduce the Sunbeam reflection in its inclined position towards the horizontal  as well as adjustable in their position towards the sun. This can be done by twisting the whole, the washers load-bearing base, including tub and other parts of the facility or by adjusting only the superstructure carrying the panes.

According to a further advantageous embodiment of the invention additionally reflect sunlight reflecting mirrors Sunlight in the tub. This makes it possible to use the Pane surface to collect sunlight or even at focus curved mirrors.

According to a further advantageous embodiment of the invention is a solar panel for electrical power available over the and if necessary a power storage at the Equipment used devices, such as pumps, with energy are available. This allows the facility to be completely work autonomously by not only the sun Evaporation is effected, but also the exchange of the Water creating a possible negative pressure that Pumping fresh water, etc.

According to a further advantageous embodiment of the invention is an electrically operated auxiliary heater in salt water provided by the solar panel for electrical Electricity is supplied and the efficiency of the facility can significantly improve. As an additional heater in itself known electrically operated heating devices used will. As an additional heater, one can be in salt water arranged spiral or the like. Serve, but also a die Tub heating device and last but not least one  Device that generates hot water, which is then in one Heating jacket of the tub is passed or the like.

Further advantages and advantageous configurations of the Invention are the following description, the drawing and removable from the claims.

drawing

An embodiment of the object of the invention is in shown in the drawing and described in more detail below.

Description of the embodiment

On a building 1 , a tub 2 which can be filled with salt water is arranged horizontally, as well as a roof wall 3 facing the sun and a glass swashplate 4 facing the sun. A nozzle tube 5 is arranged on the ridge of the roof, via the nozzles of which salt water can be sprayed from the tub 2 onto the outside of the swash plate 4 . The water can be correspondingly pumped out of the tub 2 and transported to the nozzle pipe 5 via a pump 6 and a line 7 . On the eaves of the swash plate 4 there is a corresponding collecting channel 8 from which the accumulated and possibly slightly warmed water is conducted back into the tub 2 .

A semipermeable membrane 9 is arranged in the tub 2 at a certain distance from the floor, but below the water level, which allows fresh salt water to penetrate from the bottom upwards, while salt water with a higher salt concentration does not flow back. This semipermeable membrane 9 also serves as a heating screen. Apart from this, the bottom of the tub 2 is coated in a known manner so that the sun's heat is optimally absorbed.

On the inside and on the inner eaves of the swash plate 4 is a collecting channel 11 is arranged for the condensed on the swash plate 4 freshwater, such a collecting trough 11 can be arranged also on the inside of the top wall 3 and whose eaves. The condensed water is passed from the collecting trough 11 via a line 12 into a collecting container 13 .

The tub 2 is connected via a feed line 14 and pump 15 to a salt water source, for example the sea, with salt water being fed into the tub 2 at night. Correspondingly, on the side of the tub 2 facing away from this inflow, an outflow line 16 with a valve 17 is arranged, via which the salt water which is concentrated during the day can be discharged back into the sea. Pump 15 and valve 17 are controlled accordingly, so that whenever the solar effect is insufficient for evaporation, the water change takes place, possibly at a time when this "fresh water" can still warm up slightly before the cooler night begins. In many cases, however, this water change will depend on the tides in order not to have to suck in water even at low tide.

In addition to the invention, in the bottom of the tub or via the semipermeable membrane as an air supply sieve, Ambient air can be passed through the salt water, whereby this relatively warm ambient air purifies H2O the salt water, which then on the swashplate condensed again. This allows the on the base heat-related fresh water production can be doubled.

All in the description, the following claims and features shown in the drawing can both individually as well as in any combination with each other be essential to the invention.

Reference list

1 building
2 tub
3 roof wall
4 swashplate
5 nozzle tube
6 pump
7 line
8 collecting trough
9 semipermeable membrane
10th
11 collecting trough
12 line
13 collecting containers
14 supply line
15 pump
16 drain pipe
17 valve

Claims (15)

1. Equipment for the production of fresh water from salt water or the like (sea water or brackish water) using solar energy

• - with a tub ( 2 ) for holding the salt water,
• - With a design and the tub as a solar collector,
• - With a pane ( 4 ) as a roof over the tub, namely condensation of the water vapor rising from the tub, the pane allowing the sun's rays to penetrate,
• - With a condensate collecting device ( 11 ), preferably on the eaves of the pane, characterized in that the water depth in the tub is less than 50 mm.

2. Establishment, especially using the Features of claim 1, characterized in  that during the night the tub of salt enriched salt water emptied and before new operation filled with fresh salt water , with a temporary flow of fresh sea water takes place. 3. Device according to claim 1 or 2, characterized characterized in that in the space between Salt water level and disc at least periodically a negative pressure is generated. 4. Device according to claim 3, characterized characterized in that the negative pressure means Solar energy is generated by a vacuum pump. 5. Device according to one of the preceding claims, characterized in that via an arranged in the upper region of the disc line ( 5 ) salt water from the tub on the outside of the disc or under a cover disc arranged above the disc and via a collecting channel ( 8 ) , especially in the eaves area. 6. Setup according to one of the preceding Claims, characterized in that the Tub depth has a maximum of 20 mm. 7. Device according to one of the preceding claims, characterized in that in the tub a membrane ( 9 ) is arranged below the water level, which prevents the solar radiation from reaching the bottom of the tub. 8. Device according to claim 7, characterized in that the membrane ( 9 ) is semipermeable, so that only salt water can flow from the bottom up, crystals and the like. Then remain above and can be washed away. 9. Device according to one of claims 1 to 8, characterized in that by the salt water in ambient air from outside of the tub is conductive. 10. Device according to claim 9, characterized characterized in that a facility in salt water for air supply or distribution is available. 11. Device according to one of the preceding claims, characterized in that that serves as the roof of a building ( 1 ) or cover of a path. 12. Device according to one of the preceding Claims, characterized in that the disc or discs to reduce the Sunbeam reflection in its inclined position Horizontal as well as in their position to Sun direction is adjustable. 13. Device according to one of the preceding Claims, characterized in that sunlight  reflective mirrors add sunlight into the Reflect tub. 14. Device according to one of the preceding Claims, characterized in that a Solar panel for electrical power is present over and, if necessary, a power storage equipment used in the installation, such as pumps can be supplied with energy. 15. The device according to claim 14, characterized characterized that an electrically for the salt water operated auxiliary heater is provided.