粉末活性炭预吸附改善超滤膜通量试验研究

研究了粉末活性炭(PAC)预处理长江原水对改善超滤膜通量的效果.试验采用截留相对分子质量分别为30000 Da和10 000 Da的2种超滤膜,着重探讨了PAC对长江水中不同分子量有机物的吸附去除效果以及其所带来的膜通量改善.试验结果表明,超滤膜直接过滤原水时,膜通量下降严重;采用PAC预吸附后,2种膜的通量在一定程度上均得到提高.对PAC预吸附和膜后水样进行不同相对分子质量有机物的测定,结果表明:PAC吸附小于1000Da相对分子质量有机物高于其他相对分子质量区间有机物总和;膜表观截留孔径越小,PAC预吸附改善膜通量效果越显著.     

粉末活性炭预处理对超滤膜通量的影响

研究了粉末活性炭预处理对改善超滤膜过滤通量的效果.试验采用了4种具有不同亲疏水性的水样,着重探讨粉末活性炭对有机物的疏水性和亲水性组分的去除效果以及所带来的通量改善.试验结果表明,对于4种水样,超滤膜直接过滤原水时,通量下降严重.虽然粉末活性炭预处理能在一定程度上提高通量,但通量下降的趋势仍未改善.对有机物各组分的分析表明,直接过滤原水时,膜主要截留疏水性有机物;粉末炭吸附主要去除亲水性有机物,而超滤膜过滤粉末炭处理水时,主要截留疏水性有机物.由此,超滤膜的通量下降主要是由疏水性有机物引起的,亲水性组分对通量的影响较小.     

UF膜与混凝粉末活性炭联用处理微污染原水

采用混凝、粉末活性炭和UF膜分离的联用技术对黄浦江原水进行试验 ,结果表明 ,混凝、粉末活性炭可有效地去除溶解性有机物 .混凝处理主要去除大分子量的有机物 ,粉末活性炭主要去除低分子量的有机物 .混凝、粉末活性炭还能有效地去除三氯甲烷生成潜能 (THMFP) ,对于低分子量的THMFP ,混凝去除效果很差 ,而粉末活性炭去除很好 .试验还表明 ,混凝、粉末活性炭还可大大降低膜的滤饼层阻力 ,当混凝剂投加量为 4mg/L时 ,膜的滤饼层阻力最小 .     

不同组分的有机物对膜过滤通量下降的影响

采用DAX-8、XAD-4、IRA-958型树脂将自来水中有机物分离成强疏水性、弱疏水性、极性亲水性、中性亲水性有机物,以聚偏氟乙烯、聚醚砜、醋酸纤维3种材质的膜对各组分水样进行膜过滤试验,研究不同组分的有机物对膜过滤通量的影响.结果表明,过滤原水时,PES膜、PVDF膜和CA膜的通量分别比初始通量下降了67%、 59%和19%,表明疏水性越强的膜,越容易造成污染.就各种组分对通量的影响而言,过滤中性亲水性组分的通量下降为初始通量的41%～75%,而弱疏水性组分为6%～33%,表明中性亲水性组分对膜过滤通量的影响最大.3种膜中,CA膜对中性亲水性组分的截留率最高,达14.69%,但通量下降程度却最小,说明膜通量下降的程度并不与有机物截留总量正相关.对膜污染机制进行探讨后发现,对于截留分子量较大的超滤或微滤膜,相对分子质量>3×10⁴的中性亲水性组分通过堵塞膜孔内部,从而造成严重的膜污染;而对于截留分子量较小的超滤膜,中性亲水性组分由于无法进入膜孔,主要在膜表面形成滤饼层,从而对膜通量的影响较小.     

混凝预处理对超滤膜通量的影响

为探讨混凝预处理对改善超滤膜过滤通量的效果.试验采用了4种具有不同亲疏水性的水样,着重探讨混凝对有机物的疏水性和亲水性组分的去除效果以及所带来的通量改善.试验结果表明,超滤膜直接过滤原水时,4种水样的有机物截留率在12%～20%,但其中的疏水性组分均超过了50%,说明膜倾向于截留疏水性有机物.投加25 mg/L的混凝剂,4种水样的有机物去除率在12%～28%,投加量增加至100 mg/L,去除率也相应增加至25%～38%,但其中的疏水性组分均占50%以上.混凝预处理均可有效提高通量.对有机物各组分的分析表明,膜处理混凝预处理水时,主要截留亲水性组分,这是由于混凝可有效去除疏水性组分的缘故.由此也可得出结论.超滤膜的通量下降主要是由疏水性有机物引起的,亲水性组分对通量的影响较小.     

有机物对UF膜过滤通量的影响

采用截留分子量为30000的聚醚砜超滤膜进行膜过滤试验,研究有机物的特性,如亲疏水性以及相对分子质量对超滤膜通量的影响.试验结果表明,过滤亲水性组分时膜通量明显高于过滤疏水性组分.对2种不同水源的试验表明,尽管有机物含量相同,但由于亲疏水性的比例不同,造成的膜通量下降不同.疏水性越大的原水,其膜通量下降也越大.因此,疏水性组分是造成通量下降的主要因素.试验还表明,相对分子质量较大的有机物并非通量下降的主要因素,有机物的分散性可能是影响通量的主要因素.     

超滤及其组合工艺对污水的深度处理试验

超滤及其组合工艺 ,混凝 UF和粉末活性炭 (PAC) UF对污水深度处理的试验结果表明 ,超滤对水中浊度几乎可以完全去除 ,对细菌和大肠杆菌的去除效率大于 99% ,对水中有机物、氨氮、总铁和总锰也均有一定的去除。超滤前加混凝预处理或粉末活性炭吸附后 ,提高了水中有机物的去除率 ,同时减轻了膜污染 ,提高了膜通量和产水量。此外 ,三种工艺在等量冲洗用水的条件下 ,适当缩短过滤周期 ,增加反冲洗频率均提高了单位能耗产水量。     

PVDF/TPU中空纤维膜研制中铸膜液结构对膜结构与膜性能的影响

选用聚偏氟乙烯(PVDF)和热塑性聚氨酯弹性体(TPU)作为膜材料,二甲基乙酰胺(DMAC)为溶剂,聚乙烯吡咯烷酮(PVP)为添加剂,采用干—湿法纺丝成膜,对影响膜性能的铸膜液结构进行了讨论。文中描述的PVDF/TPU中空纤维膜的最大水通量为865.923 mL/(cm2.h),截留率为865.92%(截留牛血清蛋白分子量为67 000)。     

混凝处理防止膜污染的作用与机理

通过膜过滤混凝上清液的方法 ,并比较膜进水和透过水中有机物相对分子质量分布的变化 ,探讨了混凝防止膜污染的作用和机理 .结果表明 ,相对分子质量大于 10 0 0的有机物是造成膜污染的主要因素 ,而相对分子质量小于 10 0 0的有机物对膜污染的影响较小 .尽管混凝能有效地去除相对分子质量较大的有机物 ,但混凝防止膜污染的效果与其投加量有密切的关系 .较低的混凝投加量 (2 5mg·L- 1 )防止膜污染的效果较差 ,较大的投加量 (>5 0mg·L- 1 )防止膜污染的效果较好 .UV2 54能更好地反映有机物对膜污染的影响程度 ,如何有效地去除这类有机物是防止膜污染的关键 .混凝防止膜污染的效果与去除相对分子质量大于 10 0 0的UV2 54的程度密切相关 .试验结果表明 ,混凝去除这类有机物的效果达到 5 0 %时 ,可有效地防止膜污染     

臭氧/混凝预处理工艺降低膜污染的研究

采用臭氧和混凝工艺分别处理黄浦江原水后进行MF膜过滤试验,考察2种预处理工艺对有机物的作用,进而考察其对MF膜过滤特性的影响.结果表明,2种预处理工艺都存在一个使膜污染下降率达到最大的最佳投药量.2种预处理工艺中,混凝降低膜污染的效果要好于臭氧,这主要与2种预处理工艺所去除的有机物性质有关.黄浦江水中有机物相对分子质量主要集中在3×103～5×103范围内,膜化学清洗液的分析表明造成膜污染的有机物相对分子质量主要集中在4.5×103附近,臭氧对相对分子质量在3×103附近的有机物去除效果较好,而混凝主要去除5×103附近的较大相对分子质量的有机物,因而混凝对这部分污染膜物质的去除效果要好于臭氧,从而有效降低了膜污染.     

Fouling of nanofiltration membrane by effluent organic matter： Characterization using different organic fractions in wastewater

The UF membrane with molecular weight cutoff (MWCO) ranging from 2 kDa to 100 kDa and XAD-8 resin were employed to identify the characteristic of molecular weight (MW) distribution of wastewater effluent organic matter (EfOM) in terms of TOC and UV254, as well as the amounts of the hydrophilic/hydrophobic organic fractions in different MW ranges. Then, the nanofiltration (NF) membrane fouling experiments were carried out using the above fractionated water to investigate the effect of MW distribution and hydrophilic/hydrophobic characteristics of EfOM on the membrane flux decline using the fractionated water samples above. The experimental results have shown that 45.61% of the total organics belongs to the low MW one, among which the percentage of the hydrophilic organics with low MW (less than 2 kDa) was up to 28.07%, while that of the hydrophobic organics was 17.54%. In particular, the hydrophilic fraction was found to be the most abundant fraction in the effluents. MW distribution has a significant effect on the membrane fouling. When the MW was less than 30 kDa, the lower the MW, the larger was the specific flux decline, while in the case of MW higher than 30 kDa, the higher the MW, the larger was the specific flux decline, and the decline degree of low MW organics was larger than the high MW one. With the same MW distribution range, specific flux decline of the hydrophilic organic was considerably slower than that of the hydrophobic organic, which indicated that the hydrophobic organic fractions dominantly contribute to the flux decline.     

Fouling of nanofiltration membrane by e uent organic matter: Characterization using di erent organic fractions in wastewater

The UF membrane with molecular weight cuto (MWCO) ranging from 2 to 100 kDa and XAD-8 resin were employed to identify the characteristic of molecular weight (MW) distribution of wastewater e uent organic matter (EfOM) in terms of TOC and UV254, as well as the amounts of the hydrophilic/hydrophobic organic fractions in di erent MW ranges. Then, the nanofiltration (NF) membrane fouling experiments were carried out using the above fractionated water to investigate the e ect of MW distribution and hydrophilic/hydrophobic characteristics of EfOM on the membrane flux decline using the fractionated water samples. The experimental results have shown that 45.61% of the total organics belongs to the low MW one, among which the percentage of the hydrophilic organics with low MW (less than 2 kDa) was up to 28.07%, while that of the hydrophobic organics was 17.54%. In particular, the hydrophilic fraction was found to be the most abundant fraction in the e uents. MW distribution has a significant e ect on the membrane fouling. When the MWwas less than 30 kDa, the lower the MW, the larger was the specific flux decline, while in the case of MW higher than 30 kDa, the higher the MW, the larger was the specific flux decline, and the decline degree of low MW organics was larger than the high MW one. With the same MW distribution range, specific flux decline of the hydrophilic organic was considerably slower than that of the hydrophobic organic, which indicated that the hydrophobic organic fractions dominantly contribute to the flux decline.     

荷电超滤膜对天然有机物去除及膜污染行为的影响

以Aldrich 腐殖酸溶液为水样,研究比较了溶液环境(pH值、离子强度和钙离子)对荷电改性再生纤维素超滤膜和传统中性未改性再生纤维素超滤膜过滤过程的影响.结果表明, ①pH值主要通过质子化作用影响荷电膜以及腐殖酸分子的荷电量,进而影响荷电超滤过程.溶液pH值从7.5下降到3.5时,荷电超滤膜对腐殖酸的截留率从92%减少到79%,超滤4 h时,膜通量下降从26%增加到36%.②离子强度的改变是通过影响腐殖酸分子的物化性质和静电屏蔽作用来影响超滤过程的.当溶液离子强度为0、 3和100 mmol/L时,初始截留率依次降低,分别为92%、 87%和48%,超滤4 h时,荷电超滤膜的通量下降依次增加,分别为26%、 35%和63%.③Ca2+浓度的影响,需要综合考虑静电屏蔽作用、Ca2+的架桥作用以及滤饼层的压实性等各方面的影响.④pH值、离子强度和钙离子对中性超滤膜过滤行为的影响趋势与荷电超滤膜相似,但其影响程度有着较大的差别.研究结果对荷电超滤膜技术在实际应用中选择合适环境条件提供了参考.     

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.     

Drinking water production by ultrafiltration of Songhuajiang River with PAC adsorption

In recent years, membrane ultrafiltration （UF） of surface water for drinking water treatment has become a more attractive technology worldwide as a possible alternative treatment to conventional clarification. To evaluate the performance of ultrafiltration membranes for treatment of surface water in North China, a 48-m^2 low pressure hollow fiber membrane ultrafiltration pilot plant was constructed. Ultrafiltration was operated in cross-flow and with powdered activated carbon （PAC） adsorption. Turbidity was almost completely removed to less than 0.2 NTU （below Chinese standard 1 NTU）. It was found that PAC addition enhanced organic matter removal. The combined process of PAC/UF allowed to 41% removal of CODMn, 46% removal of DOC and 57% decrease in UV254 absorbance. The elimination of particles, from average 12000/ml in the raw water to approximately 15/ml in the permeated, was observed. When PAC concentration was below 30 mg/L, backwashing could recovery the membrane flux with backwash interval/backwashing duration of 1/30.     

Drinking water production by uitrafiltration of Songhuajiang River with PAC adsorption

In recent years, membrane ultrafiltration (UF) of surface water for drinking water treatment has become a more attractive technology worldwide as a possible alternative treatment to conventional clarification. To evaluate the performance of ultrafiltration membranes for treatment of surface water in North China, a 48-m2 low pressure hollow fiber membrane ultrafiltration pilot plant was constructed. Ultrafiltration was operated in cross-flow and with powdered activated carbon (PAC) adsorption. Turbidity was almost completely removed to less than 0.2 NTU (below Chinese standard 1 NTU). It was found that PAC addition enhanced organic matter removal. The combined process of PAC/UF allowed to 41% removal of CODMn 46% removal of DOC and 57% decrease in UV254 absorbance. The elimination of particles, from average 12000/ml in the raw water to approximately 15/ml in the permeated, was observed. When PAC concentration was below 30 mg/L, backwashing could recovery the membrane flux with backwash interval/backwashing duration of 1/30.     

超滤去除水中内分泌干扰物（BPA）的效果和影响因素

采用终端超滤工艺去除饮用水中内分泌干扰物双酚A（BPA）,主要考察了BPA初始浓度、膜截留相对分子质量、pH、离子强度和有机物对BPA去除效果的影响.结果表明,超滤对饮用水中BPA具有良好的去除效果.当BPA的初始浓度在100～600μg/L范围内,截留相对分子质量2?000～10?000的超滤膜对BPA的去除率均在92.0%以上.溶液的pH值接近BPA的pK_a（9.6～11.3）时,BPA去除率明显降低.离子强度对去除率的影响较小.溶液中的腐殖酸对超滤去除BPA的影响较小.试验证实,吸附是超滤去除疏水性BPA分子的主要机理.     

粉末活性炭预沉积去除藻类有机物及其对膜污染的影响

以东海原甲藻分泌的藻类有机物（AOM）为研究对象,研究粉末活性炭预沉积和预吸附两种膜前预处理手段对海水中AOM的去除作用,对比分析AOM直接超滤、预沉积和预吸附后再超滤时膜通量、膜阻力分布、膜表面亲疏水性和粗糙度的变化,探讨粉末活性炭孔隙结构、沉积量对AOM去除效果及超滤膜污染的影响.结果表明,活性炭预沉积和预吸附能够提高超滤膜对含AOM海水中DOC和UV₂₅₄的去除率,预沉积对AOM的去除作用优于预吸附,介孔活性炭较微孔活性炭的预沉积效果更好,当介孔活性炭PAC2的沉积量为0.4g/L时,DOC和UV₂₅₄的去除率较直接超滤分别提高了25.1%和33.6%.紫外吸收比指数（URI）分析表明,活性炭预沉积和预吸附对有机物的去除作用具有选择性,AOM中芳香族物质较脂肪族羧基类物质更易被除去.粉末活性炭预沉积下AOM超滤时的滤饼层污染阻力（R_c）和膜孔堵塞阻力（R_p）较直接超滤分别降低了39.6%和81.2%,活性炭在超滤膜表面形成的滤饼层结构将AOM与超滤膜进行了隔离,能够减缓膜污染速率,对于控制膜的不可逆污染亦具有重要作用.     

海藻酸及腐殖酸共存对PVDF超滤膜的污染行为

为了揭示有机物对PVDF超滤膜的污染行为,选用典型亲/疏水性有机污染物海藻酸(SA)及腐殖酸(HA),采用原子力显微镜结合自制的PVDF膜材料探针和污染物探针定量测定了PVDF-污染物及污染物-污染物间的作用力,并进行PVDF膜污染试验和污染物去除效果分析.结果表明:亲水性SA-PVDF及SA-SA之间的作用力皆大于疏水性HA-PVDF及HA-HA间的作用力,且SA污染膜的通量衰减速率与衰减幅度明显大于HA污染膜,说明了亲水性有机物是引起PVDF超滤膜污染的优势污染物.HA/SA混合污染物试验表明,膜污染行为与混合污染物中优势污染物的含量密切相关;与单种污染物的膜污染行为相比,混合污染物间不存在明显的协同作用促进膜污染.此外,污染物的去除率与相应微观作用力大小及膜污染速率成正相关关系.