Theoretical estimation of the lower flammability limit of fuel-air mixtures at elevated temperatures and pressures

We present an approach for predicting the lower flammability limits of combustible gas in air. The influence of initial pressure and temperature on lower flammability limit has been examined in this study. The lower flammability limits of methane, ethylene and propane in air are estimated numerically at the pressure from one to 100 bar and the temperature from ambient to 1200 K. It was found that the predicted LFLs of methane, ethylene and propane decrease slightly with the elevated pressure at the high temperature. The LFLs variation for methane-air mixture is 0.17, 0.18, 0.18 volume% with the initial pressure from one to 100  bar at the initial temperature of 800 K, 1000 K and 1200 K respectively, which is significantly higher than that at lower temperature. And the LFL of methane-air mixture at 1200 K and 100 bar reaches 1.03 volume% which is much lower than that at 1 bar and ambient temperature. On the other hand, the LFLs variation is 0.11–0.12 volume% for ethylene-air mixture and 0.06–0.07 volume% for propane-air mixture with the initial temperature from 800 K to 1200 K at the same range of pressure. The LFL values at high temperatures and pressures represent higher risk of explosion.     

Fire accident investigation of an explosion caused by static electricity in a propylene plant

This study investigated a 2010 fire and explosion that occurred at a polypropylene (PP) and copper-clad laminate high-tech plant in Taiwan. Liquid acetone leakage caused the fire and explosion. One person was killed and five were injured; property damage was estimated at US$20 million. In contrast to conventional plants, high-tech plants have sophisticated instrumentation, highly complex pipelines, and confined spaces. In addition, the floor area in a high-tech plant is large and frequently contains a channel through the ground floor to the second or third floor. This channel design enables the fire compartment to be destroyed. Therefore, the system cannot confine the fire to a specific area, thus hindering fire-relief operations. In this study, the original fire outbreak occurred in the PP processing area on the ground floor. The acetone storage tank was located on the third floor. The investigation conducted at the fire site of the situations of the burning (bursting) loss determined that the acetone liquid leaked and dripped from floor cracks and tunnel oven to the PP processing area. Because the PP manufacturing process rapidly generates static electricity, the flammable liquids made contact with the source of ignition, which caused the explosion and fire. Various procedures, such as those involving the operating environment of production, packaging, and processing in a high-tech plant, are likely to produce static electricity in a workplace. Improved electrostatic management can prevent the loss of property and lives, liquid acetone leakage, and loss of equipment caused by static electricity fire.     

氨制冷系统的压力管道安全

氨制冷系统压力管道在特定的环境和特定的工作参数下运行,压力管道的安全性能与设计、安装、检验试验和使用密切相关。关注氨制冷系统压力管道在设计、安装、检验试验和使用方面常出现的问题,有针对性的整改,对预防和提高氨制冷系统压力管道的安全性具有重要意义。     

Interactive response of photosynthetic characteristics in Haloxylon ammodendron and Hedysarum scoparium exposed to soil water and air vapor pressure deficits

C₄ plants possess better drought tolerance than C₃ plants. However, Hedysarum scoparium, a C₃ species, is dominant and widely distributed in the desert areas of northwestern China due to its strong drought tolerance. This study compared it with Haloxylon ammodendron, a C₄ species, regarding the interactive effects of drought stress and different leaf–air vapor pressure deficits. Variables of interest included gas exchange, the activity levels of key C₄ photosynthetic enzymes, and cellular anatomy. In both species, gas exchange parameters were more sensitive to high vapor pressure deficit than to strong water stress, and the net CO₂ assimilation rate (A_n) was enhanced as vapor pressure deficits increased. A close relationship between A_n and stomatal conductance (g_s) suggested that the species shared a similar response mechanism. In H. ammodendron, the activity levels of key C₄ enzymes were higher, including those of phosphoenolpyruvate carboxylase (PEPC) and nicotinamide adenine dinucleotide phosphate-malate enzyme (NADP-ME), whereas in H. scoparium, the activity level of nicotinamide adenine dinucleotide-malate enzyme (NAD-ME) was higher. Meanwhile, H. scoparium utilized adaptive structural features, including a larger relative vessel area and a shorter distance from vein to stomata, which facilitated the movement of water. These findings implied that some C₄ biochemical pathways were present in H. scoparium to respond to environmental challenges.     

沧东断裂带兴济1井水位动态特征及其映震能力研究

整理和分析兴济1井的静水位观测以来的水位和气压观测资料,发现该井水位线性下降趋势明显,存在峰谷形式的年变周期,滑动速度分析显示出一定的异常信息;数据散点图显示水位观测结果受固体潮影响大,滑动分析显示固体潮规律畸变时可能存在前兆信息;主要的异常前兆表现形式为水位的下降方向脉冲,可能与井址附近区域或者井址北东方向的天津和唐山老震区相关断裂带上的地震活动有关.     

浅述汽车加油站油气回收系统监测研究

加油站油气回收系统是由卸油油气回收系统、汽油密闭储存、加油油气回收系统、在线监测系统和油气排放处理装置组成。该系统的作用是将加油站在卸油、储油和加油过程中产生的油气,通过密闭收集、储存和送入油罐汽车的罐内,运送到储油库集中回收变成汽油,以达到在汽车加油、油料储运过程中油汽不外泄,不污染周边环境的目的。根据中华人民共和国《加油站大气污染物排放标准》(GB 20952-2007)中第六条的规定,长三角地区的改造项目应在2010年1月1日进行,因此对加油站油气回收系统的监测显得十分紧迫。     

三峡库区库中干流及支流水体夏季二氧化碳分压及扩散通量

以三峡库区库中干流以及主要支流——梅溪河为研究区,于2013年5月对该区域水体中溶解二氧化碳分压(pCO2)进行了走航观测.结果表明,夏季梅溪河表层pCO2为6.8~7.5 Pa,三峡库区库中长江干流表层pCO2为201.4~210.2 Pa.在库区干、支流交汇的过渡区水体剖面上,表层水体pCO2最低为53.5 Pa,随着水深增加,pCO2急剧增大,在3 m处达到约210Pa后基本保持不变.通过计算,库区支流梅溪河和库区干流表层水体的CO2释放通量分别为-7.48 mmol·(m2·d)-1和39.58 mmol·(m2·d)-1.结果表明,库区支流梅溪河表现为大气中CO2的"汇",而库区干流表现为CO2的"源",库区干、支流水体在CO2的释放上有显著差异.     

泄爆导管对球形容器内气体爆炸泄放过程影响的试验

设计了球形容器内气体爆炸通过导管泄爆的试验系统,选用体积分数为10%(特殊说明除外)的甲烷和空气预混气体开展试验,研究了泄爆导管长度、容器容积、点火位置、气体体积分数、破膜压力等因素的影响。结果表明:泄爆导管越长,容器内的正压力峰值和负压力峰值越大;密闭爆炸时,球形容器的容积对爆炸压力峰值几乎无影响;不同容积球形容器内气体爆炸通过相同导管泄爆时(导管长度均为6 m,直径均为0.06 m),容积大的容器内的压力锋值为小容器压力值的3.3倍,且大容器内的压力上升速率也明显高于密闭爆炸的情况;有泄爆导管存在时,尾部点火容器内的压力峰值高于中心点火;泄爆导管的存在使得容器内的压力峰值高于直接泄爆时的压力峰值;无论有、无泄爆导管,容器内的压力峰值均随破膜压力增加而增加,但差值越来越小,说明导管的存在对容器爆炸泄爆过程的影响趋向缓和,但导管的存在总是阻碍了泄爆过程,增加了爆炸的严重程度,因此,在泄爆设计时要充分考虑导管的影响,适当提高容器自身的耐压强度。     

矿井通风系统多级机站的合理配置

多级机站通风方法自80年代以来在国内许多矿山得到推广应用,其理论日趋成熟,但机站的合理配置仍是一个有待深入研究的问题。为解决这一问题,引入了机站比风压的概念,定量化地解决了机站合理风压确定和矿井通风系统机站级数合理配置的问题。