KR20140067830A - Magnetic field assisted oxygen generator by water electrolysis - Google Patents

Abstract

Electrolysis is a method occurring a chemical reaction generally used at a factory and/or home. Proceeding a chemical reaction through electrolysis is environmentally friendly. Electrolysis is very safe to apply to the human body in a view that electron (electric energy) instead of chemicals is used in converting harmful chemicals into useful and less harmful chemicals. According to the principles that the amount of chemicals produced by electrolysis is proportional to the amount of electricity applied to the container, (1) a permanent magnet is installed in an electrolysis device to increase the electrolysis efficiency of water and to produce oxygen and hydrogen, (2) produced oxygen is supplied to indoor, and produced hydrogen is supplied to a hydrogen suction inlet (1-8) of a fuel cell so as to occur a chemical reaction with oxygen, utilize the electricity and increase the oxygen production efficiency, and (3) when the oxygen concentration in an indoor space detected by an oxygen sensor becomes a predetermined concentration or more, the electrolysis device of water is stopped or the oxygen production is reduced so as to prevent the oxygen concentration from increasing.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a high-efficiency oxygen generator for assisting electrolysis of water by a magnetic field treatment (Magnetic Field Assisted Oxygen Generator By Water Electrolysis)

Oxygen generator, electrolysis. Magnetic field treatment.

Peroxides and superoxides are also used as oxygen generators. They belong to peroxides, such as sodium peroxide (Na2O2) and potassium peroxide (K2O2). Calcium peroxide,

CaO2) and lithium peroxide (Li2O2). Among the superoxides are sodium superoxide (NaO2) and potassium peroxide (KO2). Such an oxygen generating pack is also used in the form of an oxygen generating pack composition containing a component for improving other functions although it is also used in a pure form. Of the various types of oxygen generating materials described above, potassium superoxide and sodium peroxide have been used as air recirculating materials because these substances fix the carbon dioxide contained in the air by the reactions shown in the following Chemical Formulas 1 to 4 Oxygen is generated.

Formula 1

Na2O2 + H2O - > 2NAOH + 1 / 2O2

(2)

Na2O2 + CO2 → Na2CO3 + 1 / 2O2

(3)

2KO 2 + H 2 O → 2KOH + 3 / 2O 2

Formula 4

2KO2 + CO2 → K2CO3 + 3 / 2O2

 Of course, air purifiers that remove carbon dioxide contained in the air include soda lime, which is a mixture of calcium hydroxide (Ca (OH) 2) and sodium hydroxide. In addition, lithium hydroxide is widely used, The substance does not generate oxygen, and it removes only carbon dioxide, so air purification efficiency is lower than that of sodium peroxide or potassium oxide. Since powder or pellets can generate a certain amount of dust, it is preferable to install them in a possible container.

The container in which the oxygen generating pack is packed is most commonly a plastic injection molded article. The container is designed to have a nonwoven fabric at the top of the container so that external air can flow into the container. Such a container has a shape similar to a conventional perfume.

Unlike this chemically oxygen-generating method, electrolysis is used for the simple task of charging the battery in daily life, but it is also used in plants to produce chlorine gas (Cl ₂ (g)) or to produce aluminum or copper. It also uses electrolysis to instantaneously produce the necessary oxygen in a confined space such as a submarine or space ship. What is electrolysis, what equipment is needed for electrolysis, and what happens.

Electrolysis refers to any reaction that induces decomposition or conversion of a substance by applying electrical energy to a reaction cell. Electrical energy required for electrolysis is supplied through the electrode. The electrode to be used may be any electrically conductive material. Therefore, not only all metals, but also conductors such as graphite (pencil lead) can be used as electrodes. Electrical energy is supplied from the external power source to the chemicals in contact with the electrodes. As a result, chemicals (molecules or ions) accept electrons through the electrodes, or when they give the electrons to the electrodes, they become oxidized or converted into new chemicals. What is particularly noteworthy is that the chemical reaction in electrolysis is not a homogeneous reaction as a whole, but a heterogeneous reaction that only proceeds around the electrode.

Pure water can not be electrolyzed because electricity does not flow. Therefore, electrolysis of water requires an aqueous solution in which electrolyte is dissolved. For example, an electrolyte solution containing sodium ions (Na ⁺ ) and sulfate ions (SO ₄ ^2- ) is dissolved in water in which sodium sulfate (Na ₂ SO ₄ ) is dissolved. Therefore, when two electrodes are immersed and electric energy is supplied, water abundantly existing around the electrodes is electrolyzed. Likewise, electrolysis of water occurs in a dilute sulfuric acid solution containing concentrated sulfuric acid in water. In this case, sulfuric acid also acts as an 'electrolyte', but also acts as a 'chemical' because the hydrogen ions generated by dissociation of sulfuric acid directly participate in the reaction. Hence, hydrogen gas (H ₂ (g)) and oxygen gas (O ₂ (g)) are generated at each electrode by immersing two carbon (or metal) electrodes in a dilute sulfuric acid solution or an aqueous solution of sodium sulfate.

If the solution is neutral or basic, hydrogen (H ₂ (g)) is generated in the electrode and hydroxide ion (OH ^- ) is generated at the same time. If the solution is acidic, hydrogen ions are reduced and hydrogen is generated. Oxygen (O ₂ (g)) is generated and hydrogen ions are generated at the + electrode. If the electrolysis is continued without shaking the solution, the periphery of the electrode is changed to basic and the periphery of the + electrode is changed to acidic. However, if the solution is well stirred, the hydroxide ion generated by electrolysis reacts with the hydrogen ion to form water, so that the pH of the whole solution does not change. Eventually, electrolysis of water generates hydrogen at the electrode and oxygen at the + electrode. Using this, the oxygen needed in a submarine or spacecraft can be produced on the spot. Hydrogen produced in the process of making oxygen through electrolysis is an additive product.

(- electrode) 2 H ₂ O (1) + 2e → H ₂ (g) + 2 OH ^- ( aq ) (Basic) (- electrode) 2H ⁺ ( aq ) + 2e → H ₂ (g) (+ electrode) 2 H ₂ O (1) - > O ₂ (g) + 4H ⁺ ( aq ) + 4e (acidic)

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the problem of generating various adducts when oxygen is chemically generated. The object of the present invention is to electrolyze water to generate hydrogen in the electrode and oxygen in the + electrode. It has the advantage that oxygen can be produced on the spot in an enclosed space or in a space requiring high concentration of oxygen. The present invention also provides an oxygen generating apparatus having a highly efficient water electrolysis device capable of generating oxygen by applying a magnetic field between electrodes of an electrolysis device and lowering a redox voltage therein

The present invention relates to an electrolyzed water of hydrogen and an oxygen generator for electrolyzing water to obtain a mixed gas of hydrogen and oxygen. In the hydrogen and oxygen generator, a plurality of rod-shaped pins are fixedly installed on a positive electrode plate and a negative electrode plate, Near the electrolytic water of the water, which is connected to the inner side, and the space between the ends of the rod-like pin is not in contact with the inner surface and the gap between the space and the fins is maintained by connecting and fixing to the four corners of the cathode and anode plates with the insulator rod In which a strong permanent magnet is disposed to facilitate electrolysis of water.

Electrolysis is a method of causing chemical reactions that are used throughout the factory or at home. It is environmentally friendly to conduct chemical reactions through electrolysis. It is very safe to apply to the human body in that it uses electrons (electrical energy) instead of chemicals to convert harmful chemicals into useful and less harmful chemicals. The amount of chemical produced as a result of electrolysis and the amount of electricity injected into the vessel are proportional. This is Faraday's Faraday's law of electrolysis. It is possible to synthesize as much purity oxygen as needed from water, and it is more compact than the other oxygen production methods, produces only the required amount of oxygen, Hydrogen can be reused in the hydrogen fuel cell to increase the oxygen generation efficiency.

1 is a device diagram of the present invention.

The present invention relates to an electrolyzed water of hydrogen and an oxygen generator for obtaining a mixed gas of hydrogen and oxygen by electrolyzing water. The electrode plate 1-2 and the cathode plate 1-1, which are connected to the power source, (1-5) of an insulator such as polycarbonate in which the positive electrode plate is in contact with the inner surface and the positive electrode plate is not in contact with the inner surface of the positive electrode plate, And the electrolytic water of the water is kept fixed in the water-decomposing water tank so that the gap between the positive electrode plates is maintained. An apparatus for maintaining a predetermined concentration of oxygen in air in an adequately closed space, comprising: a water electrolysis device for generating oxygen; and a controller for controlling the oxygen generated from the water electrolysis device to a predetermined indoor An oxygen sensor (1-6) for detecting the concentration of oxygen in the indoor space, an oxygen sensor (1 - 6) for receiving the oxygen concentration signal of the oxygen sensor and controlling the air in the indoor space to be within a predetermined oxygen concentration range A concentration control unit 1-7, and a hydrogen gas discharge pipe 1-3 for discharging the hydrogen gas generated in the water electrolysis device. (1) electrolysis of water to generate oxygen and hydrogen, (2) supply of generated oxygen to the room, and generated hydrogen to the fuel cell hydrogen inlet (1-8) (3) When the oxygen concentration in the indoor space is detected by oxygen sensor, if the oxygen concentration exceeds the predetermined concentration, the oxygen concentration is further increased by stopping the water electrolysis or reducing the oxygen generation amount .

1-1 Cathode
1-2 Bipolar plate (Anode)
1-3 generation hydrogen pipe
1-4 Generated Oxygen Pipe
1-5 cathode plate support
1-6 Electrolysis bottle with oxygen sensor
1-7 control unit
1-8 Hydrogen Fuel Cell
1-9 Spacer (fixed part)
1-10 Positive Electrode Wire Section
1-11. Magnetic field processing device (samarium permanent magnet)

Claims (1)

The present invention relates to an electrolyzed water of hydrogen and an oxygen generator for obtaining a mixed gas of hydrogen and oxygen. An electrode plate having a constant interval is provided in each of a positive electrode plate 1-2 and a negative electrode plate 1-1, (1 - 5) of an insulator such as polycarbonate, which is bonded to the inner surface of the positive electrode plate and the negative electrode plate (1-2) so that the surface of the positive electrode plate is not in contact with the inner surface, is connected and fixed to the four corners of the positive electrode plate and the negative electrode plate, (1-11) such as strong samarium (Sm) or neodymium (Nd), which is waterproof coded on the side of the electrolysis unit of the water, which keeps the gap is fixed to improve the electrolysis efficiency .
An oxygen concentration control unit 1-7 for receiving the oxygen concentration signal of the oxygen sensor and controlling the air in the indoor space to be within a predetermined oxygen concentration range, And a hydrogen gas discharge pipe (1-3) for discharging the hydrogen gas generated in the water electrolysis device.

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