超滤处理豆腐废水阻力的研究

采用中空纤维聚砜超滤膜，对处理豆腐废水过程中膜阻力的分布进行了研究。通过测定不同条件下超滤的通透量，计算出超滤过程中各种阻力及其所占的比例。试验结果表明：预处理及超滤条件不同，其过滤阻力构成也不同。预处理愈完善，其浓差极化阻力愈低，总阻力也越小。     

混凝剂品种对混凝-超滤联合工艺膜污染的影响

本实验以工业化学合成聚合硫酸铁混凝剂和自制生物聚合硫酸铁为例,考察了铁系混凝剂品种对地表水浊度、TOC和UV254的去除效果,混凝剂品种对混凝-超滤联合工艺处理地表水过程中超滤膜污染的影响。混凝实验结果表明,在10 mg/L(以Fe3+计)最佳投加量下,两类混凝剂对浊度、TOC和UV254的去除率基本相同。超滤膜污染实验结果表明,生物聚合铁预处理水样通量衰减速度略大于化学聚合铁预处理水样;膜污染阻力分析结果显示,随着循环次数的增加,工业化学合成聚合铁预处理水样造成的不可逆污染阻力逐渐增加,而生物聚合铁预处理水样造成的不可逆污染阻力却略有下降;膜污染机理分析表明,2组过滤过程的膜污染类型基本相似,由最初的膜孔堵塞过渡到最终的滤饼层污染。SEM分析表明,生物聚合铁预处理水样的膜污染较为严重。     

超滤/反渗透双膜技术深度处理印染废水

由于印染废水具有高盐度,可生化性差,使常规方法难于处理完全.采用超滤和反渗透双膜技术处理实际印染废水,考察了不同超滤膜对废水的预处理性能,研究了BW30和CPA2两种反渗透膜在不同操作条件下对印染废水的处理效果,并分析了相关膜通量下降的原因.结果表明,超滤能有效地去除废水浊度和大分子有机物,为反渗透提供良好的进水水质.两种反渗透膜的产水化学需氧量(COD)均小于10 mg/L,电导率小于80/μS/cm,其对有机物和盐的去除率分别可达99%和93%以上,显示该产水能回用于大部分印染工序.BW30膜产水水质稍好于CPA2,但通量低于CPA2.     

一体式膜-生物反应器中膜污染过程的动态分析

膜污染过程的动态研究对于有效地控制膜污染意义重大。结合膜过滤压差的上升和污染膜表面微观形态的变化 ,对不同污泥浓度和膜通量条件下 ,一体式膜 生物反应器中膜污染过程进行了动态分析。结果表明 ,膜污染初期主要是水中溶解性物质在膜表面附着 ,随后污泥在膜表面沉积。溶解性有机物在膜面的附着 ,对膜过滤压差即膜过滤阻力的变化影响不大 ,而活性污泥在膜表面的大量沉积将导致膜过滤压差迅速上升。污泥浓度愈高 ,膜通量愈大时 ,活性污泥颗粒愈易在膜面沉积。通过停止进出水维持空曝气、降低反应器内污泥浓度或延长膜的停抽时间可以使沉积在膜表面的悬浮污泥脱离膜表面 ,从而使膜过滤能力得到很好的恢复。采用经典的膜污染模型对各运行阶段膜污染模式进行了分析 ,模型拟合结果与电镜观察结果基本吻合。     

微絮凝直接过滤-超滤组合工艺深度处理印染废水

采用微絮凝直接过滤作为超滤的预处理工艺，对印染废水二级出水进行深度处理。考察了微絮凝直接过滤一超滤组合工艺处理效果和不同预处理方式砂滤、微絮凝、微絮凝直接过滤对超滤膜污染影响。实验结果表明，微絮凝直接过滤-超滤组合工艺对浊度、色度和COD平均去除率为99．2％、87％和56％；出水水质能满足《城市杂用水水质标准》（GB／T18920—2002）；与其他预处理方式相比，微絮凝直接过滤能大大地减轻超滤膜的负荷，延缓膜的污染，微絮凝直接过滤是一较优预处理工艺。由于采用变孔隙滤料，该系统具有用药量省的优点。     

TiO2光催化复合分离膜对水中天然有机物的去除

在水源污染越来越严重、水质标准日益严格的背景下，超滤（UF）已逐渐成为替代饮用水常规处理技术的最佳选择之一。本研究中采用相转化法，将聚偏氟乙烯（PVDF）、聚乙二醇（PEG）和二氧化钛（TiO2）共混制得光催化复合分离膜并对其进行扫描电子显微镜（SEM）、原子力显微镜（AFM）和X射线能谱仪（EDS）等相应的表征。比较了有无光照条件下，PVDF-PEG和PVDF—PEG—TiO2膜对腐殖酸（HA）的截留和超滤过程中的膜污染情况。研究结果表明，TiO2光催化复合分离膜能提高对水中天然有机物的去除并同时降低膜污染。紫外光照强度越强，PVDF-PEG—TiO2膜的抗污染性能越好。另外，光催化能更有效地减少超滤初始浓度较低的腐殖酸溶液过程中的膜通量衰减。     

膜分离技术应用于给水处理中的膜污染研究

针对膜分离技术应用于给水处理系统中的膜污染问题进行了研究.结果表明,采用亲水性的膜进行给水处理,膜污染可以分为浓差极化污染、可清除污染和不可清除污染三大部分,根据达西方程计算膜分离过程中的阻力,其中膜本身阻力占总阻力的51.2%,浓差极化阻力占21.9%,而可清除污染阻力和不可清除阻力相对较小.因此,在给水膜分离系统中若通过优化操作条件减小浓差极化污染,就可达到改善膜污染的目的.     

活性焦吸附对反渗透浓水膜蒸馏减排工艺的影响

本研究采用膜蒸馏(MD)技术,对煤化工废水2套处理工艺——(1)"混凝-超滤(UF)-反渗透(RO)工艺"和(2)"混凝-活性焦(AC)吸附-超滤-反渗透工艺"的RO浓水进行浓缩。通过对比分析MD的膜通量、产水水质以及膜污染等指标,重点考察AC吸附预处理对后续MD工艺的影响。结果表明,AC吸附作为前置膜处理工艺,可有效降低污染物在膜表面的沉积,减少膜润湿现象,并提高膜通量。GC-MS分析表明,AC能有效吸附废水中的酮类、醇类、酯类以及杂环类等挥发性有机物,降低MD过程中挥发至产水侧的有机物浓度,从而提高MD产水水质。     

不同超滤组合工艺用于印染废水反渗透前的预处理研究

分别采用混凝—超滤(组合工艺Ⅰ)、生物活性炭(BAC)滤池—超滤(组合工艺Ⅱ)、混凝—BAC滤池—超滤(组合工艺Ⅲ)作为反渗透前的预处理工艺,对印染废水二级生化出水进行处理,考察污染物去除效果,并分析超滤膜性能。结果表明,3种超滤组合工艺的出水浊度0.4NTU,淤泥密度指数(SDI)5,均能达到反渗透进水的要求。组合工艺Ⅲ对COD、真色、UV254、浊度的平均去除率分别为52.94%、49.23%、49.95%、99.53%,均高于组合工艺Ⅰ、Ⅱ。组合工艺Ⅲ的出水SDI和比膜通量均优于组合工艺Ⅰ、Ⅱ。通过超滤膜微观结构和阻力分布分析,发现组合工艺Ⅲ中不可逆的膜污染最轻。组合工艺Ⅲ为印染废水反渗透前的最佳预处理工艺。     

盐类对模拟胞外聚合物(EPS)膜污染的影响

实验旨在研究盐类对模拟胞外聚合物(EPS)溶液在超滤和微滤过程中膜污染影响,通过添加与无添加盐类的模拟溶液的比较,研究盐类对EPS膜过滤在死端过滤过程的影响。实验考察了不同模拟溶液的膜通量衰减情况和滤饼比阻,并利用Hermia模型对实验数据进行拟合分析验证膜污染机理。实验结果表明,在超滤过程中,Ca2+和Al3+能在一定程度上提高膜通量,降低滤饼比阻,延缓膜污染;在微滤过程中,两者的添加反而降低了初始通量,添加Ca2+后滤饼比阻值反而有所增大;Na+对超/微滤过程影响很小。通过Hermia模型拟合分析发现,在超滤过程中,添加盐和无添加的溶液均以滤饼堵塞机理为主,而在微滤过程中则是以中间堵塞和滤饼堵塞机理为主。     

不同超滤膜过滤天然有机物的膜污染特性研究

超滤膜的截留分子量、天然有机物的分子量分布以及两者之间的相对关系对于膜污染以及过滤阻力的组成有很大的影响。MWCO140kDa、70kDa、30kDa、10kDa、4kDa和1kDa的超滤膜过滤10mg/L腐殖酸溶液和未名湖湖水的试验结果表明,在过滤初始时刻就发生了膜污染,膜的截留分子量越大,膜污染越显著。在长期过滤的过程中,截留分子量>10kDa的超滤膜的过滤阻力受到膜污染的控制,膜孔堵塞和膜面形成凝胶层是造成膜污染的主要原因;当膜的截留分子量≤10kDa时,过滤阻力主要由膜本身固有的阻力决定,膜污染影响较小。不同浓度、类型的腐殖酸溶液和不同种类的超滤膜过滤试验数据分析表明,当膜对腐殖酸分子的截留率超过40%时,膜污染的程度会逐渐减小,过滤阻力将由膜本身固有的阻力控制。     

Irreversible fouling during multicycle microfiltration of wastewater effluent

This study focused on irreversible fouling during microfiltration of primary and secondary effluents from municipal wastewater treatment plants. Flow resistances were calculated from the sum of clean membrane resistances, resultant cake layer resistances, and consequent irreversible fouling resistances. Results from a dead-end cell experimental system showed that the accumulated cake resistance was dominating for microfiltration of primary/secondary effluents. Suspended solids in the primary and secondary effluents had a similar compressibility index, n, with a value of approximately 0.5, indicating that they were moderately compressible particles. The value of irreversible resistance is dependent on the intensity of membrane cleaning; however, for a given membrane cleaning strategy, this value steadily increased and reached a maximum after approximately 6 cycles of filtration and cleaning. This study provided an explanation for the significant drop of throughput flux in the early application of membrane processes, and a plateau flux approached correspondingly.     

Use of chemical coagulants to control fouling potential for wastewater membrane bioreactor processes.

Chemical coagulation with ferric chloride, alum, and an organic polymer were used to control the fouling potential of mixed liquors for submerged membrane bioreactor (MBR) processes in treating municipal wastewater. Their filterability was evaluated using a submerged hollow fiber ultrafiltration apparatus operated in constant permeate flux mode. The collected transmembrane pressures over filtration time were used to calculate the membrane fouling rates. The results showed that coagulation pretreatment can reduce fouling rates when MBRs were operated above the critical flux. Even though coagulation with the organic polymer formed larger mixed liquor suspended solids particles and had shorter time-to-filtration than those with ferric chloride and alum, the filterability for membrane filtration were similar, indicating that the membrane fouling in MBR systems was mainly controlled by the concentration of smaller colloidal particles.     

陶瓷膜污染过程分析与膜清洗方法优化

采用膜孔径为50 nm的陶瓷膜错流过滤方式,对碱性高浓度有机洗涤废水进行9个周期的膜通量衰减及反向脉冲清洗再生实验研究.通过设计膜污染阻力构成实验,测算膜污染总阻力及其构成比例.实验结果表明,膜固有阻力比例较低,浓差极化污染较弱,Rt和Rc+Rirt污染阻力稳定性较高,膜堵塞形式兼有孔内堵塞和滤饼过滤；选择质量分数0.1％的稀盐酸和0.2％的草酸溶液膜清洗效果均较好,清洗时间为3 min,脉冲时间和频率为3 s/5 s.     

微波预处理对制革污泥絮凝脱水性能的影响

分别采用微波、絮凝剂和微波联合絮凝剂对制革污泥进行脱水预处理,考察不同处理条件下制革污泥沉降速率(SV30)、毛细吸水时间(CST)和污泥比阻(SRF)的变化,并通过粘度、水分分布和微观结构的变化探讨相关的脱水机理。结果表明,在微波输出功率为648 W、辐射时间为60 s的预处理条件下,阳离子聚丙烯酰胺(CPAM)投加剂量为8 mg/L时,污泥脱水性能达到最佳。与单独添加絮凝剂的污泥脱水相比,该条件下的SV30、CST和SRF分别降低了25.0%、48.9%和34.7%。污泥絮凝脱水前进行微波预处理能够进一步提高污泥的脱水性能,微波辐射联合CPAM进行污泥脱水时,CPAM则起主要脱水作用。微波辐射通过破坏污泥絮体结构,改变污泥中的水分分布,降低污泥的粘度,从而提高污泥的脱水性能。     

Effect of activated sludge properties and membrane operation conditions on fouling characteristics in membrane bioreactors

Biofouling control is considered to be a major challenge in operating membrane bioreactors (MBRs) for the treatment of wastewater. This study examined the impact of biological, chemical, and physical properties of activated sludge on membrane filtration performance in laboratory-scale MBRs. Sludges with different microbial communities were produced using pseudo-continuous stirred-tank reactors and pseudo-plug flow reactors treating a synthetic paper mill wastewater. Various filtration resistances were used to investigate membrane fouling characteristics, and molecular biology tools targeting 16S ribosomal DNA gene sequences were used to identify predominant bacterial populations in the sludges or attached to the fouled membranes. Filtration experiments using axenic cultures of Escherichia coli, Acinetobacter calcoaceticus, and Gordonia amarae were also performed to better understand the initiation and development of biofouling. The results showed that the tendency of membranes to biofoul depended upon membrane operating conditions as well as the properties of the activated sludge in the MBR systems. Specific bacterial populations, which were not dominant in the activated sludges, were selectively accumulated on the membrane surface leading to the development of irreversible biofouling.     

浸没式超滤膜替代砂滤处理东江水的中试研究

针对传统饮用水处理工艺的升级改造问题,通过中试实验,系统考察浸没式超滤膜替代砂滤处理东江水的出水水质并研究高通量条件下的膜运行条件。结果表明,浸没式超滤膜出水浊度不受原水水质条件影响,均保持在0.1 NTU以下,与砂滤出水相比具有优势,但有机物去除率与砂滤相差不大。膜系统在高通量条件下运行时,过滤周期应作适当的缩短,采用合理的物理清洗来缓解膜污染,并辅助以有效的在线化学清洗可保证膜过滤的长期稳定运行。     

Some Factors that Affect the Deposition Rates of Sulfur Dioxide and Similar Gases on Vegetation

The deposition of sulfur dioxide on growing vegetation is affected by diverse environmental factors, many of which undergo large diurnal and spatial variations. The aerodynamic resistance to vertical transfer in the surface boundary layer can be formulated in terms of the friction velocity, height of observation, vertical heat flux, and surface roughness. Also important are the resistance in the air layer closest to the surface elements and, in dry vegetation, the average stomatal resistance of the plants. The latter variable is among the most difficult to estimate, but over many agricultural field crops like those in the midwestern U.S., a typical minimum value of average stomatal resistance to SO₂ transfer is about 0.7 s cm^-1, as is indicated by various experimental data. The deposition velocity can be estimated as the inverse of the sum of the resistances of the layers, necessarily down to where the concentrations are zero; in the surface boundary layer, any of the various resistances might be dominant. Above the surface layer, the micrometeorological relationships are known with less certainty, but reasonable approximations indicate that during unstable conditions the resistance to transfer is very small at heights of several tens of meters and during stable conditions the aerodynamic resistance is very large aloft.