KR20060025257A - Power generation system by wind from cooling tower - Google Patents

Abstract

The present invention relates to a wind power generation system using a cooling tower. The wind power generation system includes a cooling tower, which is an external heat exchanger of a cooling system installed in a building, a blower fan that generates a predetermined amount of wind and a predetermined wind speed for cooling the cooling water of the cooling tower, and a flow rate and wind speed of the blower fan. A wind power generator which rotates the fan for power generation to generate a predetermined electric power, a rectifying unit for directing the electric power generated by the wind generator, and a charging unit for charging the electric power rectified by the rectifying unit to a predetermined capacity and discharging it if necessary. And a power supply inverter unit for processing the electric power discharged from the charging unit into AC power meeting a predetermined standard and supplying the electric device required in the building. Accordingly, the amount of discarded wind and wind speed is recovered and regenerated as necessary power, and used as power required by the building, thereby reducing power consumption, thereby reducing the economic burden due to energy saving and maintenance costs.

Blower fan, cooling tower, cooling system, wind power,

Description

Power generation system by cooling tower {power generation system by wind from cooling tower}

1 is a front sectional view showing a wind turbine generator of a cooling tower according to the present invention,

Figure 2 is a front sectional view showing another embodiment of the wind power generator of the cooling tower according to the present invention,

3 is a block diagram showing a wind power generation system using a cooling tower according to the present invention.

Explanation of symbols on the main parts of the drawing

One ; Cooling Tower 3; Blower fan

4 ; Air hole 5; Load reduction part

6; Discharge pipe 7; Wind power generator

8 ; Housing 9; Brackets

10; Shaft 11; Rectifier

12; Power generating fan 13; Charging part

14; Generator 15; Power supply inverter

The present invention relates to a wind power generation system using a cooling tower, and more particularly, to a wind power generation system using a cooling tower that generates power by discarded wind.

In general, a cooling tower is used in a large air conditioner and a cooling system, and when the refrigerant of the air conditioner is heat-exchanged at a high temperature, the cooling tower is circulated again by heat-exchanging it at a low temperature.

Such a cooling tower includes a cooling tower main body having a water tank accommodating cooling water for cooling a refrigerant and a cooling nozzle for injecting the cooling water in an air cooling manner, and located at an upper portion of the cooling tower main body to supply air to the cooling water. It has a blower fan that supplies force to induce cooling.

By the way, in the cooling tower, the blowing fan simply causes the wind to cool the cooling water, but since the wind is all discarded after cooling, the efficiency of the blowing fan is considerably low, which requires a lot of electricity and maintenance. There is a problem that is quite expensive.

The present invention has been made to solve the above problems, to produce electricity by using wind power to recover the wind discarded from the cooling fan of the cooling tower, and to provide it back to the air conditioner and cooling system It is to provide a wind power generation system using a cooling tower so that the purpose is.

The object of the present invention is to provide a cooling tower, which is an external heat exchanger of a cooling system installed in a building, a blowing fan for generating a predetermined amount of air volume and a predetermined wind speed for cooling the cooling water of the cooling tower, and the blowing fan. The wind power generator generates a predetermined electric power by rotating the fan for wind power and wind speed, the rectifying unit for directing the electric power generated from the wind generator, and the electric power rectified by the rectifying unit can be charged and discharged if necessary. Achievement is achieved by a wind power generation system using a cooling tower including a charging unit and a power supply inverter unit for processing the electric power discharged from the charging unit into AC power meeting a predetermined standard and supplying the electrical equipment required in the building. do.

Here, the wind turbine is a cylindrical discharge pipe which is fastened to the upper outlet of the cooling tower to be hermetically coupled to form a flow path by the wind, a shaft fixed in the circumferential direction of the discharge pipe, radially to the shaft A plurality of blades are formed, the power generation fan for forcibly rotating the shaft by the wind power of the blowing fan, the generator is connected to the end of the shaft to convert the kinetic energy of the rotation into electrical energy, and located in the discharge pipe It is preferable to include a housing having a cylindrical shape according to the rotation radius of the power generating fan.

In addition, it is preferred that the wind generator and the blower fan is further included, and further includes a load attenuator having a plurality of air holes formed along the circumferential direction in order to reduce the resistance of the wind power generated from the blower fan.

Here, the wind power generator is preferably standing by a housing extending from the load damping unit and a bracket which is positioned and fixed at the center of the housing.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the wind power generation system using a cooling tower according to the present invention. Figure 1 is a front sectional view showing a wind turbine of the cooling tower according to the present invention, Figure 2 is a front sectional view showing another embodiment of the wind turbine of the cooling tower according to the present invention, Figure 3 according to the present invention A block diagram showing a wind power generation system using a cooling tower.

As shown in FIG. 1, the wind turbine generator of the present cooling tower is located on the roof of a building and is a cooling tower (1), which is an external heat exchanger for cooling the refrigerant of the cooling system and the air conditioner, and the cooling tower (1). In order to cool a cooling water, it has the blowing fan 3 which produces a fixed quantity of wind volume and a predetermined wind speed. Here, the cooling tower (1) has a water tank (not shown) and the transfer pipe (not shown) and the injection nozzle (not shown) of the coolant, the blowing fan (3) to rotate the propeller-type fan toward the top It includes a motor (not shown) to cause wind and is fixed with a bracket.

On the blower fan 3, a wind power generator 7 is formed in series to receive wind power generated by the blower fan 3 and generate power by a predetermined power by a fan for generating power (not shown). If the wind generator 7 includes a generator, the reference is omitted.

Between the wind generator 7 and the blowing fan 3, a load in which a plurality of air holes 4 are randomly formed along the circumferential direction in order to attenuate the wind resistance generated by the wind generator 7, that is, the load. The attenuation part 5 is provided. The load attenuation part 5 is installed or not according to the fluid dynamic fluid flow.

The wind generator 7 is standing by a housing 8 extending from the load damping unit 5 and a bracket 9 positioned and fixed at the center of the housing 8.

In another embodiment of the cooling tower wind turbine generator according to the present invention, the cooling tower 1, the blowing fan 3, and the wind turbine 7 are implemented as in FIG. In particular, the wind generator 7 is a cylindrical discharge pipe 6 which is fastened to the upper outlet of the cooling tower (1) by a bolt and nut to be hermetically coupled to form a flow path by the wind power, and the discharge pipe ( A shaft 10 fixed along the circumferential direction of 6) and a plurality of wings are formed in the shaft 10 in the radial direction to forcibly rotate the shaft 10 by wind power of the blower fan 3. The generator fan 12, the generator 14 is connected to the end of the shaft 10 to convert the kinetic energy of the rotation into electrical energy, and the discharge pipe (6) located in the It has the housing 8 which has a cylindrical shape according to a rotation radius.

As shown in FIG. 3, the wind power generation system for the wind power generation mechanism of the cooling tower includes a rectifying unit 11 for directing and rectifying the electric power generated from the wind power generator 7, and rectifying in the rectifying unit 11. The charging unit 13 and the rectifying unit 13 are configured to charge the supplied electric power by a predetermined charging scheme and discharge it toward a suitable device if necessary, and the rectified power of the rectifying unit 13 is converted into AC power meeting a predetermined standard. It further has a power supply inverter unit 15 to supply to the electrical equipment required by.

The wind power generation system using the present cooling tower as described above is started by the blowing fan 3 to allow the cooling system and the air conditioner to perform normal operations to cool the refrigerant by the coolant.

First of all, the operation of the blower fan 3 generates wind power having a predetermined wind speed. The wind power of the wind fan 3 rotates the power generating fan 12 or the power generating fan of the wind power generator 7 with the predetermined power in the generator 14. It produces power with voltage and current. At this time, the power is AC power.

Then, the electric power is rectified to DC power in the rectifying unit 11 and charged with a predetermined voltage and current in the charging unit 13. At the same time, the electric power charged by the charging unit 13 is processed by the power supply inverter unit 15 to the voltage and current of the desired AC power supply to supply power to the necessary electrical equipment. Here, the power supply inverter unit 15 may be connected to the boost and pressure reducing transformer (not shown) that can be connected to the user's desired electrical equipment.

The present invention can generate electricity by using the wind power to recover the wind discarded from the cooling fan of the cooling tower, and can be provided to the air conditioner again to save the power supplied to the air conditioner to reduce the operation and maintenance costs It can reduce the economic burden.

Claims (4)

A cooling tower, which is an external heat exchanger of a cooling system installed in a building; A blowing fan installed at an upper exit of the cooling tower and generating a predetermined amount of air and a predetermined wind speed to cool the cooling water of the cooling tower; A wind power generator which rotates the power generating fan to generate a predetermined electric power by the air flow rate and the wind speed of the blowing fan; A rectifier for directing the electric power generated by the wind generator; A charging unit configured to charge the electric power rectified by the rectifying unit by a predetermined capacity to discharge when necessary; And a power supply inverter unit for processing the electric power discharged from the charging unit into AC power meeting a predetermined standard and supplying the electric device to the electric device required in the building. The method of claim 1; The wind power generator, A cylindrical discharge pipe fastened to the upper outlet of the cooling tower to be hermetically coupled to form a flow path caused by the wind power; A shaft fixed along the circumferential direction of the discharge pipe; A power generating fan having a plurality of wings formed in the shaft in a radial direction to forcibly rotate the shaft by wind power of the blowing fan; A generator connected to an end of the shaft to convert kinetic energy due to rotation into electrical energy; Located in the discharge pipe and the wind power generation system using a cooling tower comprising a housing having a cylindrical shape according to the rotation radius of the power fan. The method of claim 1; The cooling tower is fastened between the wind generator and the blower fan, and further includes a load attenuator having a plurality of air holes formed in a circumferential direction to reduce the resistance of the wind power generated from the blower fan. Wind power generation system using. The method of claim 3; The wind power generator is a wind power generation system using a cooling tower, characterized in that the standing up from the housing extending from the load damping portion and the bracket to be fixed to the center of the housing.

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