CH710412A2 - A method and equipment for the production of antioxidant by water electrolysis with boron-doped diamond electrodes for oral ingestion. - Google Patents

Abstract

Method and apparatus for production and oral uptake and intracellular invasion of active hydrogen in body lines as an efficient antioxidant by means of water electrolysis using boron-doped diamond electrodes to produce active hydrogen by generating excess electrons in the electrolyzed water and microclustering the water for improved and faster absorption and invasion of active hydrogen as an antioxidant in body cells with the additional addition of magnesium and gaseous hydrogen.

Description

TECHNICAL AREA

The invention relates to a novel process including equipment for intracellular invasion and production of atomic active hydrogen, as an antioxidant, by means of electrolysis of water, which is prepared with boron-doped diamond electrodes in an electrolytic cell, and then micro-clusters with hydrogen gas and magnesium , is drunk.

STATE OF THE ART

So far, active hydrogen could not be introduced directly into body cells as an antioxidant.

With the new technology of producing active hydrogen by means of boron-doped diamond electrode electrolysis of water, which is microclustered by the electrolysis and then additionally impregnated with magnesium and additional hydrogen gas, it is possible to use active hydrogen as an antioxidant, as Take orally and drink by microclustered water (1 to 3 molecules per cluster) directly into a body cell. In order to break down molecular hydrogen into the atoms, energy of about 4.5 eV per molecule or more precisely 436.22 kJ / mol has to be used; When merging into hydrogen molecules (H2), this energy is released again:

Active atomic hydrogen is the most chemically known antioxidant that can eliminate harmful oxidative radicals, so-called ROS (Reactive Oxidizing Species), without subsequently becoming an oxidative radical itself, as in the case of antioxidant vitamins such as vitamin C and E. is.

1 glass of electrolysis water with activated hydrogen according to the description contains the same antioxidant potential as 100 glasses of orange juice.

Active atomic hydrogen is a hydrogen atom with 2 electrons instead of just one and is negatively charged.

Active atomic hydrogen thus consists of a proton and 2 electrons. The additional electron is made available to the hydrogen by the electrolysis of water with diamond electrodes. Thanks to the electrical overpotential of 2 to 3 V with boron-doped diamond electrodes, more electrons can be supplied to the water than the water can absorb, resulting in an excess of electrons. The water is thus charged electrically and the excess electrons are absorbed by the atomic hydrogen produced by the electrolysis and the added magnesium and hydrogen gas. H + thus becomes H- with one proton and two electrons, which leads to the formation of active atomic hydrogen, also called nascent hydrogen, which can deliver a reducing electron as the best antioxidant. <tb> Redox reaction <SEP> 2H2O + 4H + → O2 + 4H + + 2H2 <SEP> AE = 1.229V <tb> <SEP> 4H + plus 4e = 4H- 4H + plus 4e = 4H- <SEP>

Thanks to the micro-clustered water, these H ions are channeled through the positively charged aquaporins locks in the cell membranes in the cells and can penetrate as an antioxidant even in the organelles of a cell.

Briefly, it should be mentioned that active hydrogen has many other amazing and positive properties beyond its action as a powerful antioxidant.

Thus, active hydrogen acts e.g. balancing on the acid-base ratio, which prevents the proliferation and spread of viruses, bacteria and fungi in the body.

Active hydrogen improves the nutrient supply and detoxification of the body and also provides hydrogen for the ATP cycle and thus increases our energy potential (in tests, the amount of ATP was quintupled)

He ensures that the intra- and extracellular irrigation of the cells increases significantly. The watering condition of a cell is directly related to the aging process. Dr. Alexis Carrell, Nobel Laureate in Medicine, said: "The cell does not age, it only dries out.

Active hydrogen provides the necessary hydrogen ions to ensure effective cell-level communication.

How does magnesium react with water?

Mg + 2H2O → MgOH + H2

PRESENTATION OF THE INVENTION

INTRODUCTION

The object of the invention is the description of a new, innovative, cost-effective, efficient, biological and toxic residue-free method for efficiently supplying the cells with active, atomic hydrogen as an antioxidant. The invention is based on the combined use of microelectrated electrolyzed water, produced with diamond electrodes, with an excess of electrons, which is simultaneously enriched with magnesium and hydrogen as gas.

HYDROGEN

Biological significance

Hydrogen is essential in the form of various compounds for all known living things. At the forefront is water, which serves as a medium for all cellular processes and for all substance transports. Together with carbon, oxygen, nitrogen (and more rarely other elements), it is part of those molecules of organic chemistry, without which any form of life known to us is simply impossible.

Hydrogen also plays active roles in the organism, so in some co-enzymes such as e.g. Nicotinamide adenine dinucleotide (NAD / NADH), which serve as reducing equivalents (or "proton transporters") in the body and participate in redox reactions. In the cell's mitochondria, the transmission of hydrogen cations (protons) between different molecules of the so-called respiratory chain serves to provide a potential, a proton gradient, for the generation of high-energy compounds such as adenosine triphosphate (ATP). In photosynthesis in plants and bacteria, the hydrogen from the water is needed to convert the fixed carbon dioxide into carbohydrates.

Based on the mass of hydrogen in the human body is the third most important element: In a person with a body weight of 70 kg, about 7 kg (= 10 wt .-%) are due to the hydrogen contained. Only carbon (about 20% by weight) and oxygen (about 63% by weight) make up an even greater proportion by weight. In terms of the number of atoms, the very light hydrogen is by far the most abundant atom in the body of every living being. (The 7 kg in humans correspond to 3.5 × 10 3 moles of hydrogen with 2 × 6 × 10 23 atoms, which is approximately 4.2 × 10 27 hydrogen atoms).

Medical significance

In biological systems, molecular hydrogen reacts with reactive oxygen species and thus acts as an antioxidant. In animal studies, the enrichment of drinking water with molecular hydrogen after kidney transplantation leads to better graft survival, decreased incidence of chronic graft injury, reduction in reactive oxygen species concentration, and inhibition of signaling pathways that enhance inflammatory activity ( proinflammatory signaling pathways).

Active hydrogen delays the aging process of body cells.

ELECTROLYSIS OF WATER

The electrolysis of water consists of two partial reactions, which take place at the two electrodes. The electrodes are immersed in water, producing oxygen and hydrogen gas.

Positively charged hydronium ions (H3O +) migrate in the electric field to the negatively charged electrode (cathode), where they each receive an electron. Hydrogen atoms are formed, which combine with another H atom formed by reduction to form a hydrogen molecule. Remain water molecules. 2H3O + + 2e- → H2 + 2H2O The separated, gaseous hydrogen rises at the cathode.

For positively charged electrode (anode) migrate the negatively charged hydroxide ions.

Each hydroxide ion releases an electron to the plus pole so that oxygen atoms are formed which combine to form oxygen molecules.

The remaining H + ions are immediately neutralized by hydroxide ions to water molecules. 4OH- → O2 + 2H2O + 4e-

Again, the deposited oxygen increases as a colorless gas at the anode. The overall reaction equation of the electrolysis of water is: 4H3O + + 4OH- → 2H2 + O2 + 6H2O

The hydronium and hydroxide ions on the left originate from the autoprotolysis of the water: 8H2O → 4H3O + + 4OH-

The electrolysis equation can therefore also be written as follows: 8H2O → 2H2 + O2 + 6H2O or after shortening the water: 2H2O → 2H2 + O2 <tb> Redox reaction <SEP> 2H2O + 4H + → O2 + 4H + + 2H2 <SEP> AE = 1.229V <tb> <SEP> 4H + plus 4e = 4H- 4H + plus 4e = 4H- <SEP>

Thanks to the excess electrons in the water, which arise in the electrolysis because of the electrical overpotential when using boron-doped diamond electrodes, the atomic hydrogen can take up an additional electron and thereby becomes active hydrogen, that is to a reducing hydrogen Atom that can donate 1 electron.

MIKROCLUSTERISATION

In addition, in the electrolysis with diamond electrodes, the water clusters of about 18 water molecules are cut in a chain to about 3 molecules electrochemically by supplying energy. This fact leads to a 3- to 4-fold increase in the absorption of the active hydrogen hydrogen via the aquaporins of the cell membranes in body cells, where the active hydrogen can act as an antioxidant without itself becoming a reactive oxidant, but only to water.

ELECTROLYTICALLY MICROCLUSTERIZED WATER ERW

Electrolytically microclustered, chemically active water has a negative ORP (oxidation reduction potential) of about 300 to 400 mV, which means that the water solution can release electrons.

THE SOLUTION OF THE TASK

The solution of the problem is defined by the features of the independent claims.

The invention features both a novel, innovative, inexpensive, efficient, biological and toxic residue-free method for efficiently supplying cells with active, atomic, reducing hydrogen as an antioxidant, as well as the device for producing active hydrogen and mikroclusterisertem Water as a transport agent in the body cells.

Basis of the invention is the combined use of generated with diamond electrodes, microclustered electrolyzed water with an excess of electrons, which can produce by electron uptake of atomic hydrogen, active hydrogen and at the same time enriches the water to be electrolyzed with magnesium and gaseous hydrogen.

According to the invention, the new method shows the technical design, and the application, with respect to the use and the combination of boron-doped diamond electrodes electrolysis technology with an electrical overpotential of 2 to 3 volts for the production of excess electrons in Water, which can be absorbed by the atomic hydrogen, as well as the microclusterization of the water, which can be introduced as a transport medium of active hydrogen via the aquaporins in the cell membranes in the body cells and cell organelles. Active hydrogen is very labile and can be made more durable thanks to the excess electrons and magnesium ions in micro-clustered electrolysis water.

The invention forms an integrated system in which the technical components for producing the micro-clustered water and the production of an excess of electrode in the water to form active hydrogen are combined.

In intensive experiments were the degree of microclusterization (3 molecules per cluster), the optimal concentrations of active hydrogen in the water and the dosage of additional magnesium and hydrogen gas as well as the absorption efficiency and absorption rate of active hydrogen in Determined body cells and determined the specific parameters for the dosage as an antioxidant.

As far as the inventor is aware, the process technology described here for the residue-free, clean, efficient and cost-effective production and invasion of active hydrogen in human, animal or plant cells is not yet known, as the patentability of this innovative invention credibly demonstrates.

EMBODIMENT OF THE INVENTION

The invention will be discussed using the example of an electric beverage dispenser with the described method and the integrated electrolysis technology integrated therein, with the addition means for hydrogen gas. The following equipment is necessary to carry out the procedure, see AN EX 1 and AN EX 2: <tb> 1. <SEP> For example, 1 beverage dispenser with water pre-filter, with 1 pressure generating pump about 1 liter minute output with preferably 4 atm pressure generation and cooling unit for water cooling parts corrosion-free, with electric drive 220 V / 50/60 Hz, with Electrolysis cell with boron-doped diamond electrodes installed after the pump with electronics for control and transformer for 50 V and 7, 8 Amp DC for electrical supply of the electrodes and for dipole reversal for the automatic cleaning of the electrodes according to drawings in Apendix 2. <tb> 2. <SEP> Electrolysis generator with preferably a multi-chamber electrolysis cell, preferably with boron-doped diamond electrodes with an electrical overvoltage of 2 to 3 volts, with upstream pressure reducing valve of 2 to 3 bar. <tb> 3. <SEP> 1 water tank of approx. 3 liters capacity for the treatment of cooled water with level control. <tb> 4. <SEP> Cooling unit with compressor for water cooling. <tb> 5. <SEP> An electrically controlled gas valve for the injection of gaseous hydrogen from a pressure cylinder with adjustable gauge and dosing unit for the addition of magnesium. <tb> 6. <SEP> 3 electronically controlled buttons for normal electrolysis water, chilled electrolysis water and chilled electrolysis water with addition of hydrogen, gas and magnesium.

As a first step, the water dispenser device is connected to the mains 230 V.

The water dispenser device is then connected to a hose and pressure control valve (2 to 3 bar max.) To a water source (faucet). Also, a magnesium dosing device and a hydrogen gas bottle is connected and the injection pressure is set to 4 bar.

For the increased production of active hydrogen according to claim 1 and 2, the electrolyzed water after electrolysis preferably 4 g of magnesium and 10 ml of hydrogen gas per liter are added, which are automatically dosed by the water dispenser.

The water dispenser has 3 control buttons and the water dispenser can be programmed quantitatively on a touch screen.

There are 3 different products to choose from: Normal electrolysis water Chilled electrolysis water Chilled electrolysis water with additional hydrogen and magnesium

By pressing the appropriate button on the electrolysis water dispenser display the desired water quality and quantity is donated and is collected by means of beverage glass in the dispenser compartment.

The electrolyzed water with active hydrogen can now be drunk cold or natural.

The recommended daily amount that can be consumed per person is 1 to 3 liters per day.

Claims (3)

1. Method and device for the production and oral uptake and intracellular invasion of active hydrogen in body cells as an efficient antioxidant by means of water electrolysis using boron-doped diamond electrodes for the production of active hydrogen by the generation of excess electrons in the electrolyzed water and for microclustering the water for improved and faster absorption and invasion of active hydrogen as an antioxidant in body cells with the additional addition of magnesium and gaseous hydrogen. 2. Device for the production of active hydrogen by means of the electrolysis of water with boron-doped diamond electrodes with the addition of magnesium and gaseous hydrogen gas, according to claim 1, characterized in that a device for carrying out the method has the following individual components according to AN EX 1 and ANEX 2: 1. For example, 1 beverage dispenser with water pre-filter, with 1 pressure generating pump about 1 liter of minute power with preferably 4 atm pressurization and refrigeration unit for water cooling parts corrosion-free, with electric drive 220 V / 50/60 heart, with built-in after the pump electrolysis cell with Boron-doped diamond electrodes with electronics for control and transformer for 50 V and 7.8 Amp DC for the electrical supply of the electrodes and for dipole reversal for the automatic cleaning of the electrodes according to drawings in Apendix 2. 2. electrolysis generator with preferably a multi-chamber electrolysis cell, preferably with boron-doped diamond electrodes with an electrical overvoltage of 2 to 3 volts, with upstream pressure-reducing valve of 2 to 3 bar. 3. 1 water tank of approx. 3 liters content for the treatment of cooled water with level control. 4. Cooling unit with compressor for water cooling. 5. An electrically controlled gas valve for the injection of gaseous hydrogen from the pressure bottle and metering unit for the magnesium addition. 6. 3 electronically controlled buttons for normal electrolysis water, cooled electrolysis water and cooled electrolysis water with addition of hydrogen, gas and magnesium. 3. For the increased production of active hydrogen according to claim 1 and 2, the electrolyzed water after electrolysis preferably 4 g of magnesium and 10 ml of hydrogen gas from a gas cylinder with regulatable manometer per liter added, which are automatically dosed by the water dispenser.