FI127647B - Device for water purification - Google Patents

Abstract

This device can be constructed in a small or large design and by the present method drinking water can be obtained from sea water and a device based on the process can be used for irrigation, since the cleaning of water is particularly advantageous by means of this invention. The device comprises a tube with one end for receiving water (1), a center tube (5) arranged in the tube, the end of the center tube (5) located at a distance from the end of the receiving tube of the water (1), a first deflection magnet (2). ) arranged on the distance between the ends of the tube and the center tube (5) to form a first magnetic field and a second deflection magnet (4) arranged between the first deflection magnet (2) and the middle tube to form a second magnetic field. The first deflection magnet (2) and the second deflection magnet are arranged such that by means of the first deflection magnet the first magnetic field is formed and by the second deflection magnet the second magnetic field is formed so that the negative ions (7) and the positive ions (8) is moved in the direction of the center tube (5).

Description

APPARATUS FOR WATER TREATMENT

TECHNICAL FIELD The present invention relates to the purification of ionic water, in particular seawater. In particular, the invention relates to the purification of seawater by means of magnets.

More specifically, the invention relates to a device for purifying water according to the preamble of claim 1.

BACKGROUND Desalination of seawater is an old problem. In the old methods, seawater is distilled to make it potable. This method requires a lot of energy and is used in 10 rich Arab states. The purification of seawater and other non-potable water for drinking water has been described in several publications. The following is a list of some of the prior art solutions of this invention: CN 101121556, JP 2002186974, KR 20030001948, CH 202063756, CH 2047664, RU 2094385, GB 2503455, CH 2668610, DE 3031673, SE 405687 and WO 2011132477.

SUMMARY Seawater is composed in part of ions. The salt is in ionic form in water. There are both positive and negative ions in the water. In the device according to the invention, these are both separated from the water. The appliance runs in running water and clean water is obtained from the center pipe of the appliance. The device can be made small, 20 permanent magnets can be used in a small device, superconducting magnets must be used in large plants.

The invention is characterized by what is stated in the characterizing part of the independent claim.

BRIEF DESCRIPTION OF THE DRAWINGS In the following, some embodiments of the invention will be described in more detail with reference to the accompanying drawings, in which:

FIGURE 1 schematically shows the operating principle of the invention.

20160009 prh 26 -07- 2018

EMBODIMENTS FIGURE 1 schematically illustrates the principle of operation of the invention. It is denoted by incoming seawater by reference numeral 1, first deflection magnet 2, deflection ions 3, deflection ions 4, second deflection magnet 5, inner tube attachment 6, second inner tube attachment 7, distilled water 8, inner tube attachment and third magnet 9, ionic water 10, ionic water 11, a third inner tube attachment and a third inner tube attachment.

This is a salt water purification device. The purification takes place with magnetic fields 2, 4 and 9. In the method, the sodium ion is directed to a different tube 5. The salt 10 is removed from the water by magnetic guidance. The seawater purifier is built of stainless steel. There are three magnetic fields and all fields are truncated toroidal fields. The fields are positioned so that the two fields 2, 4 are at the front of the device. The first deflection magnet removes most of the sodium ions and the second deflection magnet 4 removes the remaining sodium from the water. The third magnet 9 deflects 15 all electrically charged particles. A third magnet is placed in the inner tube

10. The device provides good drinking water from seawater. The device also removes mutagens because they are negative particles (ionic water 11).

The device does not require much energy and is as efficient as the water distillation method. The test device has purified 4% brine into good drinking water. 20 The magnetic distillation of an apparatus is based on the fact that different substances have completely different magnetic properties in magnetic fields. The device can also be used for liquids.

The magnetic fields are constructed as follows: 200 turns of 2 mm insulated copper manure are wound clockwise. The shape of the three magnets are fields of a truncated toroid. In practice, 24 volts and 120 amps of direct current are sufficient to generate 25 sufficient magnetic fields. The above-mentioned equipment is sufficient for the operation of a medium-sized treatment plant. The salt is removed from the water while it is in motion in the tube and is directed to the intermediate tube by magnetic forces because sodium has such a high magnetic moment. It is so high that it can be removed to a different tube 12. With the test device, it was removed in the first deflection field. The third magnetic field removes all magnetic 30 electrical particles so that the end result is distilled water. The waterworks must have two deflection magnets in front in order for the equipment to operate reliably and direct the seawater to the intermediate pipe. The third magnet is installed in an inner tube that already has water free of sodium. The third magnet removes both negative and positive ions.

The cleaning device operates in a continuous process, its efficiency is high compared to the old methods.

The seawater purification device should be constructed of a square tube, since it facilitates the production of circular magnets. Magnetic fields can be easily constructed by turning from wrought iron. The winding has to be done by hand.

The cleaning takes place with magnetic fields and a triple tube system. Sodium ion is in ionic form in water. The magnetic field acting on it changes the direction of the ion, allowing the sodium ion to travel close to the edge and can be removed from solution.

Also, both positive and negative ions are eliminated in their own ways. Distilled water remains in the biscuit part of the piping. Water also has a small magnetic moment. However, it is so small that it does not significantly affect the operation of the device. Magnetic distillation does not require heating the water, only that the water be circulated in the tube.

INDUSTRIAL APPLICABILITY The device is suitable for the purification of water, in particular seawater, into drinking water.

Claims (1)

Claims: An apparatus for purifying ionic water, the apparatus comprising: . a first deflection magnet (2) adapted to travel between the ends of the tube and the center tube (5), a central tube (5) arranged inside the tube, the end of the central tube (5) being spaced apart from the end of the receiving tube of the water (1); to generate a first magnetic field, a second deflection magnet (4) arranged between the first deflection magnet (2) and the center tube to form a second magnetic field, and the first deflection magnet (2) and the second deflection magnet are arranged so as to form a first magnetic field and a second negative the ions (7) and the positive ions (8) move away from the central tube (5), characterized in that the first (2) and second (4) magnets are arranged so as to form separate magnetic fields.