RU2002100030A - The method of converting low potential energy stream and a device for converting low potential energy stream - Google Patents

Claims (23)

1. The method of converting low potential energy of the air stream, which consists in supplying through the traction pipe to the turbine wheel and its energy-generating elements of the air stream with subsequent conversion of its energy into mechanical or electrical, characterized in that when the stream passes through the traction pipe before it enters the turbine wheel the cross section of the flow is divided into channels isolated from one another, concentrically distributed over the entire cross section of the stream, each one of the flows is directed to the corresponding section of the turbine wheel, the energy generating elements of which are also divided into concentric sections that are non-volatile from each other, and the obtained mechanical or electrical energy is synchronized and brought into line with consumer indicators. 2. The method of converting low-potential energy of the air stream according to claim 1, characterized in that the energy-generating elements are in the form of electro-generating sections of electrophore energy conversion, the friction surfaces of which are coated with energetically conjugated materials. 3. The method of converting low-potential energy of the air stream according to claim 2, characterized in that the energy-generating elements are made of glass and ebonite. 4. A device for converting low-potential energy of the air flow, comprising wind turbines with blades enclosed in traction tubes of rotors and power generating elements, characterized in that the rotors are made in the form of concentric annular stationary supports of energy differentiation bushings that are coaxially mounted in the traction pipe, moreover, between the concentric annular fixed supports formed openings for the passage of air flow, and each of the rotating energy of the differentiating bushings and the corresponding fixed support are provided with autonomous sections of an electric generator, the power generating elements of which are in the form of permanent magnets and electric windings with magnetic cores opposite each other on the bushes and supports. 5. The device for converting low potential energy according to claim 4, characterized in that the permanent magnets of the electric generator are installed on the surfaces of the energy-differentiating bushings free from the blades, and the electrical windings and magnetic circuits are fixed opposite the permanent magnets on the fixed supports. 6. The device for converting low potential energy according to claim 4, characterized in that the electric windings and magnetic circuits of the electric generator are mounted on the surfaces of the energy-differentiating bushings free from the blades, and the permanent magnets are fixed opposite the electric windings and magnetic circuits on fixed supports. 7. Device for converting low potential energy according to any one of paragraphs.4, 5 and 6, characterized in that the elements of the sections of the electric generators are recessed into the surface of the energy differentiating bushings. 8. A device for converting low potential energy according to claim 4, characterized in that the energy-differentiating bushings are provided with independent dampers. 9. A device for converting low potential energy according to claim 4, characterized in that the outer surfaces of the energy differentiating sleeves are tightened with retaining ropes. 10. A device for converting low potential energy according to claim 4 or 9, characterized in that the prestressed radial ropes are fixed to the retaining ropes at one end thereof, the other end of which is mounted on the outer edge of the corresponding blade rope. 11. A device for converting low potential energy according to claim 4 or 9, characterized in that the aerodynamic surface of the blades is fixed by profiling ropes. 12. A device for converting low potential energy according to claim 4, characterized in that the bushings are made integral in height from rings provided with vertical channels through which vertical cable ties are passed. 13. The device for converting low potential energy according to claim 4, characterized in that the blades are made of flexible sheet steel, mounted on the surface of the energy differentiating bushings. 14. A device for converting low potential energy according to any one of claims 4, 9 and 10, characterized in that transverse rope ties are mounted on the surface of the blades placed across the profiling ropes and fixed relative to them. 15. The device for converting low potential energy according to claim 4, characterized in that the profiling ropes are prestressed relative to the retaining ropes. 16. Device for converting low potential energy according to any one of paragraphs.4, 11 and 14, characterized in that the blades are made of flexible film materials reinforced with polymer tubes through which transverse cable ties and profiling ropes are passed. 17. The device for converting low potential energy according to claim 4, characterized in that the generator sections of each energy differentiating sleeve are synchronized at the output with each other and are shown in electrical parameters to the requirements of the consumer network. 18. The device for converting low potential energy according to claim 4, characterized in that the surfaces of the fixed supports and the rotating energy differentiating bushings are made in contact and a thin film coating of one of the electrically conjugated materials is applied to the surface of the fixed supports or rotating energy-differentiating sleeves, and the other electrically conjugated material is also in in the form of a film is deposited on the corresponding surface of rotating energy-differentiating bushings or fixed supports with a century of their contact novena. 19. A device for converting low potential energy according to claim 18, characterized in that ebonite and glass are used as electrically conjugated materials. 20. A device for converting low potential energy according to claim 4, characterized in that the rotation supports are made in the form of a magnetic holding pillow. 21. A device for converting low potential energy according to claim 4, characterized in that the rotation supports are made in the form of an air cushion. 22. The device for converting low potential energy according to claim 4, characterized in that the rotation supports are made in the form of fixed supports fixed on contacting surfaces and rotating energy-differentiating bushings of second-layer inserts. coated with liquid lubricant. 23. The device for converting low potential energy according to claim 4, characterized in that on the surface of the fixed supports or rotating energy-differentiating bushings, a short-tufted coating of conductive materials is formed, protected by a layer of a substance with a low resistance to surface exit of electrons, and on the corresponding surface of rotating energy-differentiating bushes or stationary mounted collectors made in the form of brushes from a flexible electrically conductive material, and the surfaces are otkovorsovogo coverage and hands covered with layers of energy coupling materials.