水环境中溴化1-烷基-3-甲基咪唑类离子液体与胸腺嘧啶相互作用体系的计算研究

溴化咪唑类离子液体的生物小分子作用机制亟待探索.本文采用M06-2X/6-311++G（2d,p）/PCM/water理论方法计算了研究胸腺嘧啶（T）与溴化1-烷基-3-甲基咪唑类离子液体（[C_nmim]Br,n=2、4、6、8、10）相互作用形成的T-[C_nmim]⁺、T-Br^-、T-[C_nmim]Br和T-2[C_nmim]Br体系的结构和能量学特征.结果表明T与阴阳离子间形成典型构型的稳定顺序是：共面 < 垂直 < 堆积（T-[C_nmim]⁺）,top < front（T-Br^-）,T-[C_nmim]⁺ < T-Br^- < T-[C_nmim]Br < T-2[C_nmim]Br.T与Br^-之间的氢键作用与咪唑阳离子伴随弱氢键的堆积环境更有利,阳离子烷基链长影响不明显.在堆积构型中胸腺嘧啶与咪唑阳离子以π-π⁺色散吸引为主,并伴随C-H…O和C-H…π弱氢键作用,部分碱基电子转移至阳离子（π→π⁺）,其NBO分析显示稳定化能主要来自π→π^+*（ΣE_π→π+*²）轨道作用的贡献;T与Br^-之间以静电吸引为主,溴离子向胸腺嘧啶转移电子,稳定化能源于lp_Br→σ_N-H^*.     

阳极氧化与Fenton法结合的可行性

在Ti/Sn、Sb氧化物作阳极的反应体系中,以甲基橙和刚果红为模拟污染物,用紫外光谱和TOC测试揭示了其降解历程.Ti/Sn、Sb氧化物电极具有良好的电催化活性,Na₂SO₄为电解质,电压为15V,电解24min时,0.01mmol/L的甲基橙和刚果红色度去除率达100%,色度去除能以一级反应动力学方程表征;电解5h后,TOC去除率分别为80.5%和78.6%.由于阳极电催化体系产生的S₂O₈^2-、SO₅^2-对Fenton反应有阻碍作用,所以阳极电Fenton法的运行机制并不完善.     

基于批式呼吸计量法的溶解性COD组分划分

利用批式好氧呼吸计量法结合溶解性慢速水解COD(S_H)水解动力学拟合提出了溶解性COD(SCOD)的组分划分方案.上海2个污水处理厂进水的SCOD组分划分结果表明,A厂沉砂池出水(典型生活污水)的SCOD中含有43.5%～58.6% S_H、 21.8%～35.2%易生物降解COD(S_S)和15.4%～30.9%溶解性惰性COD(S_I); B厂沉砂池出水(长距离输送的合流制污水)SCOD中含有34.5%～45.2% S_H、 29.3%～37.7% S_S和25.6%～31.2% S_I. 9组不同水样的试验拟合结果表明,一级动力学能够很好地描述S_H的水解过程,A厂和B厂进水S_H的水解速率常数分别为28.00～39.77 d^-1和26.48～29.52 d^-1.该组分划分方案能够实现S_S积分区域的理论划分,并消除溶解性微生物产物对S_I测定的影响.     

超声/K2S2O8体系降解左氧氟沙星过程中活性自由基产生机制

以左氧氟沙星水溶液为实验材料,比较了超声、K₂S₂O₈和超声/K₂S₂O₈ 3种体系对左氧氟沙星的去除效果,并通过K₂S₂O₈浓度、超声功率、pH值及添加异丙醇或叔丁醇的对照实验,分析了超声/K₂S₂O₈体系去除左氧氟沙星过程中活性自由基产生机制及变化规律.结果表明：在左氧氟沙星浓度30 mg·L^-1、过硫酸盐浓度20 mmol·L^-1、超声功率360 W、pH=9的条件下,反应180 min,超声/K₂S₂O₈体系中左氧氟沙星的去除率达到90%,超声体系为13.89%,K₂S₂O₈体系只有5.82%;超声/K₂S₂O₈体系存在协同作用,产生了更多的SO₄^-·和·OH;超声/K₂S₂O₈体系中·OH的产生有超声和链式反应两种途径,其中,链式反应的贡献较大,K₂S₂O₈的存在是·OH产生的必要条件,链式反应在自由基浓度较高条件下会发生猝灭,K₂S₂O₈浓度对SO₄^-·的产生有重要影响,但K₂S₂O₈浓度过高对SO₄^-·的产生无益;超声/K₂S₂O₈体系降解左氧氟沙星过程中SO₄^-·与·OH是通过链式反应共同增减的,·OH在反应中占主导地位;反应初期·OH作用较大,随反应时间延长逐渐减小,SO₄^-·作用在反应初期较小,随着反应进行作用逐渐增大.     

附载二氧化钛光催化降解水中对氯苯胺(PCA)

以紫外灯为光源 ,附载在镍网上的 TiO₂ 为催化剂 ,研究水中 PCA光催化降解动力学行为和机理 .结果表明 ,PCA的降解符合准一级动力学方程 ;初始 pH4～11对其反应速率影响较小 ;增大氧气浓度能加快 PCA的降解和脱氯速率 ;外加电位能大幅度提高 PCA的降解速率 .通过 GC-MS技术确定其降解中间产物主要有苯胺、硝基苯、对氯硝基苯、偶氮苯、4,4′-二氯偶氮苯等 ,它们最终矿化为 NH⁺₄、Cl^-、NO^-₃ 和 CO₂ .光催化能有效地降解 PCA但其矿化比降解需要更长的时间 .     

可见光响应手性TiO2复合光催化剂及其降解有机污染物

通过空穴和自由基捕获剂的加入,首先研究了可见光激发下手性TiO₂复合光催化剂降解罗丹明B和四环素的机理. 结果表明,可见光激发TiO₂光催化剂降解罗丹明B和四环素的机理是相同的,其形成的光生空穴是降解有机物的关键影响因素.利用D型手性表面活性剂在低温时可以构建右旋非对称手性堆积结构的D-TiO₂. 这种非对称结构在介孔TiO₂内部引入氧空穴和Ti-N键,使D-TiO₂也具有显著的可见光响应和可见光降解活性. La³⁺ 或者Fe³⁺的掺杂几乎不影响催化剂的形貌及其TiO₂的结晶过程, 但可以在催化剂中形成光生空穴和电子的捕获中心,显著提升可见光激发下TiO₂催化剂中光生空穴和电子的分离率,从而增强催化剂对四环素的光降解活性.     

NO-3和NO-2作为电子受体时的反硝化除磷实时控制

采用SBR厌氧/缺氧运行方式,研究了NO^-₃和NO^-₂作为电子受体时的反硝化除磷效能及ORP与pH作为反硝化除磷过程控制参数的可行性.结果表明,反硝化除磷过程中COD、磷酸盐、电子受体浓度与体系pH和ORP的变化具有较强的相关性.在厌氧阶段,当释磷结束时,pH值平台的出现指示了释磷的结束;在缺氧阶段,吸磷结束后,ORP出现拐点,标志着缺氧吸磷的完成.另外,考察了2种电子受体（NO^-₃和NO^-₂）反硝化除磷的效能.在以NO^-₃为电子受体的反应中,在缺氧初期30 min反应中,平均摄磷速率为32.68 mg/(L·h),每吸收1 mg PO^3-₄-Ｐ 约消耗1.14 mg NO^-₃-Ｎ.在以NO^-₂为电子受体的反应中,在缺氧初期30 min反应中,平均摄磷速率为17.66 mg/(L·h),每吸收1 mg PO^3-₄-Ｐ 约消耗1.57 mg NO^-₂-Ｎ.综上,提出pH和ORP可以作为2种电子受体（NO^-₃和NO^-₂）反硝化除磷的实时控制参数,并且,以NO^-₃为电子受体系统在摄磷方面优于NO^-₂电子受体系统.     

Measurement of tropospheric HO2 radical using fluorescence assay by gas expansion with low interferences

An instrument to detect atmospheric HO₂ radicals using fluorescence assay by gas expansion (FAGE) technique has been developed. HO₂ is measured by reaction with NO to form OH and subsequent detection of OH by laser-induced fluorescence at low pressure. The system performance has been improved by optimizing the expansion distance and pressure, the influence factors of HO₂ conversion efficiency are also studied. The interferences of RO₂ radicals were investigated by determining the conversion efficiency of RO₂ to OH during the measurement of HO₂. The dependence of the conversion of HO₂ on NO concentration was investigated, and low HO₂ conversion efficiency was selected to realize the ambient HO₂ measurement, where the conversion efficiency of RO₂ derived by propane, ethene, isoprene and methanol to OH has been reduced to less than 6% in the atmosphere. Furthermore, no significant interferences from PM_2.5 and NO were found in the ambient HO₂ measurement. The detection limits for HO₂ (S/N = 2) are estimated to 4.8 × 10⁵ cm^?3 and 1.1 × 10⁶ cm^?3 (${\rho }_{\mathrm{H}{\mathrm{O}}_2}$= 20%) under night and noon conditions, with 60 sec signal integration time. The instrument was successfully deployed during STORM-2018 field campaign at Shenzhen graduate school of Peking University. The concentration of atmospheric HOx radical and the good correlation of OH with j(O¹D) was obtained here. The diurnal variation of HOx concentration shows that the OH maximum concentration of those days is about 5.3 × 10⁶ cm^?3 appearing around 12:00, while the HO₂ maximum concentration is about 4.2 × 10⁸ cm^?3 appearing around 13:30.     

模拟土壤淋洗废液中重金属的选择性去除与淋洗液的回收研究

土壤淋洗废液中污染物的选择性去除是实现淋洗液回收的关键.本文以硫化钠（Na₂S）、乙基黄原酸钾（PEX）、二甲基二硫代氨基甲酸钠（DTC）作为重金属沉淀剂处理电子垃圾污染土壤模拟淋洗废液,在筛选出Na₂S作为理想重金属沉淀剂的基础上,研究初始pH值、反应温度、沉淀剂浓度等因素对Na₂S分离络合态重金属的影响,并通过软件模拟和产物表征等方式推测反应机理.结果表明：Na₂S对柠檬酸络合态重金属的分离顺序依次为Cu、Pb、Cd,符合硫化物溶度积原则;反应温度、初始pH值对Na₂S处理络合态重金属无显著影响,重金属去除率均保持在90%以上,柠檬酸的回收率约为95%;Visual MINTEQ模拟结果显示,S^2-投加前液相中重金属主要以H₂CA^-、HCA^2-和CA^3-结合形式存在,S^2-投加后液相中重金属则以HS^-和S^2-结合形式存在;扫描电镜及能谱（SEM-EDS）表明,S^2-与金属阳离子按物质的量比1：1生成硫化物沉淀物,沉淀主要呈团聚、成簇和圆片状存在;X射线衍射（XRD）分析结果表明,沉淀产物中存在CuS、CdS、PbS和CuPbS₂.本研究结果可为化学沉淀法处理重金属污染土壤淋洗废液提供技术参考.     

荞麦皮生物炭对奥硝唑的吸附研究

以农林废弃物荞麦皮为原料制备生物炭（BBC）,采用XRD、Raman、N₂吸附/脱附、FTIR和XPS方法对BBC进行表征,研究其对奥硝唑（Ornidazole,ONZ）的吸附性能及机理.结果表明,热解温度在400~800 ℃, BBC的得炭率为24.5%~34%;温度升高,BBC的芳香性和稳定性增加（H/C由0.047降低至0.013）,比表面积和孔容升高,对ONZ的吸附率增加.采用不同动力学和吸附等温线模型对不同热解温度BBC吸附ONZ的过程进行模拟,吸附过程符合准二级动力学模型和Langmuir吸附等温线模型,表明BBC对ONZ的吸附为单层吸附.其中热解温度为800 ℃时的BBC（BBC-800）对ONZ的吸附效果最好,最大吸附量达到27.12 mg?g^-1.初始pH为3.02~11.03,对BBC-800吸附ONZ的影响不大;共存离子（Na⁺、NH₄⁺、CO₃^2-、HCO₃^-和SO₄^2-）对吸附过程有一定促进作用; 腐殖酸（HA）抑制吸附效果, 5.0 g?L^-1时ONZ的吸附率由97.15%下降至56.86%. FTIR、N₂吸附/脱附和XPS分析结果表明, BBC-800对ONZ的吸附机制主要包括孔隙扩散,生物炭表面与ONZ分子间的氢键、π-π和p-π共轭作用. BBC-800能够有效去除实际水体（污水厂二沉池出水、湖水）中ONZ的残留. 吸附-解吸3次循环实验表明,BBC-800仍具有较好的吸附性能, 对ONZ的吸附容量为14.10 mg?g^-1. 研究结果对荞麦皮的资源化及奥硝唑类药物的有效去除具有重要参考价值.     

酸性偶氮染料还原产物强化偶氮染料生物脱色

考察醌还原菌群利用酸性偶氮染料的生物还原产物对偶氮染料生物脱色的强化作用.结果表明,酸性红B 等酸性偶氮染料的还原产物作为氧化还原介体可以强化多种偶氮染料的生物脱色.当酸性红B 还原产物浓度为0.2mol/L 时,其对活性艳红KE-3B 最佳脱色pH 值为7~11,在4~40℃范围内脱色率随温度上升而提高.根据高效液相色谱-质谱对酸性红B 还原产物的分析结果,推测起氧化还原介体作用的物质是2-氨基-4-磺酸基-1-萘酚     

Enhanced anaerobic fermentation with azo dye as electron acceptor： Simultaneous acceleration of organics decomposition and azo decolorization

Accumulation of hydrogen during anaerobic processes usually results in low decomposition of volatile organic acids（VFAs）. On the other hand, hydrogen is a good electron donor for dye reduction, which would help the acetogenic conversion in keeping low hydrogen concentration. The main objective of the study was to accelerate VFA composition through using azo dye as electron acceptor. The results indicated that the azo dye serving as an electron acceptor could avoid H2 accumulation and accelerate anaerobic digestion of VFAs. After adding the azo dye, propionate decreased from 2400.0 to 689.5 mg/L and acetate production increased from 180.0 to 519.5 mg/L. It meant that the conversion of propionate into acetate was enhanced. Fluorescence in situ hybridization analysis showed that the abundance of propionate-utilizing acetogens with the presence of azo dye was greater than that in a reference without azo dye. The experiments via using glucose as the substrate further demonstrated that the VFA decomposition and the chemical oxygen demand（COD） removal increased by 319.7 mg/L and 23.3% respectively after adding the azo dye. Therefore, adding moderate azo dye might be a way to recover anaerobic system from deterioration due to the accumulation of H2 or VFAs.     

Biodegradation of azo dyes by genetically engineered azoreductase

A azoreductase gene with 537 bp was obtained by PCR amplification from Rhodobacter sphaeroides ASI. 1737. The enzyme,with a molecular weight of 18.7 kD, was efficiently expressed in Escherichia coli and its biodegradation characteristics for azo dyes were investigated. Furthermore, the reaction kinetics and mechanism of azo dyes catalyzed by the genetically engineered azoreductase were studied in detail. The presence of a hydrazo-intermediate was identified, which provided a convincing evidence for the assumption that azo dyes were degraded via an incomplete reduction stage.     

醌化合物强化偶氮染料的生物脱色

考察了醌还原菌群利用氧化还原介质对偶氮染料脱色的强化作用.结果表明,该菌群以AQDS(2,6-二磺酸蒽醌)作为氧化还原介质可强化多种偶氮染料的生物脱色,其中,对活性艳红KE-3B脱色的适宜条件为pH6～9;外加葡萄糖浓度0.05%～0.10%;AQDS浓度10～100mg/L;染料起始浓度≤600mg/L.在此条件下,最大脱色率约为90%,达到最大脱色率的时间<18h.该菌群能以多种蒽醌染料中间体作为氧化还原介质强化偶氮染料活性艳红KE-3B的生物脱色.     

Quantitative structure-activity relationship in the photodegradation of azo dyes

The photolysis characteristics of azo dyes are critically important in environmental pollution control,dye-sensitized solar cells,and dyeing-related industries.However,there is still lack of quantitative relationship between the structures of azo dyes and their photolysis characteristics.To address this issue,the photolysis of 22 azo dyes were conducted side by side at three pH(4.0,6.0,9.0).The obtained pseudo-first order photodegradation rate constants(k₁) were processed with meta-an...     

藻类对偶氮染料的降解及定量结构-生物降解性研究

通过研究普通小球藻（ Chlorella vulgaris） 、蛋白核小球藻（Chlorella pyrenoidosa） 、斜生栅藻（Scenedes nusobliquus） 对偶氮染料的降解作用,筛选出优势藻种并优化降解条件;对单偶氮染料进行了定量结构—生物降解性相关关系（QSBR） 研究．3 种藻均能利用偶氮染料为其生长的唯一 C、 N 源,使染料脱色,蛋白核小球藻具有更强的脱色能力;且藻在无 N 环境中的脱色率明显高于无 C 和正常环境;pH 值对染料脱色影响较大,最佳pH值为中性;不同结构的单偶氮染料生物降解性相差很大,脱色率为9.1 ％ （89.9 ％ , QSBR 研究表明, 偶氮键的最低未占据轨道能量是控制生物降解的主要因素,而脱色率与染料的分子量无关．     

Continuous treatment of azo acid dyes by photo-dependent denitrifying sludge

Simultaneous removals of dye and nitrate by photo-dependent denitrifying sludge(PDDS)have been demonstrated in a continuousflow bench-scale reactor.The best C/N for the degradation of azo dyes by PDDS was 1.5.The specific removal rate of azo dye AB92 decreased with a decrease in hydraulic retention time and increased with a decrease in solids retention time.The degradation rate of TOC decreased with a decrease in hydraulic retention time.AB92,which has nitro and hydroxyl substitutions in non-para positions,was uniquely degraded.During continuous flow treatment experiments using PDDS,complete degradation of azo dyes AB92 and AO20 at influent concentrations of 40mg/L and 30mg/L,respectively,was achieved with an HRT of 16.     

耐盐菌对偶氮染料酸性红B的脱色研究

从食品加工厂含盐污水处理车间的活性污泥中分离出对偶氮染料具有脱色活性的耐盐菌体,研究了不同pH值、脱色温度、接菌量以及装液量等条件对耐盐菌体降解酸性红B的影响,并设计正交实验,获得其降解模拟偶氮染料废水的最佳反应条件.研究结果表明,耐盐菌体TAS在35℃、pH为8、装液量为50mL及接菌量为8%(体积分数)的条件下,反应10h后对浓度为50mg·L-1的酸性红B模拟废水的脱色率达91%.     

Decolorization and bio degradation metabolism of azo dyes by Pseudomonas S-42

A bacterial strain was isolated from activated sludge and has been identified as Pseudomonas sp. S-42 capable of decolorizing azo dyes such as Diamira Brilliant Orange RR (DBO-RR), Direct Brown M (DBM), Eriochrome Brown R (EBR) and so on. The growing cells, intact cells, cell-free extract and purified enzyme of strain S-42 could decolorize azo dyes under similar conditions at the optimum pH 7.0 and temperature of 37℃. The efficiencies of decolorization for DBO-RR, DBM, EBR with intact cells stood more than 90%. When the cell concentration was 15mg (wet)/ml and the reaction time was 5 hours, the decolorizing activities of intact cells for above three azo dyes were 1.75, 2.4, 0.95 μg dye/mg cell, respectively. Cell-free extract and purified enzyme belonged to azoreductase with molecular weight about 34000±2000 and Vmax and Km values for DBO-RR of 13μmol/mg protein/nun and 54μmol, respectively. The results from the detection of the biodegradation products of DBO-RR by spectrophotometric and NaNO2 reac