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稻壳粉尘着火敏感性试验研究 被引量:2

Experimental study on ignition sensitivity of rice husk dust
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摘要 为探究稻壳粉着火敏感性,利用激光粒度分析仪和SEM对其粒度进行分析及形貌表征,利用Godbert-Greenwald炉、固体自燃点、粉尘层最低着火温度测试仪对自燃点温度、最低着火温度进行试验研究。结果表明:稻壳粉颗粒越大粒度分布越集中;粉尘云最低着火温度随粒度的减小呈降低趋势;标准试验模式下,粒度D;=52.9μm的稻壳粉自燃点为225.1℃;粒度一定时,粉尘层最低着火温度随模具高度的增大而降低,当高度达到20 mm最低着火温度达到最低,且不再随模具高度的升高继续降低。本试验结果可为工业过程安全提供数据和理论支撑。 In order to study the ignition sensitivity of rice husk dust,the particle size and morphology of the rice husk dust were analyzed by laser particle size analyzer and SEM.The spontaneous combustion temperature,minimum ignition temperature were measured by Godbert-Greenwald furnace,solid spontaneous ignition point device and minimum ignition temperature of dust layer test device.The results indicated that the larger particle size of rice husk powder,the more concentrated the particle size distribution.The minimum ignition temperature of rice husk dust cloud decreases gradually with the decrease of dust particle size.The spontaneous combustion point of rice husk dust(D;=52.9μm)was 225.1℃under standard test mode.The minimum ignition temperature of rice husk dust layer decreases with the increase of mould height in the specific particle range when the particle size is the same.The minimum ignition temperature reaches the lowest as the mould height was 20 mm,and was no longer increasing with the increase of mould height.The test results can provide data and theoretical support for industrial process safety.
作者 熊静文 叶亚明 蒋代 雷成文 XIONG Jing-wen;YE Ya-ming;JIANG Dai;LEI Cheng-wen(Guangzhou Academy of Special Equipment Inspection,Guangdong Guangzhou 510700,China;Testing China National Quality Supervision and Testing Center of Explosion-proof Equipment(Guangdong),Guangdong Guangzhou 510700,China)
机构地区 广州特种机电设备检测研究院 国家防爆设备质量监督检验中心(广东)
出处 《消防科学与技术》 CAS 北大核心 2022年第6期735-738,共4页 Fire Science and Technology
关键词 稻壳粉 粒度 粉尘云 自燃点 最低着火温度 rice husk dust particle size dust cloud spontaneous combustion point minimum ignition temperature
分类号 X932 [环境科学与工程—安全科学]
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消防科学与技术
2022年 第6期

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