活性炭负载TiO2催化臭氧氧化去除水中酚的研究

本文采用活性炭负载TiO2作催化剂对臭氧氧化去除含酚废水进行了研究．研究了不同的酚初始浓度、pH值及臭氧浓度对苯酚去除率的影响，获得了反应动力学常数．实验结果表明：苯酚初始浓度越小，去除率越高．在本实验条件下，向150mL苯酚溶液中通入浓度为3．48mg/L、流量为0．05m^3／h的臭氧化空气反应30min去除率即可达到99％以上。     

生物膜法处理养殖废水的研究

室内模拟研究生物膜法处理养殖废水的效果及其影响因素。实验结果表明，连续曝气或者不曝气，生物膜法对养殖废水中的硝酸盐氮去除效果都很差。曝气条件下生物膜法对CODCrNH4^ -N、NO2^--N均有较好的净化效果，CODCrNH4^ -N、NO2^--N的去除率可分别达到79％、99％、99％；不曝气条件下生物膜法对CODCrH4^ -N、NO2^--N净化效果稍差，CODCrNH4^ -N、NO2^--N的去除率可分别达到78％、35％、76％。曝气会增加养殖废水中PO4^3 -P的质量浓度，增幅可达82％；不曝气时PO4^3 -P的去除率可达63％。投加复合菌株有利于生物膜的形成和处理效果的提高。     

固氮菌J-25利用味精废水产生絮凝剂的研究

考察了微生物絮凝剂产生菌Azotobacter J-25在味精废水中发酵产生絮凝剂的絮凝特性。实验表明，味精废水经预处理后，加入有机碳源对絮凝剂产生菌Azotobaaer J-25进行培养，菌体在生长过程中产生絮凝剂，并将其分泌到细胞外，培养液的絮凝活性最高达98％以上。该絮凝剂在偏碱性的条件下，对高岭土悬浊液的絮凝效果最好．实际废水的净化实验表明，该微生物絮凝剂对多种废水具有良好的净化效果，尤其对石化废水处理效果最好，CODCr，SS，色度的去除率分别为66．7％，98．3％，93．7％。     

利用钢厂废物制备复合型无机高分子絮凝剂PAFC的研究

利用钢厂废物高炉瓦斯灰制备复合型无机高分子絮凝剂聚合氯化铝铁(PAFC)，考察了最佳溶出条件和水解聚合条件．通过控制水解聚合温度、加碱量和水解聚合反应时间，探索出了较好的水解聚合条件，即反应温度100℃左右，反应时间3h，灰酸比1：3．制备的复合型无机高分子絮凝剂PAFC稳定性好．对高岭土废水的浊度去除率为99．36％．     

超滤法分离味精废水中的菌体

本文采用超滤分离-溶剂萃取处理含锌味精废水,重点讨论用聚丙烯腈和聚砜中空纤维超滤膜分离废水中的菌体及其主要参数对超滤分离性能的影响.日处理量为25吨废水的超滤运行实验表明,经超滤处理废水中的菌体去除率可达99％以上,废水可进一步用萃取法去除锌.     

吸附—催化氧化—絮凝法联合处理造纸废水

采用吸附－催化氧化－絮凝法联合处理造纸废水，讨论了废水通过炉渣柱的滤速，在絮凝过程中Al2(SO4)3的加入量及催化氧化反应中溶液的pH值，铁屑的加入量，H2O2的加入量等主要因素对废水中COD去除率的影响，结果表明，COD，SS主要污染物去除率达97．0％和95．3％，各项指标超过一级排放标准，水质可以完全回收利用，为造纸废水的处理提供了新的技术方案。     

生物陶粒柱—PAC—膜过滤装置系统处理饮用水实验研究

生物陶粒柱和粉末活性炭作为淹没式中空纤维膜过滤装置的预处理工艺不仅解决了膜过滤装置氨氮去除不利的弱点,避免了亚硝酸盐氮的积累,而且在浊度、细菌、有机物等方面极大地降低了膜过滤装置的负荷。生物陶粒柱－PAC－膜过滤装置系统高锰酸盐指数平均去除率为76．97％,氨氮和亚硝酸盐氮的平均去除率分别达到顾95．50％和99．15％。     

催化氧化法预处理苯胺类废水

用Fenton试剂催化氧化法预处理染化厂含苯胺类物质的废水。对影响废水中苯胺类物质去除率的各种因素进行了考察，结果表明，在常温下当废水中苯胺类物质的含量为800mg/L时，在pH为3．5、H2O2和Fe^2 用量分别为28mmol/L和2.8mmol/L的条件下，苯胺类物质的去除率可达98.0%，COD去除率达到76％，废水的BOD5／BODcr值由0提高到0.32，显著地提高了废水的可生化性。     

两种常用阳离子染料O_3氧化特性的研究

本文研究了两种常用阳离子染料—半菁类的阳离子桃红FG和二氮半菁类的阳离子艳蓝RL在水溶液和染色废水中的O_3氧化特性。实验结果表明:脱色率可达99％以上;就脱色而言,在水溶液中的臭氧氧化指数分别为2.67和2.85,其废水的COD_(Cr)去除率与废水水质有关,COD_(Cr)去除率范围为15～40％。     

高分子重金属絮凝剂对 Hg2+的捕集及性能

以含Hg^2 废水作为处理对象,研究了几个影响高分子重金属絮凝剂去除水中Hg^2 的因素,实验表明：(1)pH值对Hg^2 的去除率影响不大;(2)水中某些二价离子的存在不仅不会消耗高分子重金属絮凝剂的用量,而且会促进螯合体MHM-Hg^2 絮凝沉淀,Hg^2 的去除率在99％以上,而一价金属离子对处理效果影响不大;(3)Hg^2 和致浊物质会互相促进彼此的去除,浊度的去除率在98％以上,Hg^2 的去除率在99％以上;(4)高分子重金属絮凝剂对重金属离子具有选择性,可将部分重金属离子从其它离子中分离开、回收再利用．     

印染废水对3种水生生物的毒性作用

为合理评估印染废水对水环境造成的影响,以斜生栅藻(Scenedesmus obliquus)、大型溞(Daphnia magna)和太湖花(鱼骨)(Hemibarbus maculates)为受试生物,印染废水分别用标准稀释液7346-2按照几何级数稀释成为100.00％、50.00％、25.00％、12.50％和6.25％的系列试验液,研究印染废水对3种水生生物的毒性效应.结果表明,印染废水对水生态系统中不同营养层次的3种生物均有一定的毒性,对斜生栅藻24、48h的半数生长抑制浓度(EC50)分别为(51.55±4.12)％、(20.40±6.27)％,对大型溞24、48h的EC50分别为(78.20±4.31)％、(53.10±1.88)％,对花(鱼骨)卵裂期胚胎、囊胚期胚胎、原肠期胚胎、初孵仔鱼和25日龄仔鱼96h的半数致死浓度(LC50)分别为(19.89±1.68)％、(25.95±2.14)％、(27.24±0.88)％、(19.61±2.21)％和(49.27±3.27)％.研究得出印染废水对水生生物的安全浓度为1.96％,生产中应严格控制其排放.     

Influence of short-term irrigation of textile mill wastewater on the growth of chickpea cultivars

The effect of textile mill wastewater on germination, delay index, physiological growth parameters, and plant pigments of two cultivars of chickpea was studied. The aim of this study was to evaluate the suitability of textile mill wastewater (treated and untreated) at different concentrations (0, 6.25, 12.5, 25, 50, 75, and 100%) for irrigational purposes. The textile effluent did not show any inhibitory effect on seed germination at a lower concentration (6.25%). The other reported plant parameters (delay index, root length, shoot length, dry weight, chlorophyll, and carotenoid) also followed a similar trend. Seeds germinated in 100% effluents but did not survive for longer periods. It has also been concluded that the effect of the textile effluent is cultivar-specific, and due care should be taken before using the textile mill wastewater for irrigation purposes.     

Influence of short-term irrigation of textile mill wastewater on the growth of chickpea cultivars

The effect of textile mill wastewater on germination, delay index, physiological growth parameters, and plant pigments of two cultivars of chickpea was studied. The aim of this study was to evaluate the suitability of textile mill wastewater (treated and untreated) at different concentrations (0, 6.25, 12.5, 25, 50, 75, and 100%) for irrigational purposes. The textile effluent did not show any inhibitory effect on seed germination at a lower concentration (6.25%). The other reported plant parameters (delay index, root length, shoot length, dry weight, chlorophyll, and carotenoid) also followed a similar trend. Seeds germinated in 100% effluents but did not survive for longer periods. It has also been concluded that the effect of the textile effluent is cultivar-specific, and due care should be taken before using the textile mill wastewater for irrigation purposes.     

焦化废水中溶解性有机物组分的特征分析

焦化废水是典型的具有复杂有机质的工业废水,其复杂的有机构成制约了水处理的水质达标,且可能对排入水体构成危害.为了探明其溶解性有机物的组成,采用XAD-8大孔树脂将焦化废水中的溶解性有机物分为亲水性组分(HIS)、疏水酸性组分(HOA)、疏水碱性组分(HOB)和疏水中性组分(HON),分析了各组分的溶解性有机物(DOC)、紫外-可见光谱、色度,并采用GC/MS对各组分中有机物进行定性分析.结果表明,焦化废水中的有机物主要为HIS和HOA组分,其DOC含量分别占总DOC的44.3%和32.4%;焦化废水在200—250 nm和300—400 nm范围内有特征吸收峰,且吸收光强度顺序为HIS>HOA>HON>HOB;焦化废水的色度主要由HOA和HON构成,其在525 nm和436 nm处的吸光度分别占焦化废水吸光度的42.9%(HON)、42.1%(HON)和21.4%(HOA)、15.8%(HOA);焦化废水中亲水性物质主要是苯胺、苯酚、喹啉、异喹啉,疏水酸性物质中主要是各种甲基取代的酚类物质,疏水碱性物质主要是各种胺类和含氮杂环化合物,疏水中性物质主要是吲哚及其衍生物.     

Efficient removal of heavy metals from electroplating wastewater using polymer ligands

Poly(hydroxamic acid)-poly(amidoxime) chelating ligands were synthesized from poly(methyl acrylate-co-acrylonitrile) grafted acacia cellulose for removing toxic metal ions from industrial wastewaters. These ligands showed higher adsorption capacity to copper (2.80 mmol?g⁻¹) at pH 6. In addition, sorption capacities to other metal ions such as iron, zinc, chromium, and nickel were also found high at pH 6. The metal ions sorption rate (t_1/2) was very fast. The rate of adsorption of copper, iron, zinc, chromium, nickel, cobalt, cadmium and lead were 4, 5, 7, 5, 5, 8, 9 and 11 min, respectively. Therefore, these ligands have an advantage to the metal ions removal using the column technique. We have successfully investigated the known concentration of metal ions using various parameters, which is essential for designing a fixed bed column with ligands. The wastewater from electroplating plants used in this study, having chromium, zinc, nickel, copper and iron, etc. For chromium wastewater, ICP analysis showed that the Cr removal was 99.8% and other metal ions such as Cu, Ni, Fe, Zn, Cd, Pb, Co and Mn removal were 94.7%, 99.2%, 99.9%, 99.9%, 99.5%, 99.9%, 95.6% and 97.6%, respectively. In case of cyanide wastewater, the metal removal, especially Ni and Zn removal were 96.5 and 95.2% at higher initial concentration. For acid/alkali wastewater, metal ions removing for Cd, Cr and Fe were 99.2%, 99.5% and 99.9%, respectively. Overall, these ligands are useful for metal removal by column method from industrial wastewater especially plating wastewater.     

Heavy-metal fractionation and distribution in soil profiles short-term-irrigated with sewage wastewater

Six soil profiles irrigated and non-irrigated with sewage wastewater were investigated for soil pH, electrical conductivity (EC), organic matter (OM), and CaCO₃. The distributions and chemical fractions of Cu, Zn, Cd, and Pb, and their lability were also studied. The results indicated that pH, EC, OM, and CaCO₃, as well as metal fractionation in soil profiles were affected by wastewater irrigation, especially in the surface layer. The surface layer (0-15 cm) irrigated with wastewater exhibited a 0.6 unit decrease in soil pH, a 40.6% decrease in CaCO₃, and a 200% increase in EC as compared with that of the non-irrigated soil. The soil OM increased from 0.04% to 0.35% in the surface layer. The irrigation of soil with wastewater resulted in transformation of metals from the carbonate fraction (CARB) towards the exchangeable (EXCH), Fe-Mn oxide (ERO), and organic (OM) fraction for Zn, towards the EXCH, the OM, and residual fraction for Cu, and towards the exchangeable (EXCH) fraction for Cd. It was concluded that the use of sewage wastewater led to salt accumulation and an increase in the readily labile fraction of Zn, Cu, and Cd in the surface layer. Therefore, this reason may limit the use of wastewater under arid and semi-arid conditions.     

挂膜生长的白腐真菌处理草浆造纸黑液废水

比较了几株白腐真菌在造纸黑液废水中的挂膜生长状况及其对黑液废水的处理效果．结果表明，在pH6．0的废水中添加葡萄糖1．0g／L，酒石酸铵0．2g／L及适量无机盐时，黄孢原毛平革菌(Phanerochaete chrysosporium)和侧耳菌(Pleurotus ostieatus)以及本实验室自选的白腐真菌S22的挂膜状况和对黑液废水的处理效果最好．废水中添加的葡萄糖和酒石酸铵的浓度分别为1．0g／L和0．2g／L时，侧耳菌的挂膜和对黑液废水的处理效果最佳．S22菌在pH10．0时其木质素降解率和COD去除率最高，分别可达84％和69％．黄孢原毛平革菌、侧耳菌和S22菌能够在碱性较强的废水中生长挂膜并显著降解木质素，表现出对废水很强的适应能力．生物膜对黑液废水的半连续化处理结果表明了生物膜法的优越性．图8表1参14     

Microplastics in municipal wastewater treatment plants: a case study of Denizli/Turkey

● High amounts of microplastics are released to receiving media from WWTPs. ● The effect of classical treatment processes on MP removal is important. ● MP load in the effluent of WWTPs is important for developing treatment technology. ● Additional physical treatment could help further reduce MP discharge. Plastic particles smaller than 5 mm are microplastics. They are among the significant pollutants that recently attracted attention. Great quantities of microplastics enter the sewage system daily and reach wastewater treatment plants (WWTPs). As a result, WWTPs are potential microplastic sources. Hence, they create a pathway for microplastics to reach aquatic environments with treated wastewater discharge. Studies on microplastic characterization in WWTPs have gained momentum in academia. This study investigates the abundance, size, shape, color, polymer type, and removal efficiencies of microplastics in a municipal wastewater treatment plant (WWTP) in Denizli/Turkey. The results showed that the dominant microplastic shape in wastewater samples was fibers (41.78%–60.77%) in the 100–500 µm (58.57%–80.07%) size range. Most of the microplastics were transparent-white (32.86%–58.93%). The dominant polymer types were polyethylene (54.05%) and polyethylene vinyl acetate (37.84%) in raw wastewater. Furthermore, the microplastic removal efficiencies of the Denizli Central WWTP as a whole and for individual treatment units were evaluated. Although the microplastic pollution removal efficiency of the Denizli Central WWTP was over 95%, the microplastic concentration discharged daily into the receiving environment was considerably high (1.28 × 10¹⁰ MP/d). Thus, Denizli Central WWTP effluents result in a high volume of emissions in terms of microplastic pollution with a significant daily discharge to the Çürüksu Stream.     

固定化球形红假单胞菌处理电镀废水中Cd和Cr的研究

比较了4种固定化球形红假单胞菌(Rhodopseudomonas sphaeroides)处理含Cd、Cr重金属废水的效果,对固定化菌吸附Cd和Cr的工艺条件进行了优化,并通过生物反应器连续处理实际电镀废水,分析了处理后的效果。通过比较,确定了20g.kg-1沸石和20g.L-1海藻酸钠组合作为共固定材料,固定化菌对Cd和Cr的去除效果明显优于游离菌。采用正交试验优化废水处理工艺条件,结果表明,废水pH值、菌体投加量对固定化菌体的处理效果影响较大,当处理废水的pH值为6.0、菌体投加量为10.00g.L-1时,对40.00mg.L-1含Cd废水的去除率可达96.68%。4轮吸附-解吸循环试验结果显示,固定化菌体可重复利用3次,固定化菌体在使用第3次时,Cd去除率仍可达51.20%。在生物反应器中,用固定化菌体处理质量浓度为92.61mg.L-1的含Cd电镀废水,3h时对Cd的去除率达到98.80%,对含Cu、Au、Ni废水中重金属的去除率也高于90.00%。     

Application of Fe0/C/Clay ceramics for decoloration of synthetic Acid Red 73 and Reactive Blue 4 wastewater by micro-electrolysis

Dyes are common pollutants in textile wastewaters, and the treatment of the wastewater has now attracted much attention due to its wide application and low biodegradability. In this study, Fe⁰/C/Clay ceramics, a kind of novel micro-electrolysis filler, were sintered and employed in a dynamic micro-electrolysis reactor for synthetic Acid Red 73 (AR73) and Reactive Blue 4 (RB4) wastewater treatment. The effects of influent pH, hydraulic retention time (HRT), and aeration on the decoloration efficiencies of AR73 and RB4 were studied. The optimum conditions for wastewater treatment were: AR73, influent pH of 4, HRT of 2 h and aeration; RB4, influent pH of 5, HRT of 6 h and aeration. Under the optimum conditions, decoloration efficiency of AR73 and RB4 wastewater was 96% and 83%, respectively. Results of UV-vis spectrum scanning demonstrated that the chromophores were broken. Continuous running tests showed that improvement of micro-electrolysis system with Fe⁰/C/Clay ceramics for AR73 and RB4 synthetic wastewater treatment could avoid failure of micro-electrolysis reactor, which indicated great potential for the practical application of the ceramics in the field of actual industrial wastewater treatment.