RU2078025C1 - Method and apparatus for production of oxygen - Google Patents

Abstract

FIELD: oxygen production. SUBSTANCE: ozone is produced from air through any known technique and brought in contact with a liquid more capable to dissolve ozone than oxygen (water, fluorohydrocarbons). Through agency of that liquid, ozone is transferred to arrangement decomposing ozone by any way. Arrangement may be additionally provided with closed circuit for circulating liquid such as cooling circuit of a power plant. Invention may be applied in medicine and in combustion chambers. EFFECT: improved process. 6 cl, 2 dwg

Description

 The proposed method and device for producing oxygen relate to the evolution of oxygen from a gas mixture, in particular from atmospheric air.

 A known method and device for producing oxygen [1] The known method includes generating ozone from atmospheric oxygen and subsequent decomposition of ozone. The known device contains devices for producing ozone from atmospheric oxygen and for decomposing ozone.

 The disadvantages of the known method and device are high energy consumption, sophisticated equipment.

 The aim of the invention is to reduce energy consumption and simplify equipment.

 This is achieved by the fact that in the method for producing oxygen, which includes generating ozone from atmospheric oxygen and subsequent decomposition of ozone, according to the invention, ozone is dissolved in liquids before decomposition, they have a greater ability to dissolve ozone than oxygen.

 This is also achieved by the fact that in a device for producing oxygen, including devices for producing ozone from atmospheric oxygen and for decomposing ozone according to the invention, said devices are communicated by means of a liquid having a greater ability to dissolve ozone than oxygen. As such a liquid, water, fluorocarbons can be used. The specified device may be additionally equipped with a closed loop for circulating fluid, made in the form of a cooling circuit of a power plant.

 The invention is illustrated by drawings.

 In FIG. 1 shows a diagram of the proposed device. Using the device 1 receive ozone from oxygen. To produce ozone from oxygen, any known device and any known method can be used. Ozone is in contact with liquid 2, which has a greater ability to dissolve ozone than oxygen, with which ozone is transported to an ozone decomposition apparatus 3. Ozone is transported by any means by diffusion, gravity of the liquid, or forced circulation in a closed loop. For ozone decomposition, any of the known ozone decomposition methods can be used.

 In FIG. 2 presents a second variant of the circuit of the proposed device. Ozone from the air is obtained using the device 5, transferred using the circuit 4, filled with a liquid that has a greater ability to dissolve ozone than oxygen, to the device for the decomposition of ozone 6. Oxygen formed after the decomposition of ozone is collected in a vessel 8, and the liquid is pumped 7 again served in the device 5.

 As the specified liquid, you can use water, aqueous solutions or fluorocarbons.

 The proposed device can be implemented independently or in combination with air conditioning. It can be used to regulate the oxygen content for breathing in rooms, for individual respiratory systems, for example, in medicine, in power plants for oxygen enrichment of the mixture supplied to the combustion chamber. It is also possible to combine the cooling circuit of a power plant with a forced fluid circuit.

 The invention allows to obtain oxygen from air with low energy costs using simple equipment and available reagents.

Claims (6)

 1. A method of producing oxygen, comprising generating ozone from atmospheric oxygen and subsequent decomposition of ozone, characterized in that before decomposition, ozone is dissolved in a liquid with a greater ability to dissolve ozone than oxygen.  2. A device for producing oxygen, including devices for producing ozone from atmospheric oxygen and for decomposing ozone, characterized in that said devices are communicated by means of a liquid having a greater ability to dissolve ozone than oxygen.  3. The device according to p. 2, characterized in that the liquid used is water.  4. The device according to claim 2, characterized in that fluorocarbons are used as liquid.  5. The device according to paragraphs. 2 to 4, characterized in that it is further provided with a closed loop for circulating fluid.  6. The device according to p. 5, characterized in that said circuit is made in the form of a cooling circuit of a power plant.

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