ES2352401B1 - IMPROVEMENTS IN THE OBJECT OF PATENT N P200802513 BY: DEALINIZING DEVICE FOR SELECTIVE MEMBRANES AND MAGNETIC FIELDS THAT DOES NOT USE ELECTRODES - Google Patents

Abstract

This Certificate of Addition refers to improvements in the object of Patent No. P-200802513, relating to a desalination device for selective membranes and magnetic fields which do not require electrodes to carry out their function. The improvements introduced with respect to said patent consist in the possibility of making the device with a prismatic configuration, using prisms whose base can be any regular geometric figure; setting the proper distance between membranes for optimal performance; and, finally, the possibility of generating the necessary magnetic field by means of turns of superconducting material wrapped around the elements of the device.

Description

being the factor of great importance the potential of

Refinements in the object of patent No. P 200802513 for: "Desalination device for selective membranes and magnetic fields that does not use electrodes". Object

This Certificate of Addition refers to improvements in the object of Patent No. P200802513, relating to a desalination device for selective membranes and magnetic fields which do not need electrodes to carry out their function.

As expressed in the description of the main patent, it is a device whose purpose is to achieve the desalination of brackish water, performing this function by the combined action of magnetic fields generated inside the device and ion-selective membranes, obtaining thus a water flow with low concentration of saline ions.

In this certificate of addition, the proposed improvements for the device are aimed at improving water production yields as well as the energy efficiency and operability of the device, as well as for which they focus on the following specific aspects:

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On the one hand in the inclusion of the possibility of making the components that form the device in prismatic geometries, instead of cylindrical as mentioned in the main patent.

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On the other, in determining the necessary separation between membranes inside the chamber to obtain the maximum possible performance of the device.

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Finally, it includes the possibility of achieving the magnetic field necessary to general the movement of ions through the arrangement of turns of superconducting material through which an electric current will circulate.

All these options will be detailed later. Field of the Invention

This is a device that satisfactorily solves the physical separation of the ions dissolved in an aqueous solution from the water molecules of said solution. It is basically intended for desalination of seawater. Background of the invention

As indicated in the main patent, the device bases its operation on the absence of extreme chambers, given that the initially planned cylindrical configuration of the device allowed the channels formed in the membrane chamber to form a closed circuit. In this way it was achieved that all the channels were kept electrically neutral, thus avoiding the generation of potentials that impaired the desalination process.

From this con fi guration a cylindrical embodiment model was inferred, with all bodies mounted around a common axis. The fact of replacing the original cylindrical geometry with another prismatic one opens up new possibilities of operation of the device, also facilitating the manufacture of these elements.

On the other hand, the separation between membranes is a parameter of great importance at the time of Donnan. Within the same channel the concentration of ions will not be uniform, given that due to the attraction exerted by the free ions existing within the selective membranes, a greater concentration occurs in the areas close to them.

The greater ionic concentration in the vicinity of these membranes will therefore generate a small electrical potential, potential of Donnan, which will make the movement of ions caused by the magnetic field difficult. Given the impossibility of eliminating this circumstance, it is decisive to establish an adequate distance between membranes of each type in order to minimize the aforementioned harmful effects.

Obtaining a magnetic field of sufficient intensity to achieve a correct desalination of the water to be treated is difficult through the use of permanent magnets, given the complexity in the task of magnetizing a hollow cylinder by providing a pole on the outer face and another on the inner face By introducing windings wound on the outer face of both the outer cylinder and the inner cylinder it is possible to obtain a magnetic dipole in whose magnetic field the direction of the field lines will be radial between both cylindrical. In addition, this arrangement allows to regulate the intensity of said field by acting on the current of the turns, thus generating obvious advantages both in manufacturing cost and in operability of the device. Explanation of the invention.

The desalination device by means of magnetic fields and ion-selective membranes that do not use electrodes, according to the present certificate, solves the described problem even better, thanks to the improvements that it recommends, which are based on the modification of the geometric configuration of the same device, so that water and energy production yields are improved and the manufacturing of the elements is simplified.

For this and in concrete terms, these improvements consist of:

Include the possibility of realizing the components of the device in a prismatic geometry, which can be specified in triangular base prisms, square base and, in definitive, any type of geometric figure suitable depending on the manufacturing process to be used.

The second improvement provided by this certificate of addition consists in establishing an adequate distance between membranes so as to minimize as much as possible the negative effect created by Donnan's potentials. For this, it is necessary to counter this effect to other hydraulic effects such as the loss of load generated by an excessive number of membranes and other parameters such as the final volume of each of the channels created. Thus, a separation between membranes in a range between 0.2 cm and 2 cm makes it possible to obtain the optimum distance to obtain maximum device performance.

The third improvement is achieved by winding coils of superconducting material on the outer face of the inner and inner cylinders. These turns are arranged at a predetermined distance that will be a function of the current intensity that circulates

3 EN 2352401A1 4

cula by them, having said current an alternate sense in each turn. Thus, the turns will be arranged in pairs, being the direction of circulation of the alternating current in each of the turns. In this way it is possible to generate a series of north and south magnetic poles in the device, resulting from the sum of all the generated magnetic fields that the resulting field lines in the intermediate zone between both devices make radial sense.

Description of the drawings

To complement the description that is being made and in order to help a better understanding of the characteristics of the invention, this descriptive report is attached, as an integral part thereof, of a set of drawings, in which with character Illustrative and not limiting, the following has been represented:

Figure 1 shows a variant of obtaining the device through the use of prismatic elements, in particular a geometry based on pentagonal prisms is represented.

Figure 2 shows an arrangement of windings wound in the outer and inner cylinders by means of which a magnetic field with radial field lines between both cylinders is achieved. Preferred Embodiment of the Invention

A preferred embodiment of the device object of the present specification is described below without limitation as to its formal constitution or small variants that lack importance as regards the modification of its main function.

The necessary magnetic field is generated by the arrangement of turns of superconducting material, in this particular case it is an NbTi alloy, typically commercial. These windings are arranged in pairs, being necessary for the correct generation of the magnetic field sought that the direction of the current flow is opposite between the members of each couple. This causes the appearance of magnetic fields in the environment of the turns which will have their equal poles facing each other, so that the field lines repel, resulting from the sum of the fields a result that will make radial sense in the inner zone between the two cylinders

The outer (1) and inner (2) cylinders are made of soft iron, forming the air gap of the superconducting coils for the generation of the magnetic field.

Between both cylinders the membrane chamber is arranged, in which the selective membranes will be arranged at positive and negative ions. In this new arrangement, the separation between membranes is 1 cm.

In another optional embodiment, as mentioned above, con fi guration is possible by means of prismatic geometry, so that both the outer and inner magnet and the membrane chamber adopt a non-circular section, but formed from a figure. regular geometric

Sufficiently described the nature of the present invention, as well as the manner of putting it into practice, it is noted that within its essentiality, it may be implemented in other embodiments that differed in detail from that indicated by way of example, and which will also achieve the protection that is sought as long as it does not alter, change or modify its fundamental principle.

5 EN 2352401A1 6

Claims (4)

one.

Refinements in the object of patent No. P200802513 by: desalination device for selective membranes and magnetic fields that does not use electrodes, characterized in that both the outer body (1) and the interior (2) and the membrane chamber (3) are set to from a prismatic geometry.

2.

Improvements in the object of patent No. P200802513 by: desalination device for selective membranes and magnetic fields that are not used

electrodes, characterized in that the distance between selective membranes at positive ions and selective membranes at negative ions is in a range between 0.2 cm and 2 cm. 3. Refinements in the object of patent No. P200802513 by: desalination device for selective membranes and magnetic fields that does not use electrodes, characterized in that it is disposed on the outer surface of the outer body (1) and the inner body (2) of one or more pairs of coils of superconducting material.  ES 2 352 401 A1   SPANISH PATENTS AND BRANDS OFFICE Application no .: 200901589 SPAIN Date of submission of the application: 07.15.2009

REPORT ON THE STATE OF THE TECHNIQUE

Priority Date: 00-00-0000 00-00-0000 00-00-0000

51 Int. Cl.:

C02F 1/48 (2006.01)

B01D 61/46 (2006.01)

 RELEVANT DOCUMENTS  

Category

56 Documents cited Claims Affected

TO

EN 1067217 U (PENRO BALLESTER PENALTIES; ABAD GARRIDO FCO JAVIER) 01.05.2008, column 1, lines 40-65; column 3, line 30 - column 4, line 1; figures 1-2. 1-3

TO

EN 1066215 U (PEDRO BALLESTER PENNS) 01.01.2008, column 1, line 60 - column 2, line 10; column 3, lines 10-12; column 4, lines 12-32; figures. 1-3

TO

US 2007039862 A1 (DUNLAP H R) 02.22.2007, description; figures. 1-3

TO

US 2004154924 A1 (KARLSRUHE FORSCHZENT) 12.08.2004, description; figures. 1-3

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of realization of the report 21.09.2010

Examiner E. Pina Martínez Page 1/4

Application number: 200901589 REPORT ON THE STATE OF THE TECHNIQUE Minimum documentation sought (classification system followed by classification symbols) C02F, B01D Electronic databases consulted during the search (name of the database and, if possible, search terms used) INVENTIONS, EPODOC, WPI State of the Art Report (additional sheet) Page 2/4  WRITTEN OPINION Application number: 200901589 Date of Completion of Written Opinion: 09.21.2010

Statement

Novelty (Art. 6.1 LP 11/1986)

Claims 1-3 Claims _____________________________________ IF NOT

Inventive activity

Claims 1-3 YES

(Art. 8.1 LP11 / 1986)

Claims _____________________________________ NO

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. Report on the State of the Art (Written Opinion) Page 3/4  WRITTEN OPINION Application number: 200901589 1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

ES1067217U 01.05.2008

2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement The present application constitutes an addition to the application with number P200802513. The proposed claims include a series of improvements in the object of said application, defined in a single claim. A series of documents that did not affect its patentability were cited in the State of the Art Report of the main application. In particular, document D01 was considered as the prior art prior to the claimed object document, although it did not affect the requirements of novelty and inventive activity of the single claim for presenting a series of significant structural differences. Extending the arguments presented in the written opinion of said report and not having found documents after the date of submission of the application P200802513 that could affect the patentability of the present application, it is considered that it also meets the established requirements in Art. 4.1 of Patent Law 11/86. Report on the State of the Art (Written Opinion) Page 4/4