Radio Wave Propagation Experiment in Sugarcane Fire Environments

电磁分析与应用期刊(英文) Pub Date : 2016-07-21 DOI:10.4236/JEMAA.2016.87013

Douglas Letsholathebe, Kgakgamatso Marvel Mphale, S. Chimidza, M. Heron

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引用次数: 5

Abstract

Large fires have an effect of suppressing Very or Ultra High Frequency (VHF/UHF) radio wave signals strength which consequently impact negatively on the efficiency of radio communications at the frequency ranges. Mobile hand-held radio operating at the frequency ranges is a major communication tool during fire suppression; therefore inefficient radio communication systems put lives of fire fighters at risk. One of the causes of signal attenuation in fire environment is plume ionization. Plume species which include graphitic carbon, alkalis and thermally excited radicals such as methyl are responsible for ionization. As atmospheric pressure ionized medium (combustion plasma), sugarcane fire has momentum transfer electron-neutral collision frequency much higher than plasma frequency, hence propagation of VHF/UHF radio waves through such a medium is predicted to suffer a significant attenuation and phase shift. Radiowave propagation measurements were carried out in a moderate intensity prescribed sugarcane fire at 151 MHz frequency over a 590 m path using a radiowave interferometer. The radio wave interferometer measured signal attenuation of 0.43 dB through the fire with maximum temperature and flame depth of 1154 K and 8.7 m, respectively.

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甘蔗火灾环境下无线电波传播试验

大火具有抑制甚高频或特高频(VHF/UHF)无线电波信号强度的作用，从而对频率范围内无线电通信的效率产生负面影响。在频率范围内操作的手提移动无线电是灭火期间的主要通讯工具;因此，低效的无线电通信系统使消防队员的生命处于危险之中。火灾环境中信号衰减的原因之一是烟羽电离。羽状物质包括石墨碳、碱和热激发自由基(如甲基)，它们负责电离。甘蔗火作为大气压力电离介质(燃烧等离子体)，其动量传递电子中性碰撞频率远高于等离子体频率，因此预测VHF/UHF无线电波在该介质中的传播会出现明显的衰减和相移。使用无线电波干涉仪在规定的甘蔗火中以151兆赫频率在590米路径上进行了中等强度的无线电波传播测量。无线电波干涉仪测得最大温度为1154 K，火焰深度为8.7 m时的信号衰减为0.43 dB。

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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电磁分析与应用期刊(英文)

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