正渗透去除地表水中DOM的效能研究

采用经砂滤处理后的滆湖水作为原料液,氯化钠溶液作为汲取液,在不同影响因素条件下进行正渗透试验,并对试验后的膜片进行清洗,探究膜污染的可逆性.结果表明:提高汲取液浓度、运行温度及膜面流速均可有效增加膜通量;正渗透对滆湖水体中的溶解性微生物代谢产物、类色氨酸、类富里酸和腐殖酸四种主要DOM成分均有较好的去除效果,DOC、UV₂₅₄截留率均在96%以上;短期运行通过水力清洗几乎可以完全恢复膜通量,而长期运行通过超声清洗可以基本恢复全部膜通量,通过分析膜清洗液可知造成膜污染的主要物质为类色氨酸类和类富里酸类物质.     

Microbial characteristics in anaerobic membrane bioreactor treating domestic sewage: Effects of HRT and process performance

Two anaerobic membrane bioreactors (AnMBRs) equipped with different membrane pore size (0.4 or 0.05μm) were operated at 25℃ and fed with domestic wastewater.The hydraulic retention time (HRT) of the reactors was shortened.The microbial communities of the two AnMBRs were investigated by 16S rRNA gene amplicon sequencing to see the effects of HRT.The predominant Archaea was an aceticlastic methanogen Methanosaeta.The composition of hydrogenotrophic methanogens changed with the HRTs:the population ...     

Evaluation of disinfection byproducts for their ability to affect mitochondrial function

In the race to deliver clean water to communities through potable water reuse, disinfection and water quality assessment are and will continue to be fundamental factors. There are over 700 disinfection byproducts (DBPs) in water; evaluating each compound is practically impossible and very time consuming. A bioanalytical approach could be an answer to this challenge. In this work, the response of four major classes of DBPs toward mitochondrial membrane potential (ΔΨm) and cytoplasmic adenosine triphosphate (C-ATP) was investigated with human carcinoma (HepG2) cells. Within 90 min of cell exposure, only the haloacetic acid (HAA) mixture caused a cytotoxic response as measured by C-ATP. All four groups (haloacetonitriles (HANs), trihalomethanes (THMs), nitrosamines (NOAs), and HAAs) responded well to ΔΨm, R² > 0.70. Based on the half-maximum concentration that evoked a 50% response in ΔΨm, the response gradient was HANs >> HAAs ∼ THM > NOAs. The inhibition of the ΔΨm by HANs is driven by dibromoacetonitrile (DBAN), while dichloroacetonitrile (DCAN) did not cause a significant change in the ΔΨm at less than 2000 µM. A mixture of HANs exhibited an antagonistic behavior on the ΔΨm compared to individual compounds. If water samples are concentrated to increase HAN concentrations, especially DBAN, then ΔΨm could be used as a biomonitoring tool for DBP toxicity.     

Closing the water cycle for industrial laundries: An operational performance and techno-economic evaluation of a full-scale membrane bioreactor system

To reduce the consumption of freshwater in the laundry industry, a new trend of closing the water cycle has resulted in the reuse/recycling of water. In this study, the performance of a full-scale submerged aerobic membrane bioreactor (9 m³) used to treat/reuse industrial laundry wastewater was examined over a period of 288 days. The turbidity and total solids (TS) were reduced by 99%, and the chemical oxygen demand (COD) effluent removal efficiencies were between 70% and 99%. The levels of COD removed by the membrane were significantly greater than the levels of biodegraded COD. This enabled the bioreactor to sustain COD levels that were below 100 mg/L, even during periods of low wastewater biodegradation due to bioreactor sludge. An economic evaluation of the membrane bioreactor (MBR) system showed a savings of 1.13 € per 1 m³ of water. The payback period for this system is approximately 6 years. The energy and maintenance costs represent only 5% of the total cost of the MBR system.     

集成膜法水处理工艺的研究与应用

集成膜法除盐系统具有连续产水、出水质量好、易控制、占地少、不需酸碱、利于环保等优点。文章通过对集成膜法水处理技术进行研究与应用,将原有的化学除盐水处理方式改为集成膜法水处理工艺,该方法产水水质高且水质稳定,每年可节约酸碱200 t,阴、阳离子交换树脂10 t,切实解决电厂所面临的产水水质不稳定、酸碱废液排放等问题,有力推动了清洁生产。     

道南膜技术测定Ca(NO3)2溶液体系中汞的化学形态

虽然道南膜技术(DMT)已经成功用于土壤/溶液中多种重金属自由态离子浓度的测定,但DMT技术测定Hg的形态尚未解决.采用DMT测定Ca(NO3)2溶液体系中Hg化学形态.实验结果表明,Hg在阳离子交换膜内的吸附除静电吸附外还存在结合力更强的化学吸附,Hg在阳离子交换膜内扩散成为Hg跨膜传输受阻的主要因素,限制道南膜技术用于Hg形态测定.Hg2+和Hg(OH)2都表现出在阳离子交换膜上的强烈吸附,供端(Donor)Hg损失达50%以上.缩短试验时间至8h以内,可在一定程度上降低Hg吸附.计算结果表明,由于大量的Hg滞留在阳离子交换膜内,在计算受端(Acceptor)Hg浓度时引入滞留系数补偿供端Hg的损失,较好地预测了Ca(NO3)2溶液体系中Hg的化学形态.     

聚合物/表面活性剂二元体系对油水界面性质的影响

文章应用界面张力仪、Zeta电位仪和表面黏弹性仪测定了聚合物、表面活性剂及其二元复合体系的质量浓度对油水界面性质的影响,并应用透射电镜观察了采出液的液膜结构。结果表明,随着聚合物质量浓度的增加,油水界面的界面剪切黏度值和界面张力值增大,颗粒表面Zeta电位的绝对值增大;随着表面活性剂质量浓度的增加,油水界面的界面剪切黏度变化幅度很小,但界面张力显著减小,颗粒表面Zeta电位绝对值增大;聚合物与表面活性剂复合能够形成稳定的聚合体,具有较大的界面剪切黏度值,较小的界面张力和较高的Zeta电位值;体系中聚合物、表面活性剂及水中悬浮物形成了类似"晶体"结构。     

厌氧微网反应器处理生活污水膜污染物研究

采用涤纶网加工的微网膜组件与厌氧反应器结合构成厌氧微网生物反应器用于处理城市生活污水。在不同反应器形式和水力停留时间条件下反应器稳定运行了144 d。研究结果表明完全搅拌反应器在膜通量12 L/(m2.h)条件下跨膜压差变化较小,整体出水水质高于无搅拌式反应器。通过膜面SS含量测定、粒径和三维荧光光谱分析等方法对膜面污染物进行了系统分析。无搅拌式AnFBR随着停留时间的延长,膜面污染物的SS减少,粒径减小;完全搅拌式AnFBR膜面污染物的SS最少,粒径最小。三位荧光分析表明SMP主要有2个类蛋白质荧光峰A和B,中心位置(Ex/Em)分别位于230~235/335~350 nm及280~290/330~355 nm,EPS样品中除了峰A和峰B外还有2个峰,峰C位置(Ex/Em)在340~350/435~445 nm,与类富里酸物质有关,峰D位于420~440/465~515 nm,与类腐殖酸物质有关。     

生物滴滤塔处理制革恶臭气体微生物特性研究

在生物滴滤塔处理制革恶臭气体中,采用SBR法对活性污泥进行驯化,考查生物滴滤塔处理制革恶臭气体中微生物的特性。研究了微生物对氨氮和硫化物的去除效率以及驯化过程中污泥容积指数(SVI)的变化,并对挂膜后填料表面的微生物相进行扫描电镜观察。结果表明:经过19 d的驯化,微生物对氨氮和硫化物的去除率分别可以达到98.29%和94.16%,驯化期间污泥容积指数均保持在正常的范围之中。挂膜14 d的扫描电镜显示,填料表面有均匀的生物膜分布,说明微生物在填料上已经挂膜成功,驯化的微生物可以达到去除制革恶臭气体的要求。     

在线NaClO反洗对倒置A2O-MBR系统微生物群落的影响

为研究在线NaClO反洗对MBR系统微生物群落结构的影响,采用倒置A2O-MBR反应器分别经历稳定期、在线纯水反洗及在线NaClO反洗阶段,监测系统运行效果、膜污染状况以及微生物群落结构特征.结果表明,在线NaClO反洗阶段反应器对COD、氨氮、TN等的去除效果与反洗前相差无几.在线纯水反洗后平均膜污染速率较稳定期有所降低,而在线NaClO反洗阶段膜污染速率增加,EPS浓度最高,膜污染加剧. Chao指数、Simpson指数和Shannon指数结果表明,在线NaClO反洗后好氧池污泥的微生物多样性几乎不变,而滤饼层污泥的种群丰度略微升高,但微生物的种群多样性明显降低.好氧池和滤饼层污泥的微生物种群主要以变形菌门(Proteobacteria)为主,其次是拟杆菌门(Bacteroidetes).经在线NaClO反洗后,好氧池污泥的变形菌门和拟杆菌门种群相对丰度变化很小,而滤饼层污泥的种群组成变化明显,对氯消毒剂有一定抵抗性的变形菌门从53. 4%增加到77. 8%,而拟杆菌门从33. 4%减少至14. 5%.经在线NaClO反洗后,好氧池和滤饼层在科水平微生物群落分布上十分相似,固氮螺菌科、丛毛单胞菌科等相比NaClO反洗前明显增加,那些能够耐受NaClO处理的微生物种可能是在线NaClO反洗阶段膜污染加剧的主要原因.