SU133133A1 - Flame jet electric current generator - Google Patents

Description

The present invention relates to flame jet electric current generators, in which a jet of ionized gas, a passage in a magnetic field, plays the role of a conductor of an electrical machine.

The proposed generator differs from the known ones in that it is provided with a fixing winding, embedded in the walls of the nozzle, made in the form of electrical conductors. The latter flow in a direction opposite to that of the operating current in the gas. The use of a locking winding of the specified structure creates an electrodynamic repulsion of the current-carrying gas jet from the winding conductors, causing the gas jet to be wrung from the nozzle walls and to seal the gas in the nozzle. Thereby, the thermal stability of the walls of the nozzle increases and the thermal efficiency increases. installation.

The electrical conductors forming the focusing winding can be hollowed and cooled. Instead of conductors, water-cooled tires can be used.

The conductors of the focusing winding may be made of a material with a high coefficient of reflection of thermal radiation or be covered with such material from above.

If in a flame jet generator the gaseous medium undergoes additional (mainly unipolar) ionization in order to enhance the effect of pushing the gas stream from the nozzle walls, the latter are made of electrically conductive material and an electric charge is applied to them, the sign of which corresponds to the sign of the charge of the gas jet. To create an electrostatic repulsion, this charge can be fed to the focus winding. To pressurize the gas to the nozzle side, the combustion chamber of the generator is located in a magnetic field and electrodes are placed in it to pass a current through the ionized gas.

No 1331332 An alternating current is applied to the direct current of the excitation winding, or to the current of the focusing winding, to the operating current in the gas, to the voltage of the electric charge of the walls or the focusing winding, or to several of the indicated currents at the same time.

In this way, vibrations are created in the gas jet to improve the combustion of fuel in it.

The drawing shows a diagram of the proposed generator.

The described generator contains a combustion chamber 1, from which a hot ionized gas enters the nozzle 2. The nozzle is provided with an excitation winding 3, which creates a magnetic field F, directed across the movement of the gases. The current induced by the emf directed perpendicular to the plane of the drawing is removed from the gas by two electrodes 4 and 5. In the wall of the nozzle there is a focusing winding 6, the direction of the current in which is opposite to the direction of the current of gas in the nozzle 2. Gas str pressed against the walls of the nozzle, which reduces their convection heating. To eliminate heat due to radiation, the focusing winding 6 is made of hollow conductors with water or evaporative cooling. The surface of the focusing winding is coated with a non-oxidizing material with a high reflectance of light, such as silver or aluminum. Since the focusing winding 6 is supplied with a pulsating current, it contributes to the compaction of the gas in the nozzle and its more efficient combustion. The walls of the nozzle are charged by electrically charging a single sign with a gas charge, which makes it possible to use electrostatic repulsion for pressing a jet of gas from the nozzle walls. Electrodes 7 and 8 are located in the combustion chamber, through which a pulsating current flows, allowing vibrations of the combustible mixture in the combustion chamber to be obtained, accelerating the combustion of fuel. In the hottest part of the combustion chamber, the second focusing winding is used for thermal protection of the chamber walls. The direct current electric power received from electrodes 4 and 5 is converted into alternating current by various known methods, for example, through inverters.

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Claims (7)

1. A flame jet electric current generator in which a stream of burning gas is passed from the combustion chamber through a spreading nozzle located in the magnetic field of the excitation system and "containing current-collecting electrodes, characterized in that, in order to increase the thermal stability of the nozzle walls and increase the thermal ppm installations, electrical conductors forming the focusing winding and streamlined by current in the direction opposite to the direction of the operating current in the gas are embedded in the nozzle walls, for pressing the gas stream from the nozzle walls and sealing the gas in the nozzle due to electrodynamic repulsion of the current-carrying gas stream from the winding conductors. 2. The generator according to claim 1, excluding and with the fact that the focusing winding is made of hollow cooled conductors or of women with cooling by the type of water jacket. 3. Generator on PP. 1 or 2, characterized in that the conductors of the focusing winding are made of or coated with a material that has a higher coefficient of reflection of thermal radiation (silver, aluminum). 4. The generator according to claim 1, wherein the gaseous medium undergoes additional ionization, preferably unipolar, characterized in that, in order to enhance the repulsion effect of the gas jet or the walls of the nozzle, these walls are made of electrically conductive material and are charged electrically; the sign of which corresponds to the sign of the charge of the gas jet or the part of the latter that carries the main thermal energy. 5.Varification of the generator according to claim 4, characterized in that in order to create the effect of electrostatic repulsion of the gas jet against the walls of the nozzle, the charge is applied to the focusing winding. 6.Generator on PP. 1-5, from the chamber and from the fact that the combustion chamber is located in a magnetic field and electrodes are placed in it to pass a current through an ionized gas, in order to create a gas in the gas electrodynamically in the direction of the nozzle. 7. In the generator on the PP. 1-6 applying an alternating current to a direct current supplying the excitation winding, either to the current of the focusing winding, or to the operating current in the gas, or to the voltage of the electric charge of the walls or the focusing winding, or simultaneously to some of these currents and voltages various combinations to create vibrations in the gas jet to improve the combustion of the fuel in the jet.