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An air conditioner waste heat and waste energy power generation device

A power generation device and waste energy technology, which is applied in air-conditioning systems, space heating and ventilation, generators/motors, etc., can solve problems such as power consumption, reduce power consumption, prolong service life, and improve power generation efficiency.

Active Publication Date: 2016-08-31
成都中环资(集团)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In addition, when the air conditioner is in standby, it also consumes electricity. According to statistics, the air conditioner also consumes about 26.7 kWh of electricity in one year.

Method used

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  • An air conditioner waste heat and waste energy power generation device
  • An air conditioner waste heat and waste energy power generation device
  • An air conditioner waste heat and waste energy power generation device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] This embodiment is realized through the following technical solutions: including a heat exchanger, a thermoelectric power generation module assembly, a kinetic energy power generation module assembly and a control device; the heat exchanger includes a condensation pipe 16 and a finned cooling plate 15; The cross-section of the plate 15 is U-shaped, covering the outside of the condensation pipe 16 of the heat exchanger and clinging to the outer wall of the condensation pipe 16; And the cold medium storage 14; the cold medium storage 14 is internally connected to the cold medium circulation conduit 13, including a circulation pump and a coolant nozzle; the cold medium circulation conduit 13 is arranged in an S shape and embedded in the finned cooling plate 15 In the fin interval; the cold medium circulation conduit 13, the cold end conduction plate 12, the thermoelectric power generation module 11 and the fin cooling plate 15 are sequentially fastened and connected; the ki...

Embodiment 2

[0042] This embodiment is further optimized on the basis of the above embodiments. Further, the cross-section of the semiconductor thermoelectric power generation module 11 is U-shaped, and the cross-section of the cold end conduction plate 12 is U-shaped; the side wall of the cold medium circulation conduit 13 and the cold end The U-shaped inner surface of the conductive plate 12 is in close contact, the U-shaped outer surface of the cold-end conductive plate 12 is in close contact with the 11U-shaped inner surface of the semiconductor thermoelectric power generation module, and the 11U-shaped outer surface of the semiconductor thermoelectric power generation module is in close contact with the surface of the fin cooling plate 15 .

[0043] The U-shaped cold-end conduction plate 12 is tightly nested in the U-shaped thermoelectric power generation module 11, and the U-shaped inner surface of the U-shaped cold-end conduction plate 12 is in close contact with the conduit of the c...

Embodiment 3

[0045] This embodiment is further optimized on the basis of the above embodiments. Further, the sensor group includes a voltage sensor and a temperature sensor; the voltage sensor is connected to the battery pack; The temperature sensor A on the contact surface of the cooling plate 15 and the temperature sensor B provided on the contact surface of the thermoelectric power generation module 11 and the cold end conduction plate 12 .

[0046] The voltage sensor is used to collect voltage information at both ends of the battery pack. The temperature sensor is used to collect the temperature difference between the two ends of the thermoelectric power generation module 11; the temperature sensor A is used to collect the temperature of the contact surface between the thermoelectric power generation module 11 and the fin cooling plate 15; the temperature sensor B is used to collect the temperature difference The temperature of the contact surface between the power generation module 11...

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Abstract

The invention discloses a waste heat and waste energy power generation device for an air conditioner, which is arranged in an outdoor unit of an air conditioner, and includes a heat exchanger, a thermoelectric power generation module assembly, a kinetic energy power generation module assembly, and a control device; the heat exchanger includes a condensation pipe and fins Radiating plate; the cross-section of the finned cooling plate is U-shaped, covering the outside of the condensation pipe of the heat exchanger and clinging to the outer wall of the condensation pipe; the heat exchanger is attached to the thermoelectric power generation module assembly; the thermoelectric power generation module assembly The kinetic energy generating module components are respectively connected with the control device to supply power to the electrical equipment. When the air conditioner is working, the thermoelectric power generation module component uses the temperature difference generated by the waste heat in the cold energy tube to generate electricity, and the kinetic energy power generation module component uses the waste energy generated by the fan to generate power, and the converted electric energy supplies power to the electrical equipment through the control device, which not only reduces the consumption of the air conditioner Electricity, and effectively reduce waste heat emissions, do not produce new pollution, energy saving and environmental protection.

Description

technical field [0001] The invention relates to the technical field of air-conditioning equipment, in particular to an air-conditioning waste heat and waste energy power generation device. Background technique [0002] Statistics as of December 2013 show that the number of air conditioners in my country has exceeded 600 million units. Calculated by using 1,000 hours per year, the annual power consumption of air conditioners alone is more than 600 billion kWh. Moreover, every 1 kilowatt-hour of electricity consumed is equivalent to consuming 0.37 kilograms of standard coal and emitting 1 kilogram of carbon dioxide and other greenhouse gases. That is to say, the current use of air conditioners in my country alone consumes 222 million tons of standard coal and emits 600 million tons of carbon dioxide and other greenhouse gases every year. In addition, the air conditioner also consumes electricity when it is in standby. According to statistics, the air conditioner also consumes...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02N11/00F24F12/00
Inventor 潘志成章骁邱恋邱小丽赵媛张强刘纪景李慧强陈丹丹赖波
Owner 成都中环资(集团)有限公司