Effects of ozonation and coagulation on effluent organic matter characteristics and ultrafiltration membrane fouling

Effluent organic matter （EfOM） is the major cause of fouling in the low pressure membranes process for wastewater reuse. Coagulation and oxidation of biological wastewater treatment effluent have been applied for the fouling control of microfiltration membranes. However, the change in EfOM structure by pre-treatments has not been clearly identified. The changes of EfOM characteristics induced by coagulation and ozonation were investigated through size exclusion chromatography, UV/Vis spectrophotometry, fluorescence spectrophotometry and titrimetric analysis to identify the mechanisms in the reduction of ultrafiltration （UF） membrane fouling. The results indicated that reduction of flux decline by coagulation was due to modified characteristics of dissolved organic carbon （DOC） content. Total concentration of DOC was not reduced by ozonation. However, the mass fraction of the molecules with molecular weight larger than 5 kDa, fluorescence intensity, aromaticity, highly condensed chromophores, average molecular weight and soluble microbial byproducts decreased greatly after ozonation. These results indicated that EfOM was partially oxidized by ozonation to low molecular weight, highly charged compounds with abundant electron- withdrawing functional groups, which are favourable for alleviating UF membrane flux decline.     

电厂二氧化碳捕集分离技术研究综述

电厂二氧化碳捕集与封存是二氧化碳减排措施研究热点,也是全球二氧化碳减排的重要任务之一,可分为物理吸附/吸收、化学吸收、物理-化学吸收、膜技术及生物技术等。其中物理吸附/吸收、化学吸收为电厂二氧化碳捕集主流技术。开发具有高选择性、高效率吸收剂及捕集技术,提高能源利用效率,合理布置尾部烟气脱碳处理设施是电厂二氧化碳捕集技术面临的挑战。     

生物加强超滤深度处理城市中水过程膜污染与清洗效果分析

金桥电厂采用生物加强超滤工艺对城市二级排放水进行深度处理,清水用于锅炉循环冷却水补给水。在连续半年的运行期间没有产生严重膜污染情况,通过反洗、在线反洗、鼓风曝气和适当操作条件能很好的防治并预防膜污染,保证系统的稳定运行。     

低温SMBR系统中高粘性膨胀的发生与控制

利用一体式膜生物反应器(SMBR),研究了低温时的高粘性膨胀现象。结果表明:当温度为8℃,SRT为60d时发生了严重的高粘性膨胀。膨胀期间,SMBR对COD的去除并无太大影响,但NH3-N和TN的去除率降低。高粘性膨胀使膜污染速率大大增加,降低了膜清洗周期。通过调整进水配方、增加排泥次数、加大曝气量等方法控制了膨胀现象。     

Relationship between sludge settleability and membrane fouling in a membrane bioreactor

The evolution of activated sludge settleability and its relationship to membrane fouling in a submerged membrane bioreactor were studied at a lab-scale equipment fed with synthetic wastewater. It was found that sludge volume index (SVI) gradually increased and the sludge settleability was reduced, which was caused by the propagation of filamentous bacteria. With increasing SVI, the average increasing rate of trans-membrane pressure increased, the stable filtration period was shortened, and the two stages (smooth stage and accelerating stage) of the trans-membrane pressure were more obvious. At the same time, the increasing rate of trans-membrane pressure at the smooth stage decreased and the rate at the accelerating stage increased with SVI, respectively. The observation by using scanning electronic microscopes showed the cake layer with loose structure and large thickness formed on the membrane surface due to the appearance of filamentous bacteria and high SVI in sludge. Influence of the sludge settleability on the trans-membrane pressure was related to the structure and thickness of the cake layer on the membrane. Translated from ACTA Scientiae Circumstantiae, 2005, 25(3): 396–400 [译自: 环境科学学报]     

浸没式膜-生物反应器膜污染物中胞外聚合物的提取与分析

研究了胞外聚合物对膜生物反应器中膜污染物的贡献和影响,通过对膜表面的EDX分析,发现膜污染物以有机污染物为主;采用碱液离心提取法提取反应器污泥和膜污染物中的EPS,发现二者的EPS主要由相对分子量在12000以上的大分子物质组成,而且这些大分子物质基本上都是难降解的;以TOC表征EPS总量,并对其中多糖、蛋白质、DNA等组分进行测定,发现膜污染物中的EPS浓度是反应器污泥中的4倍左右,多糖类物质是首要的膜污染物,蛋白质对膜污染也起着重要的作用;反应器内DNA含量要高于膜污染物中,可证实DNA不是主要的膜污染物;通过电泳分析发现,二者大片段区间内的DNA的分子量几乎相同.     

DO对水解酸化池与好氧MBR组合工艺运行效果的影响研究

针对溶解氧（DO）、气水比对水解酸化池与好氧MBR组合工艺处理污水效果的影响和能耗问题．从气水比对DO的影响,DO对COD与色度去除效果的影响等方面来讨论气水比,溶解氧以及污水处理效果之间的最佳运行点。试验结果表明。在P（MLSS）分别为5．81、4．25、2．19g／L的运行条件下,MBR的最佳气水比为39：1、28．1.18：1;DO变化速率随污泥浓度的下降而升高;DO的变化对COD、色度的去除效果影响并不显著。     

SMBR法处理印染废水的膜污染减缓方法研究

针对SMBR法处理印染废水膜污染进行研究,从减缓膜污染的角度出发,通过实验得到了针对实验系统的膜污染的几个影响因素,确定了系统的临界压力和临界通量,并证明在临界压力和通量下膜污染明显减缓;膜组件倾斜于30°放置,压力增长缓慢;系统在临界压力0.015 MPa左右进行空曝气时,膜通量恢复了43%。     

空气隙膜蒸馏膜污染控制实验研究

采用空气隙膜蒸馏组件,采用美国进口膜,以自来水、伞盖3号原水和苦咸水为工质,实验分析了膜污染情况,结果显示:料液无旋转时,自来水间歇累计运行32 h后出现污染;质量分数分别为20%和50%的盐水8 h后传质通量降低到最初通量32%和12%;3号原水瞬时产生污染,经砂滤处理后为苦咸水,传质通量比原水提高4倍～5倍,运行8h后通量下降到初始通量的6%。削弱膜污染方法采用最优参数的三向旋转入流组件(α=70°、δ=2 mm、β=45°),自来水进入污染期由32 h推迟到65 h,传质通量比无旋转增大近20%;采用具有分水盘的并接式空气隙膜组件,开槽2 mm膜污染较严重,开槽3 mm的膜通量比无旋转入流传质通量平均增大60%,两种组件设计形式均可提高膜通量,一定程度缓解了膜污染的产生。     

水解酸化/生物膜法SBR处理印染废水实验研究

针对印染废水污染物浓度高、种类多、色度高、可生化降解性差等特点,对印染废水采用水解酸化/生物膜法SBR进行处理,结果表明,该处理工艺处理效果较好,出水COD、色度、BOD5、NH3-N浓度分别为60~100 mg/L、50~70倍、20~24 mg/L、5~10 mg/L,平均去除率分别达到92.1%、86.5%、95%、90%。