Experimental Analysis of Power Generation for Ultra-Low Power Wireless Sensor Nodes Using Various Coatings on Thermoelectric Energy Harvester

2019 6th International Conference on Signal Processing and Integrated Networks (SPIN) Pub Date : 2019-03-07 DOI:10.1109/SPIN.2019.8711483

Deepshikha Yadav, Puneet Azad

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引用次数: 2

Abstract

An experimental data analysis to investigate the output performance of thermoelectric generator (TEG) is presented in this paper. Thermally conducting materials, Al, Fe and matte finish metal paint, are tested to study the increase in heat absorbance by TEG. An experimental thermoelectric set-up comprising Peltier cell (TEC1-12706), commercially available, is designed to convert the ambient solar energy from sun into electrical energy suitable for powering micro/small power devices. The analysis of open circuit output DC voltages shows that paint coated Al sheet increases the output voltage considerably. A matte finish paint coated Al sheet mounted on hotter side of TEG is generating a maximum voltage of 0.76 V. An array of three such TEG modules generated a maximum voltage value 2.28 V, sufficient to power up low and ultra low power wireless sensor device and modules. The present set-up provides promising alternative to power low power devices like WSN, hearing aids, wireless temperature sensor etc. instead of using battery thereby enhancing their lifetime.

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热电能量采集器上不同涂层超低功耗无线传感器节点发电的实验分析

本文对热电发电机(TEG)的输出性能进行了实验数据分析。用TEG测试了导热材料Al, Fe和哑光金属漆，研究了热吸收率的增加。由Peltier电池(TEC1-12706)组成的实验性热电装置(市售)，旨在将环境太阳能从太阳转化为适合为微型/小型动力设备供电的电能。对开路输出直流电压的分析表明，涂漆铝板可显著提高输出电压。安装在TEG热侧的哑光涂层铝板产生的最大电压为0.76 V。由三个这样的TEG模块组成的阵列产生的最大电压值为2.28 V，足以为低功耗和超低功耗无线传感器设备和模块供电。目前的设置为WSN，助听器，无线温度传感器等低功耗设备提供了有希望的替代方案，而不是使用电池，从而提高了它们的使用寿命。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 6th International Conference on Signal Processing and Integrated Networks (SPIN)

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