FR2880881A1 - Replication device for the separation of salt from seawater, comprises a retention basin is placed on a tank for reserving water and formation of a dew point, and a peripheral water trap - Google Patents

Abstract

The basin (1) is completely covered and isolated in the thickness of hull having a unit for receiving the seawater through evaporation process. The tank (2) covers the units, which retains the evaporation and facilitates the flow by the gravity of desalted water towards the trap (3) during production. The peripheral desalted water trap collects the desalted water in the device towards the exterior water reservoir.

Description

The present invention relates to a device allowing the separation of

  water and salt contained in seawater.

  The device is a replication under the control of the man. By means of an elementary method, known; the process of separation of water and salt from seawater is realized. The evaporation action occurs in the device. This evaporation is controlled under the roof of the device to condense at the dew point. The metamorphosis occurred, the water is desalinated, it flows into the water collector provided for this purpose to channel it to the water tanks. Evaporite has metamorphosed to the bottom of the device.

  Seawater is in large quantity of availability, and it is free, it is a raw material of first choice.

  The device consists of a basin (1) of retained seawater, it is completely covered by a roof (2) and provided with a collector for desalinated water (3). The natural process takes place in time, the human intervention is not solicited permanently. The estimation of the evaporation of water from a body of water after the observation in the open air is on average from ten to twenty millimeters for a time span of thirty days, by ten to seventeen degrees of heat and no wind. The wind dries up the salty or unsalted water, the water evaporates and is lost in the nature.

  The device of the invention is designed to create this natural process by controlling it so as to reactivate it. At the end of the process, separately, in the device there is only evaporite at the bottom of the basin, desalinated sea water has migrated into the water tank outside the device. Favorable and sufficient conditions for the phenomenon, elementary principle, resulting from the technique of the device implemented, created for the process of replication to materialize. The cycle of the process was carried out alone and naturally. The device requires only a simple equipment for its development of operation.

  The production of seawater is carried out by specially equipped ships. Seawater is collected in situ, to be filtered by means of electric motors powered by a generator. The water is desalinated 2880881 2 after passing through a specific membrane. The fresh water thus obtained is in sanitary compliance with the salinity level for human consumption. Other complex processes are used, such as a deep diving sphere operating by the water pressure exchange; the list of processes is not exhaustive.

  The production of fresh water on land is traditionally done through a water treatment plant for public distribution. The process is long, rigorous and expensive. The availability of water is running out as demand grows. The production of salt is traditionally carried out by means of a saline, in which salt is produced by extracting the rock salt or by evaporating saturated water extracted from the subsoil. The exploitation of natural, local accumulations of underground or aboveground salt salt sites is depleted.

  The device according to the invention overcomes these disadvantages. It has indeed according to a first feature, a basin (1) completely sealed, isolated as a whole, fully horizontal in all directions and perfectly vertical in all directions, completely free of impurity of any kind ensuring the sanity of the products. A second characteristic, in a roof (2) completely sealed and hermetically covering the entire device, a zone is transparent to its ridge (6) allowing the greenhouse effect in the device, in order to store the heat of the sun. Lateral zones at the cold slopes (5) for the concentration of dew points. A third characteristic, a collector (3) of runoff water condensation due to the evaporation of seawater, for conveying the desalinated water outside the device to the tank tight and clean for the needs of sanitary storage.

  The process is entirely natural and free. It is realized in two distinct stages, each one has different times. After filling the basin (1) with seawater, collected at the seaside and deep below the level of the low tide, for reasons of cleanliness and gravity at different levels, between the 2880881 3 basin (1) which is lower than the low sea. This maneuver is under the control of the man, by opening the basin filling valve (1). When the desired volume of seawater is reached, the man closes the valve without further procedure.

  Therefore the process after a latent period, the seawater evaporates and condenses in the device. At the end of the replication cycle in the device designed for an objective responding to the separation of water and salt contained in seawater; the second step is carried out when the basin (1) is totally dry and having a layer of evaporite on its bottom. The man intervenes for the second time. This operation consists of harvesting the salt. At the end of the salt harvest, the man checks the inventory. If it turns out that everything is in order, the man remade the filling of the device in the basin and so on.

  The replication obtained by the device, that the ambient air inside is warmed naturally and free by the greenhouse effect (6) of the roof (2) which acts as a heat trap. Seawater at the surface is warmed up and evaporation is accelerated.

  This evaporation can be optimized by certain improvements without limit of improvement process, aiming at a better production in situ of exploitation. The state-of-the-art operation of the device is able to provide availability that is complementary to the lack of desalinated water and salt in the near future. By the method employed, the treatment of the two products is a serious answer to the disadvantages of chemical inputs. Natural preservation is fully safeguarded. This does not exclude the control of the qualities imposed by the health services.

  According to particular embodiments: The device may have in the lower part at the bottom of the basin (1) a heated zone (9) using heating elements, such as solar collectors, providing electrical energy and also for cold production (8) and other useful equipment for better production.

  The accompanying drawings illustrate the invention: FIG. 1 represents in section, the device of the invention.

  Figure 2 shows in section, a variant of this device.

  With reference to these drawings, the device comprises a basin (1) which comprises a zone at its heated base (9) supplied with electricity by solar panels (7) arranged on a portion of the roof (2).

  The roof (2) has cold zones on either side of the slopes naturally cooled by outside air accentuated by cooling elements.

  The collector (3) of peripheral water consists of two parts, contiguous not illustrated entirely adjacent to the bottom of the roof (2) inner sides having a trough portion (3) for collecting desalinated water and a part under the channel ( 3), type chute (4) for conveying water to the external storage tank or other external storage.

  According to a variant not illustrated, the storage of water can be done in a water tower, a tank or in a tank in situ. Salt storage can be done under sheds on the production site.

  By way of non-limiting example, the device has dimensions of the order of 50 meters for the length, 20 meters for the width and 5 meters for the height. The capacity of the device may be approximately 400 cubic meters of air and 100 cubic meters of seawater. For approximate production and water salinity rates of 95 cubic meters of water desalinated and 3 to 5 cubic meters of evaporite.

  The device can be reproduced as many times as one can and space available on the site. The multiplication of the sites can be done on the existing sectors, such as salt marshes which are at the edge of the littoral. To perfect the profitability and the autonomy of the exploitation in the framework of decongestion of the storage surfaces and for the commercialization of the desalinated water and the salt of sea, one can envisage procedures of conditioning of the desalinated water in bottle or cubitainer implemented in the site, as well as for sea salt on the site in bag, box or bag. This organization offers a considerable saving of time and money, considering the centralization in the exploitation of the production of the finished products.

  The device according to the invention is particularly attractive in view of its implementation and its design. It is designed to last in time. The free raw material and the minimum manpower makes the device very competitive.

  The process of the device is simple, it exists in nature as an immutable process in the free air present, in the atmosphere in the state of water vapor at 4 c. The use of the device is simple and inexpensive. Both periodically, piecemeal by salt workers, or industrially for continuous production from industrialized groups.

  The device according to the invention is particularly intended for the production of desalinated water and sea salt from seawater. Its application is also intended for the production of water on various water bodies, salted and unsalted water.

  The device is easy to design, it has the advantage of being dismountable and remountable by its structure on other sites at the end of operation, case of a site that has dried up. The function of the device is always the same, it is that of using the evaporation of water, retaining it so that the evaporation of water condenses under the action of temperature differences. Higher without boiling so as not to alter the dissolved salt in the seawater and the device inside. And lower on the outside of the device. This immutable situation occurs in nature in the open air throughout the structure of the Earth's atmosphere.

Claims (1)

6 claims   1) Replication device for the separation of water and salt contained in seawater, characterized in that it comprises in the structure of its assembly a basin (1) for the retention of seawater , on which is placed a roof (2) retaining and dew point formation and a peripheral water collector (3).   2) Device according to claim 1 in that the basin (1) is fully covered and fully insulated in the thickness of its shell, is a first part of the whole, receiving seawater in a process of operation. evaporation and evaporite at the end of the process.   3) Device according to claim 1 or 2 characterized in that the roof (2) completely covers the assembly constitutes a second part of the assembly, for retaining evaporation and the formation of dew points and facilitates the gravity flow of the desalinated water to the collector (3) during the entire water and salt production cycle.   4) Device according to claim 1, 2 or 3 characterized in that the collector (3) of peripheral desalinated water is a third part of the assembly for collecting the desalinated water in the device to the external water tank. The materialization of the evaporite is realized at the bottom of the basin (1) during the process of replication inside the device.