阳极内添加阳离子交换树脂提升辊压“三合一”膜电极MFC性能

阳极-隔膜-阴极的"三合一"膜电极结构能够最大程度减小阴阳极间距,提高微生物燃料电池(microbial fuel cell,MFC)的输出功率.为进一步提高MFC性能,本研究使用非贵金属材料构建了辊压"三合一"膜电极系统,其欧姆内阻降低至3~5Ω.以乙酸钠为底物,MFC的最高功率密度达到446 m W·m-2.向阳极内添加固体小球(如聚苯乙烯球和玻璃微球)可在辊压过程中增加阳极表面和内部的大孔,强化电解液向阴极的传递从而使MFC的功率密度提升10%.添加阳离子交换树脂能够进一步强化阳极内部的质子传递,提高阴极电位,从而将功率密度提升至543 m W·m-2.此外,阳极内添加阳离子交换树脂还可提高电池运行的稳定性和库仑效率.     

一体化设备处理某乡镇微污染地下水工艺研究

针对乡镇地下水微污染的特点,研究石英砂一沸石过滤器、膜组件与紫外线消毒器一体化设备处理效果,当进水浊度在15—36NTU,出水浊度达0．2—0．5NTU,去除效率达98％-99．3％;进水氨氮浓度范围为0．4～1．4mg／L,反应3．5min后出水的氨氮浓度小于0．5mg／L;微生物指标去除率为100％。采用一体化设备处理乡镇微污染地下水可行。     

应用于水处理的反渗透浓缩液处理和资源化技术综述

在反渗透技术中,浓缩液的处理是最关键的问题之一。随着反渗透技术在水处理上的广泛使用,浓缩液的处理和资源化利用已经成为急需解决的大问题。介绍了目前国内外处理浓缩液的方法,包括Fenton法、混凝一吸附法、膜法、蒸发法、浓缩液回灌和海水淡化浓缩液再利用。     

多孔陶瓷膜气体除尘性能研究

文章以空气净化除尘为应用背景,采用孔径为15μm的陶瓷膜对含粉尘空气过滤净化。考察了粉尘粒径、浓度、空气湿度对膜渗透性能的影响,以及反吹条件对滤饼清除效果的影响。结果表明,膜渗透通量随着粉尘粒径的增加而增大,随着粉尘浓度和环境湿度的增加而变小;膜对粉尘的截留率均可达到100%;在反吹脉冲时间为0.4 s,随着反吹压力的增大,滤饼越来越小;0.33 MPa的反吹压力下滤饼可基本清除,揭示了滤饼补丁式清除现象。研究结果为陶瓷膜在气体除尘领域的应用提供了参考。     

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.     

2205双相不锈钢在淡化海水中的点蚀行为

目的研究2205双相不锈钢在一级反渗透(RO)淡化海水、海水及浓缩海水中的点蚀行为。方法运用开路电位、交流阻抗、阳极极化曲线和电化学频率调制技术研究2205双相不锈钢在不同温度(60~90℃)及不同海水(一级反渗透淡化海水、天然海水、1.6倍浓缩海水)中的点蚀行为。结果 2205双相不锈钢在一级RO淡化海水中,随温度升高,自腐蚀电位逐渐负移。在80℃的一级RO淡化海水中,在浸泡1 d时即有发生点蚀的倾向,在第28 d时已经发生了稳态蚀点。浸泡初期不锈钢的扰动电流为2μA/cm~2之内,浸泡41 d的扰动电流接近12μA/cm~2,且其值波动幅度更大。结论随着温度的升高钝化膜稳定性降低,2205不锈钢耐蚀性降低。钝化状态下,其在一级RO淡化海水中比在海水中腐蚀严重,点蚀敏感性随Cl–浓度的升高而增加。     

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%.