某铁矿胶带运输机移动卸料车的除尘系统

针对该矿胶带运输机移动卸料车定点卸料的作业特点,采用随卸料车移动的抽风罩、水平式风管接口装置及湿式除尘机组,构成简捷的除尘系统,有效地解决了卸料车作业时产生的粉尘污染问题。     

一种用于空气压缩机的空气消声过滤器

介绍了组合式空气消声过滤器的用途、结构、工作原理和使用效果,它是空气压缩机前级的专用理想设备,推广使用后可获得良好的综合效益。     

沙尘天气对环境空气中PM_(10)影响分析

利用2002年沈阳市沙尘天气时的环境监测资料和气象资料进行分析得出浮尘天气时环境空气中PM10浓度最大,空气污染最严重,空气中的尘主要来源于我国西北沙漠地区;沙尘暴出现频率低,持续时间短,但强度大,空气中PM10主要来源科尔沁沙漠、省内荒漠地带及本市地表沙尘;扬沙天气污染相对较轻,空气的PM10以本地地表尘为主。     

灰霾的健康效应

灰霾是颗粒物和气体污染物导致的可察觉到的能见度降低的污染天气现象.近年来,随着城市化进程的快速发展,城市大气污染加剧,灰霾天气也随之增多.总结了灰霾这一污染型天气的特征,介绍了灰霾的化学成分、污染机制等,并从影响机制和流行病学角度出发,对国内外灰霾对人体的健康效应研究成果进行了综合评述,提出目前急需解决的科学问题和今后的研究方向.     

车辆限行对道路和施工扬尘排放的影响

采用降尘法对道路和施工扬尘排放进行连续监测,通过限行之前和限行期间数据分析,研究了“好运北京”体育赛事期间机动车交通限行措施对道路和施工扬尘的消减情况、道路和施工扬尘对北京大气环境颗粒物的贡献率、道路和施工扬尘源占本地颗粒物排放总量的比重.结果表明,车辆限行措施对降低道路和施工扬尘的效果明显;环路限行期间降尘量平均值为0.27 g·(m²·d)^-1,限行之前1个月和限行之前7d降尘量平均值为0.81和0.59 g·(m²·d)^-1,主干道和次干道限行期间降尘量平均值为0.21 g·(m²·d)^-1,限行之前1个月和限行之前7 d降尘量平均值为0.54和0.58 g·(m²·d)^-1,道路降尘量下降了60%～70%;限行期间民用建筑施工降尘量平均值为0.27 g·(m²·d)^-1,限行之前20 d为1.15 g·(m²·d)^-1,限行期间公用建筑施工降尘量平均值为1.06 g·(m²·d)^-1,限行之前20 d为1.55 g·(m²·d)^-1,施工降尘下降30%～47%;道路和施工扬尘是北京市颗粒物污染的主要来源,其对环境PM₁₀的贡献率为21%～36%;当本地污染源PM₁₀排放量占环境总量的50%和70%时,道路和施工扬尘PM₁₀排放量分别占本地污染源的42%～72%和30%～51%.     

Safer and stronger together? Effects of the agglomeration on nanopowders explosion

Among the factors influencing dust explosion, the particle size distribution (PSD) is both one of the most important and complex to consider. For instance, it is commonly accepted that the explosion sensitivity increases when the particle size decreases. Such an assertion may be questionable for nano-objects which easily agglomerate. However, agglomerates can be broken during the dispersion process. Correlating the explosion parameters to the actual PSD of a dust cloud at the moment of the ignition becomes then essential. The effects of the moisture content and sieving were investigated on a nanocellulose powder and the impact of a mechanical agglomeration was evaluated using a silicon coated by carbon powder. Each sample was characterized before and after dispersion using in situ laser particle size measurement and a fast mobility particle sizer, and explosion and minimum ignition energy tests were conducted respectively in a 20 L sphere and in a modified Hartmann tube. It was observed that drying and/or sieving the nanocellulose mainly led to variations in terms of ignition sensitivity but only slightly modified the explosion severity. In contrast, the mechanical agglomeration of the silicon coated by carbon led to a great decrease in terms of ignition sensitivity, with a minimum ignition energy varying from 5 mJ for the raw powder to more than 1J for the agglomerated samples. The maximum rate of pressure rise also decreased due to modifications in the reaction kinetics, inducing a transition from St2 class to St1 class when agglomerating the dust.     

Inhibiting effects by Fe2O3 on combustion and explosion characteristics of ABS resin

The global increase in the use of, and reliance on, plastics has prompted the demand for acrylonitrile-butadiene-styrene (ABS) resin in various fields. With this increased requirement, numerous failures have occurred in the ABS process. Those incidents, resulting from electrostatic discharge, powder accumulation, heat accumulation, construction sparks, and plant fires, have caused dust fire and explosions.In this study, the ABS resin was gleaned from the site and tested for its explosion parameters, including minimum ignition temperature of dust cloud (MIT_C), minimum ignition energy (MIE), and minimum explosion concentration (MEC). To improve loss prevention in the manufacturing process, ferric oxide (Fe₂O₃) as an inert additive was added in the ABS powder. According to the MIE test, Fe₂O₃ has an apparent inhibiting effect on dust explosion for the ABS dust. With the proportion of Fe₂O₃ increased from 25 to 50 mass% in ABS, the MIE increased from 67 to 540 mJ. The explosion tests via 20-L apparatus indicated that Fe₂O₃ mixed with ABS could not increase the MEC significantly. However, the explosion pressure dropped by increasing in the ratio of Fe₂O₃ in ABS. This inerting strategy of ABS was deemed to substantially lessen the probability and severity of fire and explosion.     

Minimum ignition energy of medicinal powder – Florfenicol and Tilmicosin

This work aims to help improve the electrostatic safety design and explosion prevention of medical facilities. In this study, the minimum ignition energies (MIEs) of Florfenicol, Tilmicosin and mixtures of Florfenicol and Tilmicosin at ratios of 1:1, 1:2, 2:1 and 1:4 were measured in a Hartmann apparatus. The results demonstrated that the MIEs for Florfenicol, Tilmicosin and mixtures of Florfenicol and Tilmicosin at ratios of 1:1, 1:2, 2:1 and 1:4 are 200, 70, 180, 150, 200 and 110 mJ, respectively. Tilmicosin is more sensitive to static electricity, which is more dangerous than the other two powders examined in this paper. Furthermore, the MIEs of the mixtures are proportional to the Florfenicol content. For all powders, the MIE first decreased with the powder mass and later reached its minimum value. In addition, scanning electron microscopy (SEM), differential scanning calorimetry (DSC) were used to investigate the morphological specificity and thermal decomposition of the powders to elucidate the parameters governing the powder explosions further.     

Minimum ignition energies of pure magnesium powders due to electrostatic discharges and nitrogen's effect

This paper experimentally investigated the relation between the minimum ignition energy (MIE) of magnesium powders as well as the effect of inert nitrogen (N₂) on the MIE. The modified Hartmann vertical-tube apparatus and four kinds of different-sized pure magnesium powders (median particle size, D50; 28.1 μm–89.8 μm) were used in this study. The MIE of the most sensitive magnesium powder was 4 mJ, which was affected by the powder particle size (D50; 28.1 μm). The MIE of magnesium powder increased with an increase in the N₂ concentration for the inerting technique. The magnesium dust explosion with an electrostatic discharge of 1000 mJ was suppressed completely at an N₂ concentration range of more than 98%. The experimental data presented in this paper will be useful for preventing magnesium dust explosions generated from electrostatic discharges.     

手烧型燃煤锅炉和工业炉窑烟尘污染的防治对策

众多手烧型锅炉和工业炉窑废气排放是造成城市空气严重污染的主要原因。本文通过剖析燃煤产生烟尘的机理,现有烟尘控制技术以及不同炉窑的工艺情况,提出手烧型燃煤锅炉、工业炉窑烟尘污染防治措施。