RU2007103110A - RADIATION RECOVERABLE BURNER AND ITS USING HEAT ELECTRIC GENERATORS - Google Patents

Claims (21)

1. Radiation recuperative burner, consisting of a housing inside which the burner tunnel is located, a counter-flow recuperator, which has at least one tunnel for combustion products and one tunnel for the oxidizer, the unit for introducing fuel into the burner tunnels, connected to an external pipeline for supplying fuel, the input unit oxidizer in the tunnels of the burner, connected to an external pipe for supplying an oxidizer and a unit for outputting combustion products, connected to an external pipe for removing combustion products, fuse, while the part of the burner housing in which the burner tunnel is located is made of fire-resistant and refractory materials, the recuperator tunnels for the oxidizer have a thermal contact surface with the tunnels for the combustion products on opposite sides of which the direction of gas movement in the tunnels is opposite, the tunnel exit for the oxidizer is connected to the burner tunnel , the entrance of the tunnel for combustion products is connected to the burner tunnel, the fuel input unit is hermetically connected to the burner tunnel, the oxidizer input unit is hermetically connected the input of the recuperator channel for the oxidizer, the outlet for combustion products is hermetically connected to the outlet of the tunnel of the recuperator for products of combustion, characterized in that the burner tunnel is sealed and isolated from the external environment, in the recuperator there are additionally one and / or several tunnels for fuel having thermal contact surface with tunnels of the recuperator for combustion products, on opposite sides of which the direction of gas movement in the channels is opposite, while the recuperator it is located inside the burner body, the walls of the recuperator tunnels in the part adjacent to the burner tunnel are made of fireproof and refractory materials, the fuel supply unit is hermetically connected to the burner tunnel through the fuel recuperator tunnels, and part of the outer surface of the housing near the burner channel is the radiation surface burners. 2. The radiation recuperative burner according to claim 1, characterized in that an additional unit for introducing gaseous products into the tunnel of the fuel recuperator is inserted into the burner, which is hermetically connected to the inputs of the channels of the recuperator for fuel and connected to the input unit of the oxidizer and / or the unit for outputting combustion products or connected directly to the inlet of the recuperator channel for the oxidizing agent and / or the outlet of the recuperator channel for the combustion products or connected to external pipelines for supplying the oxidizer and / or exhaust of the combustion products. 3. The radiation recovery burner according to claim 1, characterized in that the exits of the tunnels of the recuperator for fuel and oxidizer are made in the form of a wall with an opening, which is a nozzle. 4. Radiation recuperative burner according to claim 2, characterized in that the exits of the tunnels of the recuperator for fuel and oxidizer are made in the form of a wall with an opening, which is a nozzle. 5. The radiation regenerative burner according to claim 1, characterized in that the outer walls of the burner body over a surface that is not the radiation surface of the burner are coated with high temperature insulation and / or are made with a greater thickness than the walls of the body on the radiation surface. 6. The radiation regenerative burner according to claim 2, characterized in that the outer walls of the burner body over a surface that is not the radiation surface of the burner are coated with high-temperature thermal insulation and / or are made thicker than the walls of the body on the radiation surface. 7. The radiation regenerative burner according to claim 3, characterized in that the outer walls of the burner body over a surface other than the radiation surface of the burner are coated with high-temperature insulation and / or are made with a greater thickness than the walls of the body on the radiation surface. 8. The radiation regenerative burner according to claim 4, characterized in that the outer walls of the burner body over a surface that is not the radiation surface of the burner are coated with high-temperature insulation and / or are made with a greater thickness than the walls of the body on the radiation surface. 9. The radiation recuperative burner according to claim 1, characterized in that the casing of tungsten or graphite is additionally introduced into the device, made in the form of a separate part and / or an external layer on the housing, which partially cover the external surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 10. The radiation regenerative burner according to claim 2, characterized in that the casing of tungsten or graphite is additionally introduced into the device, made in the form of a separate part and / or an external layer on the housing, which partially cover the external surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 11. The radiation regenerative burner according to claim 3, characterized in that the casing is made of tungsten or graphite, made in the form of a separate part and / or an outer layer on the housing, which partially cover the external surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 12. The radiation recuperative burner according to claim 4, characterized in that the casing of tungsten or graphite is additionally introduced into the device, made in the form of a separate part and / or outer layer on the housing, which partially cover the external surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 13. The radiation regenerative burner according to claim 5, characterized in that the casing of tungsten or graphite is additionally introduced into the device, made as a separate part and / or an outer layer on the housing, which partially cover the external surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 14. The radiation regenerative burner according to claim 6, characterized in that the casing of tungsten or graphite is additionally introduced into the device, made in the form of a separate part and / or an external layer on the housing, which partially cover the external surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 15. The radiation recuperative burner according to claim 7, characterized in that the casing of tungsten or graphite is additionally introduced into the device, made in the form of a separate part and / or an outer layer on the housing, which partially cover the external surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 16. The radiation regenerative burner of claim 8, characterized in that the casing of tungsten or graphite is additionally introduced into the device, made in the form of a separate part and / or outer layer on the housing, which partially cover the outer surface of the burner and completely cover its radiation surface, with which the best possible thermal contact is ensured, while the part of the casing that is in contact with the radiation surface of the burner is the radiation surface of the burner. 17. A radiation regenerative burner according to any one of claims 1-15 or 16, characterized in that a glass flask is additionally introduced into the burner, covering with a gap the radiation surface of the burner and hermetically fixed to the burner body and / or casing, and in this case in the space between a flask and a radiation surface are created a vacuum and / or this space is filled with an inert gas that improves light output. 18. Thermoelectric generator containing a photoelectric generator, consisting of one and / or several photoelectric converters mounted on a support plate, electrically connected in series in a single circuit, characterized in that the device is additionally introduced a heater made in the form of a radiation regenerative burner, and a refrigerator, made in the form of a radiator and / or heat exchanger of an external heating / cooling system, a hollow casing, the inner surface of which is made light and heat-reflecting d, and the photoelectric generator and the radiation regenerative burner are structurally connected to the casing so that the front side of the photocell block faces the radiating surface of the heater and together with the internal reflecting surface of the casing form a closed volume, and the supporting plate is connected and has thermal contact with the refrigerator . 19. The thermoelectric generator according to claim 18, characterized in that a thermoelectric generator is additionally introduced into the device, consisting of one and / or several thermocouples placed in a housing or forming a mechanically rigid assembly and electrically connected in series to the circuit, and at the same time “heated” junctions thermocouples have a thermal connection to the base plate of the photocell block, and “cooled” thermocouple junctions have a thermal connection to the refrigerator. 20. Thermoelectric generator consisting of a heater in the form of a burner, a thermionic electric generator, consisting of one and / or several thermionic converters electrically connected in series in a single circuit, each of which has emitter and collector electrodes placed in a sealed enclosure, coated with a layer of easily ionized metal and separated by a vacuum gap , which is filled with pairs of easily ionized metals, and a refrigerator, made in the form of a radiator and / or heat exchanger external si topics of heating / cooling, and the heater has a thermal connection with emitters of thermionic converters, collectors of thermionic converters have a thermal connection with a refrigerator, characterized in that the heater is made in the form of a radiation regenerative burner, and the thermal contact of the emitter of the generator is carried out by radiation transfer and / or heat transfer in direct mechanical contact with the radiation surface of the burner. 21. The thermoelectric generator according to claim 20, characterized in that the thermoelectric generator is additionally introduced into the device, consisting of one and / or several thermocouples placed in a housing or forming a mechanically rigid assembly and electrically connected in series to the circuit, and at the same time “heated” junctions thermocouples have a thermal connection to the collectors of thermionic converters, and "cooled" thermocouple junctions have a thermal connection to the refrigerator.