活性炭催化双氧水氧化处理分散橙结晶废母液

采用Fe2+/H2O2、活性炭(AC)/H2O2和AC/H2O2/Fe2+三种氧化体系对高浓度、高酸度和高盐分的分散橙结晶废母液进行处理,探讨了H2O2投加量、n(H2O2)/n(Fe2+)比值和初始pH对TOC去除率影响,比较三种氧化体系对TOC和色度的去除效果。结果表明:AC/H2O2/Fe2+氧化体系对TOC去除率最高,AC/H2O2氧化体系对色度去除率最高。即使在强酸环境中下,AC对H2O2仍然具有较高的催化活性,并可多次重复利用。AC/H2O2氧化体系为分散橙结晶废母液处理及资源化利用提供了新途径。     

Optimization of methyl orange removal from aqueous solution by response surface methodology using spent tea leaves as adsorbent

The effective disposal of redundant tea waste is crucial to environmental protection and comprehensive utilization of trash resources. In this work, the removal of methyl orange （MO） from aqueous solution using spent tea leaves as the sorbent was investigated in a batch experiment. First, the effects of various parameters such as temperature, adsorption time, dose of spent tea leaves, and initial concentration of MO were investigated. Then, the response surface methodology （RSM）, based on Box- Behnken design, was employed to obtain the optimum adsorption conditions. The optimal conditions could be obtained at an initial concentration of MO of 9.75 mg·L-1, temperature of 35.3℃, contact time of 63.8 min, and an adsorbent dosage 3.90 g· L-1. Under the optimized condi- tions, the maximal removal of MO was 58.2%. The results indicate that spent tea leaves could be used as an effective and economical adsorbent in the removal of MO from aqueous solution.     

Photocatalytic degradation of methyl orange using ZnO nanorods

Nanosized ZnO rods were synthesized using a microwave-assisted aqueous method. High molecular weight polyvinyl alcohol was used as a stabilizing agent. Size, surface morphology, and structure were investigated using transmission electron microscopy (TEM), scanning electron microscopy (SEM), and X-ray diffraction (XRD). SEM and TEM images show that ZnO nanorods have diameters of about 50?nm and lengths of a few micrometers. The XRD pattern reveals that ZnO nanorods are of hexagonal wurtzite structure. The average crystallite size calculated from Scherrer's relation was found to be 40?nm. The effects of catalyst loading, pH value, and initial concentration of methyl orange on the photocatalytic degradation efficiency using ZnO nanorods as photocatalyst were discussed. The results revealed that ZnO nanorods with a diameter of 50?nm showed the highest photocatalytic activity at a surface density of 0.2?g?dm^?3.     

Environmental fate of pesticides used in Australian viticulture III. Fate of dithianon from vine to wine

Pinot noir, bastardo, rkaziteli and semillon grapes on vines grown in the Barossa Valley of South Australia were treated with a commercial dithianon formulation. The grapes were harvested by hand eight days later, and made into wine. Grab samples of berries, grape juice and the young wine were analysed for fungicide residues. No dithianon was detected in control grape samples, grape juices or wines. Significant dithianon levels were detected on the skins of treated grape samples. Dithianon is stable on the surface of grapes under the ambient conditions prevalent under the grape canopy for at least two weeks. No dithianon was detected in grape juice, on grape skins after berry crushing, in the lees, or in the young wine. Dithianon is unstable in grape juice and wine. Dithianon half‐life (initial concentration = 1 μg/mL) in semillon grape juice = 2.8 h, semillon wine = 0.58 h, pinot noir grape juice = 4.6 h, and pinot‐noir wine = 0.29 h. Treatment with fining agents or heat does not significantly reduce the rate of degradation. These results suggest that spraying table grapes with dithianon two weeks before harvest would result in exposure to essentially the full dose of active ingredient sprayed, and increase the risk to human health through ingestion of this compound. However, any threat to human health from ingestion through grape juice or wine is limited since any contact with grape juice or wine leads to rapid decomposition of dithianon by some as yet undetermined process.     

水浮莲干体对甲基橙的吸附研究

研究了水浮莲干体对模拟染料废水中甲基橙(MO)的吸附行为,考察吸附时间、溶液初始pH值、水浮莲干体用量和MO初始质量浓度等因素对MO吸附的影响.结果表明,在MO溶液初始pH值为5.5、初始质量浓度为25 mg·L-1条件下,添加12.5g·L-1粒径为0.250～0.425 mm的水浮莲干体,于25℃条件下以120 r·min-1振荡吸附90 min后,MO吸附率可达72.1％.酸性环境有利于MO吸附;一定范围内,水浮莲干体用量的增加以及MO初始浓度的升高都会导致吸附率升高.水浮莲干体对MO的吸附过程更符合Freundlich吸附等温方程,Lagergren准二级动力学方程更适合模拟其吸附动力学行为.随温度升高,MO平衡吸附量呈减少趋势.水浮莲干体及浸出液中Cr、Ni、Cu、As、Cd和Pb含量远低于GB 5085.3-2007 《危险废物鉴别标准浸出毒性鉴别》中的限量值,因此将水浮莲干体作为新型吸附剂应用于染料废水处理,不会导致二次污染.     

Na2Ti6O13纳米带的制备及其光降解活性艳橙染料废水的研究

用微乳法和熔盐法结合制备出了Na2Ti6O13纳米带,并用XRD,SEM对其进行表征;研究了Na2Ti6O13在紫外光下对偶氮染料活性艳橙(X-GN)的降解,并探讨了pH值、催化剂投加量和外加H2O2氧化剂对光催化效率的影响。实验表明,Na2Ti6O13具有很好的光催化性能,30W紫外灯下光催化60min对25mg/LX-GN的降解率最高可达94.1%;反应液pH值过高或过低会影响催化剂活性,最佳pH值为5.7;一定范围内,光催化效率随催化剂投加量的增加而提高,但投加量大于1.0 g/L时,催化效率反而下降;适当投加H2O2能显著提高降解效果。     

Sb2O5/TiO2催化超声降解甲基橙溶液

采用实验室合成的Sb2O5掺杂TiO2作为催化剂,研究各种因素对甲基橙的超声催化降解反应的影响.结果表明,在Sb2O5掺杂TiO2催化剂作用下,甲基橙的超声催化降解效果明显优于单独使用TiO2的情况.1.5%掺杂量的催化剂,用量在1.0～1.5 g/L之间,超声波频率25 kHz,输出功率1.0 W/cm2,pH为1.0～3.0时,初始浓度为20 mg/L的甲基橙水溶液,100 min左右基本可全部降解,COD去除率达到99.0%以上.Sb2O5掺杂TiO2催化超声降解有机污染物的方法具有很好的应用前景.     

糖厂碳法滤坭对赤红壤上柑桔施用效果初探

试验结果表明，施用碳法滤坭可明显地提高土壤的ｐＨ值和土壤的速效磷含量；适量滤坭配施钾肥可比单施钾肥显著或极显著地提高柑桔的产量，明显地提高柑桔果汁的Ｖｃ和柠檬酸含量，柑桔的可溶性固形物含量、可食部分和果汁含量也有提高；单施滤坭对提高柑桔产量和改善柑桔品质也有一定的效果．滤坭配施钾肥对提高柑桔产质的效果优于与其等当量的石灰配施钾肥，故认为碳法滤坭可代替石灰应用于改良赤红壤的酸性．     

清洁生产审核在果汁企业的应用研究

中国是全球最大的浓缩苹果汁生产和出口国,年产量和出口量均占全球总量的60%左右,均位居世界第一。中国浓缩果汁行业高速发展的同时,严峻的行业环境问题严重限制了中国浓缩果汁行业的进一步发展[1]。企业实施清洁生产审核是企业实现清洁生产最有效的手段.实践表明,通过实施清洁生产审核活动,企业提高了资源能源利用效率,降低了环境污染,取得了经济和环境的同步发展,为浓缩果汁企业今后的清洁生产审核积累了经验。     

配水管网细菌活性影响因素

为研究配水管网水中细菌活性的变化规律,以北方某市试验室模拟配水管网为对象,应用荧光显微镜对经吖啶橙染色的细菌进行直接镜检并计数,以更准确地对细菌活性进行定量分析.以活菌数占细菌总数的比值来表征整体细菌活性,并研究多种因素对配水管网水中细菌活性的影响.结果表明,吖啶橙染色荧光显微镜直接镜检应用于管网水中细菌计数能够快速得到较稳定的结果,计数结果重现性好.试验水样中的活菌数10~3~10~4cells·m L~(-1),细菌总数10~4~10~5cells·m L~(-1).管网水中整体细菌活性与水温、浊度和流速都存在正相关关系;与运行稳定后的水中余氯存在负相关关系.模拟配水管网水中常见形态的细菌对次氯酸钠消毒剂的耐受能力依次为:短杆形菌球形菌长杆形菌弧形菌,并且杆形菌恢复活性和再繁殖的能力较强.夏季水样中短杆形菌多于冬季.