共价三嗪有机框架材料对水中氯酚类污染物的光催化脱氯降解

利用共价三嗪有机框架材料(CTF-1)对4-氯酚(4-CP)、2,4-二氯酚(2,4-DCP)、2,4,6-三氯酚(2,4,6-TCP)和五氯酚(PCP)等4种不同氯原子取代数目的氯酚类污染物进行光催化降解研究,探讨了底物结构对氯酚脱氯降解效率的影响及机制.结果表明,氯酚脱氯降解过程明显受苯环氯原子取代数目的影响,氯原子数目越多,脱氯降解效率越高,氯原子数目与表观速率常数呈显著正相关,氯酚降解及脱氯速率均为：PCP>2,4,6-TCP>2,4-DCP>4-CP.对CTF-1光催化降解氯酚机制研究表明,活性物种在反应中不起作用,体系反应机制为针对氯酚上取代氯位点进行水解脱氯过程.本研究结果为深入揭示氯酚脱氯降解机制提供了理论依据,也为光催化技术处理卤代酚类废水提供了技术参考.     

氯酚在胡敏酸上的吸附

用静态平衡法了白洋研究泥中胡敏酸对氯酚的吸附情况，当温度升高或ＰＨ值降低时，ＨＡ对４－氯酚的吸附量增大，对４－氯酚和３，５－二氯酚两种吸附质组成的混合溶液，ＨＡ对３，５－二氯酚的吸附量大于ＨＡ对４－氯酚的吸附量；     

TiO2对水溶液中4-氯酚电子束辐照降解和矿化的影响

以电子加速器为辐照手段,在4-氯酚水溶液中添加TiO2纳米粒子,通过对溶液辐照前后4-氯酚浓度、GC/MS、总有机碳(TOC)、氯离子浓度、辐照前后的紫外-可见光谱过程和溶液pH值的测定分析,研究4-氯酚水溶液在TiO2纳米粒子存在下的辐照降解和矿化特性.结果表明,TiO2纳米粒子的加入对4-氯酚的辐照降解效果没有明显影响,但改变了4-氯酚的降解途径并可以较大地提高4-氯酚的矿化.     

生物膜及其组分对4—氯酚的吸附速率研究^1）

研究了4－氯酚在生物膜不同组分上的吸附速率特征，本实验中生物膜不同组组分包括生长有生的膜外壳的模拟水体悬浮颗粒物（高岭土），细胞细胞，胞外多糖高岭土及有胞外多糖存在的高岭土5个部分，结果表明，生物膜及其不同组分均对4氯酚发生吸附，以细菌细胞更为显著，但它们的时间动力学过程不同，在研究的5种吸附体系中，生长有生物膜外壳的高岭土体系较快地达到近平衡状态，并且吸附时间过程受pH值的影响。     

共存氯代酚结构对1-NP致突变性的影响

研究了氯代酚与1－NP的单一和联合致突变效应，结果发现，各氯代酚对1－NP的致突变性有不同程度的抑制作用，且抑制效应系数（S）与各氯代酚的分子描述参数的关系能用QSAR方程表示，由方程得出的预测值与实验测定值之间能较好地吻合。     

白腐菌去除氯代酚动力学研究

使用Volterra模型描述 2 ,4-二氯酚体系中白腐菌生长动力学 ,建立氯代酚去除部分偶联型动力学方程 ,描述了生物降解体系中降解菌与目标化合物的反应历程 ,利用动力学方法初步探讨批次反应时生物吸附在氯代酚去除过程中的作用     

瞬态吸收光谱技术研究4-氯酚水相降解的微观反应

利用瞬态吸收光谱技术进行了不同条件下４－氯酚水溶液的电子脉冲辐解,分别研究了体系中瞬时出现的·ＯＨ,Ｈ和水合电子等活性粒子与溶质的反应．对瞬态吸收光谱中的主要吸收峰做了归属,得到了ＯＨ－ａｄｄｕｃｔ,Ｈ－ａｄｄｕｔ和氯代酚氧基等一系列中间产物,并初步研究了这些瞬态物种的生长、衰减行为和可能的反应机理,得出了一些微观反应的速率常数．     

零价铁对土壤中4-氯苯酚还原脱氯研究

氯苯酚是常见的环境污染物，它们在土壤中的加速分解可以减少对人类健康的危害。以恒温培养为方法，GC-MS为检测手段，研究了在常温常压下土壤中4-氯苯酚(4-CP)在零价铁作用下的还原脱氯反应。结果表明：4-CP可以被来自零价铁的电子还原，零价铁能够有效促进土壤中的4-CP脱除苯环上的氯原子，从而达到降低毒性、增加可生化性目的。反应条件如初始pH、时间、零价铁用量等均对4-CP还原脱氯效率有重要影响，特别是当初始pH值控制在偏酸时更有利于反应的进行。在零价铁加入量500mg、初始pH=4、反应时间7d的条件下，零价铁对土壤中4-CP还原脱氯效率最高可以达到65％。利用实验数据，对零价铁作用下4-CP还原脱氯的反应机理也进行了初步探讨。     

氯酚与富里酸的缔合作用

本文用超滤膜方法证实氯酚与富里酸之间存在缔合作用，并计算出表观缔合常数在２．７＊１０＾３－－１２１＊１０＾３ｍｌ．ｇ＾－１范围内。实验结果表明”ＰＨ、富里酸含量，氯酚取代氯原子个数都能够影响Ｋ值的大小。     

紫外光作用下氯酚的矿化程度比较

有关氯酚污染物光化学降解的研究，已有报道。ＨｕａｎｇＣＰ的工作较有系统性，他研究了四类深度化学氧化过程，检测指标是氯酚浓度。本文研究了在紫外光以及其它因素作用下，氯酚混合溶液的矿化程度，以溶液总有机磷浓度ＴＯＣ作为指标。所得结论，对于含有氯酚废水的治理，具有指导意义；对于难降解     

Occurance and control of manganese in a large scale water treatment plant

The continuous variations of dissolved oxygen (DO), manganese (Mn), pH, and their effect on manganese removal by different water treatment processes are investigated. The results show that the declined DO concentration and pH value in the bottom of reservoir results in the increasing release of Mn from sediment to source water. Manganese concentration increased from 0.1 to 0.4 mg·L^-1 under the condition that DO concentration decreased from 12.0 to 2.0 mg·L^-1 in raw water. The different water treatment processes exhibited different efficiency on manganese removal. The processes with recycling of the suspended sludge, low elevation velocity in settling tank and slow filter rate, will benefit the manganese removal. During a high release of manganese in raw water, traditional coagulation-sedimentation and filtration could not completely remove Mn, although granular activated carbon filtration (GAC) had been applied. At that case, preoxidation with chlorine or potassium permanganate (KMnO₄) was necessary to address the high manganese concentration.     

Application of permanganate in the oxidation of micropollutants: a mini review

As a green oxidant, permanganate has received considerable attention for the removal of micropollutants in drinking water treatment. To provide a better understanding of the oxidation of organic micropollutants with permanganate, the oxidation kinetics of 32 micropollutants were compiled. The pollutants include algal toxins, endocrine disrupting chemicals (EDCs), and pharmaceuticals. The oxidation kinetics of micropollutants by permanganate were found to be first order with respect to both contaminant and permanganate concentrations from which second-order rate constants (k″) were obtained. Permanganate oxidized the heterocyclic aromatics with vinyl moiety (i.e., microcystins, carbamazepine, and dichlorvos) by the addition of double bonds. For the polycyclic aromatic hydrocarbons (PAHs) with alkyl groups, permanganate attacked the benzylic C-H through abstraction of hydrogen. The mechanism for the oxidation of phenolic EDCs by permanganate was a single electron transfer and aromatic ring cleavage. The presence of background matrices could enhance the oxidation of some phenolic EDCs by permanganate, including phenol, chlorinated phenols, bisphenol A, and trichlosan. The toxicity of dichlorvos solution increased after permanganate oxidation, and the estrogenic activity of bisphnol A/estrone increased significantly at the beginning of permanganate oxidation. Therefore, the toxicity of degradation products or intermediates should be determined in the permanganate oxidation processes to better evaluate the applicability of permanganate. The influence of background ions on the permanganate oxidation process is far from clear and should be elucidated in the future studies to better predict the performance of permanganate oxidation of micropollutants. Moreover, methods should be employed to catalyze the permanganate oxidation process to achieve better removal of micropollutants.     

高锰酸钾预氧化并复合高岭土与聚合氯化铝(PAC)絮凝去除水中颤藻

采用高锰酸钾预氧化复合高岭士与聚合氯化铝(PAC)混凝,对去除水中颤藻进行了研究.通过正交试验得出了在试验水质条件下,颤藻去除最佳条件为:高锰酸钾投加量为0.5mg·l~(-1),预氧化时间为15min,PAc投加量为2.5mg·l~(-1),粒径为160目的高岭土投加量为50mg·l~(-1).在此条件下,高锰酸钾可氧化颤藻失活但并没有破坏藻细胞壁,防止了藻毒素的释放.预氧化产生的水合二氧化锰作为凝结核促进了絮体的形成,并使之更加密实、易沉降,且沉降后藻絮体不再上浮,提高了处理后的水质.     

北方人工湿地系统对内分泌干扰物质的去除效果

通过现场取样,固相萃取柱富集以及气相色谱/质谱联用(GC/MSD)测定,研究了北京市官厅水库上游的一个人工湿地系统在秋季(植物茂盛)和冬季(植物枯萎)对典型环境内分泌干扰物和人工合成激素的处理效果.结果表明,人工湿地系统的原水和各工艺段出水中酚类和雌激素类物质的浓度高于美国地表水监测数据和我国地表水监测数据.湿地系统对部分壬基酚有较好的处理效果,而在冬季效果不明显;无论秋季或冬季对雌激素类则无明显去除效果.     

Kinetics of oxidation of dimethyl trisulfide by potassium permanganate in drinking water

Metabolites of algae such as geosmin, 2-methylisoborneol etc. are reported to induce pungent odors into drinking water and attract additional scientific attention. Recently, in China, taste and odor outbreaks in drinking water supply have become increasingly common. In source water affected by eutrophication, dimethyl trisulfide, speculated to be produced by decayed algae, was found to be the source of taste and odor issues and can be removed effectively by usual oxidation agents. In this experimental study, batch scale tests were carried out focusing on the removal of dimethyl trisulfide. Reaction kinetics of dimethyl trisulfide oxidized by potassium permanganate in water had been studied; influence factors such as pH, organic substrate, other existed taste, and odor contaminant in equivalent concentration were also discussed. Results showed that dimethyl trisulfide can be removed by potassium permanganate efficiently; the ratio can reach more than 70% with oxidant dosage of 4 mg·L^-1 and contact time prolonged to 120 min. The dimethyl trisulfide decomposition followed a second-order kinetics pattern with a rate constant k = 0.00213 L·(min·mg)^-1. Typically, the degradation rate of dimethyl trisulfide was increased with the increasing KMnO₄ dosage, but dramatically dropped with the increasing levels of humic acid (1.8–4.5 mg·L^-1) and other odor-causing compounds (e.g. β-cyclocitral, 0–1886.0 μg·L^-1). Solution pH (5.2–9.0) and initial dimethyl trisulfide concentration did not significantly affected the degradation. This study demonstrates that KMnO₄ oxidation is an effective option to remove dimethyl trisulfide from water.     

Ecosystem-inspired model and artificial intelligence predicts pollutant consumption capacity by coagulation in drinking water treatment

Conventional methods for water and wastewater treatment are energy-intensive, notably at the stage of coagulation–flocculation, calling for new strategies to predict pollutant reduction because the amount of energy consumed is related to how much of the pollutant is treated. Here we developed a model, named Bio-logic, inspired by ecosystems, where pollutants represent organisms, coagulants are food, and the wider environmental conditions are the living environment. Artificial intelligence was used to learn the biological behavior, which enabled an accurate prediction of the amount of pollutant reduction. Results show that pseudo-biological objects that have a strong affinity for biological food, such as turbidity, total phosphorus, ammonia nitrogen and the potassium permanganate index, induced a strong correlation, between measured pollutant consumption capacity and predicted values. For instance, R² correlation coefficients are 0.97 for turbidity and 0.92 for the potassium permanganate index in the laboratory; and 0.99 for turbidity, 0.90 for total phosphorus, 0.75 for ammonia nitrogen and 0.63 for the potassium permanganate index in water treatment plants. Overall, our findings demonstrate that artificial intelligence can use the water Bio-logic model to predict the pollutant consumption capacity.

     

酚类化合物在矿化垃圾中吸附性能的研究

研究了苯酚、2-氯酚、4-氯酚、2,4-二氯酚在矿化垃圾中的吸附性能.酚在矿化垃圾中的吸附是一个比较迅速的过程,经过6h的吸附即可达到平衡.pH值对酚吸附容量的影响较大,低pH值有利于矿化垃圾对酚的吸附.四种酚在矿化垃圾中的吸附容量大小顺序为:4-氯酚＞2,4-二氯酚＞2-氯酚＞苯酚.在实验浓度范围内,酚在矿化垃圾中的吸附符合Freundlish等温吸附方程.四种酚在矿化垃圾中的吸附是酚在矿化垃圾有机质的分配作用和化学吸附作用共同作用的结果.     

高锰酸钾对中国花鲈的毒性效应

为给中国花鲈(Lateolabrax rnaculatus)养殖的病害防治提供理论数据,研究了高锰酸钾对中国花鲈鱼苗和幼鱼急性毒性,检测了暴露于不同质量浓度高锰酸钾中,幼鱼肝脏的谷胱甘肽(GSH)和丙二醛(MDA)含量以及超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、谷丙转氨酶(GPT)和谷草转氨酶(GOT)活力.结...     

高锰酸钾对染料废水的脱色研究

研究了影响高锰酸钾对染料废水脱色的有关因素,结果表明,脱色反应的最佳ＰＨ值应小于１．５,高锰酸钾的浓度对脱色效果显著。     

Efficient dechlorination of 2,4-dichlorophenol in an aqueous media with a mild pH using a Pd/TiO2NTs/Ti cathode

In this study, palladium-loaded titania nanotubes was fabricated on a titanium plate (Pd/TiO₂NTs/Ti) for efficient electrodechlorination of 2,4-chlorophenol with a mild pH condition. The nature of Pd/TiO₂NTs/Ti electrodes was characterized by field-emission scanning electron microscope (FESEM), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and cyclic voltammetry (CV) techniques. The characterization results indicated the generation of Pd⁰ nanoparticles which were evenly dispersed on titania nanotubes arrays on the Pd/TiO₂NTs/Ti surface. An effective degradation efficiency of up to 91% was achieved within 60 min at cathode potential of −0.7 V (vs. SCE) and initial pH of 5.5. The effects of the applied cathode potential and initial pH on the degradation efficiency were studied. A near neutral condition was more favorable since very low and very high pHs were not conducive to the dechlorination process. Furthermore, the intermediates analysis showed that the Pd/TiO₂NTs/Ti electrode could completely remove chlorine from 2, 4-dichlorophenol since only phenol was detected as the byproduct and the concentration of released chlorine ions indicated near-complete dechlorination. This work presents a good alternative technique for eliminating persistent chlorophenols in polluted wastewater without maintaining strong acidic environment.