集成污水水质在线监测装置的研制

介绍基于流动注射分析法的集成污水水质监测仪的研制，该装置可自动检测水中的COD、NH3-N和pH值。     

烯唑醇含量分析方法的研究

烯唑醇含量分析试样用甲醇溶解 ,以邻苯二甲酸二乙酯为内标物 ,在ODS柱和紫外检测器上对试样中的烯唑醇进行高压液相色谱分离和测定。该方法定量准确 ,精密度较好 ,对烯唑醇原药同一样品进行十次重复测定 ,方法标准偏差为 0 .37,变异系数为 0 .38% ,回收率为 98.9%～ 10 0 .6 %。     

ACES尿素装置高压设备腐蚀情况研究

介绍ACES尿素工艺的特点及其设备选材,重点阐述了渭化ACES装置高压设备腐蚀和失效的基本规律,分析了腐蚀产生的原因,从结构设计、钢材选用、设计加工、运行维护和设备管理等方面提出了防范措施。     

聚乳酸的改性及应用进展

综述了近几年聚乳酸生物降解材料的改性进展。改性方法分为化学改性和物理改性。化学改性包括共聚、交联、表面修饰等，主要是通过改变聚合物大分子或表面结构改善其脆性、疏水性及降解速率等；物理改性主要是通过共混、增塑及纤维复合等方法实现对聚乳酸的改进。     

基于k-最近邻筛选的BMA集合预报模型研究

针对冗余训练样本会降低BMA参数求解效率与精度问题,本文提出在BMA运算之前采用k-最近邻(k-nearest neighbor)算法筛选有价值训练样本,并用于BMA参数求解的改进模型。模拟试验在淮河王家坝站进行,分别以k-最近邻筛选、不筛选两种方案为BMA提供训练样本,统计分析两种方案中王家坝站流量模拟结果,评价BMA改进法的性能。模拟结果显示,采用k-最近邻样本筛选方法后,BMA模型对洪水过程以及洪峰的预报精度提升明显;概率预报结果的离散程度降低的同时,可靠性程度获得提升。k-最近邻样本筛选方法的引入,能够有效去除BMA模型训练样本中的冗余数据,以少量的样本获得更可靠的模型参数,改善集合预报性能。     

杆塔垂直接地装置冲击特性的频域分析方法

杆塔接地装置对输电线路的的安全稳定运行起着至关重要的作用,其冲击特性是考量杆塔防雷效果的重要参数。笔者基于矩量法和电路理论,以接地体的漏电流为未知量,建立接地网数值计算模型对杆塔接地装置的冲击特性进行频域分析。通过CDEGS软件计算结果进行对比,验证算法的有效性;着重计算杆塔垂直接地装置的冲击阻抗,分析垂直接地极长度对接地装置冲击特性的影响。     

Preparation and properties of heterocyclically conjugated poly(3‐hexylthiophene)–clay nanocomposite materials

A series of heterocyclically conjugated polymer–clay nanocomposite (PCN) materials that consisted of organic poly(3‐hexylthiophene) (P3HT) and inorganic montmorillonite (MMT) clay platelets were prepared by in situ oxidative polymerization with FeCl₃ as an oxidant. The as‐synthesized PCN materials were characterized by Fourier transform infrared (FTIR) spectroscopy, wide‐angle powder X‐ray diffraction (WAXRD), and transmission electron microscopy (TEM). The effects of the material composition on the anticorrosion, gas barrier, thermal stability, flammability, mechanical strength, and electrical conductivity properties of the P3HT and PCN materials were studied by electrochemical corrosion measurements, gas‐permeability analysis (GPA), thermogrametric analysis (TGA), limiting oxygen index (LOI) measurements, dynamic mechanical analysis (DMA), and a four‐point probe technique, respectively. The molecular weights of extracted and bulk P3HT were determined by gel permeation chromatography (GPC) with THF as an eluant. © 2004 Wiley Periodicals, Inc. J Appl Polym Sci 91: 3438–3446, 2004     

自并励励磁系统优化改造探讨

乐滩水电厂励磁系统设备运行近十年,设备出现老化,存在安全隐患,对1、2号机励磁系统的优化改造(包括硬件设计和软件设计),完善了控制逻辑,解决了励磁原回路设计缺陷、非专用直流灭磁开关、氧化锌电阻等系统故障率高多项重大安全隐患问题。完成改造后,进行了励磁系统静态试验、动态特性试验、PSS试验、进相试验等,试验技术指标结果均符合国标、部标、行标的要求,开、停机逻辑符合乐滩水电厂需求,联锁条件及判据满足安全要求,达到了改造的预期目的。1、2号机组励磁系统改造运行到今,设备稳定,励磁系统缺陷及故障率为零,效果良好。     

靶向壳聚糖基因载体与水溶性量子点的自组装

将透明质酸(HA)接枝到四种不同分子量的壳聚糖(CS)上,获得了靶向壳聚糖基因载体。将CS及接枝CS分别与水溶性量子点(QDs)自组装,研究发现,相对于纯QDs,CS/QDs复合物及接枝CS/QDs复合物的荧光强度均明显增强,荧光发射峰位发生红移。复合物呈核/壳结构,QDs被包裹在核内。和CS/QDs复合物相比,接枝CS/QDs复合物的尺寸更小,分布更为均一。     

Mechanistic investigation of hydrogen-enhanced anodic dissolution of X-70 pipe steel and its implication on near-neutral pH SCC of pipelines

The effects of hydrogen-charging on anodic dissolution of pipe steel under near-neutral pH condition were studied by electrochemical techniques. Hydrogen-charging enhances the anodic dissolution rate of the steel. The hydrogen-enhanced dissolution increases with increasing charging current density. The hydrogen effect is attributed to the alteration of chemical potential and exchange current density of steel. Hydrogen-charging affects the corrosion process of the steel. In particular, at a high charging current density, a layer of corrosion product forms on the electrode surface to change corrosion potential and interfacial double-charge layer capacitance as well as charge-transfer resistance. The hydrogen effect factor for enhanced anodic dissolution of steel at an anodic potential of −0.4 V (SCE) is 1.53 only. Hydrogen-enhanced anodic dissolution of steel by itself may not be the major factor contributing to the high rate of crack growth in pipe steel in near-neutral pH electrolyte. A further investigation of the synergistic effect of hydrogen and stress on dissolution at the crack-tip is essential to determine the mechanism of near-neutral pH stress corrosion cracking of pipelines.