聚砜中空纤维超滤膜动态法表面光接枝改性

以二苯甲酮 (BP)为光引发剂 ,丙烯酰胺 (AAM)为接枝单体 ,以先用紫外光照射引发剂 ,然后将引发剂和单体分步输送到膜上的方法对聚砜单内皮层中空纤维超滤膜的内表面进行接枝改性。实验表明 ,改性后膜的表面亲水性有所上升 ,膜孔径也有一定程度的减小。证明该方法具有可行性 ,并有进一步发展的潜力。     

藻菌共培养对小球藻生长及苯酚降解的影响

工业苯酚废水无序排放会对环境造成极大危害,构建既能去除苯酚又能积累微藻生物质的藻菌组合对实现苯酚废水净化及其资源化利用具有重要意义。首先,研究了小球藻对苯酚的耐受性和降解性能;然后,构建了其与简单芽胞杆菌Bacillus simplex的共培养体系;最后,测试了藻菌比、藻菌接种浓度和苯酚浓度等对小球藻生长及苯酚降解的影响。结果表明:小球藻能耐受400 mg·L~(-1)的苯酚,但其对100～600 mg·L~(-1)苯酚的降解率仅为1.21%～11.66%;对于藻菌共培养体系,在固定小球藻接种浓度为0.2 g·L~(-1)、藻菌比为1∶4～4∶1条件下,3～5 d完全降解了400 mg·L~(-1)的苯酚,小球藻叶绿素(a+b)含量较单藻组增加了0.14～2.21倍,且随着藻菌比降低,苯酚降解效率及小球藻生物量逐步提高;在固定藻菌比为1∶1、小球藻初始接种浓度为0.05～0.4 g·L~(-1)条件下,4～5 d完全降解400 mg·L~(-1)苯酚,且在藻接种浓度为0.2 g·L~(-1)条件下,小球藻具有最高的比生长速率;在藻菌接种浓度0.2 g·L~(-1)、藻菌比1∶1条件下,6 d内完全降解500 mg·L~(-1)的苯酚,且在各苯酚浓度(200～600 mg·L~(-1))下,小球藻叶绿素(a+b)含量较初始接种值增加了1.54～4.71倍。与简单芽胞杆菌共培养可以促进小球藻生长并提高其苯酚降解能力,在苯酚废水净化及资源化利用领域展现了一定的应用潜力。     

Effects of two herbicidal wastewaters on Chlorella sp. and Phaeodactylum tricornutum

The effects on Chlorella sp. and Phaeodactylum tricornutum of two industrial wastewaters known to contain the herbicide residues of Trifluralin and Propanil have been determined by monitoring the number of cells, the chlorophyll fluorescence and the carbon dioxide assimilation simultaneously for a period of 14 days. The growth of the diatom, Phaeodactylum tricornutum, was inhibited by concentrations of herbicidal waste of the order of 0.1-0.5%, apparently because the rate of reproduction was reduced. Chlorella sp. cells, on the other hand, whilst dramatically inhibited by 1% concentrations of herbicidal waste, were able to recover over a period of 14 days. If discharged at concentrations below 0.01%, the industrial wastes appeared not to affect phytoplankton.     

Wastewater nutrient removal by Chlorella pyrenoidosa and Scenedesmus sp

Two different species of photosynthetic microalgae, Chlorella pyrenoidosa and Scenedesmus sp., were grown in settled and activated sewage filtrates at two different inoculum sizes, aimed to reduce nutrient load from wastewater. Higher growth rates were recorded in cultures with higher inoculum size, and algal cells usually grew better in settled sewage than in activated sewage. As algae started to grow and multiply, both nitrogen and phosphorus content in wastewater decreased significantly. The removal rate was rapid during the first week of growth and more than 2/3 of wastewater N and P was reduced. After the initial period, the removal rate slowed down. At the end of this study, more than 80% of total-P and inorganic N present in settled sewage were reduced but such removal efficiency was lower in activated sewage. In general, high inoculum size of algal cells provided more N and P removal than low inoculum, and Chlorella cells performed better than Scenedesmus. These results suggest that cultivation of Chlorella seems to be one of the feasible methods to reduce the amount of nitrogen and phosphorus entering the nearby coastal water, thus preventing the eutrophication problem. It is also clear that algal ponds with high inoculum size might be more suitable to be installed as a secondary rather than a tertiary treatment process.     

增强型中空纤维膜生物反应器处理污水

纤维编织管增强型中空纤维膜具有很强的力学性能、界面结合能力,采用纤维编织管增强型中空纤维膜生物反应器处理生活污水,研究纤维编织管增强型中空纤维膜(PAN-PVDF)长期运行的出水水质,并通过对其进行化学清洗考察膜的再生性能及其污染机理。研究表明:PAN-PVDF在运行、清洗过程中表现出很强抗污染能力,可以强化COD的去除,进一步降低出水COD含量,但对NH3-N和TP的去除贡献较小,将其用于膜生物反应器处理生活污水具备可行性;将污染后PAN-PVDF先浸于1wt%柠檬酸后浸于0.3wt%NaClO的清洗顺序获得最佳清洗效果,表明膜表面污染层是由以有机物为主的内污染层和以无机物为主的外污染层构成。     

磷浓度对海洋小球藻叶绿素荧光及生长的影响

海水富营养化影响微藻生长,引起海洋初级生产力变化.以海洋小球藻(Chlorella sp.)为研究对象,研究不同磷浓度对其叶绿素荧光、细胞密度和色素含量变化的影响,以期找到海洋小球藻最适生长的磷浓度,为富营养条件下微藻生长的研究提供基础资料.结果表明,在培养温度为(22±1) ℃、光照强度为4 000 lx、光暗比为12 h:12 h条件下,不同磷浓度对海洋小球藻叶绿素荧光、细胞密度及色素含量影响显著,最大光能转化效率(Fv/Fm)、潜在活性(Fv/Fo)、实际光能转化效率(ΦPSⅡ)和电子传递速率(ETR)均呈先升后降的趋势,3.62 μmol/L处理组显著低于其他各组,434.52 μmol/L处理组一直处在较高水平.说明海洋小球藻的光合作用对高磷的适应范围较广,但对低磷浓度培养反应敏感.非光化学淬灭(qN)的值,3.62 μmol/L处理组高于其他各组.从细胞密度和色素含量的变化可以看出,36.21 μmol/L处理组最高,434.52、3.62 μmol/L处理组均低于36.21 μmol/L处理组.海洋小球藻生长的最适磷摩尔浓度为36.21 μmol/L.     

Differential sensitivity of marine algae Dunaliella salina and Chlorella sp. to P25 TiO2 NPs

Environmental Science and Pollution Research - The use of P25 TiO2 NPs in consumer products, their release, and environmental accumulation will have harmful effects on the coastal ecosystems. The...     

中空纤维微滤膜污染及阻力分析

选用0．1μm的PVDF中空纤维内压式微滤膜组件，在死端微滤工况下，研究了酵母（平均粒径5．3μm）和高岭土（平均粒径0．7μm）体系在浓度和压力变化时的污染机理及过滤阻力、膜渗透通量的变化规律性。通过恒压堵塞定律积分式的具体形式与实验数据的拟合及根据堵塞过滤定律计算的结果都表明：死端微滤时，酵母体系和高岭土体系均符合滤饼过滤机理。     

中空纤维微滤膜污染及阻力分析

选用0.1μm的PVDF中空纤维内压式微滤膜组件,在死端微滤工况下,研究了酵母(平均粒径5.3 μm)和高岭土(平均粒径0.7μm)体系在浓度和压力变化时的污染机理及过滤阻力、膜渗透通量的变化规律性.通过恒压堵塞定律积分式的具体形式与实验数据的拟合及根据堵塞过滤定律计算的结果都表明:死端微滤时,酵母体系和高岭土体系均符合滤饼过滤机理.     

中空纤维膜吸收甲苯气体

采用疏水性聚偏氟乙烯(PDVF)中空纤维膜为气液接触膜,n-甲酰吗啉(NFM)水溶液为吸收剂,研究了膜吸收技术分离甲苯/空气混合气的性能。考察了进气气体浓度、气体停留时间、吸收液体积分数和吸收液流量等诸因素对分离性能的影响。研究结果表明,膜吸收技术可以有效地分离甲苯/空气混合气,甲苯去除率可达90%;提高NFM吸收液的浓度和流量可同时增加甲苯的去除效率η和总传质系数K;气体停留时间的减小导致η降低,K反而增大;进气甲苯浓度的增加导致η下降,同时降低总传质系数K。     

Preparation and characterization of glass hollow fiber membrane for water purification applications

This work discusses the preparation and characterizations of glass hollow fiber membranes prepared using zeolite-5A as a starting material. Zeolite was formed into a hollow fiber configuration using the phase inversion technique. It was later sintered at high temperatures to burn off organic materials and change the zeolite into glass membrane. A preliminary study, that used thermogravimetric analysis (TGA), X-ray diffraction (XRD), and Fourier transform infrared (FTIR), confirmed that zeolite used in this study changed to glass at temperatures above 1000 °C. The glass hollow fiber membranes prepared using the phase inversion technique has three different microstructures, namely (i) sandwich-like structure that originates from inner layer, (ii) sandwich-like that originates from outer layer, and (iii) symmetric sponge like. These variations were influenced by zeolite weight loading and the flow rate of water used to form the lumen. The separation performances of the glass hollow fiber membrane were studied using the pure water permeability and the rejection test of bovine serum albumin (BSA). The glass hollow fiber membrane prepared from using 48 wt% zeolite loading and bore fluid with 9 mL min^?1 flow rate has the highest BSA rejection of 85% with the water permeability of 0.7 L m^?2 h^?1 bar^?1. The results showed that the separation performance of glass hollow fiber membranes was in the ultrafiltration range, enabled the retention of solutes with molecular sizes larger than 67 kDa such as milk proteins, endotoxin pyrogen, virus, and colloidal silica.     

PTFE中空纤维膜直接接触式膜蒸馏过程抗污染性能

通过研究不同原水对直接接触式膜蒸馏过程的影响,考察了聚四氟乙烯膜对无机盐、胶体和有机物的抗污染性能。研究表明,在35 g/L氯化钠溶液的4倍浓缩过程中,PTFE膜的相对通量降低至0.72;与碳酸钙饱和溶液的浓缩过程相比,由于溶解度的差异,硫酸钙饱和溶液浓缩过程中晶体析出量更多,通量衰减也更为严重;浓缩硅溶胶时,二氧化硅单体聚合并吸附于膜面从而引起膜通量的衰减,随着浓缩的进行,料液pH值不断上升,使得胶体体系愈加稳定,浓缩到2.6倍后相对通量没有随着浓缩倍数的增加出现明显下降,维持在0.73左右;腐殖酸在水中表现出的亲水性和电负性使其难以在具有较强疏水性的聚四氟乙烯膜表面上形成滤饼层,浓缩过程中相对通量始终保持在0.9以上。     

中空纤维膜生物反应器处理二甲苯废气

采用中空纤维膜生物反应器(HFMB)去除气态二甲苯,研究比较了不同进口浓度、停留时间以及悬浮液中生物量对二甲苯净化效果的影响。实验结果表明:随着进口浓度的增加二甲苯净化效率先升高后平稳,生化降解能力(EC)则明显升高;随着停留时间的增加,二甲苯的净化效率明显增加。实验发现最佳的实验条件是:悬浮液循环速率50 L/h,pH值介于6.5到7.5之间,溶解氧6 mg/L左右,停留时间tR=8.8 s;二甲苯的处理效率可达到92%以上。结果还显示二甲苯净化效率随悬浮液循环流速的变化而波动不大,进口二甲苯的组成对净化效率也有一定的影响。与传统的生物法相比,膜生物反应器可以实现气相和液相的分离以及减少占地面积,具有很好的发展前景。     

聚丙烯中空纤维膜生物反应器净化复合芳香族VOCs

采用中空纤维膜生物反应器(HFMBR)去除气态复合苯系物。挂膜后期,生物反应器的去除效率可以稳定达到80%左右(去除能力(EC)≥225 g/(m3.h))。研究了中空纤维膜生物反应器处理对于单一二甲苯以及混合二甲苯的性能,并且发现HFMBR对于去除单一二甲苯和混合二甲苯都有明显的效果,去除效率均达到90%以上;表明二甲苯之间竞争效应带来的相互抑制作用小。在低浓度的情况下,单一二甲苯和混合二甲苯的去除能力呈线性增加,在高浓度阶段,去除能力增加变缓。比较了混合二甲苯与甲苯联合降解,发现两者之间存在相互抑制作用,但相比传统生物反应器有明显的改善。与传统生物过滤系统比较而言,膜生物反应器有着很好的应用前景。     

CNT-PVDF复合中空纤维膜的制备及其电辅助抗膜污染性能

电辅助膜过滤是减缓膜污染的有效方法,但是受限于缺乏稳定性好、机械强度高、制备工艺简单的导电膜。通过在PVDF膜表面真空抽滤CNT制备得到了导电的碳纳米管-聚偏氟乙烯(CNT-PVDF)复合中空纤维膜,然后利用酸化CNT表面羧基与聚乙烯醇的羟基发生交联反应来固定CNT,以提高导电功能层的稳定性。抗污染实验结果表明:单纯膜过滤在5个运行周期内的膜通量衰减72%,反冲洗再生后膜通量为初始通量的58%;而在电辅助下(2 V电压,膜作为阴极),静电排斥作用可以有效降低膜通量衰减速度,减缓膜污染程度,5个运行周期内的膜通量衰减均小于10%,反冲洗再生时能完全恢复膜初始通量。以上研究结果可为推进电辅助缓解膜污染技术的实际应用提供参考。     

聚合物强化超滤处理含铜废水

聚合物强化超滤工艺（PEUF）是一种将高分子聚合物和超滤技术结合的新型、高效的重金属废水治理方法。以壳聚糖（CTS）为聚合物去除水中的铜离子。考察了吸附络合和超滤过程中影响铜去除率的多种因素。结果表明,溶液pH值为6.0、CTS浓度为0.15 g/L和反应时间为60 min时,通过超滤系统后效果最佳。装载比一定时,铜初始浓度的变化对铜的去除率没有明显影响。CTS对铜的吸附过程符合Langmuir吸附等温方程。还研究了超滤膜的污染情况和膜清洗方法,结果表明,酸清洗效果较好,可使膜通量恢复达87%左右。     

Microbial degradation of phenol in high-salinity solutions in suspensions and hollow fiber membrane contactors

A microporous polypropylene (PP) hollow fiber membrane contactor was used as a bioreactor to degrade phenol in aqueous solutions by Pseudomonas putida BCRC 14365 at 30 degrees C. The fibers were pre-wetted by ethanol to make them more hydrophilic. The initial cell density was fixed at 0.025 gl(-1). The effects of added NaCl concentration (0-1.78 M) and pH (3-8) in substrate solution on the biodegradation were studied. The experimental results by suspended cells were discussed. It was shown that the cells in microporous hollow fibers were unable to tolerate substrate solution pH to a larger range than those in suspensions. The suspended cells grew well on 100 mg l(-1) of phenol only at NaCl concentrations below 0.44 M. However, the cells in microporous hollow fibers could completely degrade 500 mg l(-1) of phenol in solutions containing NaCl concentration up to 1.52 M, which was due to the enhanced tolerance limit to salinity effect by the membrane-attached biofilms and the sufficiently slow mass transfer of NaCl through the membrane pores.     

Development of effective hydrogen sulphide removing equipment using Thiobacillus sp.IW

Hydrogen sulphide is one of the commonest odours emitted by chemical plants. To remove the hydrogen sulphide biologically, a three phase fluidised bed bioreactor was used in which Thiobacillus sp.IW was immobilised on activated carbon. The optimum operating conditions of the bioreactor were 30 degrees C, pH7, aspect ratio (L/D) = 1 and at these conditions, the system removed over 94% of the hydrogen sulphide in the concentration range of 100-200 ppm and flow rate of 1.0-2.0 litre min(-1). From the upset and recovery test, the system proved stable within the moderate inlet concentration changes investigated.     

TiO2/PVDF编织管改性复合膜的制备及性能

以PET编织管为内支撑层,以PVDF为膜基材、纳米TiO2粒子为亲水化改性剂,利用涂覆-浸没凝胶相转化法制备得到具有高强度高通量的PVDF-PET编织管改性复合膜。考察PVDF含量对涂覆及膜表面形貌和膜性能的影响。以水通量、抗污染性等为评价指标,确定改性膜中纳米TiO2颗粒的最佳投入比。结果表明：PVDF-PET编织管中空纤维膜在PVDF耗量、过滤面积和机械强度上较传统中空纤维膜具有更大优势。当铸膜液中PVDF含量在10%~14%时,膜表面平整光滑,涂覆均匀;PVDF含量为12%时,复合膜孔隙率最大。由QCM-D检测分析可知,PVDF/TiO2膜与纯PVDF膜相比,牛血清蛋白（BSA）吸附量减少;TiO2含量为1%时复合膜通量衰减率最低,抗污染性最强,通量最大,复合膜整体性能更为优异。