智能井盖无线监测节点的温差供电技术研究
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TN86;TM913

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国家自然科学基金(62105160)、江苏省自然科学基金(BK20211285)项目资助


Research on thermoelectric generator for a smart manhole cover wireless monitoring node
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    摘要:

    智能井盖作为较早提出的概念,其发展受制于远距离无线物联网通信发展和电池续航能力等问题。 为此,本文提出了 采集井盖热能的温差发电方案。 为了提高井盖下表面附近的温差,增加了隔热层和散热器,使温度梯度提高了 5 ℃ ~ 10 ℃ 。 结 合室外测试数据,搭建了温差发电模块测试环境,测试分析了温差发电片的性能,结果表明在 13 ℃ 的温差环境下 1 h 内产生 7. 92 J 的电能,平均功率 2. 2 mW。 基于 NB-IOT 技术,设计智能井盖监测节点,实现了对井盖倾斜角的监测。 通过休眠待机方 法,降低了节点系统的功耗,一次数据采集发射消耗 0. 185 J 电能,静态工作电流仅 87. 45 μA。 将自供电技术与低功耗技术结 合,验证了利用温差发电可以满足智能井盖的供能需求。

    Abstract:

    Because of the limitations of wireless Internet of Things technology and battery life, the development of smart manhole cover technology is slow. In this paper, a self-powered smart manhole cover is proposed. Thermal power generation technology is used to convert the temperature energy under the manhole cover into electrical energy. To increase the temperature difference near the bottom of the manhole cover, the heat insulation layer and the radiator are added, and the temperature gradient is increased by 5 ℃ ~ 10 ℃ . The experimental equipment of thermoelectric generator module was built, and the thermoelectric generator was tested and analyzed. The results show that the thermoelectric module generates 7. 92 J electric energy with an average power of 2. 2 mW under the temperature difference of 13 ℃ in one hour. Based on NB-IOT technology, smart manhole cover monitoring node is designed to monitor the tilt angle of manhole cover. Through the dormant standby method, the power consumption of the node system is reduced. The node acquires and transmits data once and consumes 0. 185 J power. The node standby current consumption is only 87. 45 μA. The combination of selfpower generation and low power consumption Internet of Things has verified the feasibility of thermoelectric power generation as the energy supply of the smart manhole cover.

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赵兴强,彭睿智,戴志新,张译文,蔡 骏,周旺平,丁 宇.智能井盖无线监测节点的温差供电技术研究[J].电子测量与仪器学报,2023,37(4):165-171

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  • 在线发布日期: 2023-06-28
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