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Temperature-difference electricity generation device based on fluid heat exchanging

A technology of thermoelectric power generation and fluid, applied in the direction of heat exchanger shell, indirect heat exchanger, generator/motor, etc., can solve the problem of reducing the actual working temperature difference of the thermoelectric power generation chip, reducing the working temperature difference of the thermoelectric power generation chip, reducing the temperature difference Problems such as the heat exchange area of ​​the power generation chip, to achieve the effect of reducing the flow boundary layer, increasing the actual working temperature difference, and preventing corrosion damage

Active Publication Date: 2019-04-26
SICHUAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, due to the lack of a drainage structure for the heat exchange medium inside the hot side fluid chamber and the cold side fluid chamber of the existing thermoelectric power generation device, the heat exchange medium cannot be effectively flushed due to the sudden expansion of the flow when entering the corresponding chamber. The corner area of ​​the chamber corresponds to the flow dead zone near the inlet of the chamber, which reduces the heat exchange area of ​​the thermoelectric power generation chip, which will lead to a decrease in the actual working temperature difference between the two sides of the thermoelectric power generation chip; in addition, when After the heat exchange medium enters the corresponding chamber, when exchanging heat with the corresponding surface of the thermoelectric power generation chip, the flow boundary layer on the heat exchange surface will gradually become thicker, and the heat transfer thermal resistance will gradually increase, which will also cause the two sides of the thermoelectric power generation chip to The actual operating temperature difference on the side is reduced
Based on this, the output power of the electric energy converted by the existing thermoelectric power generation device is extremely low, which restricts the further development of thermoelectric power generation technology

Method used

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  • Temperature-difference electricity generation device based on fluid heat exchanging
  • Temperature-difference electricity generation device based on fluid heat exchanging
  • Temperature-difference electricity generation device based on fluid heat exchanging

Examples

Experimental program
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Embodiment 1

[0036] see figure 1 , figure 2 , Figure 5 and Figure 8 As shown, the present invention includes a thermoelectric power generation chip 1 , and the thermoelectric power generation chip 1 is connected to a power consumption circuit 12 through a wire 11 . The thermoelectric power generation chip 1 has two opposite working surfaces, left and right. One side of the thermoelectric power generation chip 1 is connected to a hot-side fluid chamber 2, and the other side is connected to a cold-side fluid chamber 3. The fluid cavity enables hot fluid (such as gas or water with waste heat) and cold fluid (gas or water) to achieve convective heat exchange on both sides of the thermoelectric power generation chip 1 to generate thermoelectric power generation.

[0037] Specifically, the hot-side fluid chamber 2 is made of stainless steel (or titanium steel, or engineering plastics, or ceramics), and its cross-section is rectangular (of course, it can also be triangular, arched, trapezoida...

Embodiment 2

[0040] The invention includes a thermoelectric power generation chip, and the thermoelectric power generation chip is connected with an electric circuit through wires. The thermoelectric power generation chip has two opposite working surfaces, left and right. One side of the thermoelectric power generation chip is connected to a hot-side fluid chamber, and the other side is connected to a cold-side fluid chamber. The fluid chambers on both sides make the heat Fluid (such as gas or water with waste heat) and cold fluid (gas or water) realize convective heat exchange on both sides of the thermoelectric chip to generate thermoelectric power generation.

[0041] Specifically, the hot-side fluid cavity is made of stainless steel (or titanium steel, or engineering plastics, or ceramics), and its cross section is rectangular (of course, it can also be triangular, arched, trapezoidal or semicircular) structure. Both ends of the hot-side fluid cavity (that is, the ends corresponding to...

Embodiment 3

[0044] The invention includes a thermoelectric power generation chip, and the thermoelectric power generation chip is connected with an electric circuit through wires. The thermoelectric power generation chip has two opposite working surfaces, left and right. One side of the thermoelectric power generation chip is connected to a hot-side fluid chamber, and the other side is connected to a cold-side fluid chamber. The fluid chambers on both sides make the heat Fluid (such as gas or water with waste heat) and cold fluid (gas or water) realize convective heat exchange on both sides of the thermoelectric chip to generate thermoelectric power generation.

[0045] Specifically, the hot-side fluid cavity is made of stainless steel (or titanium steel, or engineering plastics, or ceramics), and its cross section is rectangular (of course, it can also be triangular, arched, trapezoidal or semicircular) structure. Both ends of the hot-side fluid cavity (that is, the ends corresponding to...

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Abstract

The invention discloses a temperature-difference electricity generation device based on fluid heat exchanging. The temperature-difference electricity generation device comprises a temperature-difference electricity generation chip, the two sides of the temperature-difference electricity generation chip are provided with fluid cavities for making hot fluid and cold fluid perform convection currentheat exchanging, the two ends of the hot-side fluid cavity are provided with a hot-side fluid lead-in connection head and a hot-side fluid lead-out connection head, the two ends of the cold-side fluidcavity are provided with a cold-side fluid lead-in connection head and a cold-side fluid lead-out connection head, the position, close to the hot-side fluid lead-in connection head, inside the hot-side fluid cavity is provided with one lead-in end hole plate, and the position, close to the cold-side fluid lead-in connection head, inside the cold-side fluid cavity is provided with one lead-in endhole plate. By means of the temperature-difference electricity generation device based on the fluid heat exchanging, a heat exchanging medium is made to be capable of performing disperse flowing as evenly as possible to scour all areas of the cavities effectively when entering the corresponding cavities, flowing dead areas are avoided form forming near lead-in mouths of the corresponding cavities,heat exchanging areas on the two sides of the temperature-difference electricity generation chip are effectively increased, and then the actual working temperature difference on the two sides of thetemperature-difference electricity generation chip is increased effectively to improve the output power of electrical energy obtained by converting.

Description

technical field [0001] The invention relates to a thermoelectric power generation device, in particular to a thermoelectric power generation device based on fluid heat exchange. Background technique [0002] In the process of human activities or industrial production, a large amount of heat energy that is no longer used will be discharged after the use of heat energy-that is, waste heat. These waste heat are usually released into the environment with waste water or waste gas as a medium, which will not only cause a lot of energy waste. , and will cause great damage to the balance of the environment. For example, in the field of automobiles, the current thermal efficiency of vehicle engines is only 35%, and most of the heat after combustion will be discharged into the air in the form of exhaust gas; in the field of new energy, After solar heat collection, liquid is usually used as a medium, such as solar water heaters, solar distillation, solar air conditioners, etc.; in the ...

Claims

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Application Information

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IPC IPC(8): F28D21/00F28F9/02F28F13/02F28F13/06F28F13/18F28F19/04H02N11/00
CPCF28D21/00F28D2021/0019F28F9/026F28F13/02F28F13/06F28F13/18F28F19/04H02N11/002
Inventor 谢果昂然孙立成吴章林郭旭明
Owner SICHUAN UNIV
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