通过一起污油罐静电火灾爆炸事故的原因分析,总结了事故教训,提出对装置污油外送管理的措施。
By analyzing reason of static discharge fires explosion from a waste oil tank, the accident lesson was summarized, and management measures pumping waste oil out was proposed.
油品储运过程的各环节中都会产生静电,而由静电积聚引起的放电是造成爆炸等灾害性事故的重要原因。
In the course of products storage and transportation. Electrostatics are always produced, and if electrostatics accumulate to a limit, explosion would happen.
火灾爆炸事件中约有10%属于静电事故,尤其在液化石油气站、油库、加油站等多次发生与静电有关的爆炸事故。
The accident of static electricity occupies 10 % of fire and explosion ones, especially, in LPG station, oil store and gas station ect.
同时,静电放电产生的火花能引燃袋式除尘器中的可燃粉尘,当粉尘浓度达到一定界线时还可能发生爆炸。
At the same time, electrostatic discharge generated sparks can ignite flammable in the bag filter dust, dust concentration reaches a certain line when the explosion may occur.
静电具有高电压、静电感应及尖端放电的特点,放电产生的静电火花容易导致爆炸和火灾事故。
With high voltage, electrostatic electrostatic induction and point discharge, discharge the characteristics of the spark generated is easy to cause the explosion and fire accident.
石化行业中,粉体静电放电会引发火灾、爆炸等事故,因此,粉体处理作业过程中带电量的有效实时在线监控,一直是静电研究领域十分关注的前沿课题。
So, the effective, real-time and on-line detection of electrostatic charge of particles in the process of particles disposal is the advanced task which has attracted the most attentions.
研究表明,甲烷团簇爆炸后离子获得的平均动能和离子的初始平均静电势能的比值,与团簇的尺寸大小无关。
It is found that the ratio of the average kinetic energy of the ions to their initial average electrostatic potential energy is irrelevant to the cluster size.
研究表明,甲烷团簇爆炸后离子获得的平均动能和离子的初始平均静电势能的比值,与团簇的尺寸大小无关。
It is found that the ratio of the average kinetic energy of the ions to their initial average electrostatic potential energy is irrelevant to the cluster size.
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