马铃薯淀粉废水的碱式聚合氧化铝处理

本文介绍了用碱式聚合氯化铝处理高浓度有机淀粉废水的效果。用实验室配制的CODw浓度为10000－15000mg/L的淀粉废水以不同用量的碱式聚合氯化铝为絮凝剂处理后，CODw去除率达到28％－47％，再经吸附柱吸附后，CODw去除率可达到65％。     

聚合硫酸铁对几种有机废水的处理效果初探

比较了聚合硫酸铁对五种有机废水的处理效果，并探讨了聚铁对不同分子量有机物模拟废水的ＣＯＤｃｒ去除率与废水有机物分子量之间的关系．结果表明：聚铁对有机废水ＣＯＤｃｒ去除率随废水主成分的分子量上升而呈上升趋势，废水有机成分分子量在３００～４００以上时，聚铁处理有机废水效果较好．     

O_3氧化处理苯胺、硝基苯废水的试验研究

利用Ｏ_３处理含苯胺、硝基苯有机废水，反应速度快、效果好这一特点使苯胺和硝基苯的去除率分别达到９５％和９９％，处理后废水可达标排放。     

改性膨润土处理造纸废水的研究

以钠基膨润土为原料,合成了镍锫—无机柱撑、镍锆—有机柱撑系列改性膨润土,比较了不同改性膨润土对造纸废水的处理效果,并确定了各改性膨润土处理废水的投加量、pH值、搅拌时间等最佳条件。结果表明;有机柱撑膨润土对造纸废水的处理效果最好,当搅拌时间为20min,pH值为12,改性土用量为0.8g/L时,其COD的去除率可达77.8％,同时其色度、浊度去除率分别为94％和97.4％。     

新型有机高分子絮凝剂对印染废水处理的研究

选用阳离子型高分子絮凝剂应用于印染废水的处理，并与无机，有机高分子絮凝剂进行比较，结果表明，ＨＢ型絮凝剂具有投药量少，费用低，对ＣＯＤ去除率高于９１％，对色度去除率也在８６％以上，其效果明显优于其它高分子絮凝剂，值得推广应用。     

新型絮凝剂在印染,洗煤及造纸废水治理中的应用

新型絮凝剂是一种阳离子型有机离分子絮凝剂。该絮凝剂有适用范围广、用少量、性能稳定、絮体沉降快等优点。其净化效果：印染废水脱色率为８５％，ＣＯＤ，ＢＯＤ去除率均为９５％；洗煤废水ＣＯＤ、浊度、县浮物去除率都为９９％；造纸废水ＣＯＤ去除率在７０％－８０％，色度去除率为８０％，浊度去除率为９６％。     

蒙脱石粘土改性吸附剂处理印染废水实验研究

通过实验得到天然蒙脱石粘土改性和提高蒙脱石粘土吸附剂处理印染废水效果的方法,阐述了蒙脱石粘土改性和吸附有机污染物的机理。研究结果表明,天然蒙脱石经钠化和无机聚合物改性处理后,大幅度地提高了天然蒙脱石粘土对有机污染物的吸附能力。改性粘土吸附剂在投加量为0.1％时,处理红色印染废水,COD去除率85％,脱色率88％以上;处理兰色废水,COD去除率94％,脱色率达98％。处理后的水质达到回用要求。模拟实验表明,该吸附剂对含有各种类型染料的印染废水都有稳定的处理效果。本研究为印染废水处理提供了廉价高效的吸附剂。     

印染废水治理研究

本文介绍了用生物接触氧化法治理南充地区印染厂废水试验工艺条件选择，研究了有机负荷、水力负荷和温度对废水处理效果的影响，并观察了微生物的生长和发展规律。试验证明，本法能有效的处理印染废水，在适宜条件下，COD和色度的去除率分别为74．4％、92．0％，而后再经混凝处理可使二沉池出水COD去除率高达88～90％、色度为0、pH在7～8。     

A/O法在柠檬酸废水处理中的应用

针对当地柠檬酸厂在生产中排放的高浓度有机废水，采用厌氧一好氧法处理工艺，其处理效果明显，最终出水水质符合国家排放标准，CODCr总去除率高达95％，而且运行成本较低，容易在企业中推行。     

生物法处理印染废水的探讨

在同一个生化池中使生物膜与活性污泥有机结合，充分发挥两种方法的长处，对印染废水进行有效处理。结果表明：该工艺对废水中的CODcr、BOD5及色度的去除有显著的效果，其去除率均大于80％。出水水质均达到国家规定的排放标准。     

Effect of different molecular weight organic components on the increase of microbial growth potential of secondary effluent by ozonation

Ozonation has been widely applied in advanced wastewater treatment. In this study, the effect of ozonation on assimilable organic carbon （AOC） levels in secondary effluents was investigated, and AOC variation of different molecular weight （MW） organic components was analyzed. Although the removal efflciencies were 47%-76% and 94%-100% for UV2s4 and color at ozone dosage of 10 mg/L, dissolved organic carbon （DOC） in secondary effluents was hardly removed by ozonation. The AOC levels increased by 70%-780% at an ozone dosage range of 1-10 mg/L. AOC increased significantly in the instantaneous ozone demand phase, and the increase in AOC was correlated to the decrease in UV254 during ozonation. The results of MW distribution showed that, ozonation led to the transformation of larger molecules into smaller ones, but the increase in low MW （〈1 kDa） fraction did not contribute much to AOC production. The change of high MW （〉100 kDa and 10-100 kDa） fractions itself during ozonation was the main reason for the increase of AOC levels. Furthermore, the oxidation of organic matters with high MWs （〉 100 kDa and 10-100 kDa） resulted in more AOC production than those with low MWs （1-10 kDa and 〈1 kDa）. The results indicated that removing large molecules in secondary effluents could limit the increase of AOC during ozonation.     

电化学法处理含盐染料废水

研究了电化学法处理含盐染料废水的可行性及其处理效果．结果表明,电化学法对废水的色度和COD具有良好的去除效果,电解过程中余氯的产生对色度和COD的去除有决定性作用．实验确定的高浓度含盐废水电化学处理条件为：电流密度0．017A/cm²,电压10．3V,平均电导率12．35ms/cm,电解60min,色度和COD的去除率分别为85％和99．8％．电解过程无难以继续反应的中间产物生成．     

Comparison of different combined treatment processes to address the source water with high concentration of natural organic matter during snowmelt period

The source water in one forest region of the Northeast China had very high natural organic matter(NOM) concentration and heavy color during snowmelt period. The efficiency of five combined treatment processes was compared to address the high concentration of NOM and the mechanisms were also analyzed. Conventional treatment can hardly remove dissolved organic carbon(DOC) in the source water. KMn O4pre-oxidization could improve the DOC removal to 22.0%. Post activated carbon adsorption improved the DOC removal of conventional treatment to 28.8%. The non-sufficient NOM removal could be attributed to the dominance of large molecular weight organic matters in raw water, which cannot be adsorbed by the micropore upon activated carbon. O3+ activated carbon treatment are another available technology for eliminating the color and UV254 in water. However, its performance of DOC removal was only 36.4%, which could not satisfy the requirement for organic matter. The limited ozone dosage is not sufficient to mineralize the high concentration of NOM. Magnetic ion-exchange resin combined with conventional treatment could remove 96.2%of color, 96.0% of UV254 and 87.1% of DOC, enabling effluents to meet the drinking water quality standard. The high removal efficiency could be explained by the negative charge on the surface of NOM which benefits the static adsorption of NOM on the anion exchange resin. The results indicated that magnetic ion-exchange resin combined with conventional treatment is the best available technology to remove high concentration of NOM.     

Evaluating the effects of granular and membrane filtrations on chlorine demand in drinking water

In this study, chlorine decay experiments were conducted for the raw water from Nakdong river that is treated by Chilseo Water Treatment Plant (CWTP) situated in Haman, Korea as well as the effluents from sand and granular activated carbon (GAC) filters of CWTP and fitted using a chlorine decay model. The model estimated the fast and slow reacting nitrogenous as well as organic/inorganic compounds that were present in the water. It was found that the chlorine demand due to fast and slow reacting (FRA and SRA) organic/inorganic substances was not reduced significantly by sand as well as GAC filters. However, the treated effluents from those filters contained FRA and SRA that are less reactive and had small reaction rate constants. For the effluents from microfiltration, ultrafiltration, and nanofiltration the chlorine demand due to FRA and SRA were further reduced but the reaction rate constants were larger compared to those of sand and GAC filter effluents. This has implications in the formation of disinfection by products (DBPs). If DBPs are assumed to form due to the interactions between chlorine and SRA, then it is possible that the DBP formation potential in the effluents from membrane filtrations could be higher than that in the effluents from granular media filters.     

Batch methanogenic fermentation experiments of wastewater from a brown coal low-temperature coke plant

Coke plant effluents with high contents of organic compounds are mainly treated by biological aerobic fermentation after physical pre-treatment.In this study,a brown coal condensate wastewater from a low temperature coking process was fermented under methanogenic conditions in discontinuous experiments.By this fermentation,acetate,propionate,and the main polyphenolic compounds(catechol,resorcinol and hydroquinone) were degraded to a level below the detection limit.The COD was reduced by 72% with a residual ...     

用于地下水回灌的再生水预处理工艺研究

将再生水回灌到地下含水层前,需对再生水进行预处理,以防止污染地下水.本研究比较了5种不同的再生水深度处理技术(超滤、臭氧、磁性离子交换树脂(MIEX)及超滤和臭氧、MIEX和臭氧两套组合工艺)对城镇二级出水的净化效果,并通过分析5种工艺对含水层净化效果的影响,评价其作为回灌预处理的可行性.针对再生水中的有机污染物溶解性有机碳(dissolved organic carbon,DOC)及比吸光度(specific ultraviolet absorbance,SUVA),MIEX(投加量为5 mL.L-1)能够去除20%的DOC和10%的SUVA;UF对DOC的去除率低于10%,对SUVA无显著去除效果,单独UF和MIEX预处理对后续含水层对再生水DOC的去除无促进作用;与此不同,臭氧[投加量(O3/DOC)为0.6 mg.mg-1]及其组合工艺对二级出水SUVA的去除率达60%～79%,能显著提高再生水的可生化性,强化土壤对回灌水中有机物的去除效果,使最终出水的DOC降低至1～2mg.L-1.针对再生水中的N素,MIEX(5 mL.L-1)能去除再生水中25%的NO3--N,臭氧能去除再生水中72%的NH4+-N.土壤处理能有效地去除NH4+-N,使出水浓度均在0.5 mg.L-1以下,但对NO3--N无显著去除效果.综合对比分析,在再生水回灌的预处理工艺中,需重点考察预处理对再生水中有机物和NO3--N的去除效果.臭氧和MIEX的组合工艺,能显著提高二级出水的可生化性,并去除部分溶解性有机物及NO3--N,与后续土壤处理具有较好的互补性,较适合用作地下回灌前处理工艺.     

AAO-MBR工艺污水处理系统中消毒副产物前体物变化规律

为探究DBPs（消毒副产物）前体物在污水处理过程中的变化情况,采用超滤膜和XAD大孔吸附树脂将AAO-MBR工艺沿程出水中DOM（溶解性有机物）进行分离,并利用3D-EEM（三维荧光光谱）对分离前后水样进行表征,同时测定DBPFP（消毒副产物生成势）.结果表明:①沉砂池出水具有较低的C-DBPFP（含碳消毒副产物生成势）;经过AAO和MBR后,由于微生物代谢作用生成的疏水性SMPs（微生物代谢产物）类物质（为主要的C-DBPs前体物质）包含较多不饱和键,导致C-DBPFP增加.②沉砂池出水的N-DBPFP（含氮消毒副产物生成势）较低,但经过AAO后生成的小分子物质（为主要的N-DBPs前体物）导致N-DBPFP增加;经过MBR后由于SRT（污泥停留时间）和污泥浓度的增加造成小分子物质减少,致使N-DBPFP降低.③市政污水经过AAO后,C-DBPs和N-DBPs前体物分别增加了90.9%和7.3%;而MBR具有较高的DOC去除率（74.4%）,去除了56.8%的C-DBPs前体物和78.1%的N-DBPs前体物.研究显示,AAO-MBR工艺对市政污水中C-DBPs和N-DBPs前体物有较好地去除效果.      

Comparison of different combined treatment processes to address the source water with high concentration of natural organic matter during snowmelt period

The source water in one forest region of the Northeast China had very high natural organic matter (NOM) concentration and heavy color during snowmelt period. The efficiency of five combined treatment processes was compared to address the high concentration of NOM and the mechanisms were also analyzed. Conventional treatment can hardly remove dissolved organic carbon (DOC) in the source water. KMnO₄ pre-oxidization could improve the DOC removal to 22.0%. Post activated carbon adsorption improved the DOC removal of conventional treatment to 28.8%. The non-sufficient NOM removal could be attributed to the dominance of large molecular weight organic matters in raw water, which cannot be adsorbed by the micropore upon activated carbon. O₃ + activated carbon treatment are another available technology for eliminating the color and UV₂₅₄ in water. However, its performance of DOC removal was only 36.4%, which could not satisfy the requirement for organicmatter. The limited ozone dosage is not sufficient to mineralize the high concentration of NOM. Magnetic ion-exchange resin combined with conventional treatment could remove 96.2% of color, 96.0% of UV₂₅₄ and 87.1% of DOC, enabling effluents to meet the drinking water quality standard. The high removal efficiency could be explained by the negative charge on the surface of NOM which benefits the static adsorption of NOM on the anion exchange resin. The results indicated that magnetic ion-exchange resin combined with conventional treatment is the best available technology to remove high concentration of NOM.     

一段式短程硝化-厌氧氨氧化生物脱氮技术与工艺

分别从一段式短程硝化-厌氧氨氧化技术的原理、影响因素、工艺反应器形式及应用等几个方面进行阐述,归纳了温度、p H、基质浓度、DO等对该工艺的影响;总结了一段式短程硝化-厌氧氨氧化反应器的启动特征;比较了颗粒污泥和生物膜两类生物载体系统的脱氮效能;最后分析了一段式短程硝化-厌氧氨氧化技术存在的问题及发展趋势。     

Fouling of nanofiltration membrane by effluent organic matter： Characterization using different organic fractions in wastewater

The UF membrane with molecular weight cutoff (MWCO) ranging from 2 kDa to 100 kDa and XAD-8 resin were employed to identify the characteristic of molecular weight (MW) distribution of wastewater effluent organic matter (EfOM) in terms of TOC and UV254, as well as the amounts of the hydrophilic/hydrophobic organic fractions in different MW ranges. Then, the nanofiltration (NF) membrane fouling experiments were carried out using the above fractionated water to investigate the effect of MW distribution and hydrophilic/hydrophobic characteristics of EfOM on the membrane flux decline using the fractionated water samples above. The experimental results have shown that 45.61% of the total organics belongs to the low MW one, among which the percentage of the hydrophilic organics with low MW (less than 2 kDa) was up to 28.07%, while that of the hydrophobic organics was 17.54%. In particular, the hydrophilic fraction was found to be the most abundant fraction in the effluents. MW distribution has a significant effect on the membrane fouling. When the MW was less than 30 kDa, the lower the MW, the larger was the specific flux decline, while in the case of MW higher than 30 kDa, the higher the MW, the larger was the specific flux decline, and the decline degree of low MW organics was larger than the high MW one. With the same MW distribution range, specific flux decline of the hydrophilic organic was considerably slower than that of the hydrophobic organic, which indicated that the hydrophobic organic fractions dominantly contribute to the flux decline.