环己烷氧化废碱液的回收利用

介绍了一种从环己烷氧化废碱液中回收高价值有机酸的新方法。用氢氧化钠碱熔处理废碱液中的羟基己酸及其聚合物，可使废碱液中己二酸的质量分数由3．18％提高到8．74％，且环境效益和经济效益显著。     

畜禽环境中抗生素的去除及其风险评估

抗生素作为饲料添加剂广泛应用于畜禽养殖业,造成养殖环境抗生素大量蓄积,尤其是在畜禽粪便中,长期的积累不仅污染养殖场内土壤环境,残留的抗生素还会随畜禽粪便进入周边水体及农田环境,威胁农作物及人体健康。目前,国内相关研究主要集中在抗生素的降解工艺及降解规律方面,而对其去除效率的影响因素及风险评价研究相对较少。笔者综述了国内外抗生素的降解转化及去除方式等的研究进展,并概述了抗生素在畜禽环境中的生态风险评估的研究现状,为抗生素的高效去除、风险预估及畜禽粪便资源化安全利用提供理论基础和技术支撑。     

天津地区生态沟渠不同植物配置对氮磷去除效果研究

为筛选适宜天津地区的生态沟渠及提高其净化效果,设置了2组沟渠植物配置试验,研究不同植物配置模式下沟渠氮磷去除效果。结果表明:在沟底种植不同水生蔬菜中,空心菜(Ipomoea aquatica)对氮磷的净化作用较好,总氮、总磷的去除率分别为49.00%、56.05%。在沟壁种植不同护坡植物中,水葱(Scirpus validus)对氨氮、总磷的拦截较好,去除率分别为40.74%、45.24%,显著高于油莎草(Cyperus esculentus L.)和梭鱼草(Pontederia cordata)。综合比较2组植物配置模式的沟渠,以空心菜(沟底)+水葱(沟壁)植物配置的生态沟渠氮磷去除效果最佳,总氮、硝态氮、氨氮和总磷的去除率分别为49.00%、59.04%、43.91%、56.05%。该植物搭配生态沟渠是适宜天津地区治理氮磷污染的一种可行模式,研究成果将为治理天津地区面源污染提供技术指导。     

Fenton-like degradation of nalidixic acid with Fe3+/H2O2

The Fenton-like degradation of nalidixic acid was studied in this work. The effects of Fe³⁺ concentration and initial H₂O₂ concentration were investigated. Increasing the initial H₂O₂ concentration enhances the degradation and mineralization efficiency for nalidixic acid, while Fe³⁺ shows an optimal concentration of 0.25 mM. A complete removal of nalidixic acid and a TOC removal of 28 % were achieved in 60 min under a reaction condition of [Fe³⁺]?=?0.25 mM, [H₂O₂]?=?10 mM, T?=?35 °C, and pH?=?3. LC–MS analysis technique was used to analyze the possible degradation intermediates. The degradation pathways of nalidixic acid were proposed according to the identified intermediates and the electron density distribution of nalidixic acid. The Fenton-like degradation reaction of nalidixic acid mainly begins with the electrophilic attack of hydroxyl radical towards the C₃ position which results in the ring-opening reaction; meanwhile, hydroxyl radical attacking to the branched alkyl groups of nalidixic acid leads to the oxidation at the branched alkyl groups.     

The greater roles of indigenous microorganisms in removing nitrobenzene from sediment compared with the exogenous <Emphasis Type="Italic">Phragmites australis</Emphasis> and strain JS45

The feasibility of using Phragmites australis-JS45 system in removing nitrobenzene from sediments was conducted. However, it was observed that nitrobenzene degraded rapidly and was removed completely within 20 days in native sediments, raising the possibility that indigenous microorganisms may play important roles in nitrobenzene degradation. Consequently, this study aimed to verify this possibility and investigate the potential nitrobenzene degraders among indigenous microorganisms in sediments. The abundance of inoculated strain JS45 and indigenous bacteria in sediments was quantified using real-time polymerase chain reaction. Furthermore, community structure of the indigenous bacteria was analyzed through high throughput sequencing based on Illumina MiSeq platform. The results showed that indigenous bacteria in native sediments were abundant, approximately 10¹⁴ CFU/g dry weight, which is about six orders of magnitude higher than that in fertile soils. In addition, the levels of indigenous Proteobacteria (Acinetobacter, Comamonadaceae_ uncultured, Pseudomonas, and Thauera) and Firmicutes (Clostridium, Sporacetigenium, Fusibacter, Youngiibacter, and Trichococcus) increased significantly during nitrobenzene removal. Their quantities sharply decreased after nitrobenzene was removed completely, except for Pseudomonas and Thauera. Based on the results, it can be concluded that indigenous microorganisms including Proteobacteria and Firmicutes can have great potential for removing nitrobenzene from sediments. Although P. australis - JS45 system was set up in an attempt to eliminate nitrobenzene from sediments, and the system did not meet the expectation. The findings still provide valuable information on enhancing nitrobenzene removal by optimizing the sediment conditions for better growth of indigenous Proteobacteria and Firmicutes.

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苯并(a)芘对大弹涂鱼(Boleophthalmus pectinirostris)卵巢还原型谷胱甘肽含量的影响

分析了大弹涂鱼肌肉、鳃、肝脏、内脏 (不含肝脏 )以及卵巢等的GSH含量 ;并以GSH含量最高的卵巢为研究对象 ,在实验条件下 ,经 0 (CK) ,0 .0 5 ,0 .2和 0 .5mg/L等不同浓度的BaP暴露 7d ,分析其卵巢GSH含量变化的时间 -效应和剂量 -效应特征 ,结果显示 :0 .5mg/L浓度组的大弹涂鱼卵巢GSH含量迅速升高 ,暴露 12h即显著高于CK(P≤ 0 .0 5 ) ,但随暴露时间的延长 ,其GSH含量显著降低 ,7d的样品显著低于CK(P≤ 0 .0 5 ) ;在暴露 3d ,GSH水平与BaP浓度的剂量 -效应关系表现为正相关 ,而在 7d ,则呈负相关 ,这可能表明大弹涂鱼卵巢对BaP暴露由适应性反应到产生毒性效应的过程 .以上研究结果表明 ,卵巢GSH可对BaP暴露作出快速灵敏的反应 ,GSH水平有可能作为具氧化 -还原循环活性的污染物暴露的一种敏感的生物标记 .图 2表 2参 9     

北方地区受污染河湖水体潜流湿地净化技术研究与工程应用

结合实验研究和工程应用实践,在湿地填料选择、水力负荷变化、植物特性、结构优化、越冬运行等方面,对我国北方地区潜流人工湿地设计、建设、运行管理中的关键技术问题开展了系统、深入研究.结果表明:石灰石、粗砂等脱氮除磷综合效果较好,且取材方便、价格便宜,应是人工湿地主选填料,钢渣、褐铁矿除磷效果良好、沸石的氨氮吸附能力强,可作为辅助材料;湿地植物对水质净化贡献约为5%～15%,其地上部分的生物量移除贡献不足5%,湿地植物对系统水力负荷维持、冬季保温、生态景观等还具有较大贡献;以植物保温为主,结合冰下取水、水位管理等可实现北方地区潜流湿地冬季正常运行;优化提出了竖向复合流湿地结构,具有节约用地、硝化-反硝化作用效果显著、抗淤堵等特点.研究成果已在工程实践中得到成功应用,对人工湿地在我国北方地区的推广应用具有重要借鉴意义.     

温榆河氨氮污染控制措施的效果模拟

以城市退水为主要补给水源的北京市温榆河呈现以氨氮(18.68 mg·L-1)污染为主的特征.针对温榆河的水质改善需求,本研究以氨氮为目标污染物,采用QUAL2K河流水质模型和情景分析方法,对温榆河污染防治与水质改善措施的效果进行量化评估.模拟结果表明,提高污水厂的处理量和排放标准是改善温榆河水质的关键,可降低温榆河北关闸断面氨氮浓度29.66％;建设旁路离线河流净化器可削减5.57％的氨氮污染,是温榆河水质改善的有效措施.本研究提出的包括改善上游来水水质、干流截污、支流污染控制、污水厂提标改造、建设旁路离线河流净化器和生态河道等措施在内的综合实施方案,可使得温榆河的水质全程达到地表水V类标准.     

根施钙镁磷肥与叶喷硅/硒联合调控水稻镉吸收

南方水稻镉（Cd）污染是我国当前面临的主要环境问题之一。以中稻丰两优1号为材料,采用大田小区实验,研究了根区施加钙镁磷肥（P1：1 800 kg·hm-2、P2：3 000 kg·hm-2）、叶面喷施硅/硒（LS：2.0 mmol·L-1 Na2SiO3、LX：25 μmol·L-1 Na2SeO3、LSX：1.0 mmol·L-1 Na2SiO3+12.5 μmol·L-1 Na2SeO3）以及根区与叶面联合处理（P1LS、P1LX、P1LSX、P2LS、P2LX、P2LSX）下水稻对Cd的吸收。结果表明：1）根施钙镁磷肥显著降低了土壤有效态Cd含量（p1、P2较对照分别降低16.1%和29.5%;单独的根施钙镁磷肥或叶喷硅/硒处理后,稻米Cd含量较对照均显著降低（p1 40.8%、P2 57.2%、LS 42.3%、LX 35.0%、LSX 39.2%;根施钙镁磷肥与叶喷硅/硒联合调控对降低稻米Cd含量表现出显著的协同效应（p值显著性）,其中P1LS、P1LX和P1LSX较单独的P1分别降低了61.2%、59.5%和68.2%,P2LS、P2LX和P2LSX较单独的P2分别降低了75.0%、54.2%和75.7%。2）Cd从秸秆向籽粒转运系数（SS）大于从根向秸秆转运系数（RS）,根区与叶面联合处理明显降低RS和SS,并有显著的协同效应（p1与Si/Se联合,RS和SS平均降低了7.4%和22.0%,P2与Si/Se联合,RS和SS平均降低了16.0%和19.6%。3）从食品安全来说,单独的根施钙镁磷肥或叶喷硅/硒,大米Cd含量多数超标（国标0.2 mg·kg-1）,而根区与叶面联合处理几乎都能实现Cd含量不超标,其中降幅最大的为P2LS 和P2LSX,稻米Cd含量不到0.09 mg·kg-1。因此,根施钙镁磷肥与叶喷硅/硒联合处理可显著降低水稻Cd吸收、保障稻米质量安全。     

绿色设计与绿色化学设计

根据绿色设计的基本定义，特点，过程与原则，将绿色设计与传统设计与进行比较，阐述绿色化学设计的主要内容。