SU1719713A1 - Wind-power plant - Google Patents

Abstract

The invention makes it possible to increase the energy conversion efficiency of a wind power plant by accumulating excess energy by rotating the fluid in channel 5 and pontoon 4. The retractable blades interacting with the liquid cause rotation of the latter and maintain a constant rotation frequency of the pontoon and the kinematically associated energy converter 6, generating electricity stable parameters. To simplify the design, the supporting elements 3 of the frame 2 are made in the form of fixed axles, and the working bodies 1 in the form of cylindrical rotors mounted on the axles. 1 hp f-ly, 3 ill.

Description

The invention relates to wind energy and relates to installations with a vertical axis of rotation.

The purpose of the invention is to increase the efficiency of energy conversion and simplify the design of the installation.

Figure 1 schematically shows a wind power installation: in Fig, 2node I in Fig.1, Fig.3 installation, top view.

The wind power installation contains wind-receiving working bodies 1 mounted on a frame 2 of load-bearing elements 3 located on an annular pontoon 4 located in a liquid-filled annular channel 5, an energy converter 6 kinematically connected with the pontoon 4. The pontoon 4 is hollow, partially filled with liquid, and equipped with retractable blades 7 mounted on the inner and outer surfaces of the pontoon. 4. Bearing elements 3 are made in the form of fixed axes rigidly interconnected, and the working bodies 1 - in the form of cylindrical rotors mounted on the axes. The rotors are equipped with electric motors 8, and the pontoon 4 - limiters 9.

Installation works as follows. "

When the wind appears, turn on the electric motors 8. In this case, the rotors located to the left of the axis aa rotate along. clockwise, and located to the right of the axis aa, rotate counterclockwise. When approaching the axis aa ^{— the} electric motors 8 are turned off and the rotation is switched on the axis aa — the rotation of the electric motor 8 is reversed. When the rotors rotate, the Magnus effect appears, the forces arising on each rotor rotate the installation clockwise. Pontoon 4 rotates in a circular channel 5 with liquid. Liquids are practically not involved in rotation. To accumulate energy, the blades 7 are subsequently advanced, which carry the fluid into rotation together with the pontoon 4, storing kinematic energy. With a decrease in wind strength, the energy accumulated by the liquid continues to rotate the installation. When the pontoon 4 rotates, radial displacement forces arise, which tend to shift the pontoon 4 in the radial direction. To keep the pontoon 4 in the working position, there is a limiter 9. The pontoon 4 interacts with the rotors of the energy converters 6, bringing them into rotation. This generates electrical energy.

Claims (2)

Claim·: 1. A wind power installation containing wind-sensing working bodies mounted on a frame of load-bearing elements placed on an annular pontoon located in a liquid-filled annular channel, and an energy converter kinematically connected to the pontoon, characterized in that * in order to increase the efficiency of energy conversion, the pontoon is hollow, partially filled with liquid and equipped with retractable blades mounted on the inner and outer surfaces of the pontoon. 2. The installation according to claim 1, with the fact that, in order to simplify the designs, the supporting elements are made in the form of fixed axes, rigidly interconnected, and the working bodies in the form of cylindrical rotors mounted on axles. Figz