RU194052U1 - Hydroelectric turbine - Google Patents

Abstract

The technical solution relates to the field of hydropower, in particular to a turbine, and is intended to convert the kinetic energy of the water stream into electrical energy. In a turbine of a hydroelectric power station comprising a frame including upper and lower platforms interconnected, with an impeller fixed between them with a vertically oriented axis, configured to be connected to an electric generator, while on the frame there is a water flow concentrator mounted on one side and on the other side of the screen, according to the claimed solution, the hub is made of shields installed at an angle to the circumference of the rotation of the impeller. The impeller can be made in the form of a fixed axis mounted on the frame, mounted on it with the possibility of rotation of the rotor with blades or in the form of a rotor with blades mounted on an axis mounted on the frame with rotation. The screen can be made in the form of an integral structure with a frame or in the form of an independent element.

Description

The technical solution relates to the field of hydropower, in particular to a turbine, and is intended to convert the kinetic energy of a water stream; into electrical energy.

The prior art knows the solution, which is a free-flow transverse-axial turbine containing a supporting frame, on which a rotor with wing-shaped blades fixed to its shaft, connected to a generator, is placed. The turbine contains a water flow concentrator in the form of two opening partitions, the ends of which adjoin with a gap to a cylindrical surface swept by the blades during rotation of the rotor. RU patent for invention No. 2642717, IPC F03B 3/00; F03B 13/00; F03B 17/06, published on 01/25/2018.

Common signs of the proposed solution and the known analogue are:

- a frame including upper and lower platforms interconnected;

- an impeller with a vertically oriented axis is fixed between the platforms;

- the impeller is configured to be connected to an electric generator;

- a concentrator of water flow is fixed on the frame;

the impeller is made in the form of a rotor with blades mounted on an axis mounted on the frame with the possibility of rotation.

Distinctive features of the proposed solutions are:

- the hub is made of shields installed at an angle to the circumference of the rotation of the impeller;

- the screen is fixed to the frame;

- the impeller is made in the form of a fixed axis mounted on the frame, mounted on it with the possibility of rotation of the rotor with blades.

The disadvantage of this technical solution is the low efficiency of the installation, since the hub, made in the form of two partitions of the opening does not sufficiently increase the pressure of the water. In addition, there are no means in the turbine to overcome the resistance to water flow.

A technical solution is known, chosen as the closest analogue, which is a hydropower installation containing a housing including upper and lower walls in the form of platforms on which the rotor axes with blades are fixed and side walls in the form of frames connecting the platforms. The rotors are connected to the generators and are perpendicular to the direction of flow of water. The input of the housing is made conical, in the form of a funnel, to enhance the pressure of water. Also, limiters are fixed to the body, covering parts of the rotors with blades, which serve as screens that regulate the flow of water inside the channel and prevent the rotors from rotating in the opposite direction. Patent CA for invention No. 2683450, IPC F03B 17/06; F03B 7/00, published October 23, 2008.

Common signs of the proposed solution and the known analogue are:

- a frame including upper and lower platforms interconnected;

- an impeller with a vertically oriented axis is fixed between the platforms;

- the impeller is configured to be connected to an electric generator;

- a concentrator of water flow is fixed on the frame;

- the screen is fixed to the frame;

the impeller is made in the form of a rotor with blades mounted on an axis mounted on the frame with the possibility of rotation.

Distinctive features of the proposed solutions are:

- the hub is made of shields installed at an angle to the circumference of the rotation of the impeller;

- the impeller is made in the form of a fixed; axis mounted on the frame, mounted on it with the possibility of rotation of the rotor with blades.

In a known technical solution, the hub is made in the form of a cone tapering towards the rotors. Such a narrowing does not sufficiently increase the pressure of the water and, therefore, has a low efficiency.

The technical result of the proposed technical solution is manifested in improving the efficiency of the device. power station turbines.

The technical result is achieved by the fact that in a turbine of a hydroelectric power station containing a frame including upper and lower platforms connected to each other, with an impeller fixed between them with a vertically oriented axis, configured to connect to an electric generator, with a hub mounted on one side of the frame water flow, and on the other hand the screen, according to the claimed solution, the hub is made of shields installed at an angle to the circumference of the rotation of the impeller. The impeller can be made in the form of a fixed axis mounted on the frame, mounted on it with the possibility of rotation of the rotor with blades or in the form of a rotor with blades mounted on an axis mounted on the frame with rotation. The screen can be made in the form of an integral structure with a frame or in the form of an independent element.

A concentrator made of shields installed at an angle to the circumference of the impeller rotation helps to direct and strengthen the water pressure in the narrowed tangential channels formed by the shields by increasing its pressure and optimizing the angle of attack of the rotor blades. Thus, the rotation of the impeller and, as a consequence of which, the power of the generator are accelerated. Thanks to this design of the concentrator, the turbine can be installed even in bodies of water with a low flow, while doing this efficiently.

The turbine frame of a hydroelectric power station includes an upper and lower platform and serves to connect them, as well as to attach a hub and a shield to it. Platforms in this case are the supporting and fixing base of the axis of the impeller.

The impeller is designed to convert the kinetic energy of the water flow into rotational motion, followed by converting it into electrical energy by means of an electric generator connected to it. The impeller can be made in the form of a fixed axis mounted on the frame, mounted on it with the possibility of rotation of the rotor with blades or in the form of a rotor with blades mounted on an axis mounted on the frame with rotation. The blades at the same time create the torque of the impeller under the influence of water pressure.

The screen also contributes to an increase in turbine power, by eliminating the braking by the reverse flow of water of incoming “non-working” blades, that is, it reduces the resistance to rotation of the impeller.

The claimed technical solution is further explained with the help of figures, which conventionally presented one of the possible options for the execution of the turbine of a hydroelectric power station.

In FIG. 1 is a top view of a turbine.

In FIG. 2 shows a side view of the turbine.

In FIG. 1-2, a turbine (1) of a hydroelectric power station is shown, comprising a frame (2), upper and lower platforms (3), an impeller (4) with vertically oriented axes (9), with blades (5), a concentrator (6) of water flow made of shields (7), screen (8).

Next, with reference to the figures, the construction of a hydroelectric turbine (1) is described.

The turbine (1) contains a frame (2) connecting the upper and lower platforms (3). Between the platforms (3), an impeller (4) with a vertically oriented axis (9) is fixed.

The impeller (4) is made with the possibility of connecting to an electric generator and can be made in the form of a fixed axis (9) mounted on the frame (2), with a rotor with blades (5) mounted on it with the possibility of rotation, or in the form of a rotor with blades ( 5) mounted on an axis (9), mounted on the frame (2) with the possibility of rotation. The parameters of the blades (5), for example, their area, configuration, can be calculated based on the power and size of the generator.

On the frame (2), on one side, a concentrator (6) of water flow is fixed, and on the other hand, a screen (8). At the same time, the concentrator (6) is made of shields (7) installed at an angle to the circumference of the rotation of the impeller (4), thus forming tangential slots or channels in which the flow is densified, its pressure increases, and thereby the flow velocity increases.

The screen (8) can be made in the form of a separate element, in particular, in the form of a curved element mounted on the frame, or made in the form of a single structure with the frame (2).

The turbine (1) can be immersed in water in whole or in part. In the design, devices can be provided to keep the turbine (1) afloat, made with predetermined immersion parameters, based on the type and method of immersion. To increase the useful power, several impellers (4) can be installed on one axis (8), or several impellers (4) with a hub for each of them can be installed on one frame (2).

One of the preferred options for using the claimed turbine (1) of a hydroelectric power station is illustrated below by example.

The turbine (1) of a hydroelectric power station is immersed in a body of water, for example, in a river or marine water area, and can be fixed to supporting structures, objects of natural origin, for example, the bottom, shoreline objects by any known method. The turbine (1) with the axis (9) of the impeller (4) is oriented vertically, so that the water flow is directed to the hub (6).

The water flow continuously passes through the concentrator (6), where its pressure increases due to the channels between the shields (7) and enters the blades (5) of the impeller (4), which, when rotated, under the influence of the water pressure, create a torque. The kinetic energy of the rotational motion of the impeller (4) is then converted into electrical energy of an electric generator, which can be connected to the impeller.

In this case, the direction of the reverse water flow, which can lead to the rotation of the impeller (4) in the other direction, is limited by the screen (8).

The presented figures, the description of the design and use of the hydroelectric turbine do not exhaust the possible options for implementation and do not limit in any way the scope of the claimed technical solution. Other options for execution and use in the scope of the claimed formula are possible. Depending on the purpose, the hydroelectric turbine can be made in different sizes, colors and configurations.

The hydroelectric power turbine is characterized by high efficiency due to an increase in the impeller torque under the influence of a reinforced water pressure through its passage between shields installed at an angle to the circumference of the impeller rotation, of which the hub is made.

Claims (5)

1. A turbine of a hydroelectric power station, comprising a frame including upper and lower platforms connected to each other, with an impeller fixed between them with a vertically oriented axis, configured to be connected to an electric generator, while on the frame there is a water flow concentrator mounted on one side, and with the other side of the screen, characterized in that the hub is made of shields installed at an angle to the circumference of the rotation of the impeller. 2. The turbine according to claim 1, characterized in that the impeller is made in the form of a fixed axis mounted on the frame, with a rotor with blades mounted on it with the possibility of rotation. 3. The turbine according to claim 1, characterized in that the impeller is made in the form of a rotor with blades mounted on an axis mounted on a frame with the possibility of rotation. 4. The turbine according to claim 1, characterized in that the screen is made in the form of an integral structure with a frame. 5. The turbine according to claim 1, characterized in that the screen is made in the form of an independent element.

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