水处理技术发展对电力工业水循环利用的经济性影响

讨论了一些为提高生产力和降低成本而发展起来的废水零排放或水回收循环利用前沿技术,并将这些技术的经济性与原有的水循环利用系统进行比较.     

松花江水中天然有机物的提取分离与特性表征

将反渗透与XAD大孔树脂吸附技术相结合,对松花江水中天然有机物(NOM)进行了浓缩和分离,并采用紫外光谱、红外光谱、液相凝胶色谱、官能团滴定1、HNMR核磁共振等分析手段,对松花江水中NOM及其各分离组分和一种商用腐殖酸CHA的特性进行了比较和表征.结果表明,利用反渗透进行NOM浓缩对水中有机物具有很高的回收率;松花江水中NOM组成为:富里酸>腐殖酸>亲水部分;各组分芳香性为:腐殖酸>憎水部分>富里酸>亲水部分,E₄/E₆与芳香性之间缺乏必然的联系;腐殖酸和商用腐殖酸具有较高的不饱和性,NOM和亲水部分次之,憎水部分和富里酸中饱和烃含量较多;紫外吸收较弱的有机成分对NOM分子量的贡献较大;NOM及其分离组分的总酸度为9.84～12.15meq/g,羧酸含量为CHA>亲水>憎水>NOM>富里酸>腐殖酸;NOM及其各分离组分的溶解性有机物构成以脂肪烃为主.     

制浆废水的回用中试研究

通过在一个百万吨级化学浆厂进行废水的中试试验,研究了回用预处理工艺和反渗透运行效果,探讨了反渗透浓水的处理方法,表明制浆废水膜法回用技术上可行。     

生活垃圾焚烧飞灰水洗液中氯离子的去除研究

开展了生活垃圾焚烧飞灰水洗液处理的实验研究,先通过加入氢氧化钙(Ca(OH)_2)、偏铝酸钠(NaAlO_2)初步去除水洗液中的Cl~-,再利用反渗透膜分离技术,探究了浓淡比、操作压力、pH、Cl~-浓度对Cl~-去除效果的影响.结果表明,化学沉淀法初步处理能去除水洗液中约50%的Cl~-,膜分离对经初步处理水洗液中Cl~-的去除率高达93.5%.经过两级处理后,飞灰水洗液中Cl~-的去除率高达96.74%,Cl~-的含量满足排放标准的要求.     

基于三维扫描的服装面积因子测评

为计算服装面积因子,引入先进的三维扫描技术,分别扫描裸体和着装下的人体,获取点云数据。本文创建应用逆向工程软件Rapidform2006修复重建人体模型的合理流程,分别用现有的像素替代方法和新引进的逆向工程软件方法计算服装面积因子。实践证明,使用逆向工程软件重建人体模型,直接获得面积数值与现有的像素替代法间没有显著性差异,但是能大幅度减少测评周期。     

确定滤袋室内喇叭安装个数和位置的新方法

初步建立 了滤袋 室内声压 分布 的数 学 模型 ，并 利用 实 测结 果对 此 数学 模型 进 行了 检验 ，证明所建 立的模 型是合理 的。可以 利用此模 型计算 滤袋室内 的声 压分 布，并 确定 喇叭 的安 装个 数和安装位 置     

正渗透膜分离技术及其在水处理中的应用与研究

渗透是一种仅依靠渗透压驱动的分离过程,基于渗透现象发展起来的正渗透膜分离技术,目前在国际上得到了广泛的研究。文章综述了正渗透膜分离过程的基本原理、影响因素以及国际上的应用研究现状,并展望了未来该领域的研究方向。     

Integration of biological method and membrane technology in treating palm oil mill e uent

Palm oil industry is the most important agro-industry in Malaysia, but its by-product–palm oil mill e uent (POME), posed a great threat to water environment. In the past decades, several treatment and disposal methods have been proposed and investigated to solve this problem. A two-stage pilot-scale plant was designed and constructed for POME treatment. Anaerobic digestion and aerobic biodegradation constituted the first biological stage, while ultrafiltration (UF) and reverse osmosis (RO) membrane units were combined as the second membrane separation stage. In the anaerobic expanded granular sludge bed (EGSB) reactor, about 43% organic matter in POME was converted into biogas, and COD reduction e ciency reached 93% and 22% in EGSB and the following aerobic reactor, respectively.With the treatment in the first biological stage, suspended solids and oil also decreased to a low degree. All these alleviated the membrane fouling and prolonged the membrane life. In the membrane process unit, almost all the suspended solids were captured by UF membranes, while RO membrane excluded most of the dissolved solids or inorganic salts from RO permeate. After the whole treatment processes, organic matter in POME expressed by BOD and COD was removed almost thoroughly. Suspended solids and color were not detectable in RO permeate any more, and mineral elements only existed in trace amount (except for K and Na). The high-quality e uent was crystal clear and could be used as the boiler feed water.     

Integration of biological method and membrane technology in treating palm oil mill effluent

Palm oil industry is the most important agro-industry in Malaysia, but its by-product-palm oil mill effluent (POME), posed a great threat to water environment. In the past decades, several treatment and disposal methods have been proposed and investigated to solve this problem. A two-stage pilot-scale plant was designed and constructed for POME treatment. Anaerobic digestion and aerobic biodegradation constituted the first biological stage, while ultrafiltration (UF) and reverse osmosis (RO) membrane units were combined as the second membrane separation stage. In the anaerobic expanded granular sludge bed (EGSB) reactor, about 43% organic matter in POME was converted into biogas, and COD reduction efficiency reached 93% and 22% in EGSB and the following aerobic reactor, respectively. With the treatment in the first biological stage, suspended solids and oil also decreased to a low degree. All these alleviated the membrane fouling and prolonged the membrane life. In the membrane process unit, almost all the suspended solids were captured by UF membranes, while RO membrane excluded most of the dissolved solids or inorganic salts from RO permeate. After the whole treatment processes, organic matter in POME expressed by BOD and COD was removed almost thoroughly. Suspended solids and color were not detectable in RO permeate any more, and mineral elements only existed in trace amount (except for K and Na). The high-quality effluent was crystal clear and could be used as the boiler feed water.     

关于钢铁企业全膜法制取脱盐水工艺原水选择的探讨

全膜法制水系统,即超滤加二级反渗透工艺,已广泛应用于钢铁企业脱盐水的制取。为实现节能减排,越来越多的钢铁企业追求将工业污水收集后处理制成脱盐水和回用水用于生产。从全厂水量平衡、水质平衡的角度,对分别采用工业新水和工业污水作为制取脱盐水原水的工艺进行了分析比较,论证了采用工业污水作为制取脱盐水的原水是否可以真正的实现节能减排,可作为实际工程的参考。