油田采出水膜法处理技术应用研究进展

油田采出水的处理回用是一种必然的趋势.膜法处理技术可以解决传统水处理中存在的问题,有效地去除采出水中的油类、细菌、硬度,防止油层堵塞、结垢和外排水的环境污染,对于促进油气田可持续发展、水资源再利用和环境保护具有非常重要的意义.微滤、超滤和纳滤、反渗透膜技术在油田采出水处理中已有较多的应用研究.超滤在除油和除浊方面表现出...     

有机物性质对混凝-微滤-纳滤去除水中重金属的影响

为了探明有机物性质对混凝-微滤-纳滤去除水中重金属的影响,将腐殖酸和乙酸分别作为背景有机物,系统考察了组合工艺对镉(Cd)、铜(Cu)、镍(Ni)和锌(Zn)的去除效能及其膜通量变化过程,并通过物料衡算对4种重金属的去除行为进行了比较分析。结果表明,当原水中不含有机物时,Cu的截留率最高,达到97%以上,纳滤膜是去除其他3种重金属的主要步骤。随着原水中腐殖酸含量的增大,混凝-微滤阶段对重金属的截留能力显著增强,膜通量衰减速度加快。相反地,乙酸的存在对于组合工艺处理效能具有明显的负面效应。此时,重金属既不能被铝盐絮体有效吸附,也不能通过静电作用截留在NF膜表面。4种重金属在滤液和浓水中的回收率Rrec都超过了80%,膜通量的变化与处理无机重金属溶液时相近。     

荷电纳滤膜研究进展

根据所带电荷性质不同,荷电纳滤膜可分为荷正电纳滤膜、荷负电纳滤膜和荷电镶嵌膜。所带电荷不同,其分离模型也不同,荷正（负）电纳滤膜的分离模型有Donnan模型、固定电荷模型、空间电荷模型、静电位阻模型和杂化模型等。荷电镶嵌膜主要通过离子交换进行分离。因此,荷电纳滤膜的分离具有较高的选择性。目前,国内外制作荷电纳滤膜的方法主要有L—S法、表面改性法、共混法和复合法几类,其中表面改性是最常用的方法。     

Towards green membranes: preparation of cellulose acetate ultrafiltration membranes using methyl lactate as a biosolvent

Ultrafiltration membranes were prepared using cellulose acetate (CA) as a polymer, LiCl and CaCl₂ as porogens and methyl-(S)-lactate as a solvent. CA, methyl lactate and the porogens used in this work are obtained from renewable resources; they are biodegradable, non-toxic and non-volatile organic compounds. Flat sheet ultrafiltration membranes were prepared by the phase inversion technique. A molecular weight cut-off between 15 and 35 kDa (polyethylene glycol) and pure water permeability between 13 and 177 litres h^? 1m^? 2 bar^? 1 were obtained. These parameters are in the ideal range for water treatment industry. Improvement of pollutant degree and ecotoxicity of the process was evaluated by ‘green’ metrics by the P (pollutants, persistent and bioaccumulative) and E (ecotoxicity) parameters. Both of these variables were recorded as zero using our method. This study represents a step ahead towards the production of ultrafiltration polymeric membranes by a ‘greener’ process than current methods.     

聚丙烯腈纳滤膜的制备及其对氯化钙的去除

以聚丙烯腈为原料制备了荷正电纳滤膜。分别采用热失重分析、FTIR、SEM对膜表面官能团及膜微观形貌进行了表征。考察了聚乙二醇添加剂、料液中氯化钙质量浓度、渗透侧流速等制备条件和操作条件对溶液中氯化钙去除率的影响。实验结果表明：以聚丙烯腈为原料、不添加聚乙二醇制备荷正电纳滤膜,在料液中氯化钙质量浓度为45mg/L、渗透侧流量为0.160mL/s的条件下,钙离子去除率可达96.0%;经蒸馏水冲洗再生后,该膜对钙离子去除率仍可达94.0%。     

酒石酸钾钠(PST)对纳滤处理重金属废水的强化效果

以酒石酸钾钠(PST)为络合剂,分别选取Cd、Zn、As和Pb 4种金属废水,探索络合纳滤工艺对金属离子去除率和膜通量的强化效果,测定纳滤膜表面接触角以表征膜通量变化规律,并研究了压力、金属浓度和溶液pH参数对络合纳滤过程的影响。结果表明,PST对4种金属去除的强化效果存在相似规律,分别有一个最佳PST添加浓度。随PST浓度的增加,金属离子去除率先增大后减小,而膜通量一直增大。研究发现,纳滤膜表面接触角与膜通量呈稳定的反比例关系,与金属离子种类和PST添加量无关。随着操作压力的增大,膜通量线性增加,去除率基本不变;金属离子浓度的增加对膜通量影响不大,金属去除率略有上升;pH在4~5之间变化时,As去除中膜通量和去除率均有所升高,而Cd、Zn和Pb 3种溶液处理效果基本不受pH影响。     

Selective separation and preconcentration studies of chromium(VI) with Alamine 336 supported liquid membrane

Chromium compounds have received considerable attention because these are used extensively in such industrial applications as electroplating, steelmaking, tanning of leather goods, and corrosion inhibition. The use of supported liquid membranes (SLMs) to remove metals from wastewaters has actively been pursued by the scientific and industrial community. In the present work, the selective separation and preconcentration of Cr(VI) ions has been studied by using a commercial amine as the membrane liquid on the porous polypropylene support. Permeation experiments were conducted on a laboratory scale batch reactor made up of perspex, with a memberane fixed amid the two chambers. The flux of Cr(VI) ions was found to be maximum (3.15?×?10^?5?mol?cm^?2?s^?1) around pH 1. Above and below this pH the flux decreases. Distribution studies show that an increase in the amine concentration leads to higher distribution coefficients at fixed pH values. At pH around unity, the distribution of Cr(VI) ions into the organic phase was found to be maximum, of the order of 56.3. The Cr(VI) transport through the membrane increases with rise in temperature. In order to check the long-term efficiency of the flat sheet SLM, an experiment was conducted with higher Cr(VI) concentration (5000?ppm) for 24?h, at optimised parameters. It was observed that in 24?h, about 1/5th of the feed Cr(VI) is left over while the rest is transported. However, minute organic droplets were also seen in the feed and strip compartments, after 1 day. This observation suggested the loss of membrane liquid. The feasibility of preconcentration of Cr(VI) by using the proposed SLM parameters, was also studied by using the hollow fibre (HF) system. Highest enrichment factor (E.F) value was obtained for 50?mg?L^?1 whereby all of the metal was transported to the stripping phase and the resulting Cr concentration was 688?mg?L^?1 (E.F?=?13.8). It was observed that while treating more diluted solutions, the enrichment factor decreases. The values of E.F equal to 8.9 and 11.3 were found for initial Cr concentration of 10 and 30?mg?L^?1.     

纳滤膜脱除矿山酸性废水中重金属离子试验研究

采用纳滤膜法脱除矿山酸性废水中的重金属离子进行了试验研究,讨论了压力、pH、浓差极化、共存离子和膜污染对膜性能的影响。结果表明,在最佳条件下,DK2540纳滤膜对矿山酸性废水中的重金属离子截留率都超过了97%,出水浓度除Cu2+为1.5mg/L外,Ni2+、Zn2+、Pb2+均<0.5mg/L,透过液中的重金属离子基本达标排放,浓缩液可进一步回收利用。     

纳滤膜在洁霉素废水浓缩分离中的应用

考察了DLNF₂-30(0.24m²)、MPS-44(1.4m²) 2种卷式纳滤膜串联运行时对洁霉素废水中残余洁霉素的浓缩性能.实验结果表明,当进水中洁霉素浓度为200mg/L 时,对废水浓缩10～20倍后洁霉素浓度可浓缩至2000mg/L 以上,满足回用要求,浓缩时间为60～70h.在浓缩过程中,COD_Cr的截留率始终高于80%,洁霉素截留率始终高于90%,且洁霉素的回收率高于90%.     

荷负电超滤膜同时去除水中天然有机物和铅离子

通过特定的化学反应对截留分子量为30 kD的再生纤维素(RC)超滤膜进行改性,得到荷负电超滤膜,并研究了其表面荷电性能。选用腐殖酸作为天然有机物的代表物质,研究荷负电改性膜同时去除溶液中腐殖酸和铅离子,主要考察了pH值和腐殖酸铅离子络合作用对两者截留率的影响,并对比了荷负电膜和未改性膜去除天然有机物和铅离子的研究结果。得到如下结论:(1)在酸性及中性溶液环境下,随着pH值的升高,荷负电超滤膜对腐殖酸和铅离子的截留率都提高。(2)铅离子与腐殖酸共存时,腐殖酸铅离子络合体的荷负电性相比于原腐殖酸分子降低,荷负电超滤膜对混合溶液中腐殖酸的截留率有一定程度降低,络合在腐殖酸表面的铅离子随着腐殖酸的截留而被截留,铅离子截留率得到一定程度提升。(3)由于腐殖酸与铅离子络合体带负电,其与荷负电膜之间存在静电作用,所以荷负电改性膜对腐殖酸和铅离子的截留率比未改性中性膜高。