Surface characteristics and wetting mechanism of respirable coal dust

In this study,FTIR and XPS spectroscopy,specific surface area and pore size analyses,wetting and other experimental means have been applied to investigate respirable coal dust surface properties and wetting mechanism.The research shows that coal dust surface structures,chemical and element compositions are changed in the refining process of coal dust.Compared with large particle coal dust,respirable coal dust is a weak hydrophilic and strong hydrophobic substance.The reason:the smaller the particle size of coal dust,the more unsaturated its surface.The absorption of air is strong and it is easy to form an air film on coal dust surfaces.Coal dust contact with water is actually a compound contact of liquid in contact with a solid and gas in contact with a solid.The smaller the particle size,the larger the pore volume and the higher the degree of surface roughness,the larger the area of gas in contact with a solid and the worse the coal dust wettability.Another reason is that the changes in the composition of atoms on the dust surface and structures affect coal dust wettability.The results of this study establish a theoretical basis for the invention of effective reduced-dust technology.     

Enhancing diamond drilling performance by the addition of non-ionic polymer to the flushing media

Drilling is a most important and crucial operation in the excavation industries.With the objective of looking into the enhancement of diamond drilling performance detailed laboratory investigations were carried out on phosphate rock.The effect of Poly (Ethylene Oxide) (PEO) added to the drilling water was studied by varying machine parameters and PEO concentration.The responses were rate of penetration and torque at the bit rock interface.Slake durability tests were also performed to understand the slaking behavior of phosphate rock in PEO solutions.     

Optimum location of surface wells for remote pressure relief coalbed methane drainage in mining areas

Based on engineering tests in the Huainan coal mining area,we studied alternative well location to improve the performance of surface wells for remote pressure relief of coalbed methane in mining areas.The key factors,affecting location and well gas production were analyzed by simulation tests for similar material.The exploitation results indicate that wells located in various positions on panels could achieve relatively better gas production in regions with thin Cenozoic layers,low mining heights and slow rate of longwall advancement,but their periods of gas production lasted less than 230 days,as opposed to wells in regions with thick Cenozoic layers,greater mining heights and fast rates of Iongwall advancement.Wells near panel margins achieved relatively better gas production and lasted longer than centerline wells.The rules of development of mining fractures in strata over panels control gas production of surface wells.Mining fractures located in areas determined by lines of compaction and the effect of mining are well developed and can be maintained for long periods of time.Placing the well at the end of panels and on the updip return airway side of panels,determined by lines of compaction and the effect of mining,would result in surface wells for remote pressure relief CBM obtaining their longest gas production periods and highest cumulative gas production.     

Longitudinal surface cracks of thin slabs

Based on the production practice of medium carbon thin slabs in the CSP plant,the reasons and influencing factors for the formation of longitudinal cracks were investigated,and some industrial measures were taken to eliminate the cracks.The results show that the efficient solutions to reduce longitudinal cracks are improving the performance of the mold powder,stabilizing the mold heat flux,and maintaining a proper taper of the mold during casting.Proper pouring temperature and secondary cooling also play...     

路基边坡面力学试验参数处理方法研究

介绍了半填半挖路基挖填交接面的形式分类以及相应的变形破坏形式,同时提出采用随机-模糊统计法处理路基稳定性。半挖半填式路基是高速公路施工中一种常见的修筑方式,其稳定性的好坏取决于挖填交接面的形式及其岩体力学性质。表明了模糊统计处理方法优于传统的随机处理方法,通过工程应用实例表明该方法可靠合理,具有广泛推广的价值。     

宽波束双基地高频雷达海杂波谱特性研究

双基地角在杂波单元内的连续变化导致宽波束双基地高频雷达的海杂波谱不同于窄波束.为了揭示这种差异,在G ill和W alsh窄波束双基地海面雷达散射截面积(RCS)基础上,提出了宽波束双基地海面RCS模型;结合高频地波雷达方程,得到宽波束双基地海杂波功率谱密度模型,通过仿真计算得到海杂波谱的具体形态.理论分析和仿真结果表明,在发射机附近以及基线附近的雷达探测区域,宽波束海杂波谱具有明显的展宽效应.     

单体与三体高速船舶粘性流场数值模拟

为了检验CFD在船舶粘性流场计算中的有效性,基于RANSE方法,对单体船型DTMB 5415和三体船FA1粘性流场进行了数值模拟.自由面处理采用VOF方法,湍流模型选用SSTk-ω模型,计算结果与试验数据进行了比较,在傅汝德数不是很高时吻合较好.计算结果表明,CFD可以用来研究复杂船型流动问题,对于阻力、伴流等重要的水动力参数,CFD能够给出与试验相一致的结果;同时VOF方法可以比较好地捕捉船舶自由面波形,对于三体船,计算结果能够清晰地反映出主体和侧体之间强烈的兴波干扰现象,可以为船型优化提供重要的参考.     

钛纳米改性聚合物防腐涂料的研究

为保护大庆油田三元复合液中油管,以钛纳米改性聚合物为主要原料,研制了钛纳米改性聚合物重防腐涂料.采用透射电子显微镜(TEM)研究了钛纳米改性聚合物平均粒径.采用正交试验法,确定最佳原料配比.采用扫描电子显微镜(SEM)研究了漆膜腐蚀.采用金相显微镜研究了钛纳米改性聚合物在漆膜中的分布.探讨了油管的腐蚀机理和钛纳米涂料的防护机理.实验结果表明:钛纳米含量为6%时,涂料具有最佳的防腐蚀效果,能很好的保护大庆油田三元复合液中的油管,并具有优异的抗化学药品介质的腐蚀性能.     

数控超声磨削陶瓷叶片型面刀位轨迹计算

介绍了陶瓷超声磨削加工现状,建立了平行直纹面数学模型.分析了用圆柱磨轮四轴数控超声磨削平行直纹面时原理误差,并提出减小误差的措施,计算出磨轮空间轨迹,并进行陶瓷叶片型面超声磨削加工工艺试验.试验结果表明,超声磨削加工陶瓷叶片型面是可行的,所完成的刀位计算可有效减小原理误差.     

基于PLC的内壁自动喷涂机控制系统设计

设计了一种适合于圆形内表面喷涂的数控喷涂机的控制系统,采用PLC可编程序控制实现了对喷涂电流、电压、涂层温度等工艺参数实时监测和控制。该控制系统具有结构紧凑、运动灵活、占用空间少、工作可靠、节能、装卸料容易等优点,适用于小型圆形工件内壁喷涂生产。