RU2602773C1 - Method for production of oxygen and window-type device for generating oxygen - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: method involves following steps: generating electric energy with external glass of double-glazed unit from light incident on it, supplying produced electric energy to internal glass of double-glazed unit, generating heat with internal glass of double-glazed unit from supplied electric energy, heating chamber of window, in which there is an artificial leaf in carbon dioxide gas, to natural formation of condensate inside chamber of window, generating oxygen with artificial leaf by artificial photosynthesis. Also disclosed is a window-type device for generating oxygen, including a frame with double-glazed unit, comprising an external glass of a double-glazed unit, configured to generate electric energy from light incident thereon, connected to internal glass of double-glazed unit, configured to generate heat from supplied electric energy. Also, between external glass of double-glazed unit and internal glass of double-glazed unit there is at least one artificial leaf, configured to generate oxygen from carbon dioxide gas, condensate and solar rays.

EFFECT: method for production of oxygen.

19 cl, 1 dwg

Description

FIELD OF THE INVENTION

The group of inventions relates to self-contained windows with electric heating and window frames with heating devices specifically designed for oxygen production, namely to autonomous window-type heating devices for oxygen generation and to methods for generating oxygen in them.

State of the art

A known method of generating oxygen (RU 2167696 C2, publ. 05.27.2001), comprising heating a compressed, oxygen-containing gas stream in a first combustion chamber, introducing a heated, compressed, oxygen-containing gas stream into contact with a solid electrolyte membrane to produce compressed oxygen depleted gas flow and oxygen production therefrom, the direction of at least a portion of the produced oxygen through a heat exchanger to generate steam, as well as the expansion of the oxygen depleted compressed gas stream obtained by kTe with a solid electrolyte membrane in a gas turbine for driving the compressor to produce compressed oxygen-containing gas stream.

The disadvantage of this analogue is the lack of autonomous operation of the device for implementing the specified method and oxygen production, its complexity, namely the use of gas turbine systems to generate energy, at high combustion temperatures in the energy generation system.

Disclosure of invention

The technical result consists in the autonomous production of oxygen through the use of artificial photosynthesis in the claimed device and method.

The claimed result is achieved by the method of generating oxygen, which includes the following steps: generating electrical energy from light incident on it with an outer glass of a double-glazed window, supplying received electric energy to the inner glass of a double-glazed window, generating heat with an inner glass of a double-glazed window from incoming electric energy, heating a window chamber in which fixed artificial sheet in carbon dioxide, until the natural formation of condensate inside the window chamber, oxygen production by artificial sheet due to lawsuit sstvennogo photosynthesis.

The claimed result is also achieved by the claimed window type device for generating oxygen, which includes a frame with a double-glazed window, containing the outer glass of the double-glazed window, made with the possibility of generating electric energy from the light incident on it, connected to the inner glass of the double-glazed window, made with the possibility of generating heat from the incoming electric energy, and between the outer glass of the double-glazed window and the inner glass of the double-glazed window, at least one artificial sheet is fixed, ny capable of generating oxygen from the carbon dioxide condensation and sunlight.

According to the invention, according to a window type device for generating oxygen, heat generation by the inner glass is made over its entire surface.

According to the invention, according to a window type device for generating oxygen, the frame is made of wood, or aluminum, or polyvinyl chloride, or fiberglass, or steel.

According to the invention, according to a window type device for generating oxygen, the frame further comprises a controller additionally connected to the outer glass of the glass packet and the inner glass of the glass packet.

According to the invention, according to a window-type device for generating oxygen, an additional battery connected to the controller is integrated in the frame with a double-glazed window.

According to the invention, according to a window type device for generating oxygen, a temperature sensor is additionally connected to the controller.

According to the invention, according to a window-type device for generating oxygen, the inner glass of a double-glazed window is made of high-strength tempered glass, on top of which a conductive coating is applied.

According to the invention, according to the window type device for oxygen generation, the outer glass of the double-glazed window is made in the form of at least one transparent photoelectric module and an inverter for converting light into electric current, the transparent photoelectric module made of a glass base, on top of which two layers of films are applied, one film of amorphous silicon, and the second micro-transparent silicon film.

According to the invention, according to a window type device for oxygen generation, the artificial sheet is fixed on a manipulator connected to the controller, which is installed between the inner glass and the outer glass.

According to the invention, according to the window type device for oxygen production, the artificial sheet is made in the form of a photoelectrochemical cell, made with the possibility of photosynthesis.

According to the invention, according to a window type device for oxygen generation, the artificial sheet is made of a photoanode, a photocathode and a membrane configured to separate the obtained oxygen and hydrogen molecules.

According to the invention, according to a window type device for generating oxygen, the membrane is made of plastic.

According to the invention, according to a window-type device for generating oxygen, the membrane is connected to an additionally installed storage unit configured to receive and store hydrogen.

According to the invention, according to a window type device for generating oxygen, the artificial sheet is made of chloroplasts placed in a material of silk proteins.

According to the invention, according to a window type device for generating oxygen, there is a through hole on the inside of the frame.

According to the invention, according to a window type device for generating oxygen, a fan is mounted in the through hole, which is connected to the controller.

According to the invention, according to a window type device for generating oxygen, a liquid container and an automatic sprayer connected to it are integrated in the frame with a double-glazed window, which is configured to spray an artificial sheet.

According to the invention, according to a window type device for generating oxygen, an automatic sprayer is connected to a battery and a controller.

Brief Description of the Drawings

The invention is illustrated by a diagram of a preferred embodiment of the inventive window type device for generating oxygen.

The implementation of the invention

The diagram shows a window type device for generating oxygen, including a frame 1 with a double-glazed window, containing an outer glass 2 of a double-glazed window, made with the possibility of generating electrical energy from light falling on it, connected to the inner glass 3 of a double-glazed window, made with the possibility of generating heat from the incoming electric energy, and between the outer glass 2 of the double-glazed window and the inner glass 3 of the double-glazed window is fixed at least one artificial sheet 4, made with the possibility of generating ki carbon dioxide, condensation and sunlight.

In a particular embodiment of the claimed invention, an additional battery 5 can be integrated in the frame with a double-glazed window, connected to a controller 6, which can be additionally connected to a temperature sensor 7. In this embodiment of the device, all its work consists of four processes connected with each other, and namely: charge-discharge by battery; inhale-exhale with an artificial sheet; heating-cooling with the inner glass of a double-glazed window (and, as an option, with an additionally installed air conditioner, which can also be connected to the controller and battery); glow-attenuation by the sun. Thus, all four processes coincide with one another, and sunlight triggers this interaction, that is, the emission spectrum along the entire wavelength.

In another particular embodiment, the frame further comprises a controller, to which the battery and the temperature sensor are connected, to the external glass of the double-glazed window or to the inverter of the external glass of the double-glazed window and the internal glass of the double-glazed window.

It should be noted that the inner glass of the double-glazed window can be made according to the ThermoGlass technology of high-strength tempered glass, on top of which a conductive coating is applied, on which electricity is supplied through the wires.

In addition, in a preferred private embodiment of the claimed invention, the outer glass of the double-glazed window is made in the form of at least one transparent photovoltaic module, which can be made using the well-known Bekar technology (which is used in civil and industrial construction of modern buildings and structures for glazing winter gardens, building facades , in the manufacture of windows, railings, parking lots, billboards, awnings and in many other architectural projects) connected to an inverter to convert in that electric current, and the inverter, for example, may be connected to the controller window type device. Moreover, the transparent photovoltaic module is made of a glass base, on top of which two layers of films are deposited, one amorphous silicon film that converts the visible part of the solar spectrum into electrical energy, and the second micro-transparent silicon film converts the solar energy of the invisible infrared spectrum, thus, the claimed design generates significantly more electricity, unlike analogs and, therefore, it will be even more efficient to heat the inner glass of the double-glazed window and It is much more to accumulate electric energy in the battery, which will affect the duration of heating.

In another embodiment of the inventive window type device for oxygen generation, the artificial sheet 4 can be mounted on a manipulator 8 connected to the controller 6, which is installed between the inner glass and the outer glass. The manipulator 8 or any other mechanism for controlling the spatial position of the artificial sheet 4, will allow you to rotate the specified artificial sheet 4 in the direction of sunlight, for example, for a more efficient implementation of the process of artificial photosynthesis and oxygen evolution (with hydrogen). In this case, the controller 6 or another control unit will control the manipulator 8 in accordance with the corresponding computer program incorporated in it.

The principle of operation of the window type device for oxygen production is described in the claimed method, which consists of the following sequential steps. The generation of electric energy from light incident on it by the outer glass 2 of the double-glazed window, then the supply of the received electric energy to the inner glass 3 of the double-glazed window, after the generation of heat by the inner glass of the double-glazed window from the incoming electric energy, and, as a result, the heating of the window chamber, in which the artificial sheet 4 in carbon dioxide, before the natural formation of condensate inside the window chamber, after the production of oxygen by artificial sheet 4 due to artificial photosynthesis.

An artificial leaf can be a photoelectrochemical cell, the principle of which is similar to photosynthesis in the external organ of a plant. An artificial sheet can consist of three main components: a membrane, a photo anode, and a photocathode. As the material for their manufacture, gallium arsenide or ordinary silicon can be used, and to protect them from corrosion, a 62.5-nanometer layer of titanium dioxide can be applied (used in the manufacture of paints, plastics, cosmetics, etc.). To accelerate the decomposition of water, you can optionally use a catalyst. As sunlight enters the photoanode, it splits water into gas, electrons and protons, while the illuminated photocathode forces protons and electrons to combine into hydrogen molecules. The resulting gas is filtered through a special plastic membrane that separates the resulting oxygen and hydrogen molecules, which then enters a special storage.

Platinum or nickel can be used to catalyze the breakdown of water. Spraying of this metal with a thickness of 2 nanometers is applied to the photoanode, while a sputtering of a nickel-molybdenum alloy can also be applied to the cathode.

In another embodiment of the claimed invention, the artificial sheet is made of chloroplasts, which are extracted from ordinary green plants and placed in a protein medium (silk), which allows chloroplasts not to coagulate, but evenly distributed throughout the entire thickness of the liquid.

In a particular embodiment of the claimed invention, there is a through hole on the inside of the frame into which a fan can be mounted, which is connected to the controller. This will enrich the air in the room with oxygen.

In addition, in a frame with a double-glazed window, in a particular embodiment of the device, a container with liquid and an automatic sprayer connected to it, which is configured to spray an artificial sheet, can be integrated. An automatic sprayer can additionally moisten an artificial sheet in the window chamber (for example, as a backup with a lack of natural condensate), which will further contribute to the production of oxygen by the claimed device. It should be noted that the container with the liquid can be made with the possibility of replenishing itself with rainwater, for example, if the container is made in its upper part with external external open holes, under which similar openings in the frame will be made (from its external side, namely with the side of the outer glass of the glass)

Claims (19)

1. A method of generating oxygen, comprising the following steps: generating electric energy by the outer glass of the glass packet from the light incident on it, supplying the received electric energy to the inner glass of the glass packet, generating heat by the inner glass of the glass packet from the incoming electric energy, heating the window chamber in which the artificial a sheet in carbon dioxide, before the natural formation of condensate inside the window chamber, the production of oxygen by an artificial sheet due to artificial photosynthesis. 2. A window type device for generating oxygen, including a frame with a double-glazed window, containing the outer glass of the double-glazed window, made with the possibility of generating electric energy from light falling on it, connected to the inner glass of the double-glazed window, made with the possibility of generating heat from incoming electrical energy, and between the outer glass of the double-glazed window and the inner glass of the double-glazed window is fixed at least one artificial sheet made with the possibility of generating oxygen from carbon dioxide and, condensation and sunlight. 3. The device according to p. 2, characterized in that the heat generation by the inner glass is carried out over its entire surface. 4. The device according to p. 2, characterized in that the frame is made of wood, or aluminum, or polyvinyl chloride, or fiberglass, or steel. 5. The device according to p. 2, characterized in that the frame additionally connected to the outer glass of the double-glazed window and the inner glass of the double-glazed window controller. 6. The device according to claim 5, characterized in that an additional battery connected to the controller is integrated in the frame with a double-glazed window. 7. The device according to claim 5, characterized in that the temperature sensor is additionally connected to the controller. 8. The device according to p. 2, characterized in that the inner glass of the double-glazed window is made of high-strength tempered glass, on top of which a conductive coating is applied. 9. The device according to claim 2, characterized in that the outer glass of the double-glazed window is made in the form of at least one transparent photoelectric module and an inverter for converting light into electric current, wherein the transparent photoelectric module is made of a glass base, on top of which two layers of films are applied, one amorphous silicon film, and the second micro-transparent silicon film. 10. The device according to p. 6, characterized in that the artificial sheet is mounted on a manipulator connected to the controller, which is installed between the inner glass and the outer glass. 11. The device according to p. 2, characterized in that the artificial sheet is made in the form of a photoelectrochemical cell made with the possibility of photosynthesis. 12. The device according to p. 11, characterized in that the artificial sheet is made of a photoanode, a photocathode and a membrane made with the ability to separate the resulting oxygen and hydrogen molecules. 13. The device according to p. 12, characterized in that the membrane is made of plastic. 14. The device according to p. 12, characterized in that the membrane is connected to an additional installed storage, configured to receive and store hydrogen. 15. The device according to claim 2, characterized in that the artificial sheet is made of chloroplasts placed in a material of silk proteins. 16. The device according to claim 6, characterized in that there is a through hole on the inside of the frame. 17. The device according to p. 16, characterized in that a fan is mounted in the through hole, which is connected to the controller. 18. The device according to claim 6, characterized in that a container with a liquid and an automatic sprayer connected to it, which is configured to spray an artificial sheet, are built into the frame with a double-glazed window. 19. The device according to p. 18, characterized in that the automatic sprayer is connected to the battery and controller.

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