Large eddy simulation and experimental study of the effect of wire mesh on flame behaviours of methane/air explosions in a semi-confined pipe

Preventing the propagation of flames in a pipeline is an effective measure for avoiding gas explosion accidents and reducing losses. To evaluate the effect of wire mesh, acting as a porous media, experimental and simulation studies are conducted to determine the influence of the wire mesh on the dynamics of premixed methane/air flame propagation in a semi-closed pipe. Four different kinds of wire mesh with different numbers of layers are chosen in the experiments and simulation, and the mechanism of wire mesh quenching of the flame is investigated. The experimental and simulation results are consistent. Flames are quenched when 4 layers of 40-mesh or 3 layers of 60-mesh wire mesh are used; however, once the flame propagates through the wire mesh, the risk of methane combustion may increase. The wire mesh becomes the key factor causing flame folds and acceleration, and the greater the number of layers or the larger the mesh size is, the more obvious the folds after the flame passes through the wire mesh. Moreover, the combination of heat absorption and disruption of the continuous flame surface by the mesh causes flame quenching. Wire mesh can effectively attenuate the flame temperature during premixed flame propagation in a pipe, and the attenuated maximum rate reaches approximately 79% in the case of adding 3 layers of 60-mesh wire mesh.     

BIM技术在钢结构建筑抗震减灾管理中的应用

为提高钢结构建筑抗震减灾性能,降低建筑坍塌风险,研究BIM技术在钢结构建筑抗震减灾管理中的应用方法是非常必要的.利用BIM技术在钢结构建筑整体建造中的动态建模、可视化、信息共享管理以及抗震减灾性能检测等优势,在建筑抗震减灾管理决策阶段,选出最优方案,针对方案中影响建筑抗震减灾性能风险制定管理策略;在设计阶段,创建三维建...     

回火焊道焊接技术在焦炭塔修复中的应用

为了避免耗时长、费用高的焊后热处理或整体更换筒节,针对铬钼钢焦炭塔内壁环焊缝的裂纹和锥段内壁腐蚀缺陷,提出采用回火焊道焊接技术对内壁缺陷部位进行修复。结果表明,严格按照经评定合格的焊接工艺进行施焊,回火焊道焊接技术可以利用层道间的焊接热循环作用达到焊后热处理的效果,使焊接修复后铬钼钢焦炭塔的母材和复合层的冶金和力学性能满足要求。     

钢铁企业大型低位料仓汽车卸料的粉尘控制

某钢企大型低位料仓为汽车卸料,料仓厂房内空高,跨度大,料仓上部贯通,物料落差大,卸料中产生大量粉尘,环境污染问题典型突出。通过对低位料仓汽车卸料产尘特性分析,采取加强生产管理、组织汽车有序卸料、料仓厂房有效密闭、合理设计捕尘方式和布袋除尘系统等措施,能够有效地控制粉尘污染。除尘系统具有投资及运行费用少,除尘效果明显的优点。     

阴角邻面火灾作用下L型钢管混凝土柱耐火极限研究

运用有限元软件ABAQUS计算L形带肋钢管混凝土柱阴角相邻两面受火全过程下的耐火极限,分析了阴角邻面受火方式下构件内部温度场和应力场的变化规律,在此基础上分析荷载比、宽厚比、计算长度、加劲肋纵向间距、荷载偏心率、荷载角等参数对耐火极限的影响规律。数据表明:荷载比、计算长度对构件耐火极限影响较大,随着荷载比和计算长度的增大,耐火极限基本呈线性下降;加劲肋间距对构件耐火性能影响较小;由于L形柱的特殊形式,偏心荷载对耐火极限的影响规律较复杂,荷载作用点偏向低温区可以提高耐火极限。     

钢渣吸附处理苯酚废水的研究

采用恒温振荡的方法,考察了钢渣粒径、吸附温度、振荡速度、溶液pH值、溶液初始浓度对苯酚去除率的影响。结果表明,在粒径为120~180目、pH=4.0、苯酚溶液浓度在500 mg/L以内、苯酚/钢渣质量比为1∶1 000时吸附效果最好。钢渣对苯酚的吸附能较好地符合Langmuir和Freundlich吸附等温线,线性相关系数分别为0.9971和0.9916,吸附机理为表面吸附。     

水性膨胀型防火涂料的现状和应用

钢结构是现代建筑工程中较普遍的结构形式之一,具备重量轻、机械性能好、可承受较大的荷载及制作和安装机械化程度高的特点。随着城市规模的发展,钢结构在我国建筑业具有非常广阔的应用前景。但由于其自身抗火能力差,在火灾高温作用下,其力学性能如屈服强度、弹性模量等会随温度升高而降低,一般在15min左右即丧失承重能力而垮塌,需采取保护措施使其温度不超过临界点才能在火灾中保持稳定性。涂敷钢结构防火涂料,施工简单、重量轻、耐火时间长且不受钢结构几何形状的制约,具有良好的经济性和实用性。随着环保意识的增强,国内外越来越多的建筑提倡绿色环保理念,参与三星或LEED认证体系的评级认证。水性膨胀型防火涂料凭借其优异的环保、施工安全和防火性能,开始逐渐受到众多业主和设计师的青睐。本文从防火原理、技术特点、防火领域的国内外认证、施工和质量管理的角度,浅谈水性膨胀型防火涂料的性能和发展现状,同时也讨论了目前防火涂料存在的一些问题。     

钢框架厂房火灾后的破坏形态

端部约束不同的构件在火灾中的破坏形态不同,研究整体结构构件在火灾中的破坏形态,可以为钢结构抗火研究与设计提供依据。某钢结构框架厂房发生火灾,大火历时3个多小时,火场最高温度达1000°C以上。火灾后,框架梁均有不同程度的破坏,钢梁端部下翼缘屈曲破坏较普遍;由于钢梁顶没有设置抗剪键,钢梁与顶部的混凝土现浇楼板脱开,火灾后残留有较大的挠屈变形;钢柱在火灾后未有明显的破坏现象,但有侧向变形产生。这些现象与实验室中标准试验的结果不同。     

约束高强度Q460钢柱抗火性能分析

为了研究高强度约束钢柱在火灾下的反应,根据高强度结构钢Q460在高温下的力学性能参数,建立了约束高强度钢柱受火分析模型,得到了高强度约束钢柱在火灾下的轴向位移、跨中挠度、最大应力以及临界温度。采用有限元分析对理论结果进行了验证,两者吻合很好。利用验证过的该文计算方法计算了2种荷栽比、长细比和约束刚度比条件下的高强钢柱的抗火性能;采用CECS200:2006的力学性能参数计算了约束普通钢柱的抗火性能。通过对高强钢和普通钢的抗火性能分析发现,轴向约束明显降低钢柱的临界温度,长细比、荷载比越大,临界温度越低;高强钢的抗火性能要优于普通钢。     

Technologically enhanced 210Pb and 210Po in iron and steel industry

Iron and steel manufacture has been ranked as the largest industrial source of environmental contamination in the USA; the wastes generated in their production processes contain heavy elements that can be a source of contamination, and natural radionuclides that can produce an occupational and/or public radiological impact. In this work the potential occupational effective dose rate (μSv/y) due to inhalation in four integrated steel-making factories from Egypt has been evaluated, by assuming a well defined scenario and with basis in the ²¹⁰Pb and ²¹⁰Po activity concentrations determined in ore and wastes collected in the aforementioned factories. Activity concentrations, in Bq/kg, of ²¹⁰Pb and ²¹⁰Po, and leachable Pb and Fe were measured using gamma-ray spectrometry based on HPGe detector, alpha particle spectrometry based on PIPS detector, and inductively coupled plasma-mass spectrometry (ICP-MS). Levels of ²¹⁰Pb and ²¹⁰Po in the range of <DL-4238 and 1-5660 Bq/kg, respectively, were found. According to the assumed scenarios, the occupational exposures by inhalation are much lower than the recommended annual effective dose limit, although the environmental impact due to waste storage and/or use should be considered based on case by case evaluation.