RU2005906C1 - Method and apparatus for producing power - Google Patents

Abstract

FIELD: wind power. SUBSTANCE: vanes of turbine provided with a shaft is directly effected by water and wind streams simultaneously or by water stream only for rotating the turbine in one direction. The vanes of the turbine undergo wind stream or wave power. To implement the method the turbine with vanes is set in the stream on vertical shaft. Shaft of a generator is coupled with shaft of the turbine. A wall of a guide casing, which is parallel to the turbine axis, is provided with outlet opening. Bottom edge of the guide casing is located at a level of water surface. The apparatus is fixed to the bottom of a reservoir and provided with a platform with jacks. Shafts of the turbine and generator are interconnected with a coupling. The guide casing is rigidly secured to the platform. The outlet opening is made in top wall of the guide casing which is perpendicular to the platform. There are additional inlet openings in the top wall from the side of the inlet opening and in side walls perpendicular to axis of the turbine. EFFECT: enhanced efficiency. 3 cl, 8 dwg

Description

 The invention relates to wind power.

 The purpose of the invention is to increase the power and efficiency of existing hydro-wind devices.

 In FIG. 1 shows a hydro-wind device, the main view; in FIG. 2 - the same side view; in FIG. 3 is the same, top view, section AA in FIG. 1; in FIG. 4 - same, top view; in FIG. 5 - node B in FIG. 1; in FIG. 6 - node B in FIG. 1; in FIG. 7 - node D in FIG. 2; in FIG. 8 is a section GG in FIG. 1.

Gidrovetrovoe device comprises a blade 1 of the turbine, closed at least half / not less than ¹⁸⁰ ° in plan / protective casing 2, the sleeve 3, the generator 4, the housing 5, jacks 6 bearing column 7, inlet 8 and an outlet 9 guides, platform 10.

 The protective casing 2 serves to reduce the influence of the river flow on the rotation of the blades moving against the current during rotation, and to direct the wind to the turbine blades in the wind mode.

 The proposed method is characteristic in that it involves work in 3 modes: in the hydro-wind mode, purely in the hydraulic mode and purely in the wind mode, which is most effective when the wind speed exceeds the current velocity.

 One of the distinguishing features of the design, allowing the proposed method to be implemented, is the presence of input 8 and output 9 guides for the entry and exit of the wind, rigidly fixed to the platform 10 and connected to the jacks 6.

 The input guide 8 (see Fig. 6) is structurally such that it can direct the wind flow to the turbine wheel blades in four directions (a, b, c, d). The output guide 9 has an outlet for wind perpendicular to the water surface. This is done so that the wind in direction "b" does not interfere with the rotation of the blades.

The blades (G-D, Fig. 8) have an angular cross-sectional shape with an angle of 90 ^about .

 The blades can be both solid (see Fig. 1), and divided (see Fig. 7).

 When changing the design of hydraulic blades, such a hydro-wind device can also be used in lakes with powerful keys.

 The hydro-wind device works as follows: the hydraulic flow of the river (possibly the sea) rotates the blades half immersed (or completely, Fig. 7) in the stream. In the presence of wind, it is guided by an input guide 8 to a part of the blades located above the hydraulic flow or to the blades (see Fig. 7), helping the rotation of the turbine.

 In the case of a significant excess of the wind speed over the flow rate, the entire platform 10 rises with the input 8, output 9 guides, housing 5 and blades 1 with a protective casing 2 above the water surface. The power plant operates in wind mode, which significantly increases its efficiency (especially if the wind blows in the direction of "g").

 The jacks also perform the function of adjusting the system to the changing level of the river (or sea) during the season. (56) USSR Patent N 913, cl. F 03 B 17/06, F 03 D 5/02, 1923.

Claims (2)

 1. The method of producing electricity, which consists in the fact that the turbine blades equipped with a shaft are directed by hydraulic and wind flows simultaneously or only by hydraulic flow to rotate the turbine in one direction, characterized in that the turbine blades are affected only by wind flow or wave energy .  2. Hydro-wind device for generating electricity, comprising a turbine with blades mounted on supports, mounted in a stream on a vertical shaft, a generator whose shaft is connected to the turbine shaft, a turbine protective casing and a guiding casing with inlet and outlet openings for the wind flow, and an inlet made in the wall of the casing parallel to the axis of the turbine, and the lower edge of the guide casing is placed at the level of the water surface, characterized in that the device is stationary, fixed to the bottom of the reservoir and equipped with a platform with jacks, the turbine and generator shafts are connected by means of a coupling, the guide casing is rigidly fixed to the platform, and the outlet is made in the upper wall of the guide casing, perpendicular to the axis of the turbine, while in the said upper wall from the inlet side and in the side walls guide casing perpendicular to the axis of the turbine, additional inlet openings are made.

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