基于多孔环形喷嘴的可燃爆粉尘分散特征的密度效应研究*

为了研究不同密度的可燃爆粉尘在内置多孔环形喷嘴的20 L爆炸特性测试装置中的分散特征,基于负载粒子流方法、耦合DPM动量平衡方程和时间平均 Navier Stokes控制方程组,实现3种不同密度的煤粉、铝粉和锆粉在20 L爆炸测试装置中粉尘分散全过程的数值模拟。研究结果表明:多孔环形喷嘴的分散较为均匀,但是约束管道末端存在局部粉尘残留区,致使爆炸仓内真实粉尘浓度远低于形式浓度;爆炸仓中心位置的最大湍动能随着粉尘密度的增加而减小,只有显著地变化粉尘密度才能展示区分度较高的浓度峰值和抵达浓度峰值的时间。     

锂离子电池安全性特点及热模型研究

锂离子电池的安全问题越来越受到重视.本文从锂离子电池热安全性特点着手,分析了锂离子电池的着火、爆炸和电解液泄漏等安全事故特点.简单介绍了锂离子电池主要材料的产热特性、相互反应产热特性.讨论了锂离子电池热模型建立的两种途径,即量热仪途径和化学反应途径,通过这些热模型的建立,来指导锂离子电池的安全设计和管理.     

活性炭法测量室内空气中氡浓度的影响因素研究

探讨了各种因素对活性炭法测量室内空气中氡浓度的影响,并提出既能保证检测质量,又能符合工程检测需要、提高检测效率的检测条件范围。     

碳纤维复合材料粉尘爆炸强度特性研究

碳纤维复合材料是应用于航天、航空领域的高性能材料之一,对于该材料的粉尘爆炸特性还未有相关研究报告。为了研究碳纤维复合材料粉尘的爆炸强度特性,本文采用20L球形粉尘爆炸测试实验系统开展了相关实验研究。实验测得碳纤维复合材料粉尘爆炸下限浓度为50g/m 3,最大爆炸压力为0.48MPa。在测试浓度范围内,最大压力上升速率和爆炸指数均随浓度的增大而变大。另外,在其爆炸强度特性研究的基础上,对产尘车间的环境风险进行了初步辨识,提出了相应的防护措施。本文的研究成果对此类碳纤维复合材料粉尘的工业防护具有实际的指导作用,对于该粉尘的爆炸机理的深入研究也具有一定的参考价值。     

The explosion of non-nano iron dust suspension in the 20-l spherical bomb

The understanding of dust explosion is still incomplete because of the lack of reliable data and accurate models accounting for all the physic-chemical aspects. Besides, most of the experimental data available in the current literature has been accumulated on the 20-l spherical bomb tests, which gives coarse results for the pressure history that cannot be easily converted into fundamental combustion parameters. Nevertheless, the large amount of experimental data available in the spherical bomb is attractive. In this work, the explosion of non-nano iron dust in the standard spherical vessel is analyzed, aiming at evaluating the burning velocity from the theoretical point of view and the simple experiments performed by the standard explosion tests. The choice of iron is of relevance because its adiabatic flame temperature is below the boiling temperature of both the reactants and oxidized gaseous, liquid, or solid (intermediate and final) products and for the negligible particle porosity, which instead is typical of organic dust. Therefore, a non-nano iron dust explosion can be reconducted to a reduced mechanism since heterogeneous (surface) combustion may be determinant, and the diffusion mechanism for oxygen is the only relevant. The laminar burning velocity is strongly dependant on the particle diameter, whereas little effects are due to the dust concentration. The reported final value was found in agreement with typical limiting laminar burning velocity, adopted for the estimation of flammability limits.     

Development of inherent safety and health index for formulated product design

The numerous formulated products which are introduced to the market consist of chemical ingredients that may cause various safety and health hazards to the consumers. Therefore, it is extremely important to practice a systematic methodology to formulate products with acceptable safety and health performances. This work presents an index-based methodology to assess the safety and health hazards of the ingredients during the early formulation stage of product design. Hence, new inherent safety and health sub-indexes are introduced to improve the current safety and health hazards that are needed in formulated product design. The inherent safety and health sub-indexes are assigned with scores based on the degree of potential hazards. A higher score indicates a higher safety risk or severe health effect, and vice versa. The proposed methodology will greatly assist the users to identify the adverse safety and health effects caused by the ingredients. Hence, it is pivotal to eliminate or reduce the safety and health impacts from product usage. A case study on common ingredients used in the formulation of paint is presented on this study to describe the proposed method.     

一起倾倒汽油导致的静电燃爆事故分析

分析了深圳龙岗发生的一起燃爆事故,疑因不规范操作产生的静电放电引起。针对GB12158对该类操作提出的要求,开展相关试验研究。塑料桶加注16 L汽油的过程中,塑料桶上的静电电位最高为4.7 kV。塑料桶与聚四氟乙烯板间相互摩擦,塑料桶上的最高电位为9.4 kV。不接地金属桶加注16 L汽油的过程中,金属桶上的最高电位为-15.4 kV。汽油加注过程中,不接地金属滤网上的最高电位为-1.91 kV。以上3种操作产生的静电皆可能引发静电放电,通过分析,深圳龙岗事故是由静电放电引发。     

蓄能器爆炸事故原因推断及防控措施

囊式蓄能器是液压系统中常用的压力容器。在更换胶囊和(或)充装氮气时如操作不当,有发生爆炸的风险。通过对一起蓄能器爆炸事故的调查,经计算、推论,得出此次爆炸是一起物理爆炸。并就事故发生原因及其爆炸强度、危害程度进行了分析。提出生产商和使用单位应制定科学的、可行的标准操作程序(Standard Operation Program,SOP),并要求工人在实际操做中严格执行,加强过程控制,避免事故的发生。     

Ф2450型煤气发生炉爆炸事故分析

针对一起煤气发生炉爆炸事故。从煤气发生炉结构、布置、管理、运行等方面对爆炸事故原因进行了技术分析及探讨。     

电石遇潮湿空气易燃危险性的评估方法及预防措施研究

针对电石遇潮湿空气释放乙炔的危险特性,以潮湿空气与电石粉尘及电石粉尘堆垛表面接触的方式,替代传统的遇湿易燃危险性测试方法,拟合得到了乙炔气体释放速率随潮湿空气相对湿度变化的方程式,提出了将乙炔气体浓度控制在低于发生火灾爆炸危险区域的潮湿空气相对湿度和稀释乙炔气体浓度的氮气保护进气流量(Q)计算公式。结果表明:电石遇潮湿空气释放乙炔气体的浓度受温度和相对湿度的影响,根据不同温度条件下潮湿空气中水汽的分压(Ps)和乙炔气体的密度(ρ乙炔),可计算得到一定气相空间内电石遇潮湿空气释放乙炔气体的浓度;潮湿空气的相对湿度可以有效表征乙炔气体的释放量,用于评估在一定气相空间内电石遇潮湿空气释放乙炔气体发生火灾爆炸的可能性。