DE102009058766A1 - Multifunctional liquid treatment device (device) for the electrochemical treatment (electrolysis) of water and water solutions - Google Patents

Abstract

Multifunctional liquid treatment device (device) for the electrochemical treatment (electrolysis) of water and water solutions, in particular for reducing dry residues, biologically harmful substances, acid residues consisting of an outer electrode (1) (Fig.) In the form of a hollow cylinder within which an inner electrode (2) coaxially mounted between the electrodes is a coaxially mounted semipermeable porous diaphragm (3) which divides the electrode space into an inner electrode chamber (4) and outer electrode chamber (5), the outer electrode (1) and the diaphragm (3). are attached to the foot flange (6), characterized in that the said device additionally for an electrochemical treatment of wine, vodka, liquor, cognac, brandy, rum, gin, tequila, soujou, sake and other alcoholic beverages, as well as juices, mineral water and perfumery is provided, the foot flange ( 6) is provided with channels (7) and (8) for the discharge of anolyte from the inner electrode chamber (4), where the anode (2) is located, and for discharging catholyte from the outer electrode chamber (5) whose Jacket is the cathode (1), the discharge channels of the inner and outer electrode chamber are provided with electromagnetic valves (9) and (10), which are mounted below the Fußflansches (6) in the control unit (11), and the feed pump (12) for the treated liquid, the rectifier (13) and the electronic control board for switching off (switch 14) the process of liquid treatment and for switching on and off (switch 15) of the electromagnetic drain valve (9) and for switching on and off (switch 16) of the electromagnetic valve (10) with the treated liquid feed pump (12), the upper lid (17) having inflow channels (18) and (19) into the inner electrode chamber (4) and into the outer electrodes (5), wherein the diameter of the inner electrode chamber (4) is two to six times smaller than the diameter of the outer electrode chamber (5), the anode (2) is formed of at least one cylindrical platinum-coated titanium rod, which is located on a dielectric sleeve (20) is supported with openings whose diameter is smaller than the diameter of the anode (2), in the upper part of the inner electrode chamber (4) is provided on the anode (2) a centering device (21) made of dielectric with openings, whose diameter is greater than the diameter of the anode (2), on the surface of the metal shell (1) is a dielectric jacket, on the surface of a light bulb (22) for displaying the operating and load level and a switch (14) are mounted , while the semi-permeable porous diaphragm (3) is made of ceramic or textile or ...

Description

The invention relates to the field of electrochemical treatment of drinking water, mineral water, red and white wine, cognac, brandy, whiskey, gin, vodka, brandy, tequila, soy, sake and other national and traditional alcoholic beverages, juices and perfumery products and the Reduction of dry residues, biologically harmful substances, acid residues, hydroxy groups, which opens the possibility of a negative redox potential (reduction-oxidation potential) of the activated drinks, which serve as a transport for vital microelements and vitamins in easily absorbable form, with a human blood pH Value to obtain similar pH.

The present invention may be applied to both the preparation and refinement of wine, cognac, brandy, whiskey, gin and other alcoholic beverages, which may or may be equivalent to the quality of the 30, 50 or 100 year old traditionally produced beverages in their organoleptic properties, as well as for the production of activated water with negative electrical properties for the preparation of tea, coffee, for the transport of medicines to the diseased organ with the aim of reducing the toxicity of the materials, reducing the dose and a faster treatment success.

In addition, the energy stored during fluid treatment is released without obstruction and taken up by the mitochondria of the cells as vital bioenergy, which in turn leads to increased energy in sick or low-energy cells, activating the strongest healing source of human beings, their self-healing powers with better immunity.

A known device ( RU 000002248940 C1 for electrochemical treatment of water and water solutions includes a coaxially mounted tube electrode and a coaxially mounted rod electrode, the first electrode being an anode and the second being a cathode; both electrodes are vertically mounted in dielectric sleeves and separated by ceramic tube diaphragms, forming an anode and a cathode electrode chamber, which are isolated from each other by a lower and an upper sealing ring; these seal rings are mounted on the lower and upper ends of the tube anode with their inner surfaces contacting the outer surface of the wall of the ceramic tube diaphragm and the lower and upper end portions of the tube anode correspondingly having the feeding and discharging openings of the anode chamber; the length of the tube anode is not less than the length of the ceramic tube diaphragm formed as a microfilter of an alumina-based material, the wall thickness of this microfilter having different porosities.

The disadvantage of this device lies in the differences in parity of the ceramic tube diaphragm, which leads to an uneven current distribution along the tube diaphragm, to increased resolution and destruction of the tube diaphragm, the anode and corresponding current loss in the high current range. The action of the electric current on the aluminum oxide contained in the ceramic tubular diaphragm releases the aluminum ions, which have a negative effect on the human brain. The object of this device is to produce catholyte and anolyte for further use in industry, it is not suitable for the treatment of alcoholic beverages.

Another known plant ( RU 000002287491 C1 ) for electrochemical treatment of water consists of a housing separated by a tube diaphragm in chambers with anodes and cathodes mounted therein, the cathode being in the form of a group of cylindrical rods of corrosion resistant steel connected by a ring current line and to the inner edge of the housing The anode is in the form of a group of cylindrical rods made of corrosion-resistant steel, which are connected by a ring current line and mounted in the center of the housing, wherein the anode chamber and the cathode chamber are separated by a diaphragm made of microporous plastic.

The disadvantage of this system is the microporous plastic of the diaphragm. The action of the electric current on the microporous plastic releases odors which have an extremely negative effect on the aroma of high-quality alcoholic beverages and water. Under the influence of electric current, the long plastic molecules separate from the diaphragm and cardiacly degrade the taste of alcoholic beverages, and these molecules, as active radicals, cause the formation of benign and malignant cells in the human organism. The object of this plant is the production of catholyte and anolyte for further use in industry, it is not suitable for the treatment of alcoholic beverages. Another known invention is the device for electrochemical Treatment of water and water solutions ( RU 000002297981 C1 ), which the inventor uses as a prototype of the liquid processing apparatus (apparatus) to be registered, consisting of an outer electrode in the form of a hollow cylinder within which an inner electrode of cylindrical shape is coaxially mounted, between the electrodes is a coaxially mounted semipermeable diaphragm which encloses the electrode space inner and outer electrode chamber divides, the upper part of the side wall of the outer electrode having an opening which connects the outer electrode chamber with the drainage channel, the upper part of the inner electrode has at least one opening which connects the inner electrode chamber with the liquid discharge channel, thereby the inner electrode chamber is directly connected to the channel of the liquid inlet and the lower part of the inner electrode is designed as a solid wall; the inner electrode, the outer electrode and the diaphragm are fixed to the base flange, which is provided with a channel for supplying liquid, which channel communicates with the inner electrode chamber, or the outer electrode, the inner electrode and the diaphragm are fixed from above with a lid, wherein the diaphragm is fastened by means of splines, the inner electrode is in the form of a rod or a hollow cylinder, inside the cylinder at least one seal for sealing the interior is provided below the connection opening between the inner chamber and the drainage channel; or the electrode is formed in a plurality of parts, at least in two parts, the upper part of which has at least one opening connecting the inner chamber to the drainage channel, the parts of the inner electrode are connected to each other by means of mechanical or threaded connection, at least one additional part is present in the lower part of the side wall of the outer electrode Opening for connection of outer electrode chamber provided with the inflow channel, the inner electrode is an anode and the outer electrode is a cathode, the inner electrode is fixed by means of a retaining pin or a bolt on the lower and / or upper flange, in the lower flange is provided an annular opening, which forms the channel of liquid supply into the inner electrode chamber or in the inner flange is provided at least one horizontal inflow channel communicating with the inflow channel into the inner electrode chamber, a semi-permeable diaphragm is made of zirconium or Tex made of til-based ceramic, or as an ultrafilter or microfilter or nanofilter.

The disadvantage of this device is a limited range of application due to a broad spectrum of acidity (pH of 2 to 12) and by a large dispersion of redox potential values (eH from -950 mV to +1200 mV), which does not work up alcoholic drinks and juices allows.

Why can the human body absorb only 5-10% of the vital microelements and vitamins? In the course of evolution, the human body has taught to process only food that is easily absorbed or liquefied. Humans eat the fruits of trees and plants, which in turn are supplied with water saturated with microelements, acidic and alkaline residues. Before the water solutions are absorbed by plants and trees, they stand in the earth under the influence of telluric currents. A plant or a tree will pick up not just a simple water solution but an activated water solution that is absorbed by all the fibers of the plant's root, stem, leaves, flowers and fruits. Humans still have much to learn from nature regarding the absorption capacity of healthy substances.

It is undisputed that the dissolution of the dry matter from liquids by electrochemical treatment increases the quality of the liquid. However, a much more important indicator for the uptake of healthy substances from liquids is the negative oxidation-reduction potential (redox potential), an important key to future technologies in the food, alcohol, biotechnology and medical industries. All water, juice and alcoholic beverages are simply "dead" substances before treatment, d. H. their redox potential is in the range of +100 to +200 and more. For example, the redox potential of tap water is +150. We drink "dead" water. In order to vitalize the water, other food liquids and alcoholic beverages, the redox potential must be negative, i. H. the liquid must be charged negatively electrically.

Here is the proof: All life works through the internal electricity whose strength is measured in millivolts (mV) or microvolts (mkV). The well-known cardiogram shows how our "electric motor" (heart) works by pumping our blood through the vessels. The brain zphalogram makes it clear how our "computer" (brain) works. The living electric current comes from billions of power plants of the cells, the mitochondria. There are hundreds in each cell of the organism and thousands of mitochondria in the cells of the heart and liver. In the late fifties astronaut training for space flight found that during the centrifugal experiments to simulate cosmic stresses, the amount of succinate in the blood of future astronauts increased sharply by ten to a hundredfold, suggesting that this substance as protection of the organism critical situations and superhuman burdens. Professor Kondrasheva MN proved that the natural product succinate is a unique source of electrons that can support the cells and give new impulses to life in difficult moments of power generation. her further investigations led to the development of the drug "mitomin", which can increase the organism energy at the level of the cells. Besides, in the thirties of the last century Professor Chizhevsky AL developed the electro-fluorescent lamp, which saturated the air with electrons. He also proved that only the negatively ionized and then inhaled air generated by the lamp achieved a much better interaction of the hemoglobin with the oxygen and thereby penetrated much faster to the cells of the human body.

In addition, the memory stored by the water molecules at the electromagnetic level will not be erased, even if chemicals have been removed by reverse osmosis, physical or chemical cleaning. This is confirmed not only by homeopathy - dissolution of the parent ^drug up to 10 ^-9 -10 ^-15- - or significantly higher life expectancy in regions with originally clean water, but also the growing number of diseases in regions with purified but originally polluted water , The electrochemical treatment of water destroys this negative memory. The electromagnetic memory waves of the bad water interact with the electric treatment field, which destroys the memory mechanism and forms a new spatial configuration of the atomic arrangement within the water molecules.

Transforming polluted fresh water or water from desalination plants into high-quality mountain spring water can be the solution for regions with absolute water shortages and for saving the gene pool of future generations.

The invention has for its object to develop a multifunctional liquid treatment device (device), which produces by electrochemical treatment, electrically negative liquids that increase and invigorate the cell energy on the model of the electro-fluorescent lamp and the Kondraschow-mitomonomer, the dry mass and the Concentration of aldehydes, the primary and secondary alcohols and the essential oils are reduced.

• – Multifunktionalität
• – Erzeugung negativer Redox-Potential Werte der behandelten Flüssigkeiten
• – Steigerung des pH-Wertes entsprechend dem pH-Wert des menschlichen Blutes oder höher
• – Reduzierung der Trockenmasse in den aufbereiteten Flüssigkeiten
• – Reduzierung der primären und sekundären Alkohole in den aufbereiteten Flüssigkeiten
• – Reduzierung der Aldehyde und ätherischen Öle in den aufbereiteten Flüssigkeiten
• – Kompaktheit des Flüssigkeitsaufbereitungsgeräts
• – Betriebssicherheit des Flüssigkeitsaufbereitungsgeräts
• – dauerhafter und störungsfreier Betrieb des Flüssigkeitsaufbereitungsgeräts
• – geringer Aufwand beim Auf- und Abbau des Flüssigkeitsaufbereitungsgeräts.

The present invention can solve the following technical problems:

• - Multifunctionality
• - Generation of negative redox potential values of the treated liquids
• - Increase the pH according to the pH of the human blood or higher
• - Reduction of dry matter in the treated liquids
• - Reduction of primary and secondary alcohols in the treated liquids
• - Reduction of aldehydes and essential oils in the treated fluids
• - Compactness of the liquid treatment device
• - Operational safety of the liquid treatment device
• - permanent and trouble-free operation of the liquid treatment device
• - Little effort in the construction and dismantling of the liquid processing device.

The objects were achieved in that the known device for electrochemical treatment of water, water solutions, consisting of an outer electrode in the form of a hollow cylinder within which an inner electrode of cylindrical shape is coaxially mounted between the electrodes is a coaxially mounted semipermeable diaphragm, which divides the electrode space into an inner and outer electrode chamber, the outer electrode and the diaphragm are attached to the foot flange, characterized in that said device additionally for an electrochemical treatment of wine, vodka, brandy, cognac, brandy, rum, gin, tequila, souvou , Sake and other alcoholic beverages and juices, mineral water is provided; the foot flange is provided with channels for discharging anolyte from the inner electrode chamber in which the anode is located, and for discharging catholyte from the outer electrode chamber whose jacket is the cathode, the discharge channels of the inner and outer electrode chamber are provided with electromagnetic valves located below the foot flange in the control unit, as well as the treated liquid feed pump, rectifier and electronic control board to shut off the liquid treatment process, switching the electromagnetic drain valves on and off and the treated liquid feed pump, the top lid is provided with inflow channels in each of the electrode chambers, wherein the diameter of the inner electrode chamber is two to six times smaller than the diameter of the outer electrode chamber, the anode is made of at least one cylindrical platinum-coated Titansta b is supported on a dielectric sleeve with openings whose diameter is smaller than the anode diameter, in the upper part of the inner chamber is provided on the anode, a centering device made of dielectric with openings whose diameter is greater than the anode diameter, on the surface of the metal shell is a dielectric jacket, on the surface of a light bulb for displaying the operating and load level and a power switch are mounted, while the semipermeable porous diaphragm made of ceramic or textile or polypropylene or dielectric or polychlorovinyl or nitrocellulose or ion exchange wall or fabric formed with cellulose, or as an ultrafilter or microfilter or nanofilter executed; the diameter of the inner electrode chamber to the one and a half to five times larger than the anode diameter, the anode is carried out in the individual case in the form of a flat or ellipsoidal rod, in a particular case, no pump is used and the treated liquid flows off in an autoclave.

Due to the electrochemical treatment, the concentration of the dry residue in the treated liquid is ten times lower than in the untreated liquid. Dry residue in the liquid often causes unpleasant odors. Therefore, beer and vodka from regions with soft water and low proportion of suspended particles are considered to be particularly good. the quality of the water and raw materials is the quality of the end products of modern mass producers. In addition to suspended particles, alcohols include aldehydes, primary and secondary alcohols, essential oils, methyl alcohol, which not only give the drinks a hard aftertaste, sharp and unpleasant odor, but also poisons and thereby to the liver, kidneys, cerebellum and nervous system of the human are harmful. A person under the influence of alcohol has negative feelings: he can no longer speak clearly (influencing the cerebellum), his sense of balance suffers - he can no longer walk upright (influencing the cerebellum), his thinking capacity decreases (influencing the brain), becomes frequent registered an increased excitability, which leads in many cases to violations of the law (affecting the central nervous system), the risk of stroke, myocardial infarction, the hypertonic crisis increases (affecting the blood capillaries), problems with the autonomic vascular dystonia are exacerbated (affecting the blood capillary). Negative consequences of alcohol consumption can be: headache - toxins in the blood are attacked by blood cells, stomach pain or upset stomach - acidity and protein balance in the stomach, pain in the eyes - typical of diabetics, heavy thirst - alcohol deprives the body fluid, it is black in the eyes - impairment of the optic nerve, oppressions, the feeling of "squeezed lemon" can last 12 to 24 hours, the ability to work suffers - impairment of the central nervous system, stress on the liver, heart, kidneys and nervous system increases five to fifty times as much - this is the result of the fight against toxins, the chances of conceiving unhealthy children are growing a lot - influencing the endocrine system. Manufacturers of alcohol can not bring this amount of toxins, which arise in modern mass production processes, under control. This is a weak point of modern production methods. The treatment reduces the toxins in alcoholic beverages by releasing the volatile components and reduces the acid residues. This leads to an improved taste, finer aroma and better finish. In addition, the treated drinks are electrically negatively charged by free electrons, which can provide energy to the human cells. This negatively charged fluid is taken up by the protective mechanisms of the organism as an additional aid in the fight against free radicals and as unimpeded supply of the mitochondria of the human cells. It is particularly advantageous for weakened, diseased organs or for people after surviving operations.

Thus, the present set of features is sufficient for the multi-functional liquid processing apparatus (apparatus) to be solicited for the solution of the object and for attaining the set technical objectives.

Obviously, the present invention is not known in the art. After an analysis of the international technical development status, no technical solution with the same purpose has been found, in which the totality of features essential to the invention is identical to the features of the independent claims of the patent claim of the present invention.

The following drawings illustrate the basic idea of the invention:

- Multifunctional fluid treatment device

- Circuit diagram of the multifunctional fluid treatment device.

, The multifunctional liquid treatment unit for the electrochemical treatment of water, water solutions, wine, vodka, brandy, cognac, brandy, rum, gin, tequila, soujou, sake and other alcoholic beverages and juices and mineral water consists of an outer electrode ( 1 ) in the form of a hollow cylinder within which an inner electrode ( 2 ) is mounted coaxially between the electrodes, between the electrodes is a coaxially mounted semipermeable porous diaphragm ( 3 ) which transfers the electrode space into an inner electrode chamber ( 4 ) and outer electrode chamber ( 5 ), the outer electrode ( 1 ) and the diaphragm ( 3 ) are at the foot flange ( 6 ) attached to channels ( 7 ) and ( 8th ) is provided for the discharge of anolyte from the inner electrode chamber ( 4 ), where the anode ( 2 ) and for discharging catholyte from the outer electrode chamber ( 5 ), whose jacket is the cathode ( 1 ), the discharge channels of the inner and outer electrode chamber are equipped with electromagnetic valves ( 9 ) and ( 10 ) ( ), which are below the Fußflansches ( 6 ) in the control unit ( 11 ) ( ), as well as the feed pump ( 12 ) for the treated liquid, the rectifier ( 13 ) and the electronic control board for switching off (switch 14 ) of the process of liquid treatment and for switching on and off (switch 15 ) of the electromagnetic drain valve ( 9 ) and for switching on and off (switch 16 ) of the electromagnetic valve ( 10 ) with the feed pump ( 12 ) for the treated liquid; the upper lid ( 17 ) is with inflow channels ( 18 ) and ( 19 ) into the inner electrode chamber ( 4 ) and into the outer electrode chamber ( 5 ), whereby the diameter of the inner electrode chamber ( 4 ) is two to six times smaller than the diameter of the outer electrode chamber ( 5 ), the anode ( 2 ) is formed of at least one cylindrical platinum-coated titanium rod, which is deposited on a dielectric sleeve ( 20 ) with openings whose diameter is less than the diameter of the anode ( 2 ), in the upper part of the inner electrode chamber ( 4 ) is on the anode ( 2 ) a centering device ( 21 ) made of dielectric with openings whose diameter is greater than the diameter of the anode ( 2 ) is, on the surface of the metal shell ( 1 ) is a dielectric jacket, on the surface of a light bulb ( 22 ) ( ) for displaying the operating and utilization status and a switch ( 14 ), in which case the semipermeable porous diaphragm ( 3 ) made of ceramic or textile or of polypropylene, polyethylene or of dielectric or of polychlorovinyl or of nitrocellulose or of ion exchange wall or of fabric with cellulose or as an ultrafilter or microfilter or nanofilter, the diameter of the inner electrode chamber ( 4 ) is one and a half to five times larger than the diameter of the anode ( 2 ), the anode ( 2 ) can be carried out in individual cases in the form of a flat or ellipsoidal rod, in individual cases, no pump is used and drained the treated liquid in the self-flow.

The comparative analysis with the prototype revealed the following new features in the multi-functional liquid processing device to be registered: The diameter of the inner electrode chamber ( 4 ) is two to six times smaller than the diameter of the outer electrode chamber ( 5 ), this is in the final product in the outer electrode chamber ( 5 ) receive the liquid of the required pH. This pH may be similar to the pH value of human blood depending on the treatment mode, the liquid has a pleasant taste, both in water, and in an alcoholic beverage, a negative redox potential value and is characterized for the Organism digestible. In addition, the diameter of the inner electrode chamber ( 4 ) is one and a half to five times larger than the diameter of the anode ( 2 ), this on the one hand, a minimum consumption of the processing liquid is guaranteed, on the other hand, the concentration of poisons in the form of acid residues, aldehydes, primary and secondary alcohols, unpleasant-smelling essential oils allows.

For the preparation of alcoholic beverages can be in the inner electrode chamber ( 4 ) are also supplied to drinking water, but in this case is to be expected with decreasing alcohol content in the final product, which is undesirable for the end user.

The multifunctional fluid treatment device ( . ) works as follows:
The power supply, the switch ( 14 ) and the electromagnetic valves ( 9 ) and ( 10 ) are switched off (valves closed). The liquid to be treated is transferred to the external electrode chamber ( 5 ) and into the inner electrode chamber ( 4 ). The control program of the electronic control board is set to a half to two hour conditioning mode. When switching on the power supply by means of a switch ( 14 ) signals the light bulb ( 22 ) that the multifunctional liquid treatment device is in operation. During the treatment process, chlorine and fluorine are released, depending on which halogen was originally treated with the water. The halogen concentration is low and completely harmless to humans. During the treatment process of the alcoholic beverages volatile substances are released: essential oils, acids that have no unpleasant odor. The amount of hydrogen released in all types of treatment is negligible and harmless. The multifunctional liquid treatment device is silent in operation, which is of importance to the consumer. After approx. 30 min. up to two hours, the program-controlled switch ( 14 ) switch off the multifunctional liquid treatment device and emit a sound signal.

The program-controlled electromagnetic valve ( 9 ) of the inner electrode chamber ( 4 ) will be opened.

When exiting the electrode chamber ( 4 ) are concentrated residues of acid residues, aldehydes, primary and secondary alcohols, essential oils.

The unpleasant-smelling liquid is disposed of. The amount of residue is about 2-3% of the total amount of the treated liquid and is collected in a corresponding container. In about eight seconds, the program-controlled electromagnetic valve ( 9 ) closed. To drain the treated liquid from the outer electrode chamber ( 5 ) a corresponding container is required. The program-controlled electromagnetic valve ( 10 ) will be opened. The treated liquid from the outer electrode chamber ( 5 ) represents the end product for the consumer.

The treated liquid must be stored in a dark, sealed container at room temperature and in a dark place. It would be desirable if the liquid on the surface had no contact with the air. Under these conditions, the treated fluid may retain its redox potential properties for many months. Two liquids are exempted: a) water to be stored in the refrigerator after treatment, b) dry wine (up to 14% alcohol) destroying the externally applied wine stabilizer (sulfur dioxide) during treatment treated wine within 1 to 2 days to be used so that it does not oxidize.

The function of the liquid processing apparatus is shown in the following embodiments:

Example 1. It deals with the three year old whiskey "Royal Monarchy". The amount of whiskey is 3 liters, the treatment time - 2 hours, the amount of residues - 60 ml. Table 1 shows the comparative characteristics before and after the treatment.

Table 1. Comparison analysis for the whiskey "Royal Monarchy" feature Standard of IS-4449 specification Result of the analysis Alcohol content% Vol. 42.8 42.8 (unchanged) Residues after evaporation,%, max. 2.0 0.2 (reduced by 10 times) Volatile acetic acid (g / 100 l pure alcohol), max: 50 23 (reduced by 54%) Ethyl acetate (g / 100 l pure alcohol), max. 5 4 (reduced by 20%) Primary alcohol (g / 100 l pure alcohol), max. 350 300 (reduced by 14%) Aldehydes in the form of ethylaldehyde (g / 100 l pure alcohol), max. 35 15 (reduced by 57%) methyl alcohol traces traces Redox potential, mV. +120 -80

The treated whiskey has gained much in flavor by reducing the negative factors, the aroma has been improved several times, which corresponds to a 50 year old stored whiskey. The whiskey became a, from the redox potential, negatively charged beverage with increased internal vital energy. This fluid is taken up by the protective mechanisms of the organism as an additional aid in the fight against free radicals and as unimpeded supply of the mitochondria of the human cells.

The beverage treated in this way should be stored in a dark place, sealed, as it will lose its negative electrical properties when exposed to light and when in contact with oxygen.

Embodiment 2. Treated is the one-year wine "Cagor". The amount of wine is 1.4 liters, the treatment time - 2 hours, the amount of residues - 30 ml. In Table 2, the comparison characteristics before and after the treatment are listed.

Table 2. Comparative analysis for the wine "Cagor" No. feature analysis method Product before treatment Product after treatment 1. Alcohol% GOST 13191-73 16.0 16.0 (unchanged) Second Titration bate acidity, g / l GOST 14252-73 6.0 1.0 (reduced by 6 times) Third Volatile acidity, g / l GOST 13193-73 1.75 0.2 (reduced by 8.75 times) 4th Sulfuric acid, mg / l (total) GOST 14351-73 350.0 50.0 (reduced by 7 times) 5th Methanol, mg / l GOST 13194-74 0.15 0.03 (reduced by 5 times) 6th Dry matter,% evaporation 3.5 0.12 (reduced by 29.17 times) 7th Tartaric acid, g / l calorimetrically 2.0 0.2 (reduced by 10 times) 8th. eH, mV eH measurement +105 -75 9th colour visually saturated strong saturated

The treated wine has gained a lot of flavor by reducing the negative factors, the aroma has been improved many times over. The treated wine now corresponds to a stored about 50 -years old wine. The wine became a, from the redox potential forth, negatively charged liquid. The liquid treatment device has no influence on the sugar concentration in the wine. The activated wine, however, provides for an improved intake of sugar, its conversion into energy for the cells and for additional help in the fight against free radicals. The liquid treatment device has no influence on natural wine colors and also has no influence on phenol or tannins. However, the wine gets a strong saturated color.

The drink treated in this way should be stored in a dark place and tightly closed, since under the influence of light and on contact with oxygen, this beverage loses its redox-potential properties.

The liquid processing apparatus may detect counterfeits if a manufacturer or seller has provided the alcohol for sale with alien dyes, for example, to emulate known brands. In this case, the consumer will receive after treatment either a completely colorless liquid (in case of fake brandy and cognac) or a highly bleached color of the fake wine.

The treated wine receives a delicate aroma, so that the fragrance of the grape variety can be more effective. The treated wine is more pleasant on the finish and in the aftertaste.

Embodiment 3. Treated tap water. Amount of water 3.0 l, treatment time - 2 hours, residue quantity - 60 ml.

• Characteristics of the treated water: Hardness - 0.5 mg / l; Iron - 0.001 mg / l; Parmanganate Oxidizability - 0.1 mg / L; pH 8.5 (before treatment pH 6.5); eH = -120 mV (before treatment +150 mV).

The conditioned, redox-activated (reducing, basic) fluid can excellently fulfill its role as a drug delivery agent to diseased organs. Since its activity is much higher than the activity of a conventional liquid that accompanies the drug intake, the intake of the drug can be improved a lot. This can also reduce drug dosage, reduce liver and kidney loads, and shorten treatment times.

The redox-active fluid can promote the absorption of minerals from the organism and support the transport of vitamins, microelements and nutrients to the cells. The treated water absorbs less gas than untreated. Hydration of an organism with this water can prevent various diseases caused by an improper diet, weakened immunity.

Washing with treated water in the morning and in the evening can naturally reduce wrinkling. As an example, the skin of climbers whose skin remains taut and fresh longer: in the mountains, the concentration of negatively charged ions and electrons is very high (ionization of the air by cosmic radiation). These ions and electrons do not reach us in the valley. However, when the human washes his face and hands with Redoxaltive liquid whose density is a thousand times higher than the air density, the skin-refreshing effect may be even more pronounced.

Humans consist of about 70-80% water and over the years can accumulate on the inner walls of the bloodstreams and capillaries vast amounts of potassium, calcium, magnesium and cholesterol. This can worsen the heat exchange and the mechanical properties (elasticity, permeability) and viability of the vascular system to such an extent that the person suffers from severe and hardly to be treated diseases: atherosclerosis, infarction, stroke, arthritis, polyarthritis and other diseases. The reduced water can purify the capillaries and blood vessels of these deposits and the positively charged ions of potassium, magnesium and cholesterol and neutralize free radicals. Because an electron is several times smaller than an atom, it can also better reach hard to reach parts of the circulatory system. By treating the water with electric current, we supply it with energy, which can then be passed on directly to our body at the cellular level.

The same happens with piping, boilers, washing machines, in which deposits are recorded. These can be cleaned without much effort only by the treated water.

Seeds of flowers, herbs and vegetables can thrive better if they have been soaked in basic water before, plants watered with this water can have a higher yield.

The production of new antibiotic strains can be speeded up a lot if water used as part of the nutrient is used, which can influence the growth of the microorganisms. This could trigger the development of a whole new class of antibiotics.

According to the Greenpeace report ("Toxic Water" - early February 2005), hazardous compounds such as phthalates and synthetic musk compounds have been detected in 36 known fragrances. Phthalates are converted in the body to monoethyl phthalates, which affect the DNA and respiratory function of the lungs. They cause liver and kidney damage, are dangerous for male functional processes, influence the development of the sexual organs of male fetuses in the womb. Chemical musk compounds destroy the endocrine system, interfere with hormonal exchange, and act as catalysts for other harmful chemical compounds.

By treating the perfume with the liquid treatment device, the contraction of the pollutants can be reduced.

• • Herstellung stabiler Zahnfüllungen
• • Herstellung eines festen Baubeton für seismisch aktive Regionen

Further possible uses of the fluids treated by the fluid treatment device:

• • Production of stable fillings
• • Production of a solid construction clay for seismically active regions

The fluid treatment device is a simple device by design and can be manufactured in any factory where mechanical processing is possible.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• RU 000002248940 C1 [0004]
• RU 000002287491 C1 [0006]
• RU 000002297981 C1 [0007]

Cited non-patent literature

• Standard of Specification IS-4449 [0032]

Claims (8)

Multifunctional liquid treatment apparatus (apparatus) for electrochemical treatment of water and water solutions, consisting of an outer electrode in the form of a hollow cylinder within which an inner electrode of cylindrical shape is coaxially mounted, between the electrodes is a coaxially mounted semipermeable porous diaphragm, which the electrode space in an inner and external electrode chamber divides, the outer electrode and the diaphragm are attached to the foot flange, characterized in that said device additionally for an electrochemical treatment of wine, vodka, liquor, cognac, brandy, rum, gin, tequila, soy, sake and other alcoholic Drinks and juices, mineral water and perfumery products is provided, the foot flange is provided with channels for discharging anolyte from the inner electrode chamber in which the anode is located, and for discharging catholyte from the outer Elektrodenk ammer, whose jacket is the cathode, the discharge channels of the inner and outer electrode chamber are provided with electromagnetic valves, which are mounted below the base flange in the control unit, as well as the feed pump for the treated liquid, the rectifier and electronic control board for switching off the treatment process, the Switch for controlling the electromagnetic drain valves and the feed pump, the lid is provided with inflow channels in each of the electrode chambers, wherein the diameter of the inner electrode chamber is two to six times smaller than the diameter of the outer electrode chamber, the anode is at least one cylindrical Platinum-coated titanium rod formed, which is based on a dielectric sleeve with openings whose diameter is smaller than the anode diameter, in the upper part of the inner chamber is on the anode, a centering device made of dielectric with openings v Orgesehen, whose diameter is greater than the anode diameter, on the surface of the metal shell is a dielectric jacket, on the surface of a light bulb for displaying the operating and utilization level and a switch are mounted. The liquid processing apparatus according to claim 1, characterized in that the semi-permeable diaphragm made of ceramic, or textile, or of polypropylene, or of dielectric or Polychlorvynilschläuchen, or made of porous nitrocellulose, or ion exchange wall, or tissue with cellulose. The liquid processing apparatus according to claim 1, characterized in that the semi-permeable diaphragm is designed as an ultrafilter, or microfilter, or nanofilter. The liquid processing apparatus according to claim 1, characterized in that the diameter of the inner electrode chamber is one and a half to five times larger than the anode diameter. The liquid processing apparatus according to claim 1, characterized in that the anode is designed in the form of a flat or ellipsoidal rod. The liquid processing apparatus according to claim 1, characterized in that no pump is used and that the treated liquid flows off in the self-flow. The liquid processing apparatus according to claim 1, characterized in that the anode are coaxially mounted in the semipermeable diaphragm and form a unit which is installed and removed in the Fußflansch. The liquid processing apparatus according to claim 1, characterized in that the anode is made of at least one graphite rod.

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