CN101539106A - Boiler afterheat and solar energy airflow wind-power generation device - Google Patents

Abstract

The invention discloses a boiler waste heat and solar airflow wind power generation device, which comprises: a wind cylinder (1), a wind turbine impeller (2), a wind guide cover (3), a heat exchanger (4), and a waste heat working fluid pipeline (5); it is characterized in that: the wind turbine wind impeller (2) is installed in the air duct (1), the air duct (1) lower end is provided with the wind guide cover (3), and the wind guide cover The air guide cover is made of solar heat collecting material; the heat exchanger (4) is located under the air guide cover (3) and directly below the air duct, and the waste heat working medium pipeline (5) is connected with the working medium inlet of the heat exchanger (4). The invention adopts industrial waste heat and solar airflow wind power to generate electricity, can make full use of waste heat energy and solar energy, is energy-saving and environmentally friendly, is not limited by natural conditions, and has a wider application range.

Description

Boiler waste heat and solar airflow wind power generation device

technical field

The invention relates to a wind power generation device, in particular to a boiler waste heat and solar airflow wind power generation device.

Background technique:

As a clean energy source, wind power is increasingly widely used. The existing wind power generation technology is relatively mature, that is, the use of wind force to drive the wind blades to rotate to generate mechanical energy to drive the power generation device to operate to generate electrical energy. Most of the current wind power generation devices are driven by natural wind. This kind of wind power generation device must be built in places with abundant wind resources, and the geographical restrictions are very strong; The output power is greatly affected.

On the other hand, my country is a big country that consumes coal resources, and about 70% of the existing energy consumption structure is coal. However, coal will generate a lot of waste heat in the process of burning through the boiler, which reduces the thermal efficiency of the boiler and also produces a lot of energy waste. Since waste heat is a low-grade energy source, there is still great potential for its utilization.

Contents of the invention

In order to overcome the shortcomings of traditional wind power generation, make full use of boiler waste heat and solar energy, and save energy, the invention relates to a boiler waste heat and solar air flow wind power generation device, which can make use of industrial boiler waste heat and overcome the defects of the existing technology .

Boiler waste heat and solar air flow wind power generation device, including: air duct, wind impeller of wind power generator, wind guide hood, heat exchanger, waste heat working medium pipeline; it is characterized in that: the wind impeller of the wind power generator is installed in the air duct Inside, the air guide cover is provided at the lower end of the air duct, and the air guide cover is an air guide cover made of solar heat collecting material; Quality imports are connected.

The invention adopts industrial waste heat and solar airflow wind power to generate electricity, can make full use of waste heat energy and solar energy, is energy-saving and environmentally friendly, is not limited by natural conditions, and has a wider application range.

Description of drawings

Fig. 1 is a schematic diagram (section) of the structure of the device of the present invention.

Detailed ways

The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.

As shown in Figure 1, the boiler waste heat and solar air flow wind power generation device includes: wind cylinder 1, wind turbine impeller 2, wind guide cover 3, heat exchanger 4, waste heat working medium pipeline 5; it is characterized in that: The wind impeller 2 of the wind power generator is installed in the air duct 1, and the wind duct 3 is arranged at the lower end of the air duct, and the wind duct 3 is a solar heat collecting material wind duct; the heat exchanger 4 is located under the wind duct, Right below the air duct, the boiler waste heat working medium pipe is connected to the working medium inlet of the heat exchanger.

The operation process of the device is as follows: the available high-temperature boiler waste heat is introduced into the heat exchanger 4 through the waste heat working medium pipeline 5, and the air in the wind guide 3 is heated through the heat exchanger 4, and the temperature of the air absorbing heat increases accordingly. , the expansion becomes lighter, and the hot air is formed by the upward movement of the air duct 1, and the hot air drives the wind turbine impeller 2 in the air duct to rotate, which can generate electricity; The cover 3 collects solar heat and heats the central air together with the heat exchanger 4 to form hot air to drive the wind turbine impeller 2 to rotate to generate electricity. Because the air in the center of the air guide 3 is continuously heated and moves upward, the cold air outside the air guide 3 will continuously enter for replenishment, thereby forming a stable cycle.

The material of the air guide cover 3 can be glass, metal plates with good thermal conductivity (such as steel plates, aluminum plates), and various materials can be coated with a black coating on the outer surface to absorb solar energy more effectively.

Claims (1)

1, a kind of boiler afterheat and solar energy airflow wind-power generation device comprise: air duct (1), power-driven generator leaf wheel (2), wind scooper (3), heat exchanger (4), waste heat working medium pipeline (5); It is characterized in that: described power-driven generator leaf wheel (2) is installed in the described air duct (1), and described wind scooper (3) is established in air duct (1) lower end, and described wind scooper is a solar energy heating material wind scooper; Heat exchanger (4) is positioned under the wind scooper (3), under the air duct, and waste heat working medium pipeline (5) is connected with the working medium import of heat exchanger (4).

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