SU1707216A1 - Wind-driven electric plant - Google Patents

Abstract

The invention relates to energy. Concentric ring partitions (P) 1 and 2 are installed in the reservoir and are divided into internal 3, middle 4 and external 5 pools (B). An annular pontoon (KP) 7 is located in B 4. The blades 8 are mounted on KP 7 and are connected by extensions 9 to the central bearing of rotation 6, Radial pipelines (T) 10 are fixed on KP 7, their inlets are located in B 3, and the weekend - on mirror B 5. Hydraulic turbines 11 are installed in T 10 and are kinematically connected to generators 12. Wave protection ring P 14 is located in B 5. Additional extensions 15 connect blades 8 to external ends T 10. The entrance to the hydraulic line 13 is located at the bottom 16 B 5 at maximum depth. P 1 between B 3 and 4 is perforated. The main hydraulic line 13 is equipped with a dump protection grid (P) 17 installed in its entrance part. T 10 are provided with P 18 installed in their output parts: The latter are made with an elliptical section, the small axis of which is located in a plane passing through the axis of rotation of the installation. The sizes of the holes in Р 18 Т 10 exceed the sizes of the holes in П 1, and the last - the sizes of the holes in Р 17. Such installation allows to increase its efficiency and improve the environmental characteristics of the water in the pond due to its saturation with oxygen. 1 il.

Description

This invention relates to power engineering and can be used in wind power installations.

The aim of the invention is to increase the efficiency of the wind power plant and to improve the environmental performance of the water in the pond.

The drawing shows schematically a wind power installation.

It contains concentric annular partitions 1 and 2 installed in the reservoir, dividing it into inner 3. middle 4 and outer 5 pools, central support for rotation 6, ring pontoon 7 located in the middle pool 4, blades 8 mounted on the ring pontoon 7 and connected by extensions 9 to the central

the support 6, mounted on the pontoon 7, radial pipes 10, the inlets of which are located in the internal pool 3, and the output above the mirror of the external pool 5, hydraulic turbines 11 installed in the radial pipes 10 and kinematically connected to generators 12, and the hydraulic line 13 for connection pools. The installation is equipped with a surge protection annular partition 14 placed in the outer basin 5, and additional extensions 15 for connecting the blades 8 to the outer ends of the radial pipelines 10. The entrance of the hydraulic line 13 is located at the bottom 16 of the outer basin 5 at the maximum depth Divider 1 between the inner and middle pools 3 and 4 is made perforated; the hydraulic line 13 is equipped with a roto-protective grid 17 installed in its inlet part, the radial pipes 10 are equipped with lattices 18 installed in their output parts, and The latter ones are made with an elliptical section, the small axis of which is located in the plane passing through the axis of rotation of the installation, while the dimensions of the holes in the grids 18 of the pipelines 10 exceed the dimensions of the holes in the perforated partition 1.a last are the sizes of the holes in the protective shield 17.

Wind power installation works as follows. Under the influence of the wind, the blades 8 cause the pontoon 7 and the pipelines 10 placed on it to rotate. Under the action of centrifugal forces, the water flows through the pipelines 10 from the internal pool 3 to the external pool 5 and drives the hydro turbine 11 and the generators 12, which generate electricity. Due to a decrease in the level of water in the inner basin 3, water from the middle basin 4 enters it through the perforated partition 1, and into the latter from the outer basin 5 through the hydraulic line 13. The water leaving the pipes 10 is divided into streams by gratings 18 and It is sprayed by centrifugal forces, which leads to its saturation with air oxygen. Placing the entrance of the hydraulic line 13 at the bottom 16 of the outdoor pool 5 at the maximum depth ensures the circulation of water in the basin 5. elimination of stagnant zones in it and good enrichment of water with oxygen, which improves the environmental characteristics of the lake in the pond. Making the exit portions of the pipelines 10 with an elliptical cross section, the small axis of which is located in a plane passing through the axis of rotation of the installation, allows reducing aerodynamic losses during movement of the pipelines 10 in the air. The successive increase in the size of the holes in the grate 17, the partition 1 and the gratings 18 along the course of the flow makes it possible to avoid clogging of the flow part of the installation. Making the perforated partition allows optimizing the hydrodynamic flow conditions in the inlet portions of the pipelines 10, and supplying the installation with additional stretches 15 for connecting the blades 8 with the outer ends of the pipelines 10 reduces the material consumption of the installation.

Claims (1)

Invention Formula A wind power installation containing concentric annular partitions installed in a reservoir, dividing it into an internal, middle and outer basin, a central rotational support, an annular pontoon located in the middle basin, blades mounted on an annular pontoon and stretched to the central support fixed to pontoon radial piping, the inlets of which are located in the inner basin, and the exit holes are above the outer mirror, hydro turbines installed in radial pipes and kinematically connected with generators, and a hydraulic line for connecting pools, characterized in that, in order to increase the efficiency of the installation and improve the ecological characteristics of the water in the reservoir by saturating it with oxygen in the air, it is equipped with a waveproof ring partition placed in the outdoor pool and additional stretches to connect the blades with the outer ends of the radial pipelines, the entrance to the mainline is located at the bottom of the outer basin at the maximum depth, and the outlet is in the middle basin, the partition between the inner and the medium their pools is perforated, the hydraulic line is equipped with a dump protection grid installed in its inlet part, radial pipes installed with grids installed in their output parts, and the latter are elliptical in cross section, the small axis of which is located in a plane passing through the axis of rotation of the installation; pipelines exceed the size of the holes in the perforated partition, and the latter - the size of the holes in the sorotory protection grille. 12