One-step Eco-friendly Fabrication of Antibacterial Polyester Via On-line Amination Reaction by Melt Coextrusion

The work is dedicated to develop a one-step eco-friendly method to prepare antibacterial polyethylene terephthalate(PET).We report a one-step eco-friendly method to manufacture antibacterial PET via on-line amination reaction by melt coextrusion.Beside evenly mixing of poly(hexamethylene guanidine)(PHMG)and PET in the melt coextrusion procedure,the amination reaction also occurred between PHMG and PET under high temperature(230-270℃).The antibacterial ability of composite PET showed obvious PHMG concentration dependence,and antibacterial activity reached more than 99%when PHMG content was 2.5 wt%.Moreover,LIVE/DEAD fluorescence test further confirmed that the composite PET could kill bacteria quickly and efiectively(within 30 min);while negligible cytotoxicity was observed to HSF and HUVEC cells.Onestep eco-friendly fabrication of composite antibacterial PET was accomplished by on-line melt coextrusion.The composite antibacterial PET has potential use in multiple fields to combat with pathogenic including textiles,packaging materials,decoration materials and biomedical devices,etc.

DETERMINATION OF ANTIMONY IN WATER SAMPLES BY FLOW-INJECTION HYDRIDE GENERATION ATOMIC ABSORPTION SPECTROMETRY WITH ON-LINE ION-EXCHANGE COLUMN PRECONCENTRATION

On-line ion-exchange separation and preconcentration were combined with flow-injection hydride generation atomic absorption spectrometry (HGAAS) to determine ultra-trace amounts of antimony in water samples. Antimony(Ⅲ) was preconcentrated on a micro-column packed with CPG-8Q chelating ion-exchanger using time-based sample loading and eluted by 4 mol l^(-1) HCl directly into the hydride generation AAS system. A detection limit (3σ) of 0.0015μg l^(-1) Sb(Ⅲ) was obtained on the basis of a 20 fold enrichment and with a sampling frequency of 60h^(-1). The precision was 1.0% r.s.d.(n=11) at the 0.5μg l^(-1) Sb(Ⅲ) level. Recoveries for the analysis of antimony in tap water, snow water and sea water samples were in the range 97-102%.

Coupling of on-Line Pre-Column Oxidative Cleavage and Solid-Phase Enrichment with Liquid Chromatography Using an Eco-Friendly Analytical Procedure to Determine Low Levels of Methotrexate

A simple, sensitive and precise green high-performance liquid chromatographic method including on-line pre-column oxidation combined by column switching with a short Hypersil ODS analytical column (100 mm × 4.0 mm i.d.) for enrichment and separation was developed and validated to determine low levels of methotrexate (MTX). The method was based on oxidative cleavage of MTX into highly fluorescence products, 2,4-diaminopteridine-6-carboxaldehyde and the corresponding 2,4-diaminopteridine-6-carboxylic acid, during the flow of phosphate buffer (0.04 M, pH 3.4) containing the analyte through the packed reactor of cerium (IV) trihydroxyhydroperoxide (CTH) at a flow-rate of 0.2 mL/min and 40℃. The fluorescent products were enriched on the head of ODS analytical column for the final separation. The separation was performed at room temperature using an environmentally friendly mobile phase consisting of ethanol and phosphate buffer (0.04 M, pH 3.4) in the ratio of 10:90 (v/v). The eluent was monitored at emission and excitation wavelengths of 463 and 367 nm, respectively. The method was successfully applied, without any interference from the excipients, for the determination of drug in tablets and vials with a detection limit of 0.06 ng/mL from 500 ?L of sample MTX.

On-line enrichment and determination of polycyclic aromatic hydrocarbons in atmospheric particulates using high performance liquid chromatography with fluorescence as detector

Seven polycyclic aromatic hydrocarbons （PAHs） in atmospheric particulates were determinated by high performance liquid chromatography （HPLC） with fluorescence detector using direction injection and an on-line enrichment trap column. The method simplified the sample pretreatment, saved time and increased the efficiency. With the on-line trap column, PAHs were separated availably even underground injecting 1.0 ml sample with relatively high column efficiency. The recoveries of the seven PAHs were from 85% to 120% for spiked atmospheric particulate sample. The limit of detection was 15.3-39.6 ng/L （S/N=3.3）. There were good linear correlations between the peak areas and concentrations of the seven kinds of PAHs in the range of 1-50 ng/ml with the correlation coefficients over 0.9970. Furthermore, it also indicated that the method is available to determine PAHs in atmospheric particulates well.

桥梁横向抗倾覆概念设计

相关技术规范对桥梁横向稳定明确了支座脱压和抗倾覆稳定系数的计算方法,但对失效支座反力的计算存在疑问,两者的工况是不同的。支座脱压计算属于正常使用范畴,应考虑所有可能出现的作用;抗倾覆稳定系数计算支座已脱空,间接作用在失效支座不产生反力,且其产生的反力是平衡力系,对桥梁不起倾覆和稳定的作用,因此不计间接作用。关于稳定和失稳力矩的计算公式,隐含倾覆轴,有效支座连线与倾覆侧桥边缘线形成的区域是抗倾覆概念设计的关键,可定性判断倾覆最不利车道和最不利支座。对于独柱墩桥梁抗倾覆的加固,主要有新增支座、改支座支承为墩梁固结、左右幅箱梁连接、增设横向限位和抗拉拔装置方案等,其中新增支座是最常用、最有效的方案。

An Axial Dispersion Model for Evaporating Bubble Column Reactor

Evaporating bubble column reactor (EBCR) is a kind of aerated reactor in which the reaction heat is removed by the evaporation of volatile reaction mixture. In this paper, a mathematical model that accounts for the gas-liquid exothermic reaction and axial dispersions of both gas and liquid phase is employed to study the performance of EBCR for the process of p-xylene(PX) oxidation. The computational results show that there are remarkable concentration and temperature gradients in EBCR for high ratio of height to diameter (H/DT). The temperature is lower at the bottom of column and higher at the top, due to rapid evaporation induced by the feed gas near the bottom. The concentration profiles in the gas phase are more nonuniform than those (except PX) in the liquid phase, which causes more solvent burning consumption at high H/DT ratio. For p-xylene oxidation, theo ptimal H/DT is around 5.

第十届中国花卉博览会世纪馆变截面铸钢柱脚的设计与研究

为满足建筑效果与受力性能需要,第十届中国花卉博览会世纪馆采用变截面铸钢柱脚。结合铸钢件的受力特点初步设计铸钢件的截面尺寸,并采用有限元软件ABAQUS,基于不同截面、轴力及柱高的有限元模型,对柱的抗侧刚度进行参数化分析。结果表明:柱脚在设计荷载下满足承载力要求;柱的轴力通过压力和剪力传递至铸钢颈部,按悬臂板计算顶部托盘的厚度过大;柱脚底板下的压应力并非均匀分布,局压面积取底板面积将高估局压承载力,采用均布反力假定确定的柱脚底板厚度过于保守;钢柱的抗侧刚度介于铰接与刚接之间;变截面简化模型的抗侧刚度与有限元结果吻合,在整体模型中钢柱采用该简化模型可较好地反映柱脚节点的连接形式。

湿空气环境下镁金属药柱释氢性能模拟研究

为了研究湿空气环境下的镁金属药柱的释氢性能,利用matlab软件建立了气固反应缩芯模型,研究了产物层扩散控制过程中,不同温度和湿度条件下的镁金属药柱水反应释放氢气的规律并通过实验进行验证。模拟结果表明:初始温度为50℃时,湿度越大,反应初期的反应速率越大,氢气浓度趋于稳定的时间越短,最终氢气浓度相差不大,约为2000 mg·L^(-1);当初始温度为60℃时,反应速率和氢气浓度明显变大,氢气浓度约为2400 mg·L^(-1);初始湿度为30%时,温度越高,反应初期的反应速率越大,氢气浓度趋于稳定的时间越短,反应程度也越大,氢气浓度由1500 mg·L^(-1)增加到2400 mg·L^(-1),与初始湿度为60%相比,反应速率和氢气浓度有所升高但相差不大。由此可得,升高温度对镁金属药柱释氢的影响更为明显。通过实验验证,实验的结果与模拟的结果基本一致。

生物质炭负载材料激活过硫酸盐降解水中2,4-二氯酚试验研究

设计可渗透反应柱模型,制备生物质炭负载硫化纳米零价铁(BC@S-nZVI)材料激活过硫酸盐(PS),研究污染物初始浓度、流速等因素对降解效果的影响,监测降解过程中相关参数变化分析其对水环境的影响。结果表明,过硫酸钠和污染物的质量比100可作为降解有机物的最佳质量配比,在一定范围内增加有机物浓度,减小流速和增加材料填充量,能提高污染物去除率。在材料使用期间,水环境中铁离子、氯离子、硫酸根离子经历先增加后减小的过程,当修复的水体为地下水时,修复完成后可以达到III类地下水质量标准。

在线反应柱——流动注射分光光度法快速测定水中硫化物的含量

建立了一种在线反应柱——流动注射分光光度法测定水中硫化物含量的方法,该方法引入在线柱,在线柱的填料是能够饱和吸附Fe^(3+)的马来酸酐-丙烯酰胺共聚物颗粒。实验考察了在线柱的长度、反应时间、溶液流速、共存物质的影响,确定了实验最佳条件。结果表明,硫化物浓度在0~10 mg/L范围内与吸光度值呈现良好的线性关系,检出限为0.032 mg/L,相对标准偏差RSD为0.75%。

PMP柱前衍生化反应结合多元化学计量法和一测多评法的羊栖菜质量研究

目的:建立区分羊栖菜饮片和配方颗粒的HPLC指纹图谱及一测多评方法,筛选关键差异标志化合物,为提升羊栖菜的质量控制标准提供参考。方法:依据糖类化合物的PMP柱前衍生化反应原理,利用HPLC测定羊栖菜饮片和配方颗粒的指纹图谱;采用系统聚类分析(HCA)、主成分分析(PCA)和正交偏最小二乘判别分析(OPLS-DA)法筛选差异标志成分;以岩藻糖为参照物,建立一测多评法测定羊栖菜饮片和配方颗粒的主要单糖含量。结果:建立的指纹图谱及一测多评方法能有效区分羊栖菜饮片和配方颗粒,以岩藻糖、D-半乳糖、D-葡萄糖以及2个未知化合物(5、10号峰)为差异标志化合物。但配方颗粒中仅D-甘露糖和岩藻糖含量与饮片相比有显著性差异。结论:该研究建立的羊栖菜饮片、配方颗粒指纹图谱和4个单糖成分含量测定方法稳定可靠,可用于羊栖菜饮片和配方颗粒的质量控制。

基于DMP氧化和HWE反应的半乳糖修饰

为更好地将前沿新知识、新理论、新技术和新方法应用于高年级本科综合实验教学环节,设计了基于Dess-Martin(DMP)氧化和Horner-Wadsworth-Emmons(HWE)反应的双丙酮半乳糖的修饰实验。通过调研醇的氧化和醛的烯基化的方法设计实践方案,通过过氧硫酸氢钾复合盐(oxone)氧化邻碘苯甲酸制备2-碘酰基苯甲酸(IBX),在乙酸和乙酸酐作用下将其转化为DMP,再利用DMP实现双丙酮半乳糖的氧化,最后通过HWE反应实现可差向异构醛的烯基化。运用多种显色方法的薄层色谱分析(TLC)技术对反应进程进行监测,利用Schlenk技术实现无水无氧操作,通过柱层析技术分离纯化目标产物,化合物的结构和纯度通过红外光谱、核磁共振波谱和高分辨率质谱得到了表征。DMP氧化具有条件温和、操作简单、产率和选择性高以及低毒性等优点。设计方案的实践内容比较丰富,具有较强的设计性和综合性,有利于实现学生知识、能力和素质的有机融合,培养学生解决复杂问题的综合能力和高级思维。

蒸馏塔高含氨NH_(3)废液用作降低卤水Na_(2) SO_(4)含量的研究与应用

通过技术手段,加强管控氨碱法生产纯碱过程中产生的蒸馏塔高含氨NH_(3)、氯化钠NaCl、氯化钙CaCl_(2)废液,并建立2000 m^(3)环保应急桶,作为储存作用;同时,将蒸馏塔高含氨NH_(3)废液与纯碱原料卤水(氯化钠水溶液)的硫酸根SO_(4)(2-)反应,实现降低卤水硫酸根含量,获得低硫酸根盐卤;另外,将废液中氨、氯化钠和氯化钙的分离,使得氨NH_(3)、氯化钠NaCl回收利用,可作为纯碱生产原料,实现有价值的综合利用,不仅提升纯碱工业的绿色化,还会给企业带来可观的经济效益,是一条优先发展可持续的道路。

反力架作用下梁柱式支架砂箱预压施工技术

结合工程实例,介绍了反力架作用下砂箱预压的原理和技术要点。在高架桥梁施工过程中梁柱式支架是桥梁施工主导,为保证支架拆除方便常采用砂箱作为卸落装置。砂箱不均匀沉降导致桥梁标高出现偏差,因此对砂箱采用提前预压的方式消除非弹性形变。应用此施工技术表明,反力架对砂箱具有超前预压作用,从而解决了砂箱不均匀沉降导致的梁体变形等问题。

独柱墩桥梁抗倾覆分析与加固研究

为减小因车辆偏载、温度作用等可变作用对独柱墩桥梁产生的倾覆破坏,在总结先前学者和专家对独柱墩桥梁抗倾覆分析及加固研究的基础上,以支座反力法和稳定系数法为理论依据,采用Midas/Civil有限元软件对加固后的独柱墩现浇连续箱梁桥进行倾覆稳定性分析。结果表明:两种加固方法都可以提高桥梁的横向抗倾覆性能,采用增设盖梁和支座与采用增设抗拔约束装置加固方法相比,独柱墩支座受压承载力明显减小,稳定系数大幅度提高,独柱墩被加固后的3支座体系可改善桥梁结构受力状态,增设盖梁和支座加固法对独柱墩桥梁抗倾覆安全性优于增设抗拔约束装置加固法。

活性污泥法石化工业废水处理动力学研究

利用活性污泥对石化工业废水进行降解研究 ,发现其降解过程反应遵循一级宏观反应动力学关系。计算了在各种操作条件下的反应速率K。通过比较反应速率K的大小 ,得知塔式曝气的效率远远高于传统的曝气池 。

反渗透海水淡化水后处理技术

采用溶解白云石法对反渗透海水淡化水进行矿化,研究了温度、pH、白云石粒径、固液接触时间等因素对矿化反应的影响,选择合适的碱对出水pH、总碱度和碳酸钙沉淀势进行调节。结果表明,反应塔出水钙镁离子含量随温度和接触时间的增大而增大,随pH、白云石粒径的增大而减小。在优化的条件下,产水钙镁离子含量为分别为82.75mg/L(以CaCO3计)和19.25mg/L,pH为7.80,碱度为95.28mg/L(以CaCO3计),碳酸钙沉淀势为1.22mg/L(以CaCO3计)。产水水质稳定,不具有腐蚀性。

鼓泡塔中甲烷水合物生成现象的观测

观测了在透明鼓泡塔中运动气泡表面水合物的生成和带有水合物壳层的气泡在上升过程中表面颜色和大小的变化。结果表明,反应液体在循环和不循环的情况下,水合物在鼓泡塔内生成、存在的位置不同。通过对实验现象的观测、对气泡与水合物颗粒相互作用的分析和对甲烷溶解度与水合物中甲烷分率的对比,得出气泡表面水合物的生成是一种界面反应现象的结论,为水合物生成动力学模型的建立和水合物分离技术的工业化提供了参考依据。

不锈钢/Al固液轧制复合板材界面的精细结构

应用场发射透射电子显微镜研究了不锈钢／Ａｌ固液轧制复合板材界面的精细结构．结果表明，在钢－Ａｌ之间存在主要由两种金属间化合物组成的界面反应层。靠近钢处由一层细小的（Ｆｅ，Ｃｒ，Ｎｉ）２Ａｌ５纳米晶组成，靠近Ａｌ处由纳米级的（Ｆｅ，Ｃｒ，Ｎｉ）４Ａｌ(１３)柱状晶组成。反应层附近的Ａｌ中有各种形态的（Ｆｅ，Ｃｒ，Ｎｉ）４Ａｌ(１３)相析出，并对界面结构的形成进行了初步的分析。