Minimum Ignition Energy
- 网络最小点火能量
Minimum Ignition Energy-
Comparison and Analysis of Different Testing Methods of Minimum Ignition Energy of Dust Cloud
粉尘云最小点火能测试方法的比较与分析
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Dust Dispersion Characteristics in the Devices Used to Test the Minimum Ignition Energy
在三种最小点火能测试装置上对粉尘分散质量的测量
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The study on the optimum test conditions of minimum ignition energy of combustible vapor
蒸汽爆炸最小点火能测试敏感条件的确定
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Analysis on the Influencing Laws of Sensitive Conditions on Minimum Ignition Energy of Dust Clouds
敏感条件对粉尘云最小点火能的影响规律分析
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Study on Affecting Factors of Minimum Ignition Energy ( MIE ) and Analysis on Its Calculation Error
最小点火能的影响因素及计算误差分析研究
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The minimum ignition energy for flammable mixtures containing hydrogen is extremely low .
可燃的含氢混合物的最小点燃能量非常低。
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Pulsed-Laser Blasting for Dust Cloud with Minimum Ignition Energy Determined
用脉冲激光法引爆并测定粉尘云最小点火能量
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A new experimental set-up has been developed using pulsed-laser to blast various dust clouds with minimum ignition energy determined at once .
报道了用脉冲激光引爆并测定粉尘云最小点火能量的方法。
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A mathematical model was set up to calculate the minimum ignition energy based on thorough analysis of combustion mechanism of the engine combustible mixture .
在深入分析可燃混合气燃烧机理基础上,建立了发动机最小点火能量计算数学模型;
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The minimum ignition energy , the maximum experimental safe gaps , the degree of explosion danger and other explosion characteristics were experimentally determined .
实验测得了爆炸危险度、火焰蔓延极限、最小点火能等特性参数;
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Minimum ignition energy ( MIE ) of dust cloud is an important characteristic parameters of dust explosion , which is the basis of dust explosion protection .
粉尘云最小点火能是粉尘爆炸重要的特性参数之一,是采取粉尘爆炸防护的基础。
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Theoretically , the explosion limits , explosion pressure and the minimum ignition energy etc , known as the common explosion parameter , have been dealt with .
在理论方面,对爆炸极限、爆炸压力、最小点火能等常用爆炸参数进行了分析。
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A comparison between the energy distribution of electrostatic field and the minimum ignition energy shows that an electrostatic ignition risk may occur due to the discharge from charged isolated conductors , human bodies and plastics .
由静电场能量分布与粉体最小点火能的比较结果表明,粉体的静电灾害主要是由孤立导体、人体及塑料构件的放电引起的。
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The obtaining of the distribution of dust concentration along the heights in the Hartmann Bomb provides both the data for the comparison of the measurement and test of the minimum ignition energy at different equipments and the supporting evidences for the verification of the mathematic model of dust explosion .
当计算浓度大于500g/m3时,测量浓度低于计算浓度.哈特曼管上粉尘浓度随高度分布的获得,为最小着火能在不同装置上的测试比较提供了数据,为粉尘爆炸数学模型的检验提供了依据。