R. Dell, Michael Petralia, Ashish Pokharel, Runar Unnthorsson
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引用次数: 5
摘要
本章介绍了一种使用点热电发电机的分析,该发电机是作者之一的专利。讨论了为电子监控设备和充电电池供电的发电机的设计、实现和性能。这种被动发电机没有活动部件,依靠环境空气冷却。在一次迭代中,它使用六个Laird热电模块(Laird PB23系列,HT8, 12)在160°C的蒸汽管道上放置30°C的环境(Δ T = 130°C),产生6.9 W的稳态功率。发电机产生了31.2伏(V)的开路和0.89安培(A)的短路。它成功地为两个基于微控制器的安全摄像头供电,一个带有无线局域网(LAN),另一个带有蜂窝连接。在另一种情况下,发电机产生约6w,蒸汽管道温度为140℃,环境温度为25℃(Δ温度为115℃)。第二个系统为LED灯、蜂窝接口视频监控系统和监控机器人供电,同时为电池充电。第三个安装完全支持一个独立的3G网络安全摄像头系统。
This chapter presents an analysis of a point-of-use thermoelectric generator that is patented by one of the authors. The design, implementation and performance of the generator for powering electronic monitoring devices and charging batteries is discussed. This passive generator has no moving parts and relies on ambient air cooling. In one iteration it produces 6.9 W of steady state power using six Laird thermoelectric modules (Laird PB23 Series, HT8, 12) when placed on a 160°C steam pipe with a 30°C ambient environment ( Δ T of 130°C). The generator produced 31.2 volts (V) open circuit and 0.89 amperes (A) short circuit. It successfully powered two microcontroller-based security cameras, one with a wireless Local Area Network (LAN) and another with cellular connectivity. In another scenario, the generator produced approximately 6 W with a steam pipe temperature of 140°C and an ambient of 25°C ( Δ T of 115°C). This second system powered LED lights, a cellular-interfaced video surveillance system, and monitoring robots, while simultaneously trickle charging batteries. A third installation totally powered a stand-alone 3G web security camera system.
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