Patent Application
20230008558
The invention relates to wind energy, and specifically, to wind motors having a vertical axis of rotation of the rotor relative to the horizon, and can be used to convert the energy of the air flow into a rotary motion, transmitted to an electric generator, a pump, or a different rotating mechanism.
A wind turbine is known, which comprises a rotor placed vertically with the possibility of rotation inside a housing and provided with blades [patent DE 3636248, IPC F03D 9/00, publ. 05.05.1988]. In the known system, the wind turbine is installed inside a pipe and operates in an upward flow of air using a chimney effect.
Another known wind turbine [patent RU 2286477, IPC F03D 1/02, publ. 27.10.2006] comprises a rotor placed inside a stationary body (stator) with the possibility of rotation therewithin. The rotor consists of a shaft with radial-type turbine blades installed vertically along the circumference at a given distance from the center and attached to the rotor shaft by means of brackets (cross-pieces). The stator is made in the form of a guiding apparatus, consisting of vertically arranged guide vanes mounted at an acute angle to the outer edge of the radial-type turbine blades, which form external wind flow channels located tangentially with respect to an inner circumference of the system. A lower part of the rotor is made in the form of an axial turbine. The shaft is equipped with axial rotor blades designed to operate in the flow of air coming out of the guide vanes. Additional guide vanes are installed in the lower part of the body and are arranged radially inside a shell. A lower end of the rotor rests on a fairing, which is rigidly attached to the ends of the vanes of the guiding apparatus. An upper part of the shell is fastened to the body, while a lower part is secured to an upper part of the hollow body (upward-pull pipe) with a confuser installed thereon. Air supply windows are arranged in the lower part of the hollow body.
The wind turbine system according to the patent RU 2286477 (2006) operates by using the energy of horizontal wind flows, as well as the energy of upward flows developing in the hollow body provided with the confuser. However, in this design, the upward flows of air are not picked up by the horizontal ones. Instead, they partially block such horizontal flows and slow them down. A chaotic uncontrolled mixing of two practically perpendicular flows results in the formation of a significant and uncontrolled turbulence in the upper zone, which therefore reduces the system efficiency. This “counteraction” increases as the force of the horizontal wind flows becomes greater.
An increase in performance efficiency of a wind turbine is achieved in a wind turbine system [patent RU 2488019, IPC F03D 3/06, F03D 3/04, publ. 20.07.2013], which comprises a stator with upper and lower bases interconnected by vertical inward-oriented guide vanes. A rotor provided with longitudinal blades is placed in the stator. A body of the rotor is made in the form of a hollow cone tapering upward. Rotor blades are installed on its outer surface and are oriented at an angle to an axis of symmetry of the rotor. Plate-like cross-pieces are installed in an inner cavity of the rotor, connecting it with upper and lower half-axles of rotation. The lower base of the stator is configured to allow air to enter the rotor. The upper base of the stator has a conical part directed and tapering towards the lower base, and is provided with an axial opening, a diameter of which is larger than an upper diameter of the rotor cone. so that an annular gap is formed between them. An additional impeller is installed on the upper half-axle of the rotor extending into the conical part of the upper base of the stator. The lower half-axle of the rotor is mounted on the lower base of the stator. The upper half-axle is connected to the upper base by means of radial ribs installed inside the conical part of the upper base. A lower confuser with the blades attached thereto is installed on the lower base.
The wind turbine system according to patent RU 2488019 (2013) has following disadvantages, which reduce its performance efficiency.
The conical part of the upper base of the stator interferes with the operation of the entire system by shielding a low-pressure zone created under the upper impeller from the outer blades of the rotor. A rather small diameter of the upper impeller reduces the velocity of the upward flow. In addition, the system is not protected from atmospheric precipitations.
The objective of the invention is to increase the performance efficiency of the wind turbine having a vertical axis of rotation of the rotor without changing the geometric dimensions.
The technical result consists in increasing the power of the wind turbine by creating an enhanced air flow inside thereof.
The objective is achieved by the fact that in a wind turbine with a vertical axis of rotation of the rotor, which comprises a stator with lower and upper bases interconnected by vertical guide vanes of the stator, a rotor body made in the form of a hollow truncated cone tapering upward, rotor blades installed on an outer surface of the rotor body, upper and lower half-axes of rotation of the rotor installed in upper and lower supports, respectively, an upper crosspiece, an upper impeller, a lower confuser with blades, wherein, according to the invention, the upper impeller is secured inside an upper part of the rotor body, a diffuser is installed above the stator and is made in the form of two spaced biconvex discs, a lower disc of the diffuser being rigidly connected to an upper disc of the diffuser, while serving as the upper base of the stator, the stator vanes have a curved surface and are oriented outward, the rotor body has a curved surface with the upper part thereof being secured to the upper half-axle of rotation of the rotor with the help of the upper impeller blades, the upper support is secured to the upper base with the help of the upper cross-piece, a lower part of the rotor body comprises a lower impeller, the blades of which are used to connect the rotor body with the lower half-axle of rotation of the rotor, the lower support of which is secured at the top of the confuser, a cavity of the lower disc of the diffuser additionally comprises a rotor fan, blades of which are wrapped around the upper part of the outer surface of the rotor body, while a blades spacing of the upper impeller is selected to be greater than a blades spacing of the fan.
Preferably, the surface of the rotor body and the rotor blades have a hyperbolic shape.
In addition, the stator vanes are configured to enable a change in an angle of inclination relative to the vertical axis of the stator.
An increase in power of the wind turbine is achieved by the fact that an upward vortex flow is created inside and outside the rotor, which redirects the horizontal wind flows inside the system, including those in a wind shadow area, into a vertical flow with a swirling effect.
The invention is illustrated by the drawings, in which:
A wind turbine with a vertical axis of rotation of the rotor comprises a stationary stator 1 provided with a lower base 2 and an upper base 3. The bases 2 and 3 are interconnected by vertical guide vanes 4 of the stator, oriented outward and configured to rotate relative to an axis 5. A rotor 6 is arranged inside the stator 1 and has a common axis of symmetry therewith. A rotor body 7 is made in the form of a hollow cone tapering upward, which has a curved surface. It is preferable that the surface of the rotor body has a hyperbolic shape.
Longitudinal blades 8 are installed on an outer surface of the rotor body 7 and are made in the form of curved ribs. The blades 8 are oriented at an angle to the axis of symmetry of the rotor. It is preferable that the surface of the rotor blades has a hyperbolic shape.
A diffuser 9 is installed above the stator 1 and is made in the form of two spaced biconvex discs, a lower disc 10 of which being rigidly connected to an upper disc 11 and serving as the upper base 2 of the stator. The connection between the diffuser discs can be achieved, for example, by using studs 12. The distance between the diffuser discs is selected to provide lower air pressure above the upper impeller of the rotor.
Upper 13 and lower 14 impellers of the rotor are secured inside the rotor body 7. Blades 15 of the upper impeller are used to secure the upper part of the rotor 6 to an upper half-axle of rotation 16 of the rotor, an upper support 17 of which is attached to the upper base 2 by means of an upper cross-piece 18. Blades 20 of the lower impeller 14 of the rotor are used to connect the rotor 6 with a lower half-axle of rotation 19. A lower support 21 of the rotor is secured at the top of a confuses 22 provided with blades 23.
A cavity 24 of the lower disc 10 of the diffuser additionally comprises a rotor fan 25, blades 26 of which are wrapped around the upper part of the outer surface of the rotor body 7.
A blade spacing of the upper impeller 13 is selected to be greater than a blade spacing of the fan 25 in order to equalize the flow velocities inside and outside the rotor body due to different angular velocities of the blades in the center of the rotor and the periphery thereof.
The transmission of the rotary motion of the rotor, for example, to an electric generator or a pump, is realized by means of the lower half-axle.
The wind turbine with a vertical axis of rotation of the rotor operates as follows.
A horizontal air flow hits the stator vanes 4. A part of the flow impacting the outer parts of the stator vanes is deflected outward by the vanes to bypass the rotor 6. Another part of the air flow impacts the inner surfaces of the stator vanes 4, becomes accelerated by them and impacts the rotor blades 8. In this case, due to the curvilinear shape of the surface of the rotor blades, an upward flow is formed along the outer surface of the rotor concurrently with the creation of a rotation torque for the entire rotor structure. This external upward flow impacts the blades of the fan 25 of the rotor, thus creating an additional rotor torque.
in the area of the stator base 2, the resulting decrease in pressure causes the air flow from below to enter the confuser 22, where the vertical air flow velocity increases, the flow is swirled due to the curvilinear shape of the confuser blades 23, and an upward flow entering the rotor body 7 is formed. The internal air flow sequentially impacts the lower impeller 14 and then the upper impeller 13, therefore increasing the rotor torque.
Thus, two upward vortex flows are realized in the proposed design, one—on the outer surface of the rotor, and another—inside thereof. One vortex picks up and additionally swirls the other. This leads to an increase in the wind turbine torque in general. A series of sequentially installed blades of the confuser, as well as upper and lower impellers contributes to the creation and stage-wise amplification of the vortex flows inside the rotor body, which makes it possible to gradually enhance the effect of increasing rotor torque.
The entire structure as a whole creates the motion of the enhanced air flow inside the wind turbine, including a wind shadow area, due to acceleration of the air flow by the confuser, internal impellers 13 and 14 of the rotor, rotor blades 8, as well as creation of the area of low air pressure by the fan 25 and diffuser 9.
The upper disc 11 of the diffuser protects the structure from atmospheric precipitation. In addition, the proposed wind turbine with a vertical axis of rotation of the rotor is characterized by a low sound emission due to the absence of planes moving in parallel with different speeds.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/RU2019/000952 | 12/16/2019 | WO |
