UA28547U - Mechanism for water or aqueous solutions treatment with metal ions - Google Patents

Abstract

A mechanism for water or aqueous solutions treatment with metal ions contains container of limited capacity, in which short-circuited electrodes made of metals with different electrochemical potentials are disposed. Metals are selected of series: silver, gold, copper, nickel, palladium, platinum, molybdenum, cobalt, rhodium, iridium, tantalum, vanadium, iron, manganese, tungsten, chrome, zinc, tin, lead, osmium, zirconium, niobium, titanium, aluminium, magnesium. Short-circuited electrodes are made in the form of agglomerates of nano-particles of dissimilar metals forming electrochemical pairs.

Description

Description of the invention

The useful model refers to devices for treating water and aqueous solutions with metal ions and can be used for the preparation of therapeutic and preventive solutions in various fields of medicine: dentistry, otorhinolaryngology, hygiene, etc., as well as in sanitation, veterinary medicine, cosmetology, communal economy, aquariums, in everyday life, etc.

Antimicrobial properties of water treated with ions of some metals, in particular silver, have been known for a long time (Kulsky

L.A. Silver water. Kyiv: Naukova dumka, 1987, p.10). Thus, when maintaining aquariums, a well-known method of preventing diseases in aquarium fish is when metallic silver is placed in the water environment of the aquarium. However, the method of contact silvering of water is ineffective and does not give values of the concentration of Ad' ions sufficient to suppress many pathogenic microorganisms | (Kulsky L.A. Silver water. Kyiv: Naukova dumka, 1987, p. 73-75).

Devices - ionizers are used to obtain solutions with the required concentration of metal ions. As a rule, most models of ionizers have external power sources for extracting ions from the anode.

Famous household autonomous ionizer "Silva" | Patent KO 2096335, 29.04.96, IPK СО2Е1/46/ Danylyuk V.G.

Beat self-contained ionator "Silva" |) containing a power source connected through an electrical circuit to electrodes immersed in water, at least one of which is an anode made of silver.

The disadvantage of this ionator is the impossibility of using it without a current source. In addition, with the help of the "Silva" ionizer, it is impossible to treat liquids with ions of other metals except silver ions, while, for example, copper ions also have pronounced antimicrobial properties.

The joint use of several metals, in particular, silver and copper to obtain bactericidal aqueous solutions has been known since ancient times. For example, researchers of Sumerian culture found metal vessels made of a combination of metals - silver and copper, which were used for medicinal purposes. These are the famous 29 Entemene vases and copper jugs with silver spouts. Copper and silver are synergistic metals. Their combined effect on microorganisms is much higher than that of silver and copper separately. Researchers believe that when storing water in a vase

Silver and copper ions were generated in the water, its water turned into a healing and rejuvenating elixir.

Thus, the Sumerians were the first to use silver and copper together to obtain a healing solution. Vase

Entemene has been preserved to this day as a monument of Sumerian culture and is in the Louvre, see N.A. Morozov - "Mirages of historical legends", Volume 9. "History of human culture in natural and scientific enlightenment. "I

Christ, in 10 volumes."-- M. KraftLean, 1997-2003; Petkova SM. Directory of world culture and art,

M., 2005. - 507 si. and

The disadvantage of such a device is the low concentration of silver and copper ions in water and the impossibility of obtaining sufficiently saturated concentrated solutions of these metals in large quantities.

З Well-known device for liquid ionization (Patent UR 7008358 84, 04.06.92, IPC 6 СО2Е1/46 / Muto Tadanobu, school

Kasivada Takzsa. Device for liquid ionization)|. The device consists of a pipe, on the inner surface of which a layer of insulation is formed. On the surface of the insulation there are overlays made of electrically conductive materials with different electrochemical potential. The space between the overlays is divided by electrically insulating partitions, which prevent direct connection of the overlays. When the liquid passes through the pipe, ions are released from the pads. -at

The disadvantage of the known device is that for full contact with the electrically conductive overlays, the liquid flowing through the pipe must be under pressure, which requires the presence of additional water-pressure devices, such as pumps, water-pressure towers, etc. In addition, the contact of the conductive pads with the liquid flowing through the pipe is limited in time, which can be an obstacle to obtaining the required concentration of ions. kyu 15 The closest thing to what is claimed is a device for treating water or aqueous solutions with metal ions, containing a vessel of limited capacity, in which there are short-circuited electrodes - anode and cathode, (ee) made of metals with different electrochemical potentials, and metals selected from the series: silver, copper, gold, sl platinum (Patent of Russia Mo2190573. Antimicrobial ionator and method of preparation of therapeutic and prophylactic solution. MPK7 СО2Е1/467. Publ. 2002.10.101.

Сг" 50 The disadvantage of the known device is the low efficiency of ionization due to the fact that, according to Faraday's law, the amount of substance dissolved during electrolysis is proportional to the amount of electricity generated by the electrodes. Since the known device uses only one pair of electrodes with a very small power, the efficiency of such a device is low.

The basis of a useful model is the task of increasing the efficiency of ionization. This is achieved by the fact that 99 anodes and cathodes are made in the form of nanoparticles. Due to this, their number in the liquid can reach hundreds of millions and even billions, which ensures effective ionization.

The proposed, as well as the known, device for treating water or aqueous solutions with metal ions, containing a vessel of limited capacity, in which there are short-circuited electrodes made of metals with different electrochemical potentials, and the metals are selected from the following: silver, gold, copper, nickel, palladium , platinum, 60 molybdenum, cobalt, rhodium, iridium, tantalum, vanadium, iron, manganese, tungsten, chromium, zinc, tin lead, osmium, zirconium, niobium, titanium, aluminum, magnesium, and, according to this proposal, the number of shorted of electrodes in a liter of water is not less than 109, while the short-circuited electrodes are made in the form of agglomerates of nanoparticles of dissimilar metals that create electrochemical pairs. 65 The number of short-circuited nanoelectrodes in a liter of water at least 105 ensures effective ionization in the liquid and the required concentration of metals in the liquid.

The execution of anodes and cathodes of short-circuited electrodes in the form of agglomerates of nanoparticles of dissimilar metals, which create electrochemical pairs, allows using the principle of a galvanic element for a very large number of nano-sized current sources. At the same time, the ionization process is effectively carried out in a vessel of limited volume, which allows controlling the duration of ionization necessary to obtain a given concentration of ions.

Agglomerates of nanoparticles of dissimilar metals are obtained by erosion-explosive dispersion of metal granules in deionized water | see Patent of Ukraine for utility model Mo23550. The method of erosion-explosive dispersion of metals. IPC B22E9/14. Published on May 25, 2007. Bul. Mo7; Patent of Ukraine for 7/0 Utility model Mo23944. Agglomerate of colloidal metal particles. IPC (2006) вО1913/00 Вв3285/16.

Publ. 11.06.2007, Byul. Mov8.1.

The drawing shows a device for treating water or aqueous solutions with metal ions. The device contains a vessel 1 in which there is a liquid 2 with agglomerates of nanoparticles 4 and 5 of dissimilar metals creating short-circuited electrodes. Short-circuited electrodes are made of metals with different electrochemical potentials, for example, Si, Aa, Ai.

The device for treating water or aqueous solutions with metal ions consists of vessel 1 and a large number of nanoelectrodes 4 and 5, creating short-circuited nanoelectrodes in the composition of agglomerates of metals with different electrochemical potentials, for example, silver-copper-gold.

To use the proposed device, a liquid 2 is poured into the vessel 1, which is intended for ionization and is an electrolyte in the form of drinking water or the necessary solution. A colloidal solution of agglomerates of metal nanoparticles with different electrochemical potentials is added to the liquid (Patent of Ukraine for a useful model

Mo23944. Agglomerate of colloidal metal particles. IPC (2006) 8O01913/00, B3285/16. Published 11.06.2007,

Bul. Mov.|.

Being in the liquid, nanoelectrodes 4 and 5 function as nanogalvanic elements, and the anode emits ions about the metal from which it is made. The concentration of ions, other things being equal, depends on the volume of the liquid, the time of ionization, the concentration of agglomerates of nanoparticles in the liquid and can be determined from the tables compiled in advance.

In electrochemistry, it is customary to call an electrode that is connected to the positive pole of a current source and that dissolves in the electrolyte under the influence of the electric field of this source. In the event that the dissolution of an electrode is carried out when two dissimilar metals are in contact without applying an external electric field, the sign of its charge may depend not only on the magnitude of the electrochemical potential relative to the other electrode, but also on the magnitude of the work done by the release of electrons and the degree activity of the electrolyte to the electrodes. Therefore, in short-circuited bimetallic pairs, it is customary to call the soluble electrode the anode, even if the sign of its charge is negative (A.M. Yampolsky, V.A. Ilyin. Brief reference book of galvanotechnics. L.: co.

Mechanical engineering, 1981, p. 14). with

It is known that in aqueous solutions ionized with metals in the presence of some acids, for example, acetylsalicylic acid and boron, stable colloidal systems are formed. At the same time, the solutions do not decompose under the influence of light and can retain their properties for a long time - up to a year or more (Patent of Russia Mo2190573.

Antimicrobial ionizer and method of preparation of therapeutic and prophylactic solution. IPC7 СО2Е1/467. "

Publ. 2002.10.10). The solutions obtained using the proposed device have a high concentration of active substances, have antimicrobial properties and can be widely used in sanitation. medicine, veterinary medicine, cosmetology, household, etc. and?

Claims (1)

The formula of the invention is) A device for treating water or aqueous solutions with metal ions, containing a vessel of limited capacity, in which there are short-circuited electrodes made of metals with different electrochemical potentials, and the metals are selected from the following: silver, gold, copper, nickel, palladium, platinum, molybdenum, cobalt, rhodium, iridium, tantalum, vanadium, iron, manganese, tungsten, chromium, zinc, tin, lead, osmium, zirconium, niobium, titanium, aluminum, magnesium, which is distinguished by the fact that the number of short-circuited electrodes in a liter of water is at least 105. "And at the same time, short-circuited the electrodes are made in the form of agglomerates of dissimilar metal nanoparticles that create electrochemical pairs. with 60 b5