SU1121482A1 - Wind power plant - Google Patents

Abstract

1. WIND POWER INSTALLATION, comprising an annular body with a central channel, a winding with curvilinear side surface located at its entrance and a wind wheel mounted in the channel on the vertical shaft, characterized in that, to increase the utilization of wind energy, a ring is installed above the body with a gap , and the casing is provided with an elastic outlet pipe fixed on the casing walls on the channel side and on the ring. 2. The installation according to claim 1, wherein the fairing is provided with guide vanes. 3. The installation of claim 1, wherein that the body in the meridian section has a variable height, decreasing to its periphery.

Description

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FIG. one

The invention relates to veterinary technology and can be used to provide energy to various consumers.

A wind turbine is known that contains a wind wheel mounted on a vertical shaft and tangentially placed confusor nozzles 1 which are tangentially placed along its circumference.

However, such a wind turbine has a low efficiency.

Also known is a wind power installation, comprising an annular body with a central channel, a fairing with a curvilinear side surface located at its entrance and a wind wheel 2 mounted in a channel on a vertical shaft.

However, such a plant has output channels that are not improved from an aerodynamic point of view, which significantly reduces the utilization of wind energy.

The purpose of the invention is to increase the utilization of wind energy of a wind power installation.

The goal is achieved by the fact that a wind power plant that contains an annular body with a central channel, a fairing with a curved side surface located at its entrance and a wind wheel mounted in a channel on the vertical shaft has a ring above the body with a clearance, and the body is equipped with an elastic outlet fitting fixed on the walls of the body from the channel and on the ring.

In addition, the fairing is provided with guide vanes, and the body in the meridional section has a variable height, decreasing to its periphery.

FIG. 1 shows a diagram of a wind power installation, a transverse section; in fig. 2 - the same, from above.

The wind power installation comprises an annular body 1 with a central channel 2, a fairing 3 with a curvilinear side surface located at its inlet and a wind wheel 5 mounted on the vertical shaft 4 on the vertical shaft 4. A ring 6 is installed above the body I with a gap, and the body 1 is equipped with an elastic outlet pipe 7 mounted on the walls of the housing 1 on the side of the channel 2 and on the ring 6. The fairing 3 is provided with guide vanes 8.

5 Case 1 is located above the fairing 3 and

mounted on the ground with the help of pylons 9. The wind wheel 5 is connected to the working machine, such as a generator, and installed in channel 2 on the pylons 10. Pipe 7 is divided by internal radial partitions 11 into sections.

Inside the fairing 3, there is a complete power distribution device 12, batteries 13, as well as a pump 14 for lifting water. The inner side of the housing 1 is used as a water tank. Outside on the housing 1 placed 15 solar cells.

Wind power installation works as follows.

 The wind enters between the pylons 9 into the channel between the fairing 3 and the housing 1. In view of the narrowing of the channel, the flow velocity increases, and it, by passing the guide vanes 8, passes to the wind turbine 5 and further up

5 through the channel 2, from which it is ejected by the air flow passing above the housing 1. The wind wheel 5 with the generator rotates and the energy is supplied to consumers, for example the pump 14 or the battery 13.

The wind flow moving over the housing 1 partially enters the slot under the ring 6 into the internal cavity of the elastic pipe 7 and deforms it so that it forms the cavity of the optimum profile above channel 2, providing the best suction of air from the wind wheel 5, which increases the efficiency of the entire installation .

In any wind direction, the approach to the wind wheel is maintained due to the annular fairing 3 and the curvature of the nozzle 7 always in the direction of the wind.

The efficiency of the installation is to increase the utilization of wind energy, as well as to combine its hull with a water tank, which reduces the capital cost of building the installation.

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FIG. 2

Claims (3)

1. A WIND POWER INSTALLATION, comprising an annular body with a central channel, a fairing located on its inlet with a curved side surface and installed in the channel on a vertical shaft of a wind wheel, characterized in that, in order to increase the utilization of wind energy, a ring is installed over the body with a gap , and the housing is equipped with an elastic outlet pipe mounted on the walls of the housing from the channel side and on the ring. 2. Installation according to π. 1, characterized in that the fairing is equipped with guide vanes. 3. Installation according to π. 1, characterized in that the housing in the meridian section has a variable height, decreasing to its periphery. FIG. 1