CH718098A2 - Process for the production of atomic active hydrogen water, as a rehydrating, antioxidant drink in a gas-tight stand-up pouch, by means of electrolysis with special electrodes. - Google Patents

Abstract

Process and equipment for the production and oral uptake and intracellular invasion of active hydrogen into body cells as an efficient antioxidant by water electrolysis with boron-doped diamond and titanium carbon fiber contact electrodes for the production of active hydrogen-water through the generation of excess electrons in the electrolyzed water and for the microclusterization of the water for improved and faster absorption and invasion of active negatively charged atomic hydrogen as an antioxidant in body cells with additional injection addition of gaseous medicinal hydrogen.

Description

TECHNICAL AREA

Process for the production of atomic active hydrogen water, as a rehydrating, antioxidant drink in a gas-tight stand-up pouch, by means of electrolysis with boron-doped solid diamond and titanium-carbon fiber contact electrodes.

STATE OF THE ART

[0002] Previously, hydrogen dissolved in water as an antioxidant could not be introduced directly into body cells.

With the new technology for the production of active hydrogen using boron-doped diamond and titanium carbon fiber contact electrodes - electrolysis of water, which is microclusterized by electrolysis and then additionally injected with medical hydrogen gas, it is possible active atomic Hydrogen as an antioxidant, to be taken orally as a drink and channeled directly into a body cell using the microclustered water (1 to 3 molecules per cluster). In order to break down molecular hydrogen into atoms, energy of about 4.5 eV per molecule, or more precisely 436.22 kJ/mol, must be expended; when they combine to form hydrogen molecules (H2), this energy is released again:

Active atomic hydrogen with 1 proton and 2 electrons in the shell is, as an electron donor, the chemically strongest known antioxidant that can eliminate harmful oxidative radicals, so-called ROS (Reactive Oxidizing Species) without subsequently becoming an oxidative radical itself , as is the case with antioxidant vitamins such as vitamins C and E.

1 glass of electrolyzed 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 extra electron is provided to the hydrogen by the electrolysis of water using diamond and titanium carbon fiber contact 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, which leads to an excess of electrons. The water is thus electrically charged and the excess electrons are absorbed by the atomic hydrogen, which is created by the new special electrolysis technology and the additionally injected medical hydrogen gas. H+ thus becomes H- with a proton and 2 electrons, which leads to the formation of active atomic hydrogen, also called nascent hydrogen, which as the best antioxidant can donate a reducing electron.

[0008] Thanks to the microclusterized water, these negatively charged H ions are transported into the cells through the positively charged aquaporine locks embedded in the cell membranes and can even penetrate into the organelles of a cell as an antioxidant.

It should also be briefly mentioned that active, atomic hydrogen also has numerous other amazing and positive properties beyond its effect as a powerful antioxidant.

For example, active hydrogen has a balancing effect on the acid-base ratio, which prevents viruses, bacteria and fungi from multiplying and spreading in the body.

Active hydrogen improves the nutrient supply and detoxification of the body and also supplies oxygen in the mitochondria for the ADP-ATP cycle and thus increases our energy potential (the amount of ATP was increased fivefold in tests)

[0012] It ensures that the intracellular and extracellular irrigation of the cells increases significantly. The hydration state of a cell is directly related to the aging process. dr Alexis Carrell, Nobel Laureate in Medicine, said: “The cell doesn't age, it just dries up.

[0013] Active atomic hydrogen provides the necessary negatively charged hydrogen ions to ensure effective communication at the cellular level.

PRESENTATION OF THE INVENTION

INTRODUCTION

The object of the invention is to describe a new, innovative, inexpensive, efficient, biological and toxic residue-free method for efficiently supplying cells with active, atomic and negatively charged hydrogen as an electron donor and antioxidant. The basis of the new, perfected invention is the combined use of microclustered, electrolyzed water produced with full diamond and titanium carbon fiber contact electrodes electrolysis with an excess of electrons, which is also enriched with medicinal hydrogen as a gas.

HYDROGEN

Biological Significance

[0015] Hydrogen, in the form of a wide variety of compounds, is essential for all known living beings. First and foremost is water, which serves as a medium for all cellular processes and for all transport of substances. Along with carbon, oxygen, nitrogen (and more rarely other elements) it is part of those molecules from organic chemistry without which any known form of life is simply impossible.

Active atomic hydrogen also plays active roles in the organism, such as in some coenzymes such as nicotinamide adenine dinucleotide (NAD/NADH), which serve as reduction equivalents (or "proton transporters") in the body and participate in redox reactions. In the mitochondria, the powerhouses of the cell, the transfer 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). During photosynthesis in plants and bacteria, the hydrogen from the water is needed to convert the fixed carbon dioxide into carbohydrates.

Based on the mass, hydrogen is the third most important element in the human body: in a person with a body weight of 70 kg, around 7 kg (=10% by weight) can be attributed to the hydrogen contained. Only carbon (approx. 20% by weight) and oxygen (approx. 63% by weight) make up an even larger proportion by weight. In terms of the number of atoms, the very light hydrogen is by far the most common atom in the body of every living being. (The 7 kg in humans correspond to 3.5 · 10<3>mole of hydrogen each with 2 · 6 · 10<23>atoms, that is around 4.2 · 10<27>hydrogen atoms).

Medical importance

[0018] In biological systems, molecular hydrogen reacts with reactive oxygen species and thus acts as an antioxidant. In animal experiments, the enrichment of drinking water with molecular hydrogen after kidney transplantation leads to better survival of the transplant, a reduced incidence of chronic damage to the transplant, a reduction in the concentration of reactive oxygen species and an inhibition of signaling pathways that control inflammatory activity increase (pro-inflammatory signaling pathways).

[0019] Active hydrogen delays the aging process of body cells.

ELECTROLYSIS OF WATER

The electrolysis of water consists of two partial reactions that 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 electrical field to the negatively charged electrode (cathode), where they each absorb an electron. This creates hydrogen atoms, which combine with another H atom created by reduction to form a hydrogen molecule. Water molecules remain. 2H3O+ + 2e-H2+ 2H2O

The separated, gaseous hydrogen rises at the cathode.

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

[0024] Each hydroxide ion gives up an electron to the plus pole, so that oxygen atoms are formed, which unite to form oxygen molecules.

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

Here, too, the separated oxygen rises as a colorless gas at the anode. The overall reaction equation for the electrolysis of water is: 4H3O+ + 4OH- 2H2+ O2+ 6H2O

The hydronium and hydroxide ions on the left come from the autoprotolysis of water: 8H2O 4H3O+ + 4O

The electrolysis equation can therefore also be written as follows: 8H2O

2H2+ O2+ 6H2O or after shortening the water: 2H2O 2H2+ O2

Thanks to the excess electrons in the water, which occur in the full diamond and titanium and carbon fiber contact electrodes electrolysis because of the electrical overpotential when using boron-doped diamond electrodes in stack formation, the atomic hydrogen can have an additional electron and becomes active hydrogen, i.e. a reducing hydrogen atom that can lose 1 electron.

MICROCLUSTERIZATION

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

ELECTROLYTIC MICROCLUSTERIZED WATER ADULT

Electrolytically microclusterized, chemically active water has a negative ORP (Oxidation Reduction Potential) of about 300 to 400 mV, which means that the water solution can give off electrons.

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

The new optimized invention shows both a new, 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 the production of active hydrogen and microclustered water as a means of transport into the body cells.

The basis of the optimized invention is the combined use of microclusterized electrolyzed reverse osmotic water produced with full diamond and titanium carbon fiber contact electrodes with an excess of electrons, which, by absorbing electrons from the atomic water, generate active negative-charged hydrogen as an electron donor and at the same time the electrolyzed water with the excess of electrons converts the injected gaseous medicinal hydrogen into negatively charged atomic hydrogen.

According to the invention, the new method shows the technical execution, and the application, regarding 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 the Water, which can be absorbed by atomic hydrogen, as well as the microclusterization of the water, which can be introduced as a transport medium for the active hydrogen via the aquaporins in the cell membranes into the body cells and cell organelles. Active, negatively charged, atomic hydrogen is very unstable and can be made more durable thanks to the excess electrons in microclusterized electrolytic water.

The invention forms an integrated system in which the technical components for the production of the microclustered water and the production of an electrode excess in the water for the formation of active negatively charged hydrogen are combined.

In intensive experiments, the degree of microclusterization (3 molecules per cluster), the optimal concentrations of active hydrogen in the water and the dosage of additionally injected hydrogen gas as well as the absorption efficiency and absorption speed of active hydrogen in body cells elicited and the specific parameters for dosing as an antioxidant determined.

To the inventor's knowledge, the optimized process technology described here for the residue-free, clean, efficient and cost-effective production and invasion of active hydrogen water in human, animal or plant cells is not yet known, which credibly proves the patentability of this innovative invention.

CARRYING OUT THE INVENTION

The invention is to be discussed using the example of a production plant for active hydrogen water with the method described and the integrated new and optimized electrolysis technology used therein, with the addition devices for hydrogen gas. The following components are necessary to carry out the process, see: 1. For example, 1 electrolysis generator with reverse osmotic water pre-filter, with 1 pressure generation pump and with an approx Drive 220 V/50/60 Hz, with built-in electrolytic cells with boron-doped diamond and titanium - carbon fiber contact electrodes with electronics for control and transformer for minimum 50 V and 12 Amp DC for electrical supply of the electrodes and for dipole reversal for the automatic cleaning of the electrodes. 2. Electrolysis generator preferably with several multi-chamber electrolysis cells, preferably with boron-doped diamond and titanium - carbon fiber contact - electrodes with an electrical overvoltage of 2 to 3 volts, with an upstream pressure-reducing valve of 2 to 3 bar. 3. 1 water tank with a capacity of approx. 1000-2000 liters for the treatment of chilled water with level control. 4. Cooling unit with compressor for water cooling. 5. An electrically controlled gas valve for injecting gaseous hydrogen from a pressure bottle with an adjustable manometer and dosing unit for injecting medical hydrogen.

As a first step, the hydrogen-water production plant is connected to the 230 V power grid.

The hydrogen-water production plant is then connected to a water source (tap) with a hose and pressure control valve (2 to 3 bar max.). Then a hydrogen gas bottle battery (consists of several 300 liter bottles) is connected and the injection pressure is set to 4 bar.

For increased concentration of active hydrogen according to claim 1 and 2, the electrolyzed water after the electrolysis preferably 30 mg (30 ppm) of hydrogen gas per liter are added, which are automatically metered in by the hydrogen injection device.

Subsequent to the production, the active hydrogen water is packaged sterile inline on a stand-up pouch filling line.

The newly developed gas-tight bags guarantee a shelf life of at least 1 year

The recommended daily amount that can be drunk per person is 1

Claims (11)

1. Method and equipment for the production and oral uptake and intracellular invasion of active hydrogen in body cells as an efficient antioxidant by means of water electrolysis with boron-doped diamond and titanium carbon fibers contact electrodes for the production of active hydrogen water by generating excess electrons in the electrolyzed water and for microclusterization of the water for improved and faster absorption and invasion of active negatively charged atomic hydrogen as an antioxidant in body cells with additional injection addition of gaseous medical 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: 3. A hydrogen production plant with reverse osmotic water pre-filter, with 1 pressure generation pump approx. 1000 liters per hour with preferably 4 atm pressure generation and refrigeration unit for water cooling. Corrosion-free parts, with electric drive 220 V/50/60 Hz, with electrolytic cells installed after the pump with boron-doped diamond and titanium and carbon fiber contact electrodes 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. 4. Electrolysis generator with preferably several multi-chamber electrolysis cells, preferably with boron-doped diamond and titanium-carbon fiber contact electrodes with an electrical overvoltage of 2 to 3 volts, with an upstream pressure-reducing valve of 2 to 3 bar. 5. 1 water tank with a capacity of approx. 1000 - 2000 liters for the treatment of chilled water with level control. 6. Cooling unit with compressor for water cooling. 7. An electrically controlled gas valve for injecting gaseous hydrogen from a pressure bottle and dosing unit for adding magnesium. 8. 3 electronically controlled switch buttons for normal electrolyzed water, chilled electrolyzed water and chilled electrolyzed water with addition of hydrogen, gas and magnesium. 9. For increased production of active hydrogen according to claim 1 and 2, the electrolyzed water after the electrolysis is preferably 30 mg 10. Hydrogen gas from a battery of gas cylinders with an adjustable manometer that is injected with preferably 30 mg per liter, which is automatically dosed by the hydrogen injector nozzle 11. Sterile in-line filling into a gas-tight stand-up pouch of any size using a fully automatic pouch filling machine. The gas-tight stand-up pouch consists of 4 layers of laminate foil, with one laminate layer being aluminum foil.