A Modified LBM Model for Simulating Gas Seepage in Fissured Coal Considering Klinkenberg Effects and Adsorbability-Desorbability

A modified Lattice-Boltzmann method is proposed by considering the Klinkenberg effect and adsorbability-desorbability for the purpose of simulating methane gas seepage in fissured coal. The results show that the Klinkenberg effect has a little influence on methane gas seepage in fissured coal, so it can be neglected in engineering computations for simplicity. If both the Klinkenberg effect and the adsorbability-desorbability are considered, the Klinkenberg influence on gas pressure decreases as the Darcy coefficient increases. It is found by gas drainage simulations that near a drainage hole, the effect of adsorption and desorption cannot be neglected, and the location of the drainage hole has a great influence on drainage efficient λ when the hole is just located at the mid-zone of the coal seam, λ is 0.691808; when the hole is excursion down to 1.0m from the mid-zone of coal seam, λ decreases to 0.668631; when the hole is excursion up or down to 2.0m from the mid-zone of coal seam, λ decreases to 0.632917. The simulations supply an effective approach for optimizing the gas drainage hole location.     

Efficient fluorescence from perylene orange encapsulated in AlPO_4 mesoporous glass

<正>AlPO_4 mesoporous glass doped with perylene orange(PO) is prepared using two steps.The effects of dipping time and PO concentration on the fluorescent properties and molecular formation are investigated through absorption spectra,excitation spectra,and emission spectra.A slight increase in the intensity of excitation bands formed at 499 and 468 nm is ascribed to PO J-dimers aggregates as the dipping time increased from 2 to 24 h at high PO concentration(4×10~(-3) mol/L).This is also the reason behind the concentration increase from 4×10~(-6) to 4×10~(-3) mol/L for the 16 h dipping.The excitation spectra,and the emission spectra of samples doped with PO show a slight red shift as the dipping time and the PO concentration increase.AlPO_4 mesoporous glass is suitable to host the PO at high concentration.     

N,N′—二(芳磺酰)磺酰亚胺—S—(2—苯并咪唑)钠、银盐的合成及应用

芳磺酰氯胺钠是一类化学活性很强的物质,由它们参予的许多反应已引起化学工作者浓厚的兴趣。Boberg,Koide和Bruchmann等在这方面做了很多工作。Bruchmann用2—巯基吡啶酮与二分子芳磺酰氯胺钠(氯胺T,氯胺Cl,氯胺N,氯胺B和氯胺M)合成了相应的N,N′—二(芳磺酰)磺酰亚胺—S—(2—吡啶)钠盐化合物。众所周知2—巯基苯并咪     

乙烯基官能化MSU-X的合成

分别在非离子表面活性剂（AEO9或Tx-15）的存在下,采用共水解缩聚一步合成了乙烯基官能化MSU-X型中孔分子筛（V-MSU-1, V-MSU-2）,并对其合成过程,材料的结构和表面性质进行了比较研究. 乙烯基官能化后, 乙烯基团以共价键的方式与SiO2骨架相连并均匀分布于孔道表面, 改善了分子筛孔道的疏水性能.不同的模板剂及前驱体中有机官能基的含量对V-MSU-X孔道特征、表面和织构性能有一定的影响.     

高效液相色谱快速分离生物大分子的大孔硅质固定相的研制及应用

介绍了不同孔径的大孔硅胶基质的制备、二醇固定相的合成及其对蛋白质的色谱分离；考察了焙烧温度对硅胶孔隙度的影响；探讨了流动相中盐浓度和ｐＨ对蛋白质保留时间、柱效、分离度的影响以及硅胶孔径对键合密度和分离性能的影响。该种大孔固定相相对于常规多孔固定相具有小的比表面积、柱容量低、从而有利于生物大分子的微量分离分析。     

“Noodle-like” Mesoporous Silica Templated by Polyelectrolyte／Surfactant Complex

“Noodle-like” mesoporous silica with a diameter of about 180 nm and a length of ca. 10μm was prepared through sol-gel process by using poly(sodium 4-styrenesulfonate) (PSS)/cetyltrimethylammonium bromide (CTAB) complex as template. Parallel oriented regular mesopores with a diameter of around 2-4 nm are distributed along the wall of the particles, while the “worm-like” disordered mesopores can be found in the fringe part. This approach provides a new series of templates and a novel route to prepare inorganic mesoporous materials with special morphology.     

以EDTANa2为矿化剂近中性条件下室温合成介孔二氧化硅

利用EDTANa2作为矿化剂, 在近中性条件下于室温合成了厚壁(约3 nm)蠕虫介孔分子筛. 在反应物配比为n(CTAB):n(TEOS):n(EDTANa2):n(H2O)=(0.05~0.2):(0.1~2):(0.1~0.5):(100~500)范围内都能得到介孔二氧化硅. 以XRD、N2吸附、FTIR、SEM和TEM详细考察了体系配比和温度对介孔二氧化硅结构和形貌的影响, 发现CTAB用量越大, 介孔d值相应增大. 温度对介孔二氧化硅的结构和形貌有很大的影响, 温度在2~15 ℃范围内都能生成孔径分布较规则的介孔, 介孔材料的形貌随温度的升高由空心管变成小颗粒聚集体; 合成的介孔分子筛中的模板剂可以通过乙醇萃取的方式除去. 提出了介孔的生成遵从(S+-E-)0-I0中性模板机理.     

倍频波长分离膜半波孔的消除

指出了膜料色散、膜层折射率非均匀性以及膜厚控制误差积累等是导致半波孔产生的几个因素,其中膜层厚度周期性误差积累和敏感层厚度误差是导致半波孔的主要因素,还指出了半波孔的大小与膜系结构有关.借助计算机做了相应的数值计算,并从理论上进行了深入分析.针对这些因素采取相应的措施,设计和制备了倍频波长分离膜,有效地消除了半波孔.并给出了理论和实验光谱曲线,二者有很好的一致性.     

不同形状孔阵屏蔽效应的分析

 屏蔽效应的研究对于防御电磁干扰，保证电子系统的正常工作是非常重要的。计算了屏蔽腔上开有不同形状的孔阵时对屏蔽效应的影响，分析比较了各种不同孔间距对屏蔽效应的影响。计算结果表明，圆形孔阵的穿透系数最小，方形孔阵次之，蜂巢形孔阵较大，但频谱分布基本一致。而对于哑铃形孔阵，由于孔面形状差异较大，孔面处磁流分布变化也较大，不仅穿透系数比前三者都大，而且高频时穿透系数的频率分布也发生较大改变。另外，随着孔阵中孔间距变大，孔之间的互耦减弱，耦合进屏蔽腔内的场强也变小。     

单体对聚乙烯醇乳化行为的影响及大孔材料的制备

以聚乙烯醇-1788(PVA-1788)为表面活性剂,研究了3种甲基丙烯酸酯系列水溶性单体对水包二氧化碳(C/W)型高内相乳液(HIPE)的形成及稳定性的影响,然后采用HIPE模板法制备了两种大孔材料.结果表明,甲基丙烯酰氧乙基三甲基氯化铵的存在对C/W型HIPE的形成及稳定影响较小,所得乳液最高能稳定48 h;而甲基...