受限空间煤尘爆炸毒害气体传播伤害研究

为减少煤矿煤尘爆炸后毒气对人的危害,为煤矿防爆、抑爆和安全评价,以及事故应急救援等提供理论依据,研究了煤尘爆炸后毒气的传播伤害规律。基于质量守恒定律与空气动力学理论,建立煤尘爆炸后风流作用下的毒害气体在受限空间内的数学传播模型,得到巷道内毒气传播的弥散系数,计算出沿爆炸传播方向毒气浓度随距离变化的关系,划分伤害三区并推导出相应的伤害范围计算公式。研究表明:毒气传播的峰值点随风流方向移动,其峰值点浓度逐渐变小。     

矿井瓦斯控爆技术及材料研究进展

瓦斯爆炸灾害防治一直是我国煤矿安全研究的热点、难点。通过对国内外相关文献总结分析,从瓦斯抑爆装置、抑爆介质及抑爆机理3个方面综述了目前国内外矿井瓦斯抑爆技术及抑爆材料的研究现状,提出了未来的发展方向。研究结果表明:瓦斯抑爆技术的有效性和可靠性主要取决于抑爆介质的物理化学性质、控爆空间几何参数、爆炸特性参数和抑爆系统中爆炸探测方式等因素;结合瓦斯爆炸链式反应理论和探测技术的发展,研究应更多地关注抑爆过程的微观特性,揭示其详细的抑爆作用机理,为探寻新型高效、绿色抑爆材料提供更有力的理论支持。     

不同含水率煤尘在瓦斯爆炸诱导下爆炸传播规律研究

为了探究不同含水率煤尘在瓦斯爆炸诱导下的爆炸传播规律,利用自行搭建的直管瓦斯爆炸诱导煤尘二次爆炸实验系统,从冲击波压力和火焰传播速度2个方面,研究了不同含水率沉积煤尘在瓦斯爆炸诱导下的爆炸传播规律和原因。研究结果表明:当煤尘含水率小于40%时,管道内沉积煤尘会在瓦斯爆炸诱导下产生二次爆炸,同时沉积煤尘总量一定时,沉积煤尘二次爆炸产生的冲击波超压峰值和火焰传播速度随着煤尘含水率的增加先增大后减小;当沉积煤尘含水率为20% 时,煤尘二次爆炸产生的冲击波超压峰值、火焰传播速度峰值达到最大值,分别为1.657 MPa和468.060 m/s;当沉积煤尘含水率大于40%时,沉积煤尘无法产生二次爆炸,此时爆炸产生的威力小于单一瓦斯爆炸,火焰传播速度衰减较无煤尘的瓦斯爆炸更快,沉积煤尘起到抑制瓦斯爆炸传播的作用。研究结果可以为防治煤尘二次爆炸提供理论依据。     

可燃制冷剂空调用开关元件点燃危险及防爆试验分析

随着全球范围对环境问题的日益重视,R290,R32等新型制冷剂因优良的环保性能和节能效果被广泛应用于空调行业,但其属于IIA级爆炸性气体,为了进一步分析其运行过程中的防爆安全性能。通过文献数据和测试分析,可燃制冷剂空调电气元件的点燃源主要来自其工作过程中产生的电气火花。其中空调开关元件最容易产生电火花、电弧,且通过试验验证这些火花或电弧能点爆（6.5±0.5）%乙烯/空气混合物。综合IEC 60335-2-40,GB 4706.32标准要求和空调开关元件的结构特征,分析确定其应符合“nC”型防爆技术要求,并能通过“nC”型爆炸试验。针对开关元件结构尺寸小、存在爆炸试验中爆炸性混合气体多次置换和负载通、断电操作的难点问题,提出一套合理可行的爆炸试验实施方案,并通过测试应用得到验证。     

Flame-propagation behavior and a dynamic model for the thermal-radiation effects in coal-dust explosions

To reveal the flame-propagation behavior and the thermal-radiation effects during coal-dust explosions, two coal-dust clouds were tested in a semi-enclosed vertical combustion tube. A high-speed video camera and a thermal infrared imaging device were used to record the flame-propagation process and the thermal-radiation effects of the fireball at the combustion-tube outlet. The flame propagated more quickly and with a higher temperature in the more volatile coal-dust cloud. The coal-dust concentration also significantly affected the propagation behavior of the combustion zone. When the coal-dust concentration was increased, the flame-propagation velocity and the fireball temperature increased before decreasing overall. Based on the experimental results, a dynamic model of the thermal radiation was employed to describe the changes in the fireballs quantitatively and to estimate the thermal-radiation effects during coal-dust explosions.     

Limiting explosible concentration of hydrogen–oxygen–helium mixtures related to the practical operational case

This paper presents data on the limiting (minimum) concentrations of hydrogen in oxygen, in the presence of added helium, at elevated temperature and pressure related to the practical operational case. A 5 L explosion vessel, an ignition sub-system and a transient pressure measurement sub-system were used. Through a series of experiments carried out using this system, the limiting concentrations of hydrogen in oxygen and helium at different initial pressures and temperatures for the practical operational case were studied, and the influence of ignition energy and initial temperature on the limiting concentration of hydrogen in oxygen and helium was analyzed and discussed. The variation of ignition energy within the studied range is found to have a significant effect on the limiting concentration of hydrogen in oxygen and helium at lower initial temperature. However, when the ignition energy is higher than 32 mJ, the limiting hydrogen concentration remains almost changeless as the initial temperature increases from 21 °C to 90 °C. The limiting explosible concentration of hydrogen–oxygen–helium mixture decreases as the ignition energy increases when the initial temperature is lower. When the initial temperature is higher, the ignition energy has little effect on the limiting hydrogen concentration of hydrogen–oxygen–helium mixtures. When the initial temperature reaches 90 °C, the limiting hydrogen concentration remains almost changeless with an increase in ignition energy. The limiting explosible concentration of hydrogen in the mixtures, at the initial temperature of 21 °C and the ignition energy of 0.5 mJ, is 8.5% and that of oxygen is 11.25%.     

输油站库冬季消防稳高压系统的改进

介绍储运分公司北方输油站队,通过选用安全、防爆的数字显示温度控制器等技术手段,对储罐区消防给水管网裸露阀门及连接管段的防冻处理,实现冬季消防稳高压系统正常运行的施工工艺,并详细介绍了防爆数字显示温度控制器的工作原理及施工步骤。     

水雾对气体火焰传播特性影响的实验研究

本文利用自行设计的传播火焰喷雾抑制实验系统研究了水雾对甲烷火焰传播特性的影响.结果表明,在一定范围内水雾对甲烷火焰传播的抑制效率随着水流量和火焰前方流场中水雾区流体速度的增加而增加.在甲烷爆炸反应过程中,水作为第三体或惰性液滴破坏其中的链载体,从而降低了甲烷爆炸的反应能力.     

一种处理爆炸多能法的新方法

以多能法中距离－超压关系图为例,介绍了一种运用前馈多层感知器网络对现行多能法中查图步骤进行改进的方法。此法从很大程度上解决了多能法在爆炸灾害评估中手工查图误差大且不方便的缺点。模拟结果表明,该处理方法能够很好的逼近多能法中的超压函数P＝f(R0,C),最后提出了人工神经网络方法在爆炸破坏效应评估中进一步应用的设想。     

蒸汽锅炉爆炸危险性分析及预防措施

简要叙述了锅炉爆炸机理及爆炸冲击波的破坏、伤害作用,采用TNT当量法对中国石化胜利油田石化总厂动力蒸汽锅炉爆炸事故后果进行了预测计算,分析了导致锅炉爆炸事故发生的原因,并给出了应对措施。