CN111779632A

CN111779632A - Wind storage and pressure power generation device

Info

Publication number: CN111779632A
Application number: CN202010582434.2A
Authority: CN
Inventors: 崔庆傲; 刘盼; 王家陈; 蒋太勋; 戴俊雄; 宋裕; 杨武亚; 余冬; 罗云川; 吴征宇
Original assignee: Yunnan Electric Power Technology Co ltd
Current assignee: Yunnan Electric Power Technology Co ltd
Priority date: 2020-06-23
Filing date: 2020-06-23
Publication date: 2020-10-16

Abstract

The invention provides a wind storage and pressure power generation device, which comprises: the wind energy collecting device comprises a conical wind collecting device, a wind energy storage device and a power generation device, wherein natural wind energy resources can be collected at low cost, in an environment-friendly manner and effectively by using the conical wind collecting device, and wind pressure is formed by physical structure difference of the conical wind collecting device and an air inlet pipe; the wind energy storage device compresses, stores and increases the pressure of air, and the kinetic energy of the output air is improved under the action of the pressure regulating valve, so that the blades are continuously and stably pushed to drive the rotor to generate electricity. By applying the device disclosed by the invention, wind energy can be developed and utilized to generate electricity in a wider range, and high-quality and stable green wind power can be provided for regional power grids and microgrid users.

Description

Wind storage and pressure power generation device

Technical Field

The invention belongs to the technical field of power equipment design, and particularly relates to a wind storage and pressure power generation device.

Background

With the vigorous promotion of green energy, the development and utilization of wind power are more and more extensive. The wind power generation system is suitable for developing distributed wind power according to local conditions and provides a green, environment-friendly and clean power supply for users and power grids in places with high wind, high wind urgency and high wind speed such as urban high buildings, building roofs, high mountain canyon entrances and the like. Due to the fact that wind energy is intermittent, fluctuating and uncertain, high-quality power cannot be stably output to regional power grids and microgrid users. In order to ensure the power consumption quality of regional power grids and microgrid users, the real-time power quality supplement is usually carried out on wind power by means of other energy sources such as water, fire and light, or energy storage, reactive power compensation and power quality management equipment is additionally arranged on a user side to improve the power quality of the wind power. In view of the fact that the construction and treatment cost of wind power cannot be reduced from the source in the prior art, the difficulty of wind power grid-connected operation and power control is increased, and development and utilization of a distributed wind power field are particularly restricted.

In order to solve the problems, the invention provides a wind storage pressure power generation device, which can collect natural wind energy resources with low cost, environmental protection and effectiveness by utilizing a conical wind collection device, and forms wind pressure through the physical structure difference of the conical wind collection device and an air inlet pipe; the wind energy storage device compresses, stores and increases the pressure of air, and the kinetic energy of the output air is improved under the action of the pressure regulating valve, so that the blades are continuously and stably pushed to drive the rotor to generate electricity. By applying the device disclosed by the invention, wind energy can be developed and utilized to generate electricity in a wider range, and high-quality and stable green wind power can be provided for regional power grids and microgrid users.

Disclosure of Invention

The application provides a wind storage and pressure power generation device, which can collect natural wind energy resources with low cost, environmental protection and effectiveness by utilizing a conical wind collection device, and forms wind pressure through the physical structure difference of the conical wind collection device and an air inlet pipe; the wind energy storage device compresses, stores and increases the pressure of air, and the kinetic energy of the output air is improved under the action of the pressure regulating valve, so that the blades are continuously and stably pushed to drive the rotor to generate electricity. By applying the device disclosed by the invention, wind energy can be developed and utilized to generate electricity in a wider range, and high-quality and stable green wind power can be provided for regional power grids and microgrid users.

A wind storage pressure power generation device comprising: the wind power generation device comprises a conical wind collecting device (1), an air inlet pipe (2), an air pressure check valve (3), a wind energy storage device (4), a safety valve (5), a pressure regulating valve (6), an air outlet (7), a high-pressure air inlet pipe (8), an air pressure air chamber (9), a power generation device (10) and a tail gas pipe (11);

the tail end of the conical wind collecting device (1) is embedded into a cylindrical hollow columnar air inlet pipe (2) to form the wind collecting device, and the other end of the air inlet pipe (2) is connected with a wind energy storage device (4);

a check valve (3) is arranged at the joint of the inner wall of the wind energy storage device (4) and the air inlet pipe (2), a safety valve (5) is arranged on the outer wall above the wind energy storage device (4), the safety valve (5) is connected with an air outlet (7), and a pressure regulating valve (6) is arranged on the outer wall below the wind energy storage device (4);

the pressure regulating valve (6) is connected with one side of an air compression air chamber (9) through a high-pressure air inlet pipe (8), a power generation device (10) is arranged in the air compression air chamber (9), and the other side of the air compression air chamber (9) is connected with a tail gas pipe (11).

Furthermore, the pressure regulating valve (6) is fixed at the front end of the high-pressure air inlet pipe (8), and the tail end of the high-pressure air inlet pipe (8) is connected with the air pressure chamber (9) to realize the pressure control and the conveying of air.

Furthermore, the air compression air chamber (9) is connected with the tail end of the high-pressure air inlet pipe (8), a power generation device (10) with a fan is arranged in the air compression air chamber (9), the tail air pipe is arranged at the lower end of the air compression air chamber (9), air kinetic energy is converted into mechanical energy through the air compression air chamber, and then the mechanical energy is converted into electric energy through the action of the rotor.

Further, the wind energy storage device (4) is a hollow sealed sphere composed of an elastic material.

Furthermore, the conical wind collecting device (1) is a round-mouth hollow conical cylinder which is surrounded by metal materials and has a wide front part and a narrow back part.

Furthermore, the direction of a wide opening of the conical wind collecting device (1) is adjustable, and the position of the wide opening of the conical wind collecting device (1) is adjusted according to different wind directions.

According to the technical scheme, the wind storage and pressure power generation device is characterized in that a conical wind collecting device is utilized to collect natural wind energy resources with low cost, environmental protection and effectiveness, and wind pressure is formed through the physical structure difference of the conical wind collecting device and an air inlet pipe; the wind energy storage device compresses, stores and increases the pressure of air, and the kinetic energy of the output air is improved under the action of the pressure regulating valve, so that the blades are continuously and stably pushed to drive the rotor to generate electricity. By applying the device disclosed by the invention, wind energy can be developed and utilized to generate electricity in a wider range, and high-quality and stable green wind power can be provided for regional power grids and microgrid users. The wind power generation device can be used in places with long-term high wind, high wind speed and high wind speed, such as urban high buildings, building roofs, high mountain canyon entrances and the like, and can develop and utilize wind power according to local conditions. The conical wind collecting device can be used for collecting natural wind energy resources with low cost, environmental protection and effectiveness, and wind pressure is formed through the physical structure difference of the conical wind collecting device and the air inlet pipe; the wind energy storage device compresses, stores and increases the pressure of air, and the kinetic energy of the output air is improved under the action of the pressure regulating valve, so that the blades are continuously and stably pushed to drive the rotor to generate electricity. By applying the device disclosed by the invention, wind energy can be developed and utilized to generate electricity in a wider range.

The wind storage pressure power generation device has the remarkable advantages of simple process, wide application range, low manufacturing cost, environmental friendliness and the like. The air storage device has the functions of air storage, automatic collection, compression, air storage and the like; and green, high-quality and low-price electric energy is provided for a power grid or a user.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of a wind storage and pressure power generation apparatus according to an embodiment of the present disclosure;

1. the wind power generation device comprises a conical wind collecting device 2, an air inlet pipe 3, an air pressure check valve 4, a wind energy storage device 5, a safety valve 6, a pressure regulating valve 7, an exhaust port 8, a high-pressure air inlet pipe 9, an air pressure air chamber 10, a power generation device 11 and a tail air pipe.

Detailed Description

Reference will now be made in detail to embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following examples do not represent all embodiments consistent with the present application. But merely as exemplifications of systems and methods consistent with certain aspects of the application, as recited in the claims.

A wind storage pressure power generation device comprising: the wind power generation device comprises a conical wind collecting device 1, an air inlet pipe 2, an air pressure check valve 3, a wind energy storage device 4, a safety valve 5, a pressure regulating valve 6, an exhaust port 7, a high-pressure air inlet pipe 8, an air pressure air chamber 9, a power generation device 10 and a tail gas pipe 11;

the tail end of the conical wind collecting device 1 is embedded into a cylindrical hollow columnar air inlet pipe 2, and the other end of the air inlet pipe 2 is connected with a wind energy storage device 4;

a check valve 3 is arranged at the joint of the inner wall of the wind energy storage device 4 and the air inlet pipe 2, a safety valve 5 is arranged on the outer wall above the wind energy storage device 4, the safety valve 5 is connected with an air outlet 7, and a pressure regulating valve 6 is arranged on the outer wall below the wind energy storage device 4;

the pressure regulating valve 6 is connected with one side of an air compression air chamber 9 through a high-pressure air inlet pipe 8, a power generation device 10 is arranged in the air compression air chamber 9, and the other side of the air compression air chamber 9 is connected with a tail gas pipe 11.

Furthermore, the pressure regulating valve 6 is fixed at the front end of the high-pressure air inlet pipe 8, and the tail end of the high-pressure air inlet pipe 8 is connected with the air pressure chamber 9, so that the pressure control and the conveying of air are realized.

Furthermore, the air compression air chamber 9 is connected with the tail end of the high-pressure air inlet pipe 8, a power generation device 10 with a fan is arranged in the air compression air chamber 9, a tail air pipe is arranged at the lower end of the air compression air chamber 9, air kinetic energy is converted into mechanical energy through the air compression air chamber, and the mechanical energy is converted into electric energy through the action of the rotor.

Further, the wind energy storage device 4 is a hollow sealed sphere composed of an elastic material.

Further, the conical wind collecting device 1 is a round hollow cone which is surrounded by metal materials and has a wide front part and a narrow back part.

Furthermore, the direction of the wide opening of the conical wind collecting device 1 is adjustable, and the position of the wide opening of the conical wind collecting device 1 is adjusted according to different wind directions.

Referring to fig. 1, a schematic diagram of a wind storage and pressure power generation device is shown. In fig. 1, a wind storage and pressure power generation device is composed of a conical wind collection device 1, a wind energy storage device 4 and a power generation device 10; the air energy storage device comprises a conical air collecting device 1, a cylindrical hollow columnar air inlet pipe 2, an air pressure check valve 3, a wind energy storage device 4, a wind energy storage device and a wind energy storage device, wherein the conical air collecting device 1 is a round-mouth hollow cone which is wide in front and narrow in back and is surrounded by metal materials, the tail end of the conical air collecting device 1 is embedded into the cylindrical hollow columnar air inlet pipe 2, the two ends of the air inlet pipe 2 are circularly opened, the tail; the wind energy storage device 4 is a hollow sealed ball body made of elastic materials, a check valve 3 is arranged at the joint of the inner wall of the wind energy storage device 4 and the air inlet pipe 2, a safety valve 5 is arranged on the outer wall above the wind energy storage device 4, the safety valve 5 is connected with an air outlet 7, a pressure regulating valve 6 is arranged on the outer wall below the wind energy storage device 4, the pressure regulating valve 6 is fixed at the front end of a high-pressure air inlet pipe 8, the tail end of the high-pressure air inlet pipe 8 is connected with an air pressure chamber 9, a power generation device 10 with a fan is arranged in the air pressure chamber 9.

When wind energy flows into the conical wind collecting device 1 at a certain speed, the sectional area of the air inlet pipe 2 is smaller, so that the inflow speed of the wind energy is increased, when the pressure generated by the wind energy in the air inlet pipe 2 is greater than the resistance of the air pressure check valve 3, the wind flows into the wind energy storage device 4 from the air pressure check valve 3, the wind energy storage device 4 has elasticity and can store a large amount of air, and when the pressure of the air stored in the wind energy storage device 4 is higher than the pressure of the safety valve 5, the safety valve 5 acts to release the air outwards from the air outlet 7, so that the safety of the wind energy storage device 4 is maintained; the pressure regulating valve 6 can increase the pressure of the output air and deliver air with certain high pressure to the high-pressure air inlet pipe 8, and the high-pressure air in the high-pressure air inlet pipe 8 pushes blades in the power generation device 10 to rotate, so that the rotor of the power generator is pushed to rotate to generate electric quantity. The air which has completed the power conversion is discharged from the tail gas pipe of the air chamber.

The embodiments provided in the present application are only a few examples of the general concept of the present application, and do not limit the scope of the present application. Any other embodiments extended according to the scheme of the present application without inventive efforts will be within the scope of protection of the present application for a person skilled in the art.

Claims

1. A wind storage and pressure generation device, comprising: the wind power generation device comprises a conical wind collecting device (1), an air inlet pipe (2), an air pressure check valve (3), a wind energy storage device (4), a safety valve (5), a pressure regulating valve (6), an air outlet (7), a high-pressure air inlet pipe (8), an air pressure air chamber (9), a power generation device (10) and a tail gas pipe (11);

2. The wind storage and pressure power generation device according to claim 1, wherein the pressure regulating valve (6) is fixed at the front end of the high pressure air inlet pipe (8), and the tail end of the high pressure air inlet pipe (8) is connected with the air pressure chamber (9) to realize the pressure control and delivery of air.

3. The wind, air storage and pressure generation device according to claim 1, wherein the air compression chamber (9) is connected with the end of the high pressure air inlet pipe (8), a generation device (10) with a fan is arranged in the air compression chamber (9), a tail gas pipe is arranged at the lower end of the air compression chamber (9), air kinetic energy is converted into mechanical energy through the air compression chamber, and then the mechanical energy is converted into electric energy through the action of a rotor.

4. A wind storage and pressure generation device according to claim 1, wherein said wind storage device (4) is a hollow sealed sphere made of elastic material.

5. The wind storage and pressure generation device according to claim 1, wherein the conical wind collection device (1) is a round hollow cone with a wide front part and a narrow back part, which is surrounded by metal materials.

6. The wind storage and pressure generation device according to claim 1, wherein the wide mouth of the conical wind collection device (1) is adjustable in direction, and the position of the wide mouth of the conical wind collection device (1) is adjusted according to different wind directions.