Cu( Ⅱ )印迹壳聚糖交联膜的表征及其吸附热力学特性

为处理低浓度重金属废水,采用分子印迹、化学预交联及交联方法,制备了一种新型的Cu(Ⅱ)印迹壳聚糖交联膜(IMCu(Ⅱ)-E-CTS),对该膜的孔隙率、溶胀率、氨基含量、表面形态、官能团以及结晶性等性能进行了表征.考察了该膜对低浓度(20～70 mg.L-1)Cu(Ⅱ)的吸附热力学特性.结果表明,IMCu(Ⅱ)-E-CTS孔隙率、溶胀率和氨基含量分别为76.9%、109%、4.26 mmol.g-1;与壳聚糖膜(CTS)相比,IMCu(Ⅱ)-E-CTS溶胀率降低了44.0%、孔隙率升高了528%、氨基含量降低了16.5%;与壳聚糖交联膜(E-CTS)相比,其氨基含量升高了24.6%;与CTS和E-CTS相比,IMCu(Ⅱ)-E-CTS的表面形态发生了显著的变化,内部结构变得疏松;与CTS相比,IMCu(Ⅱ)-E-CTS分子链具有不规整性,结晶能力降低.在含等浓度Cu(Ⅱ)、Ni(Ⅱ)、Zn(Ⅱ)混合溶液中,IMCu(Ⅱ)-E-CTS对Cu(Ⅱ)表现出具有良好的选择性.IMCu(Ⅱ)-E-CTS对Cu(Ⅱ)浓度为20～70 mg.L-1的吸附符合Freundlich等温曲线(R2>0.99),该吸附是自发、放热、熵减小的过程.     

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.     

Inhibition effects of perfluoroalkyl acids on progesterone production in mLTC-1

Perfluoroalkyl substances(PFASs) are a class of fluorine substituted carboxylic acid, sulfonic acid and alcohol, structurally similar to their corresponding parent compounds. Previous study demonstrated the potential endocrine disruption and reproductive toxicity of perfluorooctane sulfonic acid and perfluorooctanoic acid, two dominant PFASs in animals and humans. We explored the relationship between eleven perfluoroalkyl acids(PFAAs)with different carbon chain length and their ability to inhibit progesterone production in mouse Leydig tumor cells(m LTC-1). We found an obvious dose–response relationship between progesterone inhibition rate and PFAA exposure concentration in m LTC-1. The relative inhibition rate of progesterone by PFAAs was linearly related to the carbon chain length and molar refractivity of PFAAs. Mitochondrial membrane potential(MMP) decreased after PFAA exposure at the half-maximal inhibitory effect concentration(IC_(50)) of progesterone production in m LTC-1, while the reactive oxygen species(ROS) content increased significantly. These results imply that the inhibition effect of PFAAs on progesterone production might be due, in part, to ROS damage and the decrease in MMP in m LTC-1.     

添加剂F127对CPVC超滤膜性能的影响研究

文章探讨了添加剂F127的质量百分含量(5%、7%、10%和13%)对CPVC超滤膜微观结构及其性能(包括水通量、截留率、机械性能、亲水性和耐污染性能)的影响.结果表明:随着F127含量的增加,铸膜液剪切粘度增加,截留率上升,亲水性和耐污染性能大幅度提高,纯水通量和机械性能有所下降.综合比较添加剂F127含量为10%时,CPVC超滤膜性能较好.     

调控絮体形态强化电絮凝减缓膜污染

本研究通过调节电絮凝工艺参数来实现对絮体形态的调控,进而达到减缓膜污染的目的.主要考察了电流密度、初始pH、初始电导率对絮体性质以及膜通量的影响,并解析了超滤膜对不同形貌结构絮体的膜污染响应机制.结果表明,电絮凝减缓膜污染的关键是在膜表面形成疏松多孔的滤饼层,电絮凝-超滤(electrocoagulation-ultrafiltration,EC-UF)工艺不但能够有效地减缓膜污染,而且还极大提升了出水水质.增加电流密度,以及在pH中性水质条件下,EC-UF工艺中膜通量保持更高.j=20 A·m~(-2)、初始pH=7、初始电导率=1 000μS·cm~(-1),EC-UF工艺对水中的腐殖酸(humic acid,HA)去除率为97%,平衡阶段归一化通量J/J0达到81%.     

臭氧-活性炭投加对MBR混合液特性及膜污染的影响研究

通过对比实验考察了O_3和PAC投加对MBR工艺中陶瓷膜污染及污泥混合液特性的影响,并探讨了O_3/PAC投加抑制陶瓷膜污染的机理。结果表明:单独O_3、单独PAC及O_3/PAC的联合投加将MBR系统的单周期运行时间分别延长了30%、22%、43%,有效降低了MBR系统跨膜压差的增长速率;O_3和PAC的单独作用及协同作用均有效控制了MBR混合液中EPS、SMP的累积,降低了混合液黏度,在一定程度上减缓了陶瓷膜污染;此外,O_3/PAC的投加改变了膜表面上由EPS和SMP形成的凝胶层特性,从而有效地抑制了MBR系统陶瓷膜污染。     

AnMBR-A-MBR和A2-MBR工艺处理焦化废水效果与急性毒性物质特征对比

焦化废水含高浓度难降解有机物,生物处理是应用最为广泛的方法.为探索并提高焦化废水生物处理的去除效果,采用实验室构建的厌氧膜生物反应器/缺氧/好氧膜生物反应器(An MBR-A-MBR)与厌氧/缺氧/好氧膜生物反应器(A~2-MBR)工艺处理实际焦化废水,对比了两套处理工艺在最佳工况下稳定运行对主要污染物的去除效果和对不同污染负荷的稳定性.采用固相萃取和组分分离、发光细菌Q67测试和三维荧光扫描等手段,对二者各级出水的急性毒性分布和变化以及毒性物质特征进行了研究.结果表明,An MBR的有机污染物去除率为15.3%,显著高于A~2-MBR系统的厌氧段(3.4%),An MBRA-MBR系统能够抵抗更高的污染负荷.An MBR-A-MBR系统各级出水的急性毒性均明显低于A~2-MBR系统,二者毒性当量总去除率分别为85.2%和79.2%.各级出水中极性组分的急性毒性最强,极性和弱极性组分贡献了绝大部分毒性当量.各级出水的急性毒性主要来自Ⅱ区芳香族蛋白类似物,且Ⅱ区芳香族蛋白类似物可能是极性组分中主要的急性毒性物质.     

基于线性溶解能关系预测污染物在被动采样材料与环境介质之间的分配系数

半透膜采样装置(SPMD)作为一种重要的被动采样器,被用于监测有机污染物的环境水平.SPMD的采样材料是置于低密度聚乙烯"口袋"中的三油酸甘油酯.根据有机污染物在被动采样材料与环境介质之间的平衡分配系数(包括被动采样材料/空气分配系数K(sA).和被动采样材料/水分配系数K(sw))值,可估算SPMD的采样速率,也可计...     

盐胁迫下Dslhcb3和cao基因的表达及类囊体磷酸化状态转化

LHCⅡ在在类囊体膜中除了进行光能的吸收和传递之外,在维持类囊体膜的结构,调节激发光能在两个光系统之间的分配,光保护以及对各种环境的适应等过程中都起着重要的作用.为揭示盐藻LHCB在盐胁迫下的作用机制,以盐生杜氏藻(Dunaliella salina为材料,应用实时PCR的方法和蛋白电泳技术,研究lhcb3和叶绿素a加氧酶cao基因在低盐胁迫下的表达变化,以及盐藻类囊体膜的磷酸化水平和磷酯酶的变化.结果表明,在低盐环境下,lhcb3和cao基因的表达活性都呈降低的总趋势,这可能是盐藻适应不浓度盐环境胁迫的不反应.类囊体膜蛋白磷酸化水平先是降低,之后有所升高.时,发现磷酸酯酶有着相的变化趋势,并在12 h时最高.由此认为低盐条件下,类囊体膜蛋白在前期磷酸化水平的降低与磷酸酯酶活性降低有关,但在12 h后磷酸化水平有所升高,可能是细胞内平衡调节的结果,即磷酸激酶活性增强的结果.     

两亲性共聚物共混PVDF超滤膜的界面性质与抗蛋白质污染的研究

考察了两亲性共聚物聚氧乙烯/聚氧丙烯/聚氧乙烯[PEO-PPO-PEO(F127)]共混聚偏氟乙烯(PVDF)铸膜液,在水相凝胶浴中的相转化动力学过程.结合衰减全反射傅立叶转变红外光谱(ATR-FTIR)、扫描电子显微镜(SEM)、原子力显微镜(AFM)等表征手段,分析了F127含量在PVDF膜表面的PEO富集率、膜微观形貌及结构参数的影响规律.以静态吸附量、过滤比通量衰减及膜污染阻力模型,评价了F127/PVDF共混膜对牛血清蛋白(BSA)的抗污染性能.结果表明随着F127添加量增大,相转化延迟分相行为增强,膜表面及内部孔径和孔隙率升高,表面粗糙度增大,膜面PEO富集率的增幅在F127含量达15%后趋于稳定.F127含量在15%~25%之间的共混膜有较高的渗透通量和BSA截留率,静态吸附量低,比通量衰减速度慢,不可逆污染指数低,堵孔阻力及滤饼层阻力分布系数小,表现了良好的抗污染性能.