高温下煤焦的碳微晶及孔结构的演变行为

以贵州煤为原料,在热解温度950℃~1400℃制备了各种慢速和快速热解焦,主要对高温热解过程中煤焦的碳微晶和孔结构的演变行为进行了研究,同时也研究了高温气化过程中煤焦的孔结构变化规律。结果表明,慢速热解焦和快速热解焦的C和H含量明显不同;随热解温度的升高,煤焦的碳微晶结构向有序化方向发展,但慢速热解煤焦比快速热解煤焦的"石墨化"程度大;快速热解煤焦的微孔比表面积和微孔容积明显高于慢速热解煤焦,即快速热解煤焦的孔隙结构明显比慢速热解煤焦发达;在气化反应初期,煤焦的微孔比表面积下降,微中孔比表面积增加,反应后期煤焦的总比表面积快速下降。     

Fructose-selective calorimetric biosensor in flow injection analysis

A highly selective, interference free biosensor for the measurement of fructose in real syrup samples was developed. The assay is based on the phosphorylation of d(−)fructose to fructose-6-phosphate by hexokinase and subsequent conversion of fructose-6-phosphate to fructose-1,6-biphosphate by fructose-6-phosphate-kinase. The heat liberated in the second reaction is monitored using an enzyme thermistor. The major advantages of this biosensor are rapid and selective measurement of fructose without the need to eliminate glucose and inexpensive FIA-based, mediator-free calorimetric measurement suitable for regular fructose analysis. This method was optimised for parameters, such as pH, ionic strength, interference, operational stability and shelf life. Good and reproducible linearity (0.5-6.0 mM) with a detection limit of 0.12 mM was obtained. Fructose determination in commercial syrup samples and spiked samples confirmed the reliability of this set-up and technique. The biosensor gave reproducible results with good overall stability for continuous measurements over a period of three months besides a useful shelf life of six months. The method could be used for routine fructose monitoring in food samples.     

调控介孔硅分子筛的孔壁结构以提高吸附亚硝胺的效率

 针对高空速下捕获痕量毒物分子的环境净化要求, 尝试调控介孔材料孔壁结构以提高其吸附小分子环境污染物的效率. 通过调节合成体系的 pH 值、加入无机盐以及控制表面活性剂浓度等方法, 改变硅物种与模板剂胶束的组装速度或无机-有机液晶相的存在形态, 研制含有孔壁缺陷位的介孔分子筛新材料. 通过 X 射线衍射和低温氮气吸附研究了样品的结构特性, 并采用高分辨透射电镜和固体核磁技术证实了介孔材料孔壁缺陷位的形成. 以挥发性吡咯烷亚硝胺为靶标分子, 考察了所得材料的吸附性能. 结果表明, 大量缺陷空位的存在成倍地提高了介孔分子筛吸附挥发性亚硝胺的效率, 为设计研制环保新材料提供了新思路.     

近中性条件下含铜多级孔氧化硅的合成及在苯酚羟基化反应中的催化性能

 在近中性条件下, 以正硅酸甲酯和 Cu(APTES)42+ (APTES: (EtO)3Si(CH2)3NH2) 为前驱体, P123 为模板剂, KCl 为添加剂合成了不同孔结构的含铜介孔氧化硅材料. 扫描电镜和氮气吸附结果表明, 当 Cu(APTES)42+/TMOS 摩尔比较高时能得到具有多级孔结构的材料. 在以 H2O2 为氧化剂的苯酚羟基化反应中, 具有多级孔结构的含铜介孔氧化硅材料表现出比单一介孔材料高的催化性能.     

Surface modification of HMS material with silica sol leading to a remarkable enhanced catalytic performance of Cu/SiO2

Cu/SiO₂ catalysts with different bimodal pore structures adjusted by the ratio of HMS and silica sol were prepared via modified impregnation method. Structure evolutions of the catalyst were systematically characterized by N₂-physisorption, X-ray diffraction, H₂ temperature-programmed reduction, N₂O titration and X-ray photoelectron spectroscopy. The results show that the composite silica supported copper catalysts showed remarkably enhanced catalytic performance in the selective hydrogenation of dimethyl oxalate to ethylene glycol compared to the individual silica supported ones obtained by the same method. The dimethyl oxalate conversion and the ethylene glycol selectivity can reach 100% and 98% at 473 K with 2.5 MPa H₂ pressure and 1.5 h⁻¹ liquid hour space velocity of dimethyl oxalate over the optimized Cu/SiO₂ catalyst. The remarkably enhanced catalytic performance of Cu/SiO₂ catalysts might be attributed to the homogeneous dispersion and uniformity of the active copper species and to the larger copper surface areas attained on the HMS supports with large pore diameters and surface areas.     

PEMFC气体扩散层干燥过程孔隙网络模拟

本文采用三维孔隙网络模型从孔隙尺度上对质子交换膜燃料电池气体扩散层中水分蒸发的干燥过程进行了模拟,并考虑了阴极流道的影响.计算结果表明毛细力在气体扩散层的干燥过程中起主要作用,气相从阴极流道底部开始,以沿气体扩散层厚度方向侵入为先,直到到达气体扩散层底部,随后气相才向流道肩部水平延伸侵入.蒸发速率随气体扩散层中水饱和度...     

Model liquid crystalline dimers in a slit pore: Monte Carlo simulation study

ABSTRACT

In this work, we present results from (isobaric–isothermal) Monte Carlo Simulation studies of liquid crystalline dimer systems confined in a slit pore. Liquid crystalline dimer systems of various spacer numbers have been considered. Surface-induced conformational and alignment properties of these systems at different pressures under homeotropic anchoring condition have been investigated. We have used easily manageable coarse grained force fields to model both monomer–monomer and monomer–substrate interaction potentials. According to the simulated result, the anchoring of dimers to the surface and orientation of mesogenic units with respect to the surface normal seem to depend on the spacer number for messogen attractive confinement. Dimers with lower spacer number are able be adsorbed to the surface and most of their mesogens are oriented along the surface normal even at lower pressure. Those with larger spacer number are distributed throughout the volume at lower pressure. In the case of mesogen repulsive confinement, most of the dimers are adsorbed to the surface and most mesogens are randomly oriented at low pressure. As the pressure gets higher, the adsorption and orientability increase depending on the type of confinement and spacer number. As a result, clear submolecular partitioning and smectic A like structure have been identified.     

醋酸乙烯—二乙烯基苯共聚反应动力学

根据文献查得的Ｑ，ｅ值，计算了醋酸乙烯－二乙烯基二元共聚的竞聚率，预测其共聚的可能性。以甲苯为汽油为致孔剂，采用悬浮聚合方法合成该二元大孔共聚物。红外光谱分析跟踪共聚反应过程中乙酰氧基和苯环相对比例的变化，并测定共聚反应过程中比表面积，孔率和平均孔径的变化。     

孔隙压力作用下圆形巷道围岩的蠕变分析

在原有的岩土流变理论基础上,与渗流力学原理相结合,考虑孔隙压力及孔隙度在岩石蠕变过程中对于岩体变形的影响,在弹性解答的基础上,通过Laplace变换(对应性原理)得出解析解．在一定的假设条件下,利用弹性力学基本方程、蠕变方程及有效应力原理(Terzaghi有效应力方程),采用H-K体模型作为本构方程,将孔隙压力引入到围岩蠕变方程中．给出在孔隙压力作用下的蠕变曲线,并与不考虑孔隙压力和定孔隙压力条件下蠕变曲线相比,其更接近于实际．