混凝对微滤膜处理含磷废水的影响

采用直接微滤和混凝-微滤2种工艺对高浓度含磷废水进行了处理.结果表明,混凝预处理减轻了膜孔堵塞污染,改善了膜表面沉积层的存在形态,提高了膜的渗透通量;与原水直接微滤相比,混凝-微滤组合工艺改进了出水水质,磷酸盐的去除率从11.0%提高到99.7%,出水满足国家一级排放标准;经过相同方法清洗后,混凝-微滤工艺的膜通量能恢复到初始通量的90%以上,而直接微滤工艺的膜通量只能恢复到初始通量的72%.     

混凝-膜过滤中滤饼层对双酚A的去除强化作用研究

以聚合氯化铝(PAC)和氯化铁(FeCl3)为混凝剂,分析了双酚A(BPA)在1g/L高岭土溶液混凝过程中的特征.并借助循环错流过滤强化污染层累积的方法,评价产生滤饼层的微滤(MF)膜对BPA的截留效果.结果表明:清洁的微滤膜过滤BPA溶液在短时间内达到截留吸附饱和,之后其对BPA的吸附截留作用显著降低;混凝絮体混合液经膜过滤时产生的污染层有利于BPA的去除,且单独混凝对BPA去除率最高的混凝剂投加量下进行膜过滤时的阻力较小.PAC混凝—膜过滤后BPA去除率比单独混凝提高了34.30%;FeCl3混凝—膜过滤后BPA去除率比单独混凝提高了28.38%.初始BPA浓度对混凝-膜过滤去除率有一定影响,BPA浓度为100μg/L时,比BPA浓度为5mg/L时采用2种混凝-微滤膜过滤方式去除率均有提高.     

Ultrafiltration with in-line coagulation for the removal of natural humic acid and membrane fouling mechanism

Experimental and theoretical analysis were made on the natural humic acid removal and the membrane fouling of ultrafiltration （UF） with in-line coagulation. The results showed dissolved organic carbon （DOC） and UV254 removals by the UF with in-line coagulation at pH 7 were increased from 28% to 53% and 40% to 78% in comparison with direct UF treatment respectively. At the same time, the analysis of high performance liquid chromatography showed that UF with coagulation had significant improvement of removal of humic acid with molecular weights less than 6000 Da in particular. Compared to direct UF, the in-line coagulation UF also kept more constant permeate flux and very slight increase oftransmembrane pressure during a filtration circle. Two typical membrane fouling models were used by inducing two coefficients Kc and Kp corresponding to cake filtration model and pore narrowing model respectively. It was found that membrane fouling by pore-narrowing effect was effectively alleviated and that by cake-filtration was much decreased by in-line coagulation. Under the condition of coagulation prior to ultrafiltration at pH 7, the cake layer formed on the membrane surface became thicker, but the membrane filtration resistance was lower than that at pH 5 with the extension of operation time.     

混凝对膜污染的防止作用

研究了混凝改善膜通量和防止膜污染的效果 .结果表明 :直接过滤原水的情况下 ,反冲洗后的膜通量恢复仅为初始通量的40% ;而投加了混凝剂 4mg/L和10mg/L(以Al计 )后 ,反冲洗后的通量得到了完全的恢复 .混凝防止膜污染取决于过滤过程在膜表面形成的滤饼层的性能 .在过滤混凝液的情况下 ,混凝能在膜表面形成滤饼层 ,从而有效地防止膜污染 ,而过滤上清液的情况下 ,无法为混凝去除的中性亲水性的有机物沉积在膜表面 ,造成膜污染 .     

Fulvic acid removal by nanoparticle TiO2 using a submerged membrane photocatalysis reactor

The degradation of fulvic acid（FA） by nanoparticle TiO2 in a submerged membrane photocatalysis（SMPC） reactor was studied. In this reactor, photocatalytic oxidation and membrane separation co-occured. The continuous air supplier provided O2 for the photocatalytical reaction and mixed the solution through an airflow controller. The particle TiO2 could automatically settle due to gravity without particle agglomeration so it could be easily separated by microfiltration（MF） membrane. It was efficient to maintain high flux of membranes. The effects of operational parameters on the photocatalytic oxidation rate of FA were investigated. Results indicated that photocatalyst at 0.5 g/L and airflow at 0.06 m^3/h were the optimum condition for the removal of fulvic acid, the removal efficiency was higher in acid media than that in alkaline media. The effects of different filtration duration on permeate flux rate of MF with P25 powder and with nanoparticle TiO2 were compared. Experimental results indicated that the permeate flux rate of MF was improved and the membrane fouling phenomenon was reduced with the addition of nanoparticle TiO2 catalyst compared with conventional P25 powder. Therefore, this submerged membrane photocatalysis reactor can faciliate potential application of photocatalytic oxidation process in drinking water treatment.     

膜生物反应器处理生活污水的膜污染研究

本文研究的是采用一体式膜生物反应器处理生活污水过程中膜污染问题.试验结果表明:运行初期,由于膜孔堵塞膜通量下降速率较快,但随着运行时间的延长,膜通量下降缓慢且趋于一定值,膜污染也基本保持稳定;膜生物反应器处理高效优质,出水水质不受冲击负荷的影响,膜对部分有机物的截留作用使系统对COD的去除率保持在较高水平上,但膜对总磷的去除不明显;污泥沉降性能与膜污染具有相关性,污泥沉降性能的恶化直接加剧了膜污染.     

Drinking water treatment using a submerged internal-circulation membrane coagulation reactor coupled with permanganate oxidation

A submerged internal circulating membrane coagulation reactor(MCR) was used to treat surface water to produce drinking water. Polyaluminum chloride(PACl) was used as coagulant,and a hydrophilic polyvinylidene fluoride(PVDF) submerged hollow fiber microfiltration membrane was employed. The influences of trans-membrane pressure(TMP), zeta potential(ZP) of the suspended particles in raw water, and KMnO_4 dosing on water flux and the removal of turbidity and organic matter were systematically investigated. Continuous bench-scale experiments showed that the permeate quality of the MCR satisfied the requirement for a centralized water supply, according to the Standards for Drinking Water Quality of China(GB 5749-2006), as evaluated by turbidity(1 NTU) and total organic carbon(TOC)(5 mg/L)measurements. Besides water flux, the removal of turbidity, TOC and dissolved organic carbon(DOC) in the raw water also increased with increasing TMP in the range of 0.01–0.05 MPa. High ZP induced by PACl, such as 5–9 mV, led to an increase in the number of fine and total particles in the MCR, and consequently caused serious membrane fouling and high permeate turbidity.However, the removal of TOC and DOC increased with increasing ZP. A slightly positive ZP, such as 1–2 mV, corresponding to charge neutralization coagulation, was favorable for membrane fouling control. Moreover, dosing with KMnO_4 could further improve the removal of turbidity and DOC, thereby mitigating membrane fouling. The results are helpful for the application of the MCR in producing drinking water and also beneficial to the research and application of other coagulation and membrane separation hybrid processes.     

颗粒状大孔阴树脂去除有机物以及缓解膜污染的效果与机制

采用颗粒状大孔阴树脂和混凝作为微滤膜的预处理,考察它们去除有机物以及缓解膜污染的效果和机制.结果表明,树脂可有效去除中等和小分子的有机物,但对大分子有机物的去除有限;混凝可有效去除大分子有机物,但对中等和小分子有机物的去除有限.仅采用树脂作为预处理,虽然去除有机物效果较好,但缓解膜污染的作用有限;而混凝与树脂联用,不仅有效去除有机物,而且也有效缓解膜污染.     

Performance and fouling mechanism of direct contact membrane distillation (DCMD) treating fermentation wastewater with high organic concentrations

In this study,direct contact membrane distillation(DCMD)was used for treating fermentation wastewater with high organic concentrations.DCMD performance characteristics including permeate flux,permeate water quality as well as membrane fouling were investigated systematically.Experimental results showed that,after 12 hr DCMD,the feed wastewater was concentrated by about a factor of 3.7 on a volumetric basis,with the permeate flux decreasing from the initial 8.7 L/m~2/hr to the final 4.3 L/m~2/hr due to membrane fouling;the protein concentration in the feed wastewater was increased by about 3.5 times and achieved a value of 6178 mg/L,which is suitable for reutilization.Although COD and TOC in permeate water increased continuously due to the transfer of volatile components from wastewater,organic rejection of over 95%was achieved in wastewater.GC–MS results suggested that the fermentation wastewater contained 128kinds of organics,in which 14 organics dominated.After 12 hr DCMD,not only volatile organics including trimethyl pyrazine,2-acetyl pyrrole,phenethyl alcohol and phenylacetic acid,but also non-volatile dibutyl phthalate was detected in permeate water due to membrane wetting.FT-IR and SEM–EDS results indicated that the deposits formed on the membrane inner surface mainly consisted of Ca,Mg,and amine,carboxylic acid and aromatic groups.The fouled membrane could be recovered,as most of the deposits could be removed using a HCl/Na OH chemical cleaning method.     

混凝/微滤工艺用于青草沙水源水厂的生产废水回用研究

本文通过混凝/微滤工艺对青草沙水源水水厂的生产废水开展了回用处理研究,分析了常规污染物、微量有机物、金属离子的去除规律和消毒副产物生成趋势.结果表明,混凝预处理可以有效减缓膜污染;组合工艺对悬浮态物质如颗粒物、细菌、大肠杆菌等有较好的去除效果,去除率均达85%以上;对溶解性成分,尤其是Al和微量有机物去除效果不佳,去除率均低于20%.生产废水膜过滤后相同的消毒剂浓度时消毒副产物的生成趋势高于砂滤池和炭滤池出水.研究认为,青草沙水源水厂的生产废水净化后回用的最佳回用点是砂滤池前或活性炭生物滤池前.     

浸没式平板膜生物反应器处理工业区污水试验研究

膜生物反应器(MBR)是膜技术和污水生物处理技术相结合的污水处理新工艺,近年来在城市污水和工业废水的处理中得到越来越多的关注。本试验采用浸没式平板膜生物反应器处理某城市工业区污水,并对该平板膜在运行过程中的膜污染情况进行试验研究,同时介绍其污水处理效果。试验表明,该MBR在次临界操作运行的情况下,以通量13L(m2·h)运行33d后,膜污染非常严重,将平板膜取出清洗后改以8L(m2·h)恒流运行,在此后60多d运行时间内,MBR系统保持稳定。同时,系统对该工业区污水CODCr、BOD5、NH3N和浊度的平均去除率分别稳定在80%、95%、90%和98%以上,但对总氮的去除效果一般,去除率只有50%～60%。     

直接超滤和混凝-超滤组合工艺的膜污染比较

利用滤饼层过滤模型和膜孔窄化模型，结合国产中空纤维超滤膜对提取的天然腐植酸进行直接超滤和混凝－超滤2种工艺的试验结果分析，表明混凝预处理基本消除了膜孔污染，并且大大降低了膜表面滤饼层污染阻力，从而使超滤保持高渗透通量。另外，与原水直接超滤相比，混凝－超滤组合工艺对溶解性天然有机物的去除率较高，DOC去除率从28％提高到53％，UV254去除率从40％提高到78％。     

铜纳米线导电微滤膜的制备、性质表征及应用

将适量铜纳米线（Cu-NWs）添加到常规聚偏氟乙烯（PVDF）铸膜液中,通过相转化法制备Cu-NWs导电微滤膜,表征其过滤及导电性能,并将其置于膜生物反应器（MBR）中长期运行,研究其污染物去除效果及膜污染行为,可为污水处理MBR系统的低成本稳定运行提供新途径.结果表明,添加适量基于铸膜液质量的Cu-NWs,所得微滤膜的膜通量为721.9L/（m²·h）,膜面接触角为57.9°,同时,其起始电势、欧姆内阻及活化内阻分别为315.0mV、2.4Ω和6.9 Ω,均优于商用PVDF微滤膜.扫描电子显微镜（SEM）观察发现,Cu-NWs在膜面活性层交织形成了良好的导电网络.将其制作成膜组件安装于MBR系统中,兼用作阴极,COD、氨氮、TN和TP的去除率分别为91.5%、99.3%、76.3%和76.2%,高于对照MBR系统.连续运行146d,TMP始终低于25kPa,无需清洗膜组件.傅里叶变换红外光谱仪（FTIR）分析表明,膜面污染物质主要是蛋白质和多糖,膜面EPS含量远低于商用PVDF膜.所制备新型Cu-NWs导电微滤膜具有较好的稳定性、耐用性和抗污染性,应用前景广阔.     

超滤的预处理工艺对比研究:化学混凝与电絮凝

对比研究了化学混凝(chemical coagulation,CC)与电絮凝(electrocoagulation,EC)作为超滤膜分离的预处理工艺,在死端过滤条件下与超滤膜的作用机制以及对膜污染的减缓效果.主要研究了Al3+投加量对膜通量、絮体性质(粒径、强度系数、恢复系数、分形维数)、以及滤饼层性质的影响.结果表明,EC作为预处理时,生成的絮体强度大且结构紧实,在膜表面堆积形成的滤饼层具有疏松多孔、亲水性强的性质;而CC作为预处理时,生成的絮体强度低且比较松散,在膜过滤过程中容易被压力压碎压实,导致滤饼层比较密实、亲水性低.因此,EC作为预处理工艺对膜污染的减缓效果好,在运行过程中可以保持较高的膜通量,膜通量较CC高约5.57%.     

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.     

煤化工废水反渗透处理系统的运行效果及膜污染分析

针对煤化工废水反渗透（RO）膜处理系统夏季严重污堵的问题,本研究以实际某煤化工污水处理厂一级两段式RO系统为考察对象,分析了系统运行效能及膜污染特征.研究发现,生化段稳定地实现了有机物的削减,离子交换树脂进一步保障了产水的脱盐率,促进实现高水回收率,是煤化工废水零排放的重要保障.但对膜系统而言,脱盐及有机物去除的主要负荷集中在RO过程,一段/二段RO脱盐率分别为94.16%和96.16%,COD去除率分别为68.12%和87.4%;相对进水,一段RO有机物浓缩了9倍,二段RO盐浓缩了5倍.因此,两段膜过程都出现显著的膜污染,一段RO以有机-微生物-硅污染为主,形成致密的污染层,由进口到出口逐渐增厚,主要为蛋白质、多糖、腐殖酸;二段RO以Ca、Mg等的无机结垢为主,污染层结构相对松散,由进口到出口片状结晶逐渐增大.因此,预处理工艺的稳定运行及对污染物的去除以减轻RO过程的污染负荷是膜污染控制的关键;同时,针对RO系统中膜污染分布特征,制定杀菌、阻垢和化学清洗等膜污染控制策略以防止形成微生物抗性及"清洗剂抗性"具有重要意义.     

Membrane flux dynamics in the submerged ultrafiltration hybrid treatment process during particle and natural organic matter removal

Exponential relationship was developed to quantify the normalized membrane flux dynamics during the filtration period and fitted the results well.     

跨膜压差和膜面流速对磁絮凝延缓陶瓷微滤膜通量衰减的影响

为克服陶瓷微滤膜净化微污染水体时产水量不高、通量衰减迅速的难题,采用磁絮凝预处理工艺延缓陶瓷膜的污染。对比了磁絮凝预处理与传统絮凝预处理对陶瓷微滤膜膜污染的影响,结果显示:磁絮凝预处理后陶瓷膜的稳定产水量高于传统絮凝预处理,验证了磁絮凝预处理工艺延缓膜污染的可行性。同时,研究了跨膜压差和膜面流速对2种组合工艺膜通量的影响,结果表明:随着跨膜压差和膜面流速的增加,膜通量均提高但增幅逐渐放缓,其优化运行参数如下:跨膜压差为0.20 MPa,膜面流速为2.0 m/s。     

高温厌氧膜生物反应器处理餐厨废水的启动

以除油后的实际餐厨废水为原料,在高温（50±1）℃条件下利用浸没式纤维膜生物反应器（AnMBR）进行连续厌氧消化试验,以水力停留时间（HRT）20d启动,HRT 15d运行,直到发生膜污染,试验共进行了50d.研究了反应器启动和运行期间的发酵特性和膜过滤性能.研究表明,反应器30d完成了启动,在HRT 15d条件下,甲烷产量达到578L/kgVS_in,COD和挥发性固体（VS）去除率均达到94%以上,膜出水总挥发性脂肪酸（TVFA）浓度为（103±77） mg/L,其中乙酸浓度为（98±28） mg/L.系统pH 8.26,具有良好的稳定性.膜通量设定为9L/（m²·h）,运行30d后发生了明显的膜污染,伴随着反应器内挥发性悬浮固体（VSS）浓度由8.1g/L逐渐增加到18/L.在处理高浓度餐厨废水时,AnMBR可以短时间启动且在8.5kgCOD/（m³·d）的高负荷条件下稳定运行,反应器中污泥浓度和溶解性微生物产物的增加导致膜过滤性能下降是导致膜污染的主要因素.     

高温厌氧膜生物反应器处理餐厨废水的启动

以除油后的实际餐厨废水为原料,在高温（50±1）℃条件下利用浸没式纤维膜生物反应器（AnMBR）进行连续厌氧消化试验,以水力停留时间（HRT）20d启动,HRT 15d运行,直到发生膜污染,试验共进行了50d.研究了反应器启动和运行期间的发酵特性和膜过滤性能.研究表明,反应器30d完成了启动,在HRT 15d条件下,甲烷产量达到578L/kgVS_in,COD和挥发性固体（VS）去除率均达到94%以上,膜出水总挥发性脂肪酸（TVFA）浓度为（103±77） mg/L,其中乙酸浓度为（98±28） mg/L.系统pH 8.26,具有良好的稳定性.膜通量设定为9L/（m²·h）,运行30d后发生了明显的膜污染,伴随着反应器内挥发性悬浮固体（VSS）浓度由8.1g/L逐渐增加到18/L.在处理高浓度餐厨废水时,AnMBR可以短时间启动且在8.5kgCOD/（m³·d）的高负荷条件下稳定运行,反应器中污泥浓度和溶解性微生物产物的增加导致膜过滤性能下降是导致膜污染的主要因素.