CN109139399A - A kind of discarded cooling tower photo-thermal wind-powered electricity generation utilization system and method - Google Patents

Abstract

The invention discloses a kind of discarded cooling tower photo-thermal wind-powered electricity generation utilization system and methods, including cooling tower, solar thermal collector, heat exchanger, air heater, inverter and several wind-driven generators, wherein, air heater is located at the bottom of cooling tower, each wind-driven generator is located at the throat of cooling tower, solar thermal collector is connected with the high temperature side of heat exchanger, the low temperature side outlet of heat exchanger is connected with the working medium entrances of air heater, the sender property outlet of air heater is connected with the low temperature side entrance of heat exchanger, the output end of each wind-driven generator and the input terminal of inverter are connected, the system and method can be realized the combination of cooling tower and wind-power electricity generation, and the efficiency to generate electricity is higher.

Description

A kind of discarded cooling tower photo-thermal wind-powered electricity generation utilization system and method

Technical field

The invention belongs to clean energy energy source utilizing electricity generating techn field, it is related to a kind of discarded cooling tower photo-thermal wind-powered electricity generation comprehensive utilization System and method.

Background technique

For clammy coal unit, boiler steam turbine system is easier to reuse and cooling tower is as power plant based on metal One large-sized concrete building, can only be destroyed, at present almost without utilizable mode, it is therefore desirable to develop one Kind technology, the technology can combine wind-power electricity generation with cooling tower, to realize the purpose to turn waste into wealth.

Summary of the invention

It is an object of the invention to overcome the above-mentioned prior art, a kind of discarded cooling tower photo-thermal wind-powered electricity generation is provided Utilization system and method, the system and method can be realized the combination of cooling tower and wind-power electricity generation, and the efficiency to generate electricity It is higher.

In order to achieve the above objectives, discarded cooling tower photo-thermal wind-powered electricity generation utilization system of the present invention and method include Cooling tower, solar thermal collector, heat exchanger, air heater, inverter and several wind-driven generators, wherein air heater Positioned at the bottom of cooling tower, each wind-driven generator is located at the throat of cooling tower, the high temperature side phase of solar thermal collector and heat exchanger Connection, the low temperature side outlet of heat exchanger is connected with the working medium entrances of air heater, the sender property outlet of air heater with change The low temperature side entrance of hot device is connected, and the output end of each wind-driven generator and the input terminal of inverter are connected.

The low temperature side outlet of heat exchanger is connected through booster pump with the working medium entrances of air heater.

Solar thermal collector is arranged in around cooling tower or hangs on the outer wall of cooling tower.

Each wind-driven generator is uniformly distributed in the throat of cooling tower.

Each wind-driven generator is fixed by the bracket the throat in cooling tower.

Discarded cooling tower photo-thermal wind-powered electricity generation method of comprehensive utilization of the present invention is the following steps are included: solar thermal collector Heat transfer medium is heated, the heat transfer medium after heating enters in the high temperature side of heat exchanger, and with heat exchanger low temperature side Heat transferring medium carries out heat exchange cooling, and the heat transfer medium after cooling enters in solar thermal collector, and heat transferring medium is in heat exchanger Exchange heat heating in low temperature side, and the heat transferring medium after heating enters in air heater through booster pump, and in air heater The air of cooling tower bottom is heated, to increase the suction capactity of cooling tower, the air of cooling tower suction is transported upwards It is dynamic, and wind turbine power generation is driven, the electricity that wind-driven generator generates is transmitted in external electrical network after inverter is handled.

The invention has the following advantages:

Discarded cooling tower photo-thermal wind-powered electricity generation utilization system of the present invention and method are when specific operation, by too Positive energy heat collector heats heat transfer medium, and heat transfer medium is exchanged thermal medium by heat exchanger and heated, and heat transferring medium is logical It crosses air heater to heat the air of cooling tower bottom, increases the temperature of cooling tower bottom air, to increase cooling The suction capactity of tower, cooling tower aspirates upward motion of air, and drives the wind turbine power generation for being set to cooling tower throat, wind The electricity that power generator generates enters in external electrical network after inverter is handled, to realize wind-power electricity generation and discarded cooling tower Combination, it should be noted simultaneously that, the present invention is heated by the air to cooling tower bottom, to improve cooling tower Suction capactity, and then the generating efficiency of wind-driven generator is promoted, structure is simple, and easy to operate, practicability is extremely strong.In addition, cooling Tower interior air-flow relative clean, air flow direction, flow velocity are relatively stable, are conducive to the safe and efficient operation of wind-driven generator.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the distribution map of wind-driven generator 6 in the present invention.

Wherein, 1 it is solar thermal collector, 2 be heat exchanger, 3 be booster pump, 4 be air heater, 5 be cooling tower, 6 is Wind-driven generator, 7 are inverter.

Specific embodiment

The invention will be described in further detail with reference to the accompanying drawing:

With reference to Fig. 1, discarded cooling tower photo-thermal wind-powered electricity generation utilization system of the present invention and method include cooling tower 5, Solar thermal collector 1, heat exchanger 2, air heater 4, inverter 7 and several wind-driven generators 6, wherein air heater 4 Positioned at the bottom of cooling tower 5, each wind-driven generator 6 is located at the throat of cooling tower 5, the height of solar thermal collector 1 and heat exchanger 2 Warm side is connected, and the low temperature side outlet of heat exchanger 2 is connected with the working medium entrances of air heater 4, the work of air heater 4 Matter outlet is connected with the low temperature side entrance of heat exchanger 2, and the output end of each wind-driven generator 6 and the input terminal of inverter 7 are connected It connects.

The low temperature side outlet of heat exchanger 2 is connected through booster pump 3 with the working medium entrances of air heater 4；Solar energy heating Device 1 is arranged in around cooling tower 5 or is hung on the outer wall of cooling tower 5；Each wind-driven generator 6 is uniformly distributed in cooling The throat of tower 5；Each wind-driven generator 6 is fixed by the bracket in the throat of cooling tower 5.

Discarded cooling tower photo-thermal wind-powered electricity generation method of comprehensive utilization of the present invention the following steps are included:

Solar thermal collector 1 heats heat transfer medium, and the heat transfer medium after heating enters the high temperature of heat exchanger 2 In side, and heat exchange cooling is carried out with the heat transferring medium of 2 low temperature side of heat exchanger, the heat transfer medium after cooling enters solar energy collection In hot device 1, heat transferring medium exchanges heat heating in the low temperature side of heat exchanger 2, and the heat transferring medium after heating is entered through booster pump 3 In air heater 4, and the air of 5 bottom of cooling tower is heated in air heater 4, to increase cooling tower 5 Suction capactity, cooling tower 5 aspirate upward motion of air, and drive wind-driven generator 6 generate electricity, wind-driven generator 6 generate Electricity is transmitted in external electrical network after the processing of inverter 7.It should be noted that the present invention is by air heater 4 to cooling tower The air of 5 bottoms is heated, to improve the suction capactity of cooling tower 5, to make the wind-force being set in 5 throat of cooling tower Generator 6 efficiently, stable electric generation, structure is simple, can turn waste into wealth preferably using discarded cooling tower 5.

Claims (6)

1. a kind of discarded cooling tower photo-thermal wind-powered electricity generation utilization system, which is characterized in that including cooling tower (5), solar energy heating Device (1), heat exchanger (2), air heater (4), inverter (7) and several wind-driven generators (6)；Wherein, air heater (4) Positioned at the bottom of cooling tower (5), each wind-driven generator (6) is located at the throat of cooling tower (5), solar thermal collector (1) and heat exchange The high temperature side of device (2) is connected, and the low temperature side outlet of heat exchanger (2) is connected with the working medium entrances of air heater (4), air The sender property outlet of heater (4) is connected with the low temperature side entrance of heat exchanger (2), the output end of each wind-driven generator (6) and inverse The input terminal for becoming device (7) is connected.

2. discarded cooling tower photo-thermal wind-powered electricity generation utilization system according to claim 1, which is characterized in that heat exchanger (2) Low temperature side outlet be connected through booster pump (3) with the working medium entrances of air heater (4).

3. discarded cooling tower photo-thermal wind-powered electricity generation utilization system according to claim 1, which is characterized in that solar energy heating Device (1) is arranged in around cooling tower (5) or hangs on the outer wall of cooling tower (5).

4. discarded cooling tower photo-thermal wind-powered electricity generation utilization system according to claim 1, which is characterized in that each wind-power electricity generation Machine (6) is uniformly distributed in the throat of cooling tower (5).

5. discarded cooling tower photo-thermal wind-powered electricity generation utilization system according to claim 1, which is characterized in that each wind-power electricity generation Machine (6) is fixed by the bracket in the throat of cooling tower (5).

6. a kind of discarded cooling tower photo-thermal wind-powered electricity generation method of comprehensive utilization, which is characterized in that based on it is as claimed in claim 2 discard it is cold But tower photo-thermal wind-powered electricity generation utilization system, comprising the following steps: solar thermal collector (1) heats heat transfer medium, heating Heat transfer medium afterwards enters in the high temperature side of heat exchanger (2), and carries out heat exchange drop with the heat transferring medium of heat exchanger (2) low temperature side Temperature, the heat transfer medium after cooling enter in solar thermal collector (1), and heat transferring medium exchanges heat in the low temperature side of heat exchanger (2) Heating, the heat transferring medium after heating enter in air heater (4) through booster pump (3), and to cold in air heater (4) But the air of tower (5) bottom is heated, to increase the suction capactity of cooling tower (5), the air of cooling tower (5) suction is upward Movement, and wind-driven generator (6) is driven to generate electricity, the electricity that wind-driven generator (6) generates is transmitted to outside after inverter (7) processing In power grid.