摘要
为研究彩跑粉基料的爆炸特性,实验采用20 L近球形的爆炸系统,从粉尘云浓度、点火延迟时间和初始点火能量3个方面对其进行了实验研究。结果表明:随着初始点火能的增大,彩跑粉基料的最大爆炸压力也会随之增大,初始点火能量的增加会导致彩跑粉基料爆炸威力显著增强;随着点火延迟时间的增加,彩跑粉基料的最大爆炸压力会先增大后减小,存在最佳点火延迟时间,可使彩跑粉基料最大爆炸压力达到峰值,70 g·m^(-3)彩跑粉基料的最佳点火延时是60ms,对应的最大爆炸压力为0. 128 MPa;随粉尘云浓度的增大,彩跑粉基料的最大爆炸压力先增加后减小,彩跑粉基料的爆炸下限浓度为55 g·m^(-3),存在某一浓度,使彩跑粉基料的最大爆炸压力达到峰值,在190 g·m^(-3)浓度时,彩跑粉基料爆炸威力最猛烈,最大爆炸压力达0. 368 MPa.
In order to study the explosion characteristics of the staple material of color run powder,the explosion characteristic parameters of the staple material of color run powder were studied from three aspects:dust cloud concentration,ignition delay time and initial ignition energy using a 20 L near-spherical explosion experimental system.The results show that with the increase of the initial ignition energy,the maximum explosion pressure of the staple material of color run power also increases,and has a significant enhancement of the staple material of color run powder to explosion power;with the increase of ignition delay time,the maximum explosion pressure increases first and then decreases,and there is an optimum ignition delay time which can reach the maximum explosion pressure of the staple material of color run powder,the optimum ignition time of 70 g·m^-3 of the staple material of color run powder is 60 ms and the maximum explosion pressure is 0.128 MPa;with the increase of dust cloud concentration,the maximum explosion pressure increases first and then decreases,and the lowest explosive concentration of the staple material of color run powder is 55 g·m^-3.At the concentration of 190 g·m^-3,the most intense explosion occurs and the maximum explosion pressure of the staple material of color run powder is 0.368 MPa.
作者
王秋红
李州昊
罗振敏
李凯
WANG Qiu-hong;LI Zhou-hao;LUO Zhen-min;LI Kai(College of Safety Science and Engineering,Xi'an University of Science and Technology,Xi'an 710054,China;Shaanxi Key Laboratory of Prevention and Control of Coal Fire,Xi'an University of Science and Technology,Xi'an 710054,China)
出处
《西安科技大学学报》
CAS
北大核心
2019年第1期9-14,49,共7页
Journal of Xi’an University of Science and Technology
基金
国家自然科学基金(51504190
51674193)
国家重点研发计划项目(2016YFC0800100
2017YFC0804702)
陕西省国际科技合作与交流计划项目(2016KW-070)
关键词
安全科学与工程
彩跑粉基料
爆炸
点火延迟时间
粉尘云浓度
safety science and engineering
base material of color run powder
explosion
ignition delay time
dust cloud concentration