WO2006096091A1 - Wind plant - Google Patents

Abstract

The inventive wind plant relates to wind power engineering, in particular, to wind plants provided with guiding devices for converting air stream power and can be used for producing mechanical and electric power. The invention makes it possible to extend the range of wind stream operation speeds, to maximally use the power thereof, to reduce working duct losses and to increase the wind plant efficiency. For this purpose said wind plant comprises a fixed bearing body which is used as a main guiding device and embodied in the form of a three-dimensional blade grid (3) provide with a central output channel (5), wherein a working wheel is arranged on a vertical shaft coaxially with respect to a central axis, a single unit consisting of an air intake (7), a nozzle (9) and a stabiliser (10) is arranged on the body top element (1) in such a way that it is freely rotatable about said central axis, the three-dimensional blade grid (3) is formed by two revolution surfaces (1, 2) and three-dimensional blades which are embodied in the form a circular array, located between said surfaces and form working channels (4), the air inlet (7) totally encompasses the working channels (4) of the rear area of the guiding device and connected in the form of a single part to the outlet nozzle (9) in such a way that it is freely rotatable about the central axis.

Description

 WIND INSTALLATION

Technical field

The wind turbine relates to wind energy, in particular, to wind turbines with guiding devices that convert the energy of the air flow, and can be used to obtain both mechanical and electrical energy.

State of the art

A known wind turbine containing devices for changing the direction of the air flow, which, inter alia, contains a housing, an exhaust device, and a guide apparatus for the air flow and is intended to convert the energy of the air flow, (RF patent Ns 2093702, from 22.01.96, F 03 D 3/04).

However, this installation does not allow maximum use of wind energy due to large losses in an extended vertical working path.

A wind turbine with a hub and flow accelerators is known, which, among other things, contains a streamlined body, a confuser, a nozzle and a turbo-rotor rotor and is designed to convert wind energy into electrical energy (A.S. Ne 2078995 from 05.26.92 6 F 03 D 9 / 00). But a large sailing of the confuser involves an increase in the strength of the bearing elements and mechanisms, and their mass, and this reduces the overall efficiency of the installation. Structural complexity with a large number of moving pairs and friction pairs increases the unit cost of the installation and casts doubt on its advantages over the classical horizontal-axis setup scheme. The closest technical solution is a wind turbine containing an annular body with a central channel and a fairing at its inlet, which, among other things, contains guide vanes, an elastic outlet pipe with a ring and a wind wheel mounted on a vertical shaft, and is designed to convert wind energy (a. S.Ns 1121482, dated 06/08/82 F 03 DЗ / 04)

But in this installation, only the front part of the guide apparatus works, and on the back, relative to the direction of the air flow, a low-pressure zone of low pressure is created that is half (or even more) of the diameter of the guide apparatus, which leads to the overflow of the working medium to the low pressure region at the transition from the guide vane to

SUBSTITUTE SHEET (RULE 26) impeller. That is, part of the air flow with its potential energy “runs free” does not reach the impeller, thereby reducing the efficiency of the installation.

SUMMARY OF THE INVENTION An object of the present invention is to expand the range of operating speeds of a free stream, maximize the use of its energy, reduce losses of a working path and increase the efficiency of a wind turbine.

To solve this problem, the wind turbine contains a stationary bearing housing which is the main guide device, made in the form of a spatial blade grid with a central output channel, in which an impeller is placed coaxially with the central axis, and the impeller is mounted on the upper housing element with the possibility of free rotation relative to central axis, a single block of air intake, nozzle and stabilizer; at the same time, the spatial blade grid is formed of two surfaces of revolution and constructed in the form of a circular array of spatial blades between them, which form the working channels; the air intake completely covers the working channels of the rear zone of the guide apparatus and is connected together with the output nozzle with the possibility of free rotation about the central axis. Brief Description of the Drawings

On Fig shows a General view of the installation; in FIG. 2 - sectional wind turbine; in FIG. 3 is a top view with a section A-A.

Figure 1, 2, 3 shows a wind turbine, where 1 is the lower base, 2 is the upper housing element, 3 are spatial blades, 4 is the working channel of the guide apparatus, 5 is the central output channel of the body, 6 is the impeller, 7 is the air intake , 8 - the internal cavity of the air intake, 9 - nozzle, 10 - stabilizer, 11 - generating device, 12 - the interface into zones, 13 - the frontal zone, 14 - the rear zone.

BEST MODE FOR CARRYING OUT THE INVENTION Relative arrangement of components and parts of a wind turbine: lower base

1 and the upper element 2 are concentric with respect to the central vertical axis and represent two surfaces of revolution. The lower base 1 and the upper element 2 are rigidly interconnected by spatial blades 3, constructed in the form of a circular array relative to the central axis and form the spatial working channels 4

SUBSTITUTE SHEET (RULE 26) between each pair of blades 3. The combination of the above elements forms a stationary supporting body, which is the main guide apparatus. It is made in the form of a spatial paddle grill with a central output channel 5, in which the impeller 6 is coaxially placed. On the upper housing element 2 is installed, with the possibility of free rotation about the central axis, a single block of air intake 7, nozzle 9 and stabilizer 10. The impeller 6 is connected with the generating device 11. The air intake 7 is made in the form of a spatial shell, covering in working position the working channels 4 of the rear zone 14 of the guide apparatus and creating its boundary m Between the areas of high and low pressure, forms an internal cavity 8. The conditional interface 12 between the frontal zone 13 and the rear zone 14 passes along the inlet part of the air intake.

In this case, the working channels 4 are formed from the condition of minimizing the length of the working path in the guide apparatus and the vertical component of the path of the working medium. Wind turbine works as follows.

The nozzle 9 and the air intake 7 using the stabilizer 10 are oriented in the direction of the air flow, rotating around the guide apparatus. The air flow captured by the guide apparatus and the air intake 7, passing through the channels 4 of the guide apparatus located in the frontal zone 13 and through the internal cavity 8 formed by the air intake 7, and the channels 4 located in the rear zone 14, enters the Central channel 5 and the impeller 6 located in it. Having transferred part of its energy to the wheel b, the exhaust air stream (working medium) is thrown out through the nozzle 9. The impeller 6 transfers the received energy to the generating device 11. The nozzle section 9 is located in the rear zone 14 of the reduced pressure region, and the inlet part of the air intake 7 is in the front zone 13 of the increased braking pressure region from the incoming flow.

Two effects opposite in effect (“pull” and “push”) give an additional positive impulse to the air flow and transfer the installation into the category “two in one”.

To the above, we add that the spatial boundary between the regions formed by the surface of the moving block of elements 7 and 9

SUBSTITUTE SHEET (RULE 26) low and high pressures, protects the installation from harmful "suction" effects in the area of transition from the guide apparatus to the impeller 5 and, thereby, reduces energy loss in the working path of the installation. The movable block of elements 7,9,10 is made of light materials and has a low inertia moment at a low specific gravity. Depending on the rated power of the installation and, accordingly, the mass of the moving block of elements 7,9,10, it is possible to use additional devices and mechanisms in conjunction with the stabilizer 10 or instead. Installation on the upper element of the housing, a single block of air intake, nozzle and stabilizer, with the possibility of free rotation relative to the central axis, allows you to get additional energy from the flow captured by the air intake, turn on the channels of the back zone and get rid of the harmful effects on the installation of low back pressure .

The formation of a spatial lobed lattice from two surfaces of revolution and constructed in the form of a circular array of spatial blades between them allows working channels to be formed with a minimum length of the working path in the guiding apparatus and the vertical component of the trajectory of the working medium.

Connected together with the output nozzle, with the possibility of free rotation relative to the central axis, the air intake completely covers the working channels of the rear zone of the guide apparatus and allows you to direct the energy of the jets not captured by the working channels of the frontal zone through them to the impeller.

Using the wind turbines of the proposed design can significantly increase the efficiency of using wind energy, expand the range of operating wind speeds and make the most of the energy of low-potential, pulsating and "high" air streams. Due to the simplicity of the design scheme with a minimum number of nodes, parts and kinematic pairs, an increase in the reliability and durability of the installation is achieved.

SUBSTITUTE SHEET (RULE 26)

Claims

 FORMULA

The wind turbine contains a fixed bearing housing which is the main guide device made in the form of a spatial blade grid with a central output channel, in which an impeller is arranged coaxially with the central axis on the vertical shaft, characterized in that the upper housing element is mounted with the possibility of free rotation relative to the central axis , a single unit from the air intake, nozzle and stabilizer; the spatial blade grid is formed of two surfaces of revolution and constructed in the form of a circular array of spatial blades between them, which form the working channels; the air intake completely covers the working channels of the rear zone of the guide apparatus and is connected together with the output nozzle with the possibility of free rotation about the central axis.

SUBSTITUTE SHEET (RULE 26)