OA16246A - Desalination device. - Google Patents

Abstract

A device (1) for desalination of water is described. The device comprises an inlet (2) for saltwater, a first inner container (3) which is arranged rotatable around an axis of rotation (5), a second container (6) the inside of which constitutes the evaporation surface, heating means (8) for heating of the second container (6) and thereby also the evaporation surface, and a motor (33) which is arranged to rotate the containers (3, 6) around the axis of rotation (5). The second container (6) encloses the first inner container (3) and is connected fixed to the first inner container (3). Means for distribution of water on the evaporation surface is constituted by holes (9) which are arranged in the container wall (4) of the first inner container (3) so that water may pass out to the second container (6). Holes (15) are also arranged in the container wall (7) of the second container (6) so that steam may pass out from the second container (6). A condensation surface is arranged for condensation of steam which passes out through the holes (15) in the container (7) of the second container (6).

Description

Technical field

The présent invention relates to a desalination device for desalination of sea water and to a method for desalination of sea water, Most specifically the présent invention relates to a desalination facility.

Description

Drinking water is a short supply in a considérable part of the world, This is one of the reasons why desalination of sea water has become an increasrngly popular method to create drinking water. The article Desalination Not the solution to a thirsty world, says report; http://en.epochtimes.com/news/7-6-23/56695.htmr describes desalination of sea water to create drinking water. Desalination means that sait and minerais which are dissolved rn the sea water are removed. This is achieved by heating the sea water until the water is evaporated to steam, which steam is then condensated. During the évaporation essentially ail sait and minerais are left behind, so that the separated water contains essentially no salts or minerais whatsoever. The facilities that exist today are mostly large scale facilities which are connected to existing water pipe Systems. However, there is a need for small scale desalination facilities for production of drinking water to smaller groups of users.

An alternative to said method for creatîng drinking water is to use devices in which sea water under high pressure is pressed through membranes which not allow passage of sait ions. Such devices are available in suitable size for smaller groups of users.

The Japanese patent application JP 2005144328 A describes a device for distillation of sea water which relies on évaporation of water. A wind propeller drives a shaft which is arranged inside a pipe. The space between the pipe and the shaft is filled with a heat transmission medium. The heat transmission medium and the surrounding pipe are heated by the friction when the shaft is rotating. Sea water îs allowed to pass in contact with the pipe, wherein water is evaporated. The evaporated water is condensed and collected.

Summary of the invention

An object of the présent invention is to provide a device for desalination of water, which is an alternative to known devices.

A further object of the présent invention is to provide a device for desalination of water which is simple and inexpensive to produce.

At least one of these objects is fulfilled with a desalination device and a method according to the independent daims.

Further advantages with the invention are provided with the features of the dépendent daims.

According to a first aspect of the présent invention a device is provided for desalination of water, comprising an inlet for saltwater, an évaporation surface for évaporation of the saltwater, means for heating the évaporation surface, means for distributing the water on the évaporation surface and a condensation surface for condensation of the evaporated water. The device is characterized in that it comprises a first inner container with a first container wall which is arranged rotatable around an axis of rotation, a second container with a second container wall the inside of which constitutes the évaporation surface, heating means for heating of the second container and thereby also the évaporation surface, and a motor which is arranged to rotate the containers around the axis of rotation. The second container encloses the inner container and is arranged fixed to the inner container. The means for distributing the water on the évaporation surface is constituted by holes which are arranged in the wall of the first inner container so that water may pass out to the second container. Holes are arranged in the wall of the second container so that steam may pass out of the second container, and the condensation surface is arranged for condensation of the steam passing out through the holes in the wall of the second container.

With the device according to the invention a compact device for production of drinking water is provided. During operation of the device the second container is heated so that water which hits the second container is evaporated. The steam is transported out through the holes in the container wall of the second container and is condensated against the condensation surface.

The device may comprise a third outer container with a third container wall which encloses the second container and which is fixed in relation to the motor, wherein the inside of the third container wall constitutes the condensation surface, and wherein the third outer container comprises an outlet for condensated water. With such a third outer container a conden-sation surface, which the steam easily cornes in contact with, is provided in a simple way.

The third outer container may comprise an outlet for gas, wherein lowering of the pressure in the third outer container is enabled. By lowering the pressure in the third outer container the transport of steam out from the second container is supported. In principle steam is sucked out from the second container.

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A cooling device may be arranged on the third container for cooling of the third container wall. The cooling device may be arranged as any cooling device. For example, the cooling device may comprise coolant pipes which are in contact with the third container wall. The coolant may be provided in a large number of different ways. It is not necessary for the function of the device ' to hâve a cooling device arranged on the third container wall, which could be cooled by a flow of cool gas or liquid which is made to pass the third container.

According to a preferred embodiment the holes in the first container wall do not overlap the holes in the second container wall, seen perpendicularly to any of the container wall surfaces. In this way it is avoided that water which leaves the first inner container through the holes in the first container wall passed on directly through the holes in the second container wall.

The first container and the second container may be suspended in a first bearing on one side of 15 the second container and a second bearing on the other side of the second container, wherein the axis of rotation extends through the bearings and wherein the inlet for saltwater is arranged centrally axially through one of the bearings. With such an arrangement supply of saltwater may be provided in a simple way. Furthermore, a stable suspension of the first container and the second container is provided.

The axis of rotation may be arranged essentially vertically. This facilitâtes the provision of saltwater to the first inner container as water then may be allowed to flow down in the inner container. Furthermore, the entire perimeter of the first container is used in an efficient way during operation.

The inlet may be arranged in an inlet pipe which extends along the axis of rotation through the first container. With such an inlet pipe the vertical distribution of incoming water to the first inner container may be controlled in an efficient way.

The inlet pipe may be provided with a number of holes through which saltwater from the inlet may corne into the first container. Alternatively the inlet pipe may be provided with an elongated slit which extends along the inlet pipe.

The second container may comprise a magnétisable material, wherein the means for heating 35 the évaporation surface comprises magnétisation means for induction of eddy currents in the magnétisable material. This is an alternative for heating of the second container. Another alternative is to arrange electrical heating of the second container.

The device may comprise means for applying a voltage between the first container and the second container. By arranging such a voltage accumulation of sait ions on the opposite surfaces of the first and second container is provided in a surprising way. Thereby the efficiency of the device is increased. Without such a voltage applied between the containers sait will primarily accumulate on the évaporation surface.

The second container may be essentially circularly symmetrîcal and hâve a diameter in the interval 0.2-5 meters, preferably in the interval 0.5-1 meter. These are suitable dimensions for being able to provide drinking water production for a family.

The distance between the first container and the second container may be 0.01-0.3 meters, preferably 0.03-0.06 meters. This is a suitable distance in order to be able to separate the sait ions with an electrical voltage.

The holes in the first inner container and in the second container may hâve an extension in the plane of the container wall which is 0.002-0.05 meters, preferably 0.005-0.01 meters. These are suitable dimensions in order to provide for proper function of the device.

Short description of the drawîn.qs

In the following preferred embodiments of the invention will be described with reference to the appended drawings on which:

Figure 1 shows a perspective view of a device for desalination of water according to an embodiment of the présent invention.

Figure 2 shows a cross section from the side of the device in fig. 1.

Figure 3 shows a cross section from above of the device in fig. 1 and fig. 2.

Description of preferred embodiments

In the following description of preferred embodiments of the invention the same reference numerals will be used for the same feature in the different figures. The figures are not drawn to scale.

Figure 1 shows a perspective view of a device 1 for desalination of water according to an embodiment of the présent invention. Figure 2 shows a cross section from the side of the device in Fig. 1. Figure 3 shows a cross section from above of the device 1 in Fig. 1 and Fig. 2. The device 1, comprises an inlet 2 for saltwater, a first inner container 3 with a first container wall 4 which is arranged rotatable around an axis of rotation 5. The device 1 comprises also a second container 6 with a second container wall 7 the inside of which constitutes an évaporation surface, and heating means 8 for heating of the second container 6 and thereby aiso the évaporation surface. The second container 6 encloses the inner container 3 and is arranged fixed to the inner container 3. Holes 9 are arranged in the container wall 4 of the first inner container 3 so that water may pass out from the first container 3 to the second container

6. The holes constitute means for distributing water on the évaporation surface. The second container wall 7 is constituted by magnétisable material and the heating means 8 is constituted by magnétisation means for induction of eddy currents in the magnétisable material of the second container wall 7 in order to thereby heat the évaporation surface. From Fig. 3 it is évident that the heating means 8 comprises 4 magnétisation means evenly distributed around the second container 6. Holes 15 are arranged in the second container wall 7. Water that is evaporated at contact with the évaporation surface may leave the second container 6 through said holes 15. The holes 9 in the first container wall 4 do not overlap the holes in the second container wall, seen perpendicularly to any of the container wall surfaces. It is thereby avoided that water that flows out through the holes 9 in the first container wall 4 flows directly out through the holes 15 in the second container wall 7 without first coming into contact with the évaporation surface, i.e. the inside of second container 6.

The device also comprises a motor 33 which is arranged to rotate the container 3, 6, around the axis of rotation 5. A device according to the shown invention also comprises a third outer container 10 with a third container wall 11 which encloses the second container 6 and which is fixed in relation to the motor 33. The inside of the third container wall 11 constitutes the évaporation surface and is arranged for condensation of steam which passes out through the holes 15 in the wall 7 of the second container 6. The third outer container 10 comprises an outlet 12 for condensated water, which outlet 12 is arranged in the bottom of the third container 10. The third outer container 10 also comprises a gas outlet 13. The gas outlet 13 enables lowering of the pressure in the third outer container 10 by connection of an exhaust air pump. In the shown embodiment a cooling device 14 in the form of coolant pipes is arranged on the third outer container 10 for cooling of the third container wall 11. The cooling device 14 is arranged to be supplied with coolant from a refrigerating System (not shown) for cooling of the third container wall.

In the shown embodiment the first container 3 as well as the second container 6 are essentially circularly symmetrical. The first container 3 has an upper plane surface 16 and a lower plane surface 17 and an envelope surface 20 in which the holes 9 are arranged. The second container 6 has an upper plane surface 18 and a lower plane surface 19 and an envelope surface 21 in which the holes 15 are arranged. The second container preferably has a diameter in the interval 0.2-5 meters, preferably in the interval 0.5-1 meter. The distance between the first container 3 and the second container 6 are 0.01-0.3 meters, preferably 0.03-0.06 meters. Primarily, the distance between the envelope surface 20 of the first container 3 and the envelope surface 21 of the second container 6 is intended with this.

The first container 3 and the second container 6 are both arranged fixed in relation to a first bearing part 22 on the upper side of the second container. The first bearing part 22 and thereby the first container 3 and the second container 6 are turnable in relation to a second bearing part 23 which is arranged fixed in relation to the third container 10. The first bearing part 22 and the second bearing part 23 constitutes a first bearing. The first container 3 and the second container 6 are both also arranged fixed in relation to a third bearing part 24 on the lower side of the second container 6. The third bearing part 24 and thereby the first container 3 and the second container 6 are turnable in relation to a fourth bearing part 25 which is arranged fixed in relation to the third container 10. The third bearing part 24 and the fourth bearing part 25 constitutes a second bearing. The axis of rotation is in the shown embodiment arranged essentially vertically and extends through the bearings. The inlet 2 for saltwater is arranged centrally axially through one of the bearings. The inlet 2 is arranged in an inlet pipe 26 which is turnably arranged in relation to the first bearing part 22 and the third bearing part 24. An intake hose 27 is arranged fixed in relation to the inlet pipe 26. The inlet pipe 26 extends along the axis of rotation and in the shown embodiment it extends through the first container 3 as well as the second container 6. The inlet pipe 26 is provided with a number of holes 28 through which saltwater from the inlet 2 may corne into the first container 3. A first mitre gear 34 is arranged on the shaft of the motor 33, which gear is in engagement with a second mitre gear 35 which is arranged on the fourth bearing part 25.

The device in the shown embodiment is also provided with means to apply a voltage between the first container 3 and the second container 6. The means comprises two sliding contacts 29, 30, which are connected to external connections 31, 32, through which a voltage may be applied on the containers 3, 6. During use a suitable voltage is applied between the first container 3 and the second container 6. Surprisingly, this has been shown to drive sait ions to the container walls 4, 7. The voltage is limited so that flash-over between the containers is avoided.

In the following the fonction of a device according to the invention will be described, During use of the device 1 the motor 33 is made to drive the first container 3 and the second container 6 via the first mitre gear 34 and the second mitre gear 35, Simultaneously the heating means 8 is driven to produce a magnetic field in the second container 6, The produced magnetic field will produce eddy currents in the second container 6 which in turn beats the second container. The heating means 8 is driven so that the température of the container wall 7 of the second container 6 becomes sufficiently high to essentially îmmediately evaporate water which cornes into contact with the container wall 7. Saltwater is transported in through the inlet 2 to the inlet pipe 26 and is transported via the holes 28 into the first container 3. The centrifugal force during rotation of the container 3, 6, will move the water out against the wall 4 of the first container 3. Water will be pressed out through the holes 9 in the container wall 4 of the first container 3 to the second container 6 where it cornes into contact with the container wall 7 of the second container 6 and is evaporated, The steam will be pressed out through the holes 15 in the container wall 7 of the second container 6. According to a preferred embodiment a gas pump 36 is connected to the gas outlet 13 so that the pressure in the third container 10 may be lowered below normal atmospheric pressure. A lowered air pressure in the third container 10 will promote flow of steam through the holes 15 in the second container wall 7. The gas pump 36 will pump out a part of the steam. It is possible to separate the water that has been pumped away after the gas pump 36. The steam that is not pumped away with the gas pump 36 will be evaporated against the container wall 11 of the third container 10, which is cooled by coolant which is pumped around in the cooling device 14.

In orderto increase the efficiency ofthe device 1 a voltage is supplied between the external connections 31, 32, and thereby between the first inner container 3 and the second container 6. The applied voltage will surprisingly resuit in that the different sait ions are separated and deposited on the first inner container 3 and the second container 6, respectively, in the space between said containers 3, 6. This requîtes the containers to be made essentially entirely of métal.

Sait will thus accumulate in said space. When the holes 9 in the container wall 4 of the first container 3 and the holes 15 in the container wall 7 of the second container 6 are beginning to clog by sait the operation of the device is suitably interrupted. The device is then rinsed with saltwater without heating and voltage turned on, whereby the sait deposits will be dissolved. In order to increase the rate the voltage between the first inner container and the second container may possibly be reversed in comparison to the operational state.

The described embodiments may be modified in many ways without departing from the spirit and scope of the invention which is limited only by the appended daims.

It is of course possible to manufacture a device according to the invention with a size outside the above stated intervals.

ft is of course possible to achieve heating of the second container with other means than magnétisation members.

Claims (13)

1. Device (1) for desalination of water, comprising an inlet (2) for saltwater, an évaporation surface for évaporation of the saltwater, heating means (8) for heating of the évaporation surface, means for distribution of the water on the évaporation surface and a condensation surface for condensation of the evaporated water, characterized in that it comprises a first inner container (3) with a first container wall (4) which is arranged rotatable around an axis of rotation (5), a second container (6) with a second container wall (7) the inside of which constitutes the évaporation surface, heating means (8) for heating of the second container (6) and thereby also the évaporation surface, and a motor (33) which is arranged to rotate the containers (3, 6) around the axis of rotation (5), wherein the second container (6) encloses the first inner container (3) and is connected fixed to the first inner container (3), wherein the means for distributing the water on the évaporation surface is constituted by holes (9) which are arranged in the container wall (4) of the first inner container (3) so that water may pass out to the second container (6), wherein holes (15) are arranged in the container wall (7) of the second container (6) so that steam may pass out from the second container (6), and wherein the condensation surface is arranged for condensation of steam which passes out through the holes (15) in the container wall (7) of the second container (6),

2. Device (1) according to claim 1, comprising a third outer container (10) with a third container wall (11) which encloses the second container (6) and which is fixed in relation to the motor (33), wherein the inside of the third container wall (11) constitutes the condensation surface, and wherein the third outer container (10) comprises an outlet (12) for condensated water.

3. Device (1) according to claim 2, wherein the third outer container (10) comprises a gas outlet (13), wherein lowering of the pressure in the third outer container (10) is enabled.

4. Device (1) according to claim 2 or 3, wherein a cooling device (14) is arranged on the third container (10) for cooling of the third container wall (11).

5. Device (1) according to any one of the preceding claims, wherein the holes (9) in the first container wall (3) do not overlap the holes (15) in the second container wall (7), seen perpendicularly to any one of the container wall surfaces (4, 7).

6. Device (1 ) according to any one of the preceding claims, wherein the first container (3) and the second container (6) are suspended in a first bearing (22, 23) on one side of the second container (6) and a second bearing (24, 25) on the other side of the second container (6), wherein the axis of rotation (5) extends through the bearings (22-25), and wherein the inlet (2) for saltwater is arranged centrally axially through one of the bearings (22-25),

7. Device (1) according to claim 6, wherein the axis of rotation (5) is arranged essentially

5 vertically,

8, Device (1) according to claim 6 or 7, wherein the inlet (2) is arranged in an inlet pipe (26) which extends along the axis of rotation (5) through the first container (3),

10 9. Device (1) according to claim 8, wherein the inlet pipe (26) is provided with a number of holes (28) through which saltwater from the inlet (2) may enter the first container (3),

10. Device (1) according to any one of the preceding claims, wherein the second container (6) comprises a magnétisable material and wherein the heating means (8) comprises magnétisation

15 means for induction of eddy currents in the magnétisable material, which eddy currents in turn heat the second container (6).

11. Device (1) according to any one of the preceding claims, comprising means for applying a voltage between the first container (3) and the second container (6).

12. Device (1) according to any one of the preceding claims, wherein the second container (6) is essentially circularly symmetrica) and has a diameter in the interval 0.2-5 meters, preferably in the interval 0.5-1 meter.

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13. Device (1) according to any one of the preceding claims, wherein the distance between the first container (3) and the second container (6) is 0.01-0.3 meters, preferably 0.03-0.06 meters.

14. Device (1) according to any one of the preceding claims, wherein the holes (9, 15) in the first inner container (3) and in the second container (6) hâve an extension in the plane of the

30 container wal) which is 0.002-0.05 meters, preferably 0.005-0.01 meters.