Characterization of Ti powders mixed with TiO2 powders: Thermal and kinetic studies

The fire and explosion risks of metal powders admixed with solid inertants have been extensively investigated for many years. However, it remains unclear why such solid mixtures have high potential fire and explosion risk even when mixed with high percentages of non-combustible solids. This paper investigates how to interpret these risks, from a microscopic perspective, with thermal and kinetic parameters including initial ignition temperature, mass unit exothermic energy, activation energy and risk index of spontaneous combustion. The results show that the initial ignition temperature based on TG (Thermogravimetry) analysis is related to ignition sensitivity, and increased with percentage of admixed solid inertant. The unit mass exothermic energy based on DSC (Differential scanning calorimetry) analysis is related to flame spread velocity. Activation energy and the risk index of spontaneous combustion can be used to explain the reactivity and spontaneous combustion hazard, respectively, of metal powders. We conclude that thermal and kinetic parameters may provide another way to describe the fire and explosion risk of combustible powders, especially for nano metal powders due to the laboratory safety in the normative tests for explosion parameter determination.     

Investigating the effect of geometric dimensions of median traffic barriers on crashes: Crash analysis of interstate roads in Wyoming using actual crash datasets

IntroductionDespite the numerous safety studies done on traffic barriers’ performance assessment, the effect of variables such as traffic barrier’s height has not been identified considering a comprehensive actual crash data analysis. This study seeks to identify the impact of geometric variables (i.e., height, post-spacing, sideslope ratio, and lateral offset) on median traffic barriers’ performance in crashes on interstate roads.MethodGeometric dimensions of over 110 miles median traffic barriers on interstate Wyoming roads were inventoried in a field survey between 2016 and 2018. Then, the traffic barrier data collected was combined with historical crash records, traffic volume data, road geometric characteristics, and weather condition data to provide a comprehensive dataset for the analysis. Finally, an ordered logit model with random-parameters was developed for the severity of traffic barrier crashes. Based on the results, traffic barrier’s height was found to impact crash severity.ResultsCrashes involving cable barriers with a height between 30″ and 42″ were less severe than other traffic barrier types, while concrete barriers with a height shorter than 32″ were more likely involved with severe injury crashes. As another important finding, the post-spacing of 6.1–6.3 ft. was identified as the least severe range in W-beam barriers.Practical applicationsThe results show that using flare barriers should reduce the number of crashes compared to parallel barriers.     

Study on explosion risk of aluminum powder under different dispersions

This paper mainly studied the influence of particle size distribution on the explosion risk of aluminum powder under the span of large particle size distribution. The measurement was carried out with the 20 L explosion ball and the Hartmann tube. The statistical analysis was used to analyze the relevance between the parameters of explosion risk and the particle size parameters. Test results showed that with the increase of particle size, the sensitivity parameter increases and the intensity parameter deceleration decreases. The effect of particle size change on MEC and MIE of small particle size aluminum powder is relatively small but greater impact on Pm and (dP/dt)m. The small particle size components greatly increasing the sensitivity of the explosion and accelerating the rate of the explosion reaction; while the large particle size component contributes to the maximum explosion pressure. D_3,2 particle size dust determines the risk of aluminum powder explosion.     

通风机站风流间相互影响阻力特性研究*

为研究双风机并联机站进口、出口风流相互影响的机站局部阻力特性，构建机站通风局部阻力计算的数学模型，同时运用相似原理建立双风机并联通风机站实验模型，并佐以数值模拟对比验证，分析计算不同风机间距的无量纲数A、不同扩散器结构参数条件下的综合影响系数Kc。结果表明:A与Kc具有二次函数关系，且存在较优的A，使得Kc值最小；Kc值随着L/Df增加而线性减小。研究结果有利于Kc的选取，为高效率通风机站结构设计提供技术及数据支撑。     

对叉车额定起重量的分析和探讨

本文对叉车的额定起重量和实际起重量之间的联系与区别进行了分析,指出了额定起重量只是供叉车设计使用的参数,建议不要将额定起重量标识在叉车铭牌上,叉车用户应按照载荷曲线图来确定操作时的实际起重量.     

可吸入颗粒物污染与气象因子的关系

对闸北区空气自动监测站2009年SO2、NO2、PM10的浓度和气象参数变化特征进行研究,可吸入颗粒物的时间变化特征表明,总体上呈现冬春季高、夏秋季低;PM10与降水量、相对湿度、温度呈现一定的负相关性,但与风速的相关性随季节不同而不同,与气压略呈正相关性。对典型日和灰霾日PM10、SO2、NO2以及相应气象因子的特征进行了分析比较。     

调水工程生态补偿的分阶段推进战略

水质安全是调水工程顺利实施的关键,为此调水区背负巨大的调水工程的外部经济成本和社会发展代价,必须通过生态补偿政策进行内部化,然而调水工程涉及的范围广、时间长、利益主体多、资金投入大,难以通过一种手段或者现有某种方式建立长效的生态补偿机制。文章从调水工程生态补偿政策建立的目标、标准、责任分担与利益共享、补偿方式角度分析了生态补偿现状及存在的问题,提出了调水工程生态补偿的分阶段推进战略总体思路与实施构想,重点分析了各阶段生态补偿政策的制定标准和要求,为中线调水工程生态补偿政策制定提供了技术支持。     

沈阳城市化进程对大气边界层影响研究

利用沈阳气象站2000-2010年高空观测数据,统计分析了各年探空温度和风速曲线,还依据统计得到的中性层结风速廓线资料,利用莫宁-奥布霍夫相似理论计算了下垫面的空气动力学参数,综合研究了沈阳城市化进程对大气边界层的影响。结果表明:(1)随着城市化进程的发展,地面平均温度呈逐年升高的趋势,但升温幅度很小;高层温度也有增加的趋势,增温幅度很小。(2)垂直温度递减率有增加的趋势,这表示城市化程度的发展对边界层的影响也是显著的。(3)由于下垫面城市化程度的提高,在不同高度上风速都有不同程度的减小的趋势。(4)摩擦速度逐年增加,对风速的消减作用逐渐增强;粗糙度逐年增高和零平面位移逐年增大,可见沈阳下垫面城市化的程度逐年增加。     

袋式除尘器进气均布板结构参数对气流分布的影响分析

针对袋式除尘器的进气均布板主要结构参数对气流分布影响的问题,采用正交试验方法进行CFD模拟试验设计,并以气流速度相对均方根σ值作为气流均匀性的评价指标。研究结果给出了σ与板数n、板长L、挡板上端距灰斗顶部截面高度ΔH、挡板前后偏角θ及过滤风速v之间的函数关系式。表明适当增加n、增大ΔH和θ、减小L、降低v,可以提高进气流分布均匀程度,影响进气均匀分布程度的排序为L>θ>n>ΔH>ΔL。     

火电湿法烟气脱硫流程优化的实现方案研究

在给定脱硫流程模拟优化参数的情况下,尝试了基于DCS系统和基于OA局域网的两种优化控制改进方案,后一种方案解决了优化控制系统的安全性、稳定性、扩展性、易管理等问题。同时采用该控制系统的3号脱硫系统的控制效果最佳,且脱硫效率循环浆液泵功率比随着操作方式相近度的提高而呈递增趋势。