Graphical effluent quality control for compliance monitoring: What is a violation?

Demonstration of compliance with discharge (effluent) requirements suffers because Discharge Monitoring Reports (DMRs) give neither the discharger nor the regulator information on the process mean which ensures compliance. To obtain this information, a simple graphical method is presented which takes into account process variability. This technique provides quality control specifications for the monitoring data and the process itself.     

Sampling of airborne polycyclic aromatic hydrocarbons with semipermeable membrane devices

Semipermeable membrane devices (SPMDs) are nowadays used as passive samplers of organic pollutants. The knowledge of the sampling rate values (R_S) of each substance trapped on membranes is necessary to calculate their average concentration. Here we calculate R_S values for 16 polycyclic aromatic hydrocarbons using the comparison of active sampling method results and the amounts sequestered by SPMDs at varying exposure times.Selected article from the Regional Symposium on Chemistry and Environment, Krusevac, Serbia, June 2003, organized by Dr. Branimir Jovancicevic.     

Carbon Molecular Sieving Membranes Derived from Lignin-Based Materials

Carbon molecular sieving membranes were prepared by pyrolysis of lignocresol derived from lignin by the phase-separation method. Lignocresol membranes formed by a dip process on a porous -alumina tubing were carbonized at 400–800°C under nitrogen atmosphere. The thickness of the membrane formed on the outer surface of the substrate was about 400 nm judging from SEM observation. Gas-evolving behavior of lignocresol was measured using thermogravimetry-mass spectrometry (TG-MS). The gaseous products evolved from lignocresol included a number of fragments with higher molecular weights; whereas those from phenolic resin are mainly due to phenol and methylphenol. These evolved pyrolysis fragments effectively contribute to micropore formation of carbonized lignocresol membranes. Gas permeation rates through the membrane decreased in the order of increasing kinetic molecular diameter of the penetrant gas, and the membrane behaved like a molecular sieve. The permeation properties were dependent on heating conditions, and a pyrolysis temperature of 600°C gave the best membrane performance. Gas selectivities of the membrane prepared at 600°C were 50, 8, 290, and 87 for CO₂/N₂, O₂/N₂, H₂/CH₄, and CO₂/CH₄ at 35°C, respectively.     

一体式膜-生物反应器的水动力学特性

以研究一体式膜 -生物反应器的水动力学特性为目的 ,通过试验测定了反应器中膜间液体错流流速的分布和大小 ,建立了描述错流流速的计算模型 ,并考察了曝气量和反应器结构对错流流速的影响 .曝气量为 40 m³/h时 ,膜组件中部的错流流速为0.36～ 0.4³m/s,比膜组件 2边的流速约大 6.2%～ 21%.错流流速实测值与模型计算值吻合良好 .曝气量为 20～50 m³/h时 ,错流流速随曝气量的升高而增大 ,当曝气量大于 50 m³/h后错流流速逐渐趋向平稳 ;反应器高度越高 ,上升流通道越窄、下降流道和底部流道越宽 ,在同样曝气量条件下 ,可获得越大的错流流速 .     

新型无机复合混凝剂的制备及脱色效果研究

了以铝厂赤泥为原料制备无机复合凝凝剂的工艺,以制备过程中酸溶尼所用的盐酸浓度、酸溶时间和聚合ＰＨ等进行了优化。直接耐酸大红溶液和分散黄溶液的脱色以试验结果表明,此种混凝剂的脱色效果优于聚合氯化铝和聚合硫酸铁。     

水消毒处理中膜技术的应用

本文较全面地评述了膜技术在水消毒处理中的应用 ,包括消毒机理、效果及影响因素 ,展望了应用前景     

电渗析技术的新进展

电渗析技术是膜分离技术之一 ,由于具有高效、低能耗等特点已经被多个行业广泛使用。本文阐述了几种新的电渗析技术 ,包括无隔板电渗析、填充床电渗析、双极膜电渗析等 ,并探讨和综述其研究现状和发展前景。     

在超滤草浆黑液过程中膜阻力的分布

采用截留分子量30000,20000,10000和6000的超滤膜,对草浆黑液进行了超滤过程中膜阻力分布的研究.通过测定不同条件下膜样品的通量,对聚乙二醇标准物的截留率,指出在超滤黑液过程中各部分阻力的比例和超滤膜的分离特性的变化.各种膜样品的热重分析结果表明,膜污染是由微量有机物引起的污染.     

水稻叶片质膜H~+-ATPase对酸雨胁迫的适应机制

采用水培法研究酸雨胁迫对水稻叶片质膜H+-ATPase活性的影响,结果表明,高强度酸雨(pH 2.5和pH 3.0组)胁迫下,pH 2.5组质膜H+-ATPase活性显著受抑,胞内pH降低,POD活性受抑,pH3.0组质膜H+-ATPase活性上升,胞内pH降低,POD活性升高,质膜透性和MDA含量均增加,Fv/Fm和叶鲜重降低;低强度酸雨(3.0相似文献   

复合生物滤池处理H2S和NH3的研究:生物相机理分析

采用天然斜发沸石和木屑作为复合生物滤池(生物滴滤池+生物过滤池)的填料,研究了该工艺处理含H₂S和NH₃混合恶臭气体的生物相机理.结果表明:生物滴滤池中形成了由细菌、藻类及原生动物组成的复杂生态系统,而生物过滤池中真菌为优势微生物.生物滴滤池的下层优势菌种主要为葡萄球菌属和球形芽孢杆菌等细菌,中层主要为梨形四膜虫属和肾形虫属,上层主要为钟虫和舟形藻属;生物过滤池优势菌种主要是聚多曲霉菌种.据对复合生物滤池的生物相机理探讨推论,生物滴滤池去除H₂S和NH₃机理主要是生物链的分级捕食和沸石的吸附-生物再生机理;生物过滤池去除H₂S和NH₃机理主要是真菌降解.因此,通过控制生物滴滤池和生物过滤池处于不同的环境条件,可使复合生物滤池能高效地同时处理H₂S和NH₃组成的混合恶臭气体.