An optimal level of dust explosion risk management: Framework and application

The current research provides guidance on the prevention and mitigation of dust explosion using a Quantitative Risk Management Framework (QRMF). Using concepts drawn from previous studies, the framework consists of three main steps: (i) a new combined safety management protocol, (ii) the use of DESC (Dust Explosion Simulation Code) and FTA (Fault Tree Analysis) to assess explosion consequences and likelihood, respectively, and (iii) application of the hierarchy of controls (inherent, engineered and procedural safety). QRMF assessment of an industrial case study showed that the original process was at high risk. DESC simulations and Probit equations determined the destructive percentages. FTAs revealed high probabilities of explosion occurrence; in addition, detailed individual and societal risks calculations were made, before and after the framework was applied. Based on the hierarchy of controls technique, the framework showed significant risk reduction to the point where the residual risk was acceptable for the process.     

Effects of carrying handles,postures, materials and distances on carrying capability

This study recruited 14 industrial workers to examine the effects of carrying handles, postures, materials and distances on maximum acceptable weights of carrying (MAWC), and resulting heart rate and body rating of perceived exertion (RPE) for a 20 min intensive carrying task. This study showed that MAWC of carrying with bar handles, carrying with hands-and-body posture, solid materials and 4?m distance were significantly higher than that of carrying with groove handles, carrying with hands posture, liquid materials and 8?m distance, respectively. The resulting heart rates while carrying MAWCs of groove handles, hands-and-body carrying posture, solid materials and 4?m distance were lower than the resulting heart rates while carrying MAWCs of bar handles, hands carrying posture, liquid materials and 8?m distance, respectively. Most pair levels of independent variables resulted in similar body's RPEs except for the pair levels of carrying distance.     

基于云模型的城轨信号系统安全保障能力评价方法*

为准确评价城轨信号系统安全保障能力及影响因素,基于云理论对定性与定量因素的良好融合优点,构建城轨信号系统安全保障能力评价云模型及评价指标体系,采用组合赋权法对各指标赋予权重,并基于专家意见,利用正向云发生器生成标准云。结果表明:该云模型具有一定稳定性和可靠性,可对城轨信号系统安全保障能力进行有效测评,同时能够发现安全运营中的缺陷,有助于协助管理方进行针对性改善,以提高城轨信号系统的安全保障能力。     

城市综合承灾能力评价的分形模型

基于结构决定功能的系统原理,运用分形理论,构建城市综合承灾能力分形评价模型。首先构建了城市综合承灾能力评价指标体系;其次进行原始数据标准化处理及指标数据之间相关性的消除;接着进行研究对象的分形评价与分维计算;最后通过对29个城市实例进行计算,并与模糊可变识别评价方法、指数评价方法进行比较验证,得到各城市综合承灾能力属于相对较强、中等和较弱的各占13.79%6,5.52%和20.69%。实例分析结果与各城市承灾能力实际状态基本一致,显示该方法能利用一个综合反映多因素之间复杂关系的特征指标给出相应的评价等级结果。     

New approach to calculate the probability of ignition

The probabilistic approach to the evaluation of fire hazard and the effectiveness of fire-precaution measures enables a rational response to the randomness of fire outbreaks. This article employs the statistical analysis methods to elucidate the causes for the ignition of fire on a random sample of industrial buildings in the Republic of Slovenia. The analyses are based on the Structural Equation Modeling (SEM), which is a well established and important statistical analysis technique in the fields of social science, biology, psychology and medicine, but hitherto rarely applied in safety research. The results of the study demonstrate that for the analyzed random sample of industrial buildings the frequency of fire outbreaks statistically significantly depends only on the presence and the probability of exposure to the heat sources (flames, sparks, and hot surfaces), but does not significantly depend on the available quantity of flammable materials within the industrial structure.     

重大冰雪灾害应急管理能力的评价——以湖南省为例

针对重大冰雪灾害应急管理的复杂性,基于湖南冰雪灾害案例以及国内外自然灾害及其应急管理的相关文献,提出了重大冰雪灾害应急管理能力评价指标结构。运用熵权法和群决策方法确定指标综合权重,采用群决策方法获得专家群体对一级评价指标的综合偏好,形成评价城市的综合评价矩阵,运用灰色综合评价模型求出各个评价城市应急管理能力的排序向量。最后以湖南省冰雪灾害为案例进行了应用。     

中国自然灾害备灾能力评价与地域划分

阐述了自然灾害发生之前,备灾响应能力评价的指标选择、指标模型的建立和地域划分;厘定了救灾物资的分类体系;基于救灾物资救助等级的划分程序,提出了国家主要灾种和救灾物资的救助评价等级及其地域划分.救灾物资的救助地域划分,不仅可以为国家不同自然灾害救灾物资代储类型和数量的地域匹配提供依据,而且可以为灾害救助区划服务,特别是为灾中应急和灾后恢复提供物资保障,从而达到有效减灾的目的.     

Combustion characteristics of asphalt and sodium compounds

Risk evaluation of mixtures of asphalt and inorganic salts such as sodium nitrate, sodium nitrite, sodium carbonate and sodium dihydrogenphosphate was conducted. The ignition and the combustion characteristics of mixtures of asphalt and oxidizing salts were obtained. Quasi-heat-accumulation experiments of asphalt–salt mixtures were conducted using about 1 kg samples. Six types of asphalt–salt mixtures were made and their ignition characteristics were examined in the quasi-heat-accumulation experiments. Then to clarify burning behavior of the asphalt–salt mixtures, experiments for understanding their combustion characteristics were conducted using a cone calorimeter.

The main results are as follows.

(1) In the quasi-heat-accumulation experiment, a region with high concentration of the salt mixture particles was made at the bottom of the sample vessel through the process of their sedimentation. An exothermic reaction started in this region. Just before the asphalt–salt mixture was ignited, a huge amount of white smoke was released. A kind of jet flame of a few meters in height was created.

(2) Based on the data of ignition temperature from the cone calorimeter experiments, ignition of asphalt was caused by a chemical reaction of asphalt with an oxidizing salt. The combustion of the asphalt–salt mixture contained the self-heating reaction.     

吸附-降解组合生物系统处理含铜离子城市污水

采用Pseudomonas putida 5-x细胞为吸附剂的生物吸附过程组合SBR生物降解系统处理含铜离子城市废水.研究了生物吸附剂Pseudomonas putida 5-x细胞的最佳制备条件以及组合系统的运行过程.实验结果表明,在优化的条件下,Pseudomonas putida 5-x细胞对铜离子的吸附容量可达87.3mg·g^-1,经生物吸附处理后,污水中Cu²⁺的含量显著降低,尽管残留的Cu²⁺对活性污泥吸附COD的能力尚有一定影响,但已不影响SBR系统对废水中COD的去除效果.研究表明,在活性污泥法处理含铜离子废水前,采用生物吸附技术降低废水中Cu²⁺含量,有利于提高后续活性污泥过程对COD的去除能力.     

舰船电子设备可维性设计对策

本文就目前舰船电子设备研制过程中存在的维修性问题,从结构设计角度探讨了舰船电子设备维修性的设计要求,以及提高舰船电子设备结构维修性和战备完好率的基本思路和对策。