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System for lowering cold end temperature of thermoelectric device by using enhanced media nanofluid

A technology of thermoelectric devices and nanofluids, which is applied in the direction of thermoelectric devices that only use the Peltier or Seebeck effect, can solve the problems of inability to dissipate heat at the cold end and increase the load of the engine, and achieve enhanced heat dissipation at the cold end, reduced temperature at the cold end, and improved conversion efficiency effect

Active Publication Date: 2016-09-21
SHANGHAI SECOND POLYTECHNIC UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, most of the cold ends of TEG systems that use industrial waste gas to generate electricity represented by automobile exhaust power generation are water-cooled, and the water-cooling system is directly connected to the cooling system of the automobile engine, which not only increases the load of the engine, but also cannot perform cooling on the cold end. effective cooling

Method used

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  • System for lowering cold end temperature of thermoelectric device by using enhanced media nanofluid
  • System for lowering cold end temperature of thermoelectric device by using enhanced media nanofluid
  • System for lowering cold end temperature of thermoelectric device by using enhanced media nanofluid

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Effect test

Embodiment 1

[0037] Water and CuO-water nanofluid are used as the cooling fluid at the cold end, the inlet temperature of the cooling fluid is set at 22°C, and the equivalent diameter of the fluid is 10mm×10mm. Depend on figure 2 The heat transfer coefficient of coolant at different flow rates shows that at the same flow rate, nanofluid, as a new type of heat transfer medium to improve the heat transfer performance of the fluid, also has a greater strengthening effect on the convective heat transfer coefficient of the fluid interface. When the flow rate is 0.5m / s, the convective heat transfer coefficient is 1707W / m.K when water is used as the cooling liquid, and increases to 2182W / m.K when nanofluid is used. The output data of the TEG system when nanofluid and water are used as cooling fluid respectively. Such as image 3 As shown, nanofluid tends to have a better output potential difference at the flow rate of 0.001 to 0.5m / s due to the enhanced heat transfer effect of nanofluid. The ...

Embodiment 2

[0039] Water and carbon nanotube-water nanofluid are used as the cooling fluid at the cold end, the inlet temperature of the cooling fluid is set at 22°C, and the equivalent diameter of the fluid is 10mm×10mm. Due to the dependence of the power and efficiency of the TEG system on the temperature of the thermoelectric power generation device, when the flow rate of the coolant water increases from 0.001 to 0.05m / s, the output power increases from 0.647 to 1.68. At the same time, the efficiency of thermoelectric power generation system increased from 0.0792 to 0.129. When the temperature of the hot end of the thermoelectric power generation system is fixed, the flow rate of the coolant at the cold end is an important factor affecting the output power and system efficiency of the TEG system. Such as Figure 4 As shown, the enhanced heat transfer effect of the nanofluid increases the output power of the TEG system by 22.7% and the system efficiency by 11% when the speed is 0.001m / ...

Embodiment 3

[0041] The thermal interface material prepared by nano-copper and epoxy resin is used as the heat exchange medium between the thermoelectric device and the heat exchanger, and the thermal conductivity of the nano-copper / epoxy resin thermal interface material is 1W when the mass fraction of nano-copper particles is 70wt%. / mk or so. When the interface contact pressure between the thermoelectric device and the heat exchanger is 1MPa, and no thermal interface material is added, the contact thermal resistance between the thermoelectric device and the heat exchanger is 330mm 2 K / W, and after adding 70wt% nano-copper / epoxy resin thermal interface material, the contact thermal resistance is reduced to 20mm 2 About K / W, which greatly reduces the contact thermal resistance between the two and improves the heat transfer performance.

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Abstract

The present invention relates to a system for lowering cold end temperature of a thermoelectric device by using an enhanced media nanofluid. The system includes an automobile exhaust channel, a plurality of thermoelectric systems installed around the automobile exhaust channel, and an independent heat dissipation apparatus matching the thermoelectric systems. A working medium in the heat dissipation apparatus is the nanofluid. An independent cold end heat exchanger does not affect a load of a cooling system of an automobile engine, and further can control the temperature of the cold end of the thermoelectric device effectively. Due to adoption of the nanofluid, heat dissipation of the cold end is effectively enhanced, the temperature of the cold end of the thermoelectric device is lowered, and the conversion efficiency of the thermoelectric device is improved effectively. A thermal interface material of high thermal conductivity is used between the automobile exhaust channel and the heat exchanger, thereby facilitating establishment of an effective heat conduction channel, and fully exerting the function of the heat exchanger.

Description

technical field [0001] The invention relates to a system for reducing the temperature of a cold end of a thermoelectric device, in particular to a system for reducing the temperature of a cold end of a thermoelectric device by using a reinforced medium nanofluid. Background technique [0002] With the increasingly severe situation of environmental pollution and energy shortage, the search for clean and environmentally friendly new energy sources and new energy conversion methods has become the focus of various research institutions and energy companies. Among many new energy conversion technologies, thermoelectric power generation (TEG) system has attracted the interest of many researchers due to its static operation, environmental friendliness, and high reliability. The thermoelectric power generation system is a thermal energy utilization system that uses the Seebeck effect of semiconductors to convert thermal energy into electrical energy. When there is a temperature diff...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L35/30H01L35/32H10N10/13H10N10/17
CPCH10N10/13H10N10/17
Inventor 吴子华谢华清邢姣娇王元元李奕怀
Owner SHANGHAI SECOND POLYTECHNIC UNIVERSITY
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