吸附树脂负载铁酞菁催化降解硝基苯的研究

在可见光照射下,采用吸附树脂负载铁酞菁催化过氧化氢降解硝基苯.考察了光照、催化剂投加量、双氧水投加量、温度及pH值等因素对催化效果的影响.结果表明,在功率为50W卤钨灯照射下,硝基苯溶液初始质量浓度为200 mg/L,初始pH值为3,催化剂投加量为1.5 g/L,双氧水投加量为1.0 mL/L,温度为35℃下反应10h,硝基苯去除率可达到79.9％.     

苯酚对活性污泥活性及微型动物群落结构的影响

为了探究苯酚对污泥活性及微型动物群落结构的影响,以SBR工艺的活性污泥为研究对象,分析苯酚对污泥TTC-ETS活性、INT-ETS活性和微型动物群落结构及其动态变化的影响.结果表明,污泥TTC-ETS活性较之INT-ETS活性能够更有效表征有机毒害物质苯酚对污泥活性的影响,且随着进水苯酚浓度的增大,苯酚对污泥活性的抑制越明显:进水浓度在50mg·L-1时,苯酚对污泥活性的抑制率为(20.75±10.43)%.进水苯酚浓度为100 mg·L-1时,抑制率为(39.73±26.92)%,且波动较大.在300 mg·L-1进水运行后期,苯酚对污泥活性的抑制率稳定在40%左右;苯酚对活性污泥微型动物群落结构的影响随浓度的增大而增大,且对不同微型动物类群影响不同:在低浓度苯酚进水条件下,只有单个微型动物类群(有壳变形虫)受到明显的抑制,而当浓度增大至100 mg·L-1和300 mg·L-1时,对多个微型动物类群(固着型纤毛虫、有壳变形虫、匍匐型纤毛虫、肉食性纤毛虫等)产生抑制,对少数类群(鞭毛虫、线虫等)产生促进作用;苯酚影响下的污泥活性与微型动物之间存在一定的关联性,针棘匣壳虫(Centropyxis aculeata)、多变斜板虫(Plagiocampa mutabilis)等可作为含酚废水处理过程中污泥活性低的指示生物,湖累枝虫(Epistylis lacustris)、软波豆虫(Bodo lens)、跳侧滴虫(Pleuromonas jaculans)等可作为污泥活性高的指示生物.     

关键参数对MBBR工艺生物膜活性的影响研究

对MBBR工艺处理工业园区废水的参数进行优化比较,重点测试了不同曝气量和水力停留时间下MBBR载体生物膜降解速率,测试并分析了生物膜活性的变化规律。结果表明,当曝气强度为350L/h,水力停留时间为12h,系统出水较优,COD去除率约为70.8%,NH3-N去除率约为91.7%,TN去除率约为38.3%。MBBR工艺表现出优异的氨氮去除效率,具备较高的同时硝化反硝化能力。生物膜活性影响分析表明,曝气量增大有利于生物膜耗氧活性和硝化活性提高,但其对反硝化活性有抑制作用;水力停留时间过大或过小均不利于生物膜保持高活性;综合分析表明,气水比约为50∶1,水力停留时间为12h时,系统生物膜耗氧活性和硝化反硝化活性较高。     

Reaction mechanism and metal ion transformation in photocatalytic ozonation of phenol and oxalic acid with Ag+/TiO2

Photocatalytic ozonation of phenol and oxalic acid （OA） was conducted with a Ag^＋/TiO2 catalyst and different pathways were found for the degradation of different compounds. Ag^＋ greatly promoted the photocatalytic degradation of contaminants due to its role as an electron scavenger. It also accelerated the removal rate of OA in ozonation and the simultaneous process for its complex reaction with oxalate. Phenol could be degraded both in direct ozonation and photolysis, but the TOC removal rates were much higher in the simultaneous processes due to the oxidation of hydroxyl radicals resulting from synergetic effects. The sequence of photo-illumination and ozone exposure in the combined process showed quite different effects in phenol degradation and TOC removal. The synergetic effects in different combined processes were found to be highly related to the properties of the target pollutants. The color change of the solution and TEM result confirmed that Ag＋ was easily reduced and deposited on the surface of Tit2 under photo-illumination, and dissolved again into solution in the presence of ozone. This simple cycle of enrichment and distribution of Ag^＋ can greatly benefit the design of advanced oxidation processes, in which the sequences of ozone and photo-illumination can be varied according to the needs for catalyst recycling and the different properties of pollutants.     

Photocatalytic activity of Fe-doped CaTiO3 under UV-visible light

The photocatalytic degradation of methylene blue（MB） over Fe-doped CaTiO3 under UV-visible light was investigated. The as-prepared samples were characterized using X-ray diffraction（XRD）, scanning electron microscope（SEM） equipped with an energy dispersive spectrometer（EDS） system, Fourier transform infrared spectra（FT-IR）, and UV-visible diffuse reflectance spectroscopy（DRS）. The results show that the doping with Fe significantly promoted the light absorption ability of CaTiO3 in the visible light region. The Fe-doped CaTiO3 exhibited higher photocatalytic activity than CaTiO3 for the degradation of MB.However, the photocatalytic activity of the Fe-doped CaTiO3 was greatly influenced by the calcination temperature during the preparation process. The Fe-doped CaTiO3 prepared at500°C exhibited the best photocatalytic activity, with degradation of almost 100% MB（10 ppm）under UV-visible light for 180 min.     

活性焦联合脱硫脱硝技术及发展方向

本文介绍了活性焦特点、活性焦联合脱硫脱硝技术的反应机理及工艺流程、活性焦联合脱硫脱硝技术的优缺点及发展方向。指出了活性焦联合脱硫脱硝工艺具有可以实现同时脱除S02、NOx和粉尘,脱除效率高,投资小等优点,通过加热再生活性焦,可获得高浓度的SO2气体,用于生产硫酸、液体二氧化硫或硫磺,有效回收硫资源。该技术具有流程简单、占地面积小、无二次污染、费用低、应用范围广等特点。     

UASB-SBR处理生物柴油制环氧脂肪酸甲酯废水

采用上流式厌氧污泥床(UASB)-序批式活性污泥法反应器(SBR)组合工艺处理生物柴油制环氧脂肪酸甲酯废水,考察了反应器各个阶段废水的处理效果。试验结果表明:当调整废水的氧化还原电位(ORP)降至-50~+50mV,UASB稳定运行阶段进水COD约为6 000mg/L时,出水COD在1 300mg/L以下,COD去除率约为80%,VFA浓度为180mg/L(以乙酸计)左右,最佳容积负荷为6.0kg/(m3·d);采用SBR处理UASB出水,当容积负荷为1.27kg/(m3·d)时,出水COD在250mg/L以下,COD去除率在80%以上,氨氮浓度在25mg/L以下,TP浓度在4mg/L以下,且处理后废水的COD、氨氮浓度、TP浓度均达到《污水排入城市下水道水质标准》(CJ343—2010)的A级要求。     

藻类水体Cd2+毒性快速监测新方法研究

采用藻类生长抑制试验和光合活性抑制试验两种方法对蛋白核小球藻受不同浓度Cd2+胁迫作用下叶绿素浓度及藻活性荧光参数进行测量,依据Sigmoidal曲线拟合及单因素方差分析(one-way ANOVA)的方法对Cd2+不同胁迫时间下藻活性抑制率和96 h比生长率抑制率的相关性进行研究.结果表明,48、53、72、77和96 h的藻活性抑制率和96 h比生长率抑制率间具有较好的S函数关系(R2>0.95),因此可采用藻活性抑制率48 h-EC10和53 h-EC10来代替96 h的藻类半数比生长率抑制率EC50进行Cd2+藻类毒性实验评价.进一步分析了蛋白核小球藻受Cd2+胁迫48 h和53 h藻活性抑制率和Cd2+毒性当量的剂量-效应关系.该方法为实验室内单一Cd2+毒性的监测提供了一种快速有效的新方法,为水环境综合毒性预警提供了一种切实可行的方法依据.     

TiO2/粉煤灰光催化降解双氯芬酸钠研究

以燃煤电厂外排的废弃物粉煤灰(CFA)为载体,采用混合泥浆法将TiO2负载在CFA的表面,得到一种新型的复合光催化剂TiO2/CFA.对TiO2/CFA进行了扫描电镜分析、X射线衍射分析和氮吸附测试,并以双氯芬酸钠的光催化降解为评价手段,研究了TiO2负载量对TiO2/CFA光催化性能及重复使用性能的影响.结果表明,TiO2负载量的增加有助于提高TiO2/CFA的光催化性能,但当TiO2负载量过高时,CFA上的TiO2在水处理过程中容易脱落,对TiO2/CFA光催化剂的重复使用性能不利.本研究中,最佳的TiO2负载量约为50%,循环使用6次,其光催化降解效率没有明显降低,双氯芬酸钠的降解率均可达70%以上.     

改性活性碳纤维电芬顿降解苯酚废水性能研究

采用微波改性、硝酸改性、磷酸改性及氨水改性等方法改性活性碳纤维(ACF-0),依次标记为ACF-1、ACF-2、ACF-3和ACF-4.以改性前后的活性碳纤维为阴极,电芬顿催化处理苯酚模拟废水,考察不同的改性方法对H2O2生成量、COD去除率、苯酚去除率及其中间产物的影响.结果表明,微波改性活性碳纤维的吸附性能及电催化活性最优,相比未改性活性碳纤维,经微波或酸碱改性后的活性碳纤维反应体系中,H2O2生成量均有所增加.苯酚在各电芬顿催化体系中的去除率大小依次是:ACF-1>ACF-3>ACF-4>ACF-2>ACF-0;COD去除率大小依次是:ACF-1>ACF-4>ACF-3>ACF-2>ACF-0,说明微波及酸碱改性有利于提高活性碳纤维的催化性能.此外,苯酚降解中间产物的生成也会受到改性方法的影响.