渗透蒸发技术在肼类燃料脱水中的应用研究进展

针对肼类燃料传统脱水方法效率低、安全性差等问题,分析了渗透蒸发(pervaporaion, PV)技术的原理,回顾了该技术应用于醇/水混合物脱水研究中适用的膜材料类型和性能.综述了该技术应用于肼类燃料脱水的研究进展.分析表明,该技术可克服传统肼类燃料脱水方法的不足.根据肼类燃料的特殊性质,膜材料可选用壳聚糖、陶瓷及沸石.提出可采用多级串联脱水以提高效率.肼类燃料渗透蒸发脱水的关键研究领域包括: 低浓度水溶液中回收肼类燃料; 高浓度肼类燃料脱水; 开发高性能膜材料等方面.     

分离用无机膜及其在食品中的应用

概述了无机膜的种类、特点,同时介绍了无机膜在食品分离中的研究应用情况及今后的发展前景。     

阵列波导光栅薄膜的制备及性能

以一种特定成分的有机硅为原料,采用溶胶-凝胶法,在硅基片上制备出用于光波导器件的薄膜.通过折射率和厚度测试及XPS成分测试验证了此薄膜具有较好的均匀性、厚度和光学特性,满足光波导器件的要求.分析了溶胶-凝胶法中常见的龟裂现象的原因以及采预防方法.利用这种薄膜结合微电子加工工艺制备出光波导器件阵列波导光栅.     

Antibody Therapies Targeting Complex Membrane Proteins

In analyses of protein families that may serve as drug targets, membrane-associated G-protein-coupled receptors (GPCRs) dominate, followed by ion channels, transporters, and—to a lesser extent—membrane-bound enzymes. However, various challenges put such membrane proteins among key groups of underutilized opportunities for the application of therapeutic antibodies. Antibodies hold the promise of exquisite specificity, as they are able to target even specific conformations of a particular membrane protein, as well as adaptability through engineering into various antibody formats. However, the ease of raising and isolating specific, effective antibodies targeting membrane proteins depends on many factors. In particular, the generation of specific antibodies is easier when targeting larger, simpler, extracellular domains with greater uniqueness of amino acid sequence. The rareness of such ideal conditions is illustrated by the limited number of approved biologics for targeting GPCRs and other complex membrane proteins. Challenges in developing antibodies to complex membrane proteins such as GPCRs, ion channels, transporters, and membrane-bound enzymes can be addressed by the design of the antigen, antibody-generation strategies, lead optimization technologies, and antibody modalities. A better understanding of the membrane proteins being targeted would facilitate mechanism-based drug discovery. This review describes the advantages and challenges of targeting complex membrane proteins with antibodies and discusses the preparation of membrane protein antigens and antibody generation, illustrated by select examples of success.     

胺化条件对季铵化PPEK膜性能的影响

以氯甲基化杂萘联苯聚醚酮(CMPPEK)为膜材料,通过溶液法制备了CMPPEK基膜,然后将其浸泡在三甲胺水溶液中进行季铵化反应得到季铵化杂萘联苯聚醚酮(QAPPEK)阴离子交换膜。比较了CMPPEK和QAPPEK的热失重性能,CMPPEK的5%热失重温度为330℃,QAPPEK的5%热失重温度为260℃,QAPPEK的5%热失重温度与CMPPEK的相比降低了70℃。考察了三甲胺浓度、胺化时间、胺化温度等反应条件对QAPPEK膜性能的影响。结果表明:三甲胺的质量分数为33%、胺化时间为12h、胺化温度为40℃时,得到的QAPPEK膜表现出了较优异的性能,其IEC值达1.64mmol/g,在2mol/LVOSO4+3mol/LH2SO4的混合溶液中测得的面电阻为0.73Ω·cm2,应用于全钒液流电池(VRB)中,电池的能量效率高达85.9%,电流效率为98.4%,电压效率为87.3%。     

基于P系统的粒子群优化算法

为了克服算法早熟收敛问题并提高算法精度, 引入了膜计算理论。将PSO算法与P系统相结合, 提出了一种基于P系统的粒子群优化算法 (P-PSO), 有效地平衡粒子群的全局搜索和局部寻优。采用常用的三个测试函数对新算法进行了实验, 结果表明, 提出的P-PSO算法有效地解决了算法早熟问题, 提高了算法的收敛精度。由此可见, P-PSO算法能够有效改进原有PSO算法的性能。     

Coatings against corrosion and microbial adhesion

A systematic study on anti‐corrosion and anti‐fouling effect of hydrophobic Langmuir–Blodgett and self‐assembled molecular layers deposited on metal surfaces, as well as anti‐microbial adhesion properties of coatings with biocide is presented. Both types of efficiencies produced by LB films are enhanced by Fe³⁺ ions built in the molecular film. The quaternary ammonium type biocide embedded into the cross‐linked gelatin decreased significantly the microbial adhesion, the biofilm formation.     

宝钢不锈钢冷轧厂光平整液废水处理系统

介绍了一套完全崭新的工艺用于热镀锌机组排放的光整液及碳钢连退机组排放的平整液废水处理系统。该工艺采用均质调节池—pH中和罐—溶气气浮—冷却塔—EGSB—MBR装置。该工艺流程很好地解决了钢铁行业冷轧厂的光平整液废水处理这一大难题。     

沸石膜渗透蒸发性能研究进展

渗透蒸发由于其对近沸物和恒沸混合物高效的分离性能而成为当今一个基本的分离操作单元。本文首先对渗透蒸发装置及分离性能表征简要总结,然后重点概述了对沸石膜的渗透蒸发应用和渗透蒸发过程影响因素,最后针对当前研究现状,展望了沸石膜在渗透蒸发方面的发展前景。     

钯钇合金膜分离器级联分离氢同位素理论计算

钯合金膜分离氢同位素具有分离能力强、氚滞留量小以及装置设计简单等优点,是一种很有发展潜力的氢同位素分离方法,但受膜及泵输系统等因素的制约,目前仍处于概念设计阶段。文中针对级联分离建立了考虑返混的近似模型。模型表明:各级的分流比和分离系数相同时,对含氚体积分数0.065%的氢同位素混合气体,在0.2分流比(体积比),分离系数为2.5时,经过3级富集和4级贫化就可以得到含氚体积分数1.5%的产品和含氚体积分数0.000 5%的贫料;相同分离系数下,分流比较大时分离系统的规模较小。