Improvement of antifouling characteristics in a bioreactor of polypropylene microporous membrane by the adsorption of Tween 20

Surface modification by physical adsorption of Tween 20 was accomplished on polypropylene microporous membranes(PPMMs). Attenuated total reflection-Fourier transform infrared spectroscopy(ATR/FT-IR)and field emission scanning electron microscope(FE- SEM)were used to characterize the chemical and morphological changes on the membrane surfaces.Water contact angles and relative pure water fluxes were measured.The data showed that the hydrophilic performance for the modified membranes increased with the increase in the adsorption amount of Tween 20 onto the surface or into the pores of polypropylene microporous membranes.To test the antifouling property of the membranes by the adsorption of Tween 20 in a membrane bioreactor(MBR),filtration for active sludge was performed using synthetic wastewater.With the help of the data of water fluxes and the FE-SEM photos of the modified PPMMs before or after operating in a MBR for about 12 d,the PPMMs with monolayer adsorption of Tween 20 showed higher remained flux and stronger antifouling ability than unmodified membrane and other modification membranes studied.     

Gas-initiation under UV and liquid-grafting polymerization on the surface of polysulfone hollow fiber ultrafiltration membrane by dynamic method

Using the inner-surface of polysulfone hollow fiber ultrafiltration membranes as grafted layer, the method of gas-initiation and liquid-polymerization has been studied, which aimed to adjust the diameter of the pores in the membranes. The degree of polymerization varied with the changes of the parameters, such as irradiation time, monomer concentration, temperature and time of polymerization and so on. The results indicated that using benzophenone(BP) which is in a gaseous condition as photo-initiator, acrylamide as graft monomer, the polyacrylamide chain was grafted on the surface of membranes. After the surface membrane being modified, the water flux and retention altered, and thus it can be seen that the diameter of the pores in the membrane was altered. These experiments contribute to finding a new way to produce the hollow fiber membrane with the small pore size and are extraordinarily worth developing and studying.     

Improvement of the antifouling characteristics in a bioreactor of polypropylene microporous membrane by the adsorption of Tween 20

Surface modification by physical adsorption of Tween 20 was accomplished on polypropylene microporous membranes (PPMMs). Attenuated total reflection-Fourier transform infrared spectroscopy (ATR/FT-IR) and scanning electron microscope (SEM) were used to characterize the chemical and morphological changes on the membrane surfaces. Water contact angles and relative pure water fluxes were measured. The data showed that the hydrophilic performance for the modified membranes increased with the increase in the adsorption amount of Tween 20 onto the surface or into the pores of polypropylene microporous membranes. To test the antifouling property of the membranes by the adsorption of Tween 20 in a membrane bioreactor (MBR), filtration for active sludge was performed using synthetic wastewater. With the help of the data of water fluxes and the FE-SEM photos of the modified PPMMs before or after operating in a MBR for about 12 d, the PPMMs with monolayer adsorption of Tween 20 showed higher remained flux and stronger antifouling ability than unmodified membrane and other modification membranes studied.     

新型膜-生物反应器中膜丝长度对临界通量的影响

为了优化膜-生物反应器中的膜组件长度,考察了4组不同长度膜组件(膜丝长度为0.2、0.4、0.6、0.7m)在不同曝气量下的临界通量区.试验结果发现,曝气强度相同时,膜丝长度为0.4m膜组件的临界通量区高于膜丝长度为0.2m、0.6m和0.7m的膜组件,说明膜丝长度存在最优值;膜组件中膜丝长度相同时,曝气强度越大临界通量区越高.膜丝(膜组件)长度对临界通量产生影响主要体现在2方面:一是膜丝长度的变化会改变膜丝上局部通量的非均匀分布状况;二是曝气气泡对不同长度膜丝的冲刷作用不同.应用局部通量分布方程模拟了清洁膜丝上局部通量的分布状况;结果表明,膜丝长度越长,沿膜丝长度方向的局部通量分布越不均匀,则膜组件的临界通量越小.从曝气气泡对膜丝的冲刷作用看,相同曝气量下膜组件(即膜丝)长度越长,形成的气泡越大,在大气泡的作用下膜丝更易于摇摆和震动以达到减轻膜表面污染物沉积的效果,即可能达到的临界通量越大.因此,对于减轻膜污染而言,即得到最高的临界通量区,膜丝(膜组件)长度存在最优值.     

纳米二氧化硅改性聚酰胺复合膜及其抗污染性能

采用经3-氨基丙基三甲氧基硅烷（APTMS）修饰的纳米二氧化硅（SiNPs）,对正渗透聚酰胺复合膜（TFC）进行抗污染改性.在静电吸附作用下,APTMS-SiNPs可通过表面涂覆的方式接枝在带负电的TFC表面,以提高膜的亲水性和抗污染效能.改性后,大量纳米材料成功接枝在膜表面,膜表面的接触角降低了54%,而膜电位和表面粗糙度无明显变化.采用海藻酸钠作为代表污染物,对原膜和改性膜的动态污染行为进行探究,通过监测污染阶段的通量变化和膜表面滤饼层含量,发现改性膜在膜污染后期表现出优良的抗污染性能,最终通量衰减降低了28%,膜表面滤饼层含量减少了35%.改性膜的抗污染性能主要归因于APTMS-SiNPs带来的膜表面亲水性的大幅提高.     

GO-TiO2改性中空纤维膜的制备条件及抗污染性能研究

以氧化石墨烯(GO)与纳米二氧化钛(TiO_2)为改性剂,采用界面聚合法与抽滤吸附结合,对聚偏氟乙烯中空纤维超滤膜(简称原膜)进行表面改性,得到新型纳米改性膜(简称GO-TiO_2改性膜).研究改性膜的制备工艺条件及其对腐殖酸(HA)的吸附截留性能与抗污染特性.结果表明:(1)最佳制备工艺条件为:钛酸丁酯2 m L、GO 1 mg、间苯二胺1%(质量分数)、间苯二胺浸泡时间8 min、均苯三甲酰氯0.2%(质量分数)、均苯三甲酰氯浸泡时间10 min;(2)亲水性提高显著,亲水性表面为GO-聚酰胺-TiO_2复合结构,改性膜接触角由80.6°±1.8°下降到38.6°±1.2°;(3)抗污染性能提高明显.改性膜通量总衰减率由改性前的51.2%下降到35.6%,过滤周期约为原膜的2.5倍;反冲洗后膜通量恢复率由69%提高到96%.     

膜法氨水吸收脱除烟气中CO2的研究

以氨水为吸收剂,对聚丙烯中空纤维膜分离烟气中CO2进行了实验研究.结果表明:随着气体流量和入口CO2浓度的增加,CO2去除率下降而传质速率增加;随着氨水浓度和氨水流量的增加,CO2去除率和传质速率均显著增加,但当氨水浓度大于2.5 mol·L-1,吸收液流量大于80m L·min-1后,膜接触器对CO2去除率和传质速率基本保持不变;膜接触器连续运行15 d后其吸收性能显著下降,CO2去除率、传质速率、总传质系数均下降约40%~50%.接触角测量、SEM及XPS表征结果表明:随着操作的进行,聚丙烯膜在吸收液环境中接触角逐渐降低,疏水性减弱,造成膜孔润湿;同时碳酸盐在膜孔形成结晶,堵塞膜孔,使得传质阻力进一步增加,从而造成膜接触器吸收性能的下降.     

中空纤维膜器中二(2-乙基己基)磷酸萃取铈(Ⅲ)的动力学研究

研究了在中空纤维膜萃取器中二（2－乙基己基）磷酸（HDEHP）萃取铈（Ⅲ)的动力学，通过测定水相和有机相流速，水相铈（Ⅲ) 浓度、酸度和有机相HDEHP浓度，得出了萃取速率的规律。实验结果表明，在本实验条件下，萃取速率 为界面化学反应控制，Ce^3 与第一个HD EHP二聚体离子HA^-2的配位反应是萃取速率的控制步骤。     

吸收液对中空纤维膜接触器回收尿液中氨氮的影响

采用中空纤维膜接触器(Hollow Fiber Membrane Contactor,HFMC)回收尿液中的氨氮,系统研究了吸收液类型(H3PO4、H2SO4和HNO3)对氨回收效能、水蒸气的跨膜通量和所获液体肥料的影响.结果 表明,使用H2SO4作为吸收液时氨氮回收效能最优,其次是H3PO4和HNO3.当采用H2SO...     

Extraction kinetics of phenol with N, N-di (1-methyl-heptyl) acetamide-kerosene using hollow fiber membrane extractor

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投加粉末活性炭对一体式膜-生物反应器膜污染的影响研究

通过试验考察了粉末活性炭（PAC）对一体式膜-生物反应器中膜污染的影响．在2种类型的污泥（膨胀污泥和非膨胀）中，投加适量PAC可以减轻膜污染，表现为临界膜通量的提高和连续运行中膜污染增长速率的降低．当污泥性质和浓度不同时，最佳PAC投加范围亦不同．PAC投量过大会引起临界通量下降．PAC的投加显著降低了混合液中溶解性物质的浓度，减轻了溶解性物质的吸附和膜孔堵塞污染，并改善了絮体结构．污泥比阻与污泥混合液膜过滤性能之间有很好的相关性，可作为污泥混合液膜过滤性能的快速评价指标．     

Preparation of high concentration polyaluminum chloride by chemical synthesis-membrane distillation method with self-made hollow fiber membrane

A method of direct contact membrane distillation (DCMD) with a self-made hollow polyvinylidene fluoride membrane was applied to prepare high concentration polyaluminum chloride (PACl) with high Al_b content based on chemical synthesis. The permeate flux and Al species distribution were investigated. The experimental results showed that the permeate flux decreased from 14 to 6 kg/(m²·hr) at the end of the DCMD process, which can be mainly attributed to the formation of NaCl deposits on the membrane surface. The Al_b content decreased slightly, only from 86.3% to 84.4%, when the DCMD experiment finished, correspondingly the Al_c content increased slightly from 7.2% to 8.5%, and the Al_a content remained at 7% during the whole DCMD process. A PACl with Al_b content of 84% at total aluminum concentration 2.2 mol/L was successfully prepared by the chemical synthesis-DCMD method.     

浸没式膜生物反应器中生物质的增殖及其对运行效能的影响

研究了浸没式膜生物反应器(sMBR)中生物质的增殖过程及其对反应器运行效能的影响.采用可编程逻辑控制器(PLC)对sMBR实现过程控制,在不排泥的情况下运行20~40d,生物质浓度达到9670mg/L,出水的各项指标达到最佳,但随着生物质的继续增殖,污泥表观黏度急剧增加,引起F/M的降低和传质困难,最终导致污泥活性降低及出水效果恶化.表观黏度与MLSS、EPS的增长趋势一致,表明这2个因素与活性污泥的表观黏度有着密切关系.采用SEM/EDS方法对不同阶段膜表面进行了观察及表面元素分析,结果表明膜表层污染物中有机物占主要部分,无机成分所占比例较小.     

Emergency membrane contactor based absorption system for ammonia leaks in water treatment plants

Because of the suspected health risks of trihalomethanes (THMs), more and more water treatment plants have replaced traditionalchlorine disinfection process with chloramines but often without the proper absorption system installed in the case of ammonia leaksin the storage room. A pilot plant membrane absorption system was developed and installed in a water treatment plant for this purpose.Experimentally determined contact angle, surface tension, and corrosion tests indicated that the sulfuric acid was the proper choice as the absorbent for leaking ammonia using polypropylene hollow fiber membrane contactor. Effects of several operating conditionson the mass transfer coefficient, ammonia absorption, and removal efficiency were examined, including the liquid concentration,liquid velocity, and feed gas concentration. Under the operation conditions investigated, the gas absorption efficiency over 99.9%was achieved. This indicated that the designed pilot plant membrane absorption system was effective to absorb the leaking ammonia in the model storage room. The removal rate of the ammonia in the model storage room was also experimentally and theoretically foundto be primarily determined by the ammonia suction flow rate from the ammonia storage room to the membrane contactor. The ammoniaremoval rate of 99.9% was expected to be achieved within 1.3 h at the ammonia gas flow rate of 500 m3/h. The success of the pilot plantmembrane absorption system developed in this study illustrated the potential of this technology for ammonia leaks in water treatmentplant, also paved the way towards a larger scale application.     

Performances of biological aerated filter employing hollow fiber membrane segments of surface-improved poly （sulfone） as biofilm carriers

Using the surface of poly （sulfone） hollow fiber membrane segments as grafted layer, the hydrophilic acrylamide chain was grafted on by UV-photoinduced grafting polymerization. The gained improvement of surface wettability for the modified membrane was tested by measuring the contact-angle as well as FTIR spectra. Then correlation between the hydrophilic ability of support material and the biofilm adherence ability was demonstrated by comparing the pollutant removal rates from urban wastewater via two identical lab-scale up-flow biological aerated filters, one employed the surface wettability modified poly （sulfone） hollow fiber membrane segment as biofilm carder and the other employed unmodified membrane segment as biofilm carder. The experimental results showed that under the conditions of influent flux 5 L/h, hydraulic retention time 9 h and gas to liquid ratio （G/L） 10： 1, the removal rates of chemical oxygen demand （COD） and ammonium nitrogen （NH4^＋-N） for the modified packing filter and the unmodified packing filter was averaged at 83.64% and 96.25%, respectively, with the former filter being 5%-20% more than the latter. The effluent concentration of COD, NH4^＋-N and turbidity for the modified packing filter was 25.25 mg/L, 2 mg/L and 8 NTU, respectively. Moreover, the ammonium nitrogen removal performance of the filter packing the modified PSF was compared with the other bioreactor packing of an efficient floating medium. The biomass test indicated that the modified membrane matrixes provided better specific adhesion （3310-5653 mg TSS/L support）, which gave a mean of 1000 mg TSS/L more than the unmodified membrane did. In addition, the phenomenon of simultaneous denitrification on the inner surface of the support and nitrification on the outer surface was found in this work.     

浸没式双轴旋转厌氧膜生物反应器处理啤酒废水试验

研究了新型浸没式双轴旋转厌氧膜生物反应器(SDRAnMBR)处理模拟啤酒废水的运行性能.研究结果表明,SDRAnMBR对啤酒废水有较好的处理效果,处理过程负荷提高快,有机物去除率高,系统耐冲击负荷的能力强,而且运行非常稳定.正常运行期间,进水COD在2900～5200mg·L-1,容积负荷为4.97～12.48kg·m-·3d-1(以COD计)时,COD的平均去除率为95.15%.膜截留和三相旋转流的共同作用,加强了在高污泥浓度(MLSS)和高负荷条件下运行时的混合和传质,从而强化了SDRAnMBR在高MLSS和高容积负荷下运行的稳定性和出水水质.     

远程氩等离子体对聚醚砜膜表面性能的改性

采用双悬浮探针和电子自旋共振法定量对远程氩等离子体进行诊断,确定了电子、离子浓度和自由基浓度的分布,以预测表面改性的最佳区;利用远程氩等离子体对聚醚砜（PES）超滤膜进行表面改性,通过接触角测量、扫描电子显微镜和X射线光电子能谱分析改性前后膜表面结构和性能的变化,最后利用牛血清蛋白分离实验分析改性前后膜的分离性能和抗污染性能变化.结果表明,氩等离子体中电子、离子浓度沿轴向距离逐渐降低,在30cm后接近于0,而40cm处自由基浓度仍维持在90%以上,为可能的最佳表面改性区;在该区对PES超滤膜改性后,引入含氧基团和含氮基团,膜表面（O+N）/C原子比从0.18增大到0.46,增强膜表面极性;在最佳处理条件下,膜表面接触角从67°减小到18°,使膜表面亲水性能增强,抑制了电子、离子对膜的刻蚀作用;通过牛血清蛋白实验测定改性后膜污染率由70.3%减小到64.7%,抗污染性能提高.     

表面覆膜多层复合纤维滤料过滤性能的数值研究

根据Matlab软件和数值计算前处理软件Gambit中的Journal文件建立了多层复合纤维滤料模型,利用计算流体动力学(CFD)技术对沿气流方向具有不同纤维填充密度及直径分布的滤料内部的气-固两相流动特性进行了数值研究,计算了不同运行条件下滤料的压力损失及过滤效率,并将数值计算值和经典模型及实验关联式的计算值进行了比较.结果表明,压力损失的数值计算预测值和实验关联式计算值吻合较好,误差在2%以内.随着迎面风速的增加,压力损失呈线性增加.相对于填充密度,纤维直径对压力损失和过滤效率的影响更显著.不同结构滤料过滤效率的数值计算结果和理论模型的计算值变化趋势基本一致.不同迎面风速下,过滤效率都是先减小后增大,对于颗粒直径dp≤0.05μm的颗粒,随着风速的增大,过滤效率减小;对于dp≥0.5μm的颗粒,过滤效率变化趋势正好相反.迎面风速不同,过滤效率最低点出现的位置也不同.对于小颗粒,风速越小,扩散作用起主导作用;而对于大颗粒,风速越大,惯性作用越明显.过滤效率最低点出现在扩散作用逐渐弱化,惯性作用刚刚开始加强的区域.多层复合滤料在结构上采用纤维直径逐层加大的梯次结构时,能够获得较高的过滤效率.而在多层复合滤料表面覆膜后过滤效率平均增加约13%.     

可见光响应GO/g-C3N4改性平板膜的制备条件及其表面性能

以氧化石墨烯(GO)与石墨相氮化碳(g-C_3N_4)为改性剂,采用界面聚合与超滤抽吸结合,对PVDF平板超滤膜(简称原膜)进行表面改性,得到可见光响应的纳米复合改性膜(简称:GO/g-C_3N_4改性膜),研究改性膜的制备条件及其表面性能.结果表明:(1)最佳制备条件为:g-C_3N_410 mg、g-C_3N_4/GO比值为80、苯胺(An)浓度0.5%、An浸泡时间4 h、过硫酸铵(APS)浓度0.8 g·L~(-1)、APS浸泡时间3 h;(2)GO/g-C_3N_4改性膜表面亲水性与抗污染性能显著提高,表面接触角下降55.1%,通量衰减率下降46.3%,经水力冲洗后膜通量恢复率增加51.5%;(3)改性膜的机械强度与拉伸强度增强,拉伸弹性模量增加;(4)GO/g-C_3N_4改性膜表面具有较强的可见光活性,最大吸收边带为495 nm,表面改性功能层的禁带宽度(Eg)值为2.5 e V.改性膜对罗丹明B(Rh B)的可见光催化降解去除率达到81.2%,而原膜对Rh B吸附去除率仅为42.2%.     

Myrothecium verrucaria NF-08产漆酶条件的响应面法优化及粗酶染料脱色研究

以半知菌属疣孢漆斑菌Myrothecium verrucaria NF-08为供试菌,采用响应面方法优化菌株产漆酶条件,并以其漆酶粗酶进行3种结构类型6种染料的脱色试验,考察了粗酶浓度、温度和p H值对脱色率的影响.两水平析因设计、中心组合设计和验证试验结果表明:葡萄糖浓度为15.4 g·L~(-1)、蛋白胨浓度为43.3 g·L~(-1)和培养基初始p H值为6.68时,漆酶活性达到最大值(25.58±1.60)U·m L~(-1),是单因素试验(16.82 U·m L~(-1))的1.52倍,提高了52.1%.以上述发酵条件获得的M.verrucaria NF-08漆酶粗酶对3种结构类型染料均有脱色效果,排序为偶氮类优于芳甲烷类优于蒽醌类.脱色率随粗酶浓度增大(2~8 U·m L~(-1))、反应温度升高(15~35℃)而上升,随p H值上升(4~10)而下降.粗酶浓度为5 U·m L~(-1),反应温度为25℃,p H值为4时,偶氮类染料铬黑T和芳甲烷类染料碱性品红即可几乎完全脱色,脱色率分别为99.2%和94.6%.