NL2035205B1 - A wind power generation system based on a wind turbine - Google Patents

Abstract

The present invention discloses a wind power generation system based on wind turbine, which belongs to the technical field of wind power generation and comprises: 2 auxiliary cabins that are respectively fixedly installed on the two sides of the wind turbine cabin; The auxiliary cabin is provided with at least l flow guide channel inside; the front end of the flow guide channel is provided with a plurality of uniformly distributed nozzle; the tail end of the flow guide channel is provided with a turbo fan blower; and the nozzle outlet directs to the turbo fan blower; An auxiliary power installed on the upper end of the auxiliary cabin and connected with the turbo fan blower; An air compressor installed in the auxiliary cabin and electrically connected with the auxiliary power; A high-pressure gas storage tank installed in the auxiliary cabin; wherein the input end of the hi gh-pressure gas storage tank is connected with the air compressor through a first air tube and the output end of it is connected with the nozzle through a second air tube. According to the present invention; when the wind conditions are bad and the wind turbine cannot work normally; power generation is realized by rotating of the turbo fan blower under the driving of the air slowly released by the high-pressure gas storage tank and the natural wind.

Description

A WIND POWER GENERATION SYSTEM BASED ON A WIND TURBINE

Technical Field

The present invention belongs to the technical field of wind power generation, in particular to a wind power generation system based on a wind turbine.

Background Art

Wind power generation is to convert the kinetic energy of wind into electric energy. Since the wind is one of the harmless energies, and it is endless in supply, according to the local conditions, wind power generation is highly suitable and promising for offshore islands, pastoral areas, mountainous areas and highlands where water and fuel resources are short and the transportation is inconvenient. At the same time, wind energy is a clean and harmless renewable energy source. Wind power generation is very environmentally friendly and the reserves of wind energy are enormous.

Currently, when the wind conditions are preferable, the wind turbine can generate redundant electrical energy, which is directly incorporated into the grid. When the wind conditions are poor or there's no wind, the wind turbine itself cannot generate electric energy, and also needs to consume some electric energy in the grid. The time of poor wind conditions or windless can take about 40%-50% of the whole year, and the electric energy consumption is huge.

Summary of the Invention

In order to solve the above problem, the present invention adopts the following technical scheme:

A wind power generation system based on a wind turbine, comprising: 2 auxiliary cabins that are respectively fixedly installed on the two sides of the wind turbine cabin;

The said auxiliary cabin is provided with at least 1 flow guide channel inside; the front end of the flow guide channel is provided with a plurality of uniformly distributed nozzle; the tail end of the flow guide channel is provided with a turbo fan blower, and the nozzle outlet directs to the turbo fan blower;

An auxiliary power installed on the upper end of the said auxiliary cabin and connected with the turbo fan blower; 1

An air compressor installed in the said auxiliary cabin and electrically connected with the auxiliary power;

A high-pressure gas storage tank installed in the auxiliary cabin; wherein the input end of the high-pressure gas storage tank is connected with the air compressor through a first air tube and the output end of it is connected with the nozzle through a second air tube.

Further, the said second air tube is provided with a mass flow control valve for controlling the speed of the air ejected out of the nozzles.

Further, each of the said nozzles is provided with an angle adjusting mechanism, which is installed on the inner wall of the flow guide channel for adjusting the angle of the airflow ejected out of the nozzles.

Further, the system further comprises a control module, which is electrically connected with the control system of the wind turbine; wherein, the mass flow control valve, the said air compressor, the auxiliary power and the angle adjusting mechanism are all electrically connected with the control module.

Further, the said flow guide channel is of a reducing structure, wherein, the large opening end of the reducing structure is located on the wheel hub of the wind turbine.

Further, the said reducing structure comprises a communicated flow guide portion and a conveying portion; wherein, the flow guide portion is bell mouth shaped, located at the wheel hub side of the wind turbine; the said conveying portion is cylindrical; and the said turbo fan blower is in the conveying portion.

Further, the system further comprises a solar panel, which is arranged on the top of the wind turbine cabin and electrically connected with the said auxiliary power.

Further, the said solar panel is mounted at the top of the wind turbine cabin through a mounting bracket; wherein, one end of the mounting bracket is hinged with the wind turbine cabin and the other end is height-adjustable connected with the wind turbine cabin through a height adjusting mechanism.

Further, the said height adjusting mechanism is one of hydraulic or gas cylinders.

Beneficial effects of the present invention:

According to the wind power generation system based on a wind turbine provided by the present invention, the electric power is stored in the auxiliary power when the wind conditions 2 are preferable through the turbo fan blowers on the two sides of the wind turbine; When the wind conditions are bad and the wind turbine cannot work normally, power generation is realized by rotating of the turbo fan blower under the driving of the air slowly released by the high-pressure gas storage tank and the natural wind; When it is windless, the auxiliary power can supply electric energy to the wind turbine for its own use, and the power consumption is saved and the waste of electric energy is avoided.

Description of Drawings

Fig. 1 is a front view of the overall structure of the present invention;

Fig. 2 1s a partial enlarged view A in Fig. 1;

Fig. 3 is a side view of the overall structure of the present invention;

Fig. 4 is a partial enlarged view B in Fig. 3;

Wherein, 1. Wheel hub; 2. Blade; 3. Auxiliary cabin; 4. Fan blade; 5. High-pressure gas storage tank; 6. Auxiliary power; 7. Solar panel; 8. Wind turbine cabin; 9. Nozzle; 10.

Generator; 11. Second air tube; 12. Air compressor.

Detailed Description of Embodiments

The present invention provides a wind power generation system based on a wind turbine.

The technical scheme of the present innovation will be further described in detail below in conjunction with the drawings to make it easier to understand and master.

Embodiment 1

Referring to Fig. 1 to Fig. 4, a wind power generation system based on a wind turbine, comprises: 2 auxiliary cabins 3 that are respectively fixedly installed on the two sides of the wind turbine cabin 8; wherein, the 2 auxiliary cabins 3 are located in the middle of the cabin, without affecting the normal rotation of the blades 2 of the wind turbine;

The auxiliary cabin 3 is provided with at least 1 flow guide channel inside; the front end of the flow guide channel is provided with a plurality of uniformly distributed nozzles 9; the tail end of the flow guide channel is provided with a turbo fan blower, and the outlet of the nozzle 9 directs to the turbo fan blower;

An auxiliary power 6 installed on the upper end of the auxiliary cabin 3 and connected with the turbo fan blower; 3

An air compressor 12 installed in the auxiliary cabin 3 and electrically connected with the auxiliary power 6;

A high-pressure gas storage tank 5 installed in the auxiliary cabin 3; wherein the input end of the high-pressure gas storage tank 5 is connected with the air compressor 12 through a first air tube and the output end of it is connected with the nozzle 9 through a second air tube 11.

In this embodiment, each auxiliary cabin 3 is provided with 2 flow guide channels inside, wherein, the 2 flow guide channels are arranged up and down successively. wherein, the flow guide channel is of a reducing structure, wherein, the large opening end of the reducing structure is located on the wheel hub 1 of the wind turbine.

In this embodiment, the reducing structure comprises a communicated flow guide portion and a conveying portion; wherein, the flow guide portion is bell mouth shaped, located at the wheel hub 1 side of the wind turbine; the conveying portion is cylindrical; the turbo fan blower is in the conveying portion;

Wherein, the diameter of the fan blades 4 of the turbo fan blower is smaller than the inner diameter of the conveying portion; The generator 10 of the turbo fan blower is fixedly mounted in the cylinder of the conveying portion, and a passage is reserved between the generator 10 and the cylinder inner wall for the air to pass.

In this embodiment, the second air tube 11 is provided with a mass flow control valve for controlling the speed of the air ejected out of the nozzles 9.

In this embodiment, each of the said nozzles 9 is provided with an angle adjusting mechanism, which is installed on the inner wall of the flow guide channel for adjusting the angle of the airflow ejected out of the nozzles 9.

In this embodiment, the number of nozzles 9 is 3, and they are uniformly distributed at the tail end of the bell mouth of the flow guide portion.

In this embodiment, the air compressor 12 and the high-pressure gas storage tank 5 are located between the 2 flow guide channels.

In this embodiment, preferably, the auxiliary power 6 is a storage battery.

In other embodiments, the auxiliary power 6 can be placed in the wind turbine cabin.

The wind power generation system based on a wind turbine provided by this embodiment further comprises a control module, which is electrically connected with the control system of 4 the wind turbine; wherein, the mass flow control valve, the said air compressor 12, the auxiliary power 6 and the angle adjusting mechanism are all electrically connected with the control module.

The wind power generation system based on a wind turbine provided by this embodiment further comprises a solar panel 7, which is arranged on the top of the wind turbine cabin 8 and electrically connected with the said auxiliary power 6.

Wherein, the solar panel 7 is mounted at the top of the wind turbine cabin 8 through a mounting bracket; wherein, one end of the mounting bracket is hinged with the wind turbine cabin 8 and the other end is height-adjustable connected with the wind turbine cabin 8 through a height adjusting mechanism.

In this embodiment, the height adjusting mechanism is one of hydraulic or gas cylinders.

The operation process of the wind power generation system based on a wind turbine provided by this embodiment is that:

When the wind conditions are preferable, the wind turbine can generate electricity normally through the turbo fan blower on the two sides of the wind turbine cabin 8 and the electric energy generated by the turbo fan blower is stored in the auxiliary power 6;

When the wind conditions are bad and the wind turbine cannot work normally, the power generation is realized by the rotation of the turbo fan blower under the driving of the slowly released air from the high-pressure gas storage tank 5 and the natural wind, and the electric energy can be directly used by the wind turbine itself,

When it is windless, the auxiliary power 6 can supply electric energy to the wind turbine for its own use, and the power consumption is saved and the waste of electric energy is avoided,

At the same time, the solar panel 7 on the upper end of the wind turbine cabin 8 can generate power normally to be utilized by the wind turbine. In this way, the power consumption is saved and the waste of electric energy is avoided.

The technical scheme of the present invention is fully described above, however, it should be noted that the above description is not intended to restrict the specific embodiments of the present invention. And all technical schemes derived from same structural, methods or functional change or equivalent transform made by the general technicians of this field without departing from the essence of the present invention shall be covered in the protection scope of 5 the present invention. 6

Claims (9)

Conclusions 1. System for generating wind energy based on a wind turbine, characterized in that the system comprises: 2 auxiliary cabins that are respectively permanently installed on the two sides of the wind turbine cabin; the said auxiliary cabin is provided with at least 1 flow guide channel inside; the front end of the flow guide channel is provided with a number of evenly spaced nozzles; the rear end of the flow guide channel is equipped with a turbo fan, and the nozzle outlet is directed towards the turbo fan; an auxiliary power supply installed on the upper end of said auxiliary cabin and connected to the turbo fan; an air compressor installed in said auxiliary cabin and electrically connected to the auxiliary power supply; a high-pressure gas storage tank installed in the auxiliary cabin; wherein the input end of the high pressure gas storage tank is connected to the air compressor via a first air tube and the output end is connected to the nozzle via a second air tube. The wind energy generation system based on a wind turbine according to claim 1, characterized in that said second air pipe is provided with a mass flow control valve for controlling the speed of the air blown from the nozzles. The wind energy generation system based on a wind turbine according to claim 2, characterized in that each of said nozzles is provided with an angle adjustment mechanism installed on the inner wall of the flow guide channel for adjusting the angle of the air flow blown out of the nozzles. The wind turbine-based wind energy generation system of claim 3, characterized in that the system further includes a control module electrically connected to the wind turbine control system; wherein the mass flow control valve, said air compressor, the auxiliary power supply and the angle control mechanism are all electrically connected to the control module. The wind energy generation system based on a wind turbine according to claim 1, characterized in that said flow guide channel is of a reducing structure, in which the large opening end of the reducing structure is located on the wheel hub of the wind turbine. The wind energy generation system based on a wind turbine according to claim 5, characterized in that said reducing structure consists of a communicated current conductor portion and a transport portion, where the current conductor portion is bell-shaped and located on the wheel hub side of the wind turbine; said transport portion is cylindrical; and said turbo fan is located in the transport section. The wind turbine-based wind energy generation system according to claim 1, characterized in that the system further includes a solar panel placed on the top of the wind turbine cabin and electrically connected to said auxiliary power supply. The wind turbine-based wind energy generation system according to claim 7, characterized in that said solar panel is mounted on the top of the wind turbine cabin by means of a mounting bracket, wherein one end of the mounting bracket is hingedly connected to the wind turbine cabin and the other end is height adjustable and connected to the wind turbine cabin by means of a height adjustment mechanism. The system for generating wind energy based on a wind turbine according to claim 8, characterized in that said height adjustment mechanism is one of hydraulic or gas cylinders.