苯醌对聚合硅酸铁多相UV-Fenton体系的增效机制

通过构建苯醌增效聚合硅酸铁多相UV-Fenton体系,讨论了体系中橙Ⅱ的脱色和降解途径.在研究苯醌浓度对聚合硅酸铁铁离子的释放、Fe²⁺与Fe³⁺之间的转化、H₂O₂分解和·OH生成影响的基础上,提出了苯醌对聚合硅酸铁多相UV-Fenton体系的增效机制.结果表明,随苯醌浓度的增加,其紫外光下光解还原聚合硅酸铁并释放Fe²⁺的程度增大、H₂O₂分解速度加快、产生·OH浓度峰值增高且出现的时间提前;苯醌增效体系释放于溶液中的Fe²⁺可以通过Fenton反应转化成Fe³⁺,反应结束后聚合硅酸铁能重新吸附Fe³⁺并使其浓度降低,避免了增效体系铁离子的二次污染.本研究将为多相催化剂催化过程的调控提供新的视角,为多相光助-芬顿反应在有机废水资源化中的应用提供理论依据和技术支持.     

Seasonal changes of endogenous ABA and cytokininsin environmental adaptation of differentecotypes of reed plants

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Enzymatic degradation of poly([R,S] β-hydroxybutyrate)

The synthetic analogue of a bacterially produced polyester, poly(-hydroxybutyrate) (PHB) was synthesized from racemic -butyrolactone using anin situ trimethyl aluminum-water catalyst. The polymer was fractionated into samples differing in molecular weight and isotactic diad content. The latter was closely related to degree of crystallinity. The biodegradation of these fractions were examined by monitoring mass loss over time in the presence of anAlcaligenes faecalis T1 extracellular bacterial poly(-hydroxybutyrate) depolymerase. The fraction with high isotactic diad tacticity content showed little or no degradation over a 50 hour incubation period, whereas the fraction of intermediate isotactic diad content degraded in a continuous steady fashion at a rate that was less than that for bacterial PHB. The low isotactic diad fraction underwent a rapid initial degradation, followed by no further mass loss. The presence of stereoblocks in the polymer structure of the various fractions was an influence on the degree of susceptibility towards degradation and is related to sample crystallinity.     

Re-evaluation of thyroid hormone signaling antagonism of tetrabromobisphenol A for validating the T3-induced Xenopus metamorphosis assay

We developed the T3-induced Xenopus metamorphosis assay, which is supposed to be able to sensitively detect thyroid hormone(TH) signaling disruption of chemicals. The present study aimed to validate the T3-induced Xenopus metamorphosis assay by re-evaluating the TH signaling antagonism of tetrabromobisphenol A(TBBPA), a known TH signaling disruptor. According to the assay we developed, Xenopus tadpoles at stage 52 were exposed to 10–500 nmol/L TBBPA in the presence of 1 nmol/L T3. After 96 hr of exposure, TBBPA in the range of 10–500 nmol/L was found to significantly inhibit T3-induced morphological changes of Xenopus tadpoles in a concentration-dependent manner in term of body weight and four morphological endpoints including head area(HA), mouth width(MW), unilateral brain width/brain length(ULBW/BL), and hind-limb length/snout-vent length(HLL/SVL).The results show that these endpoints we developed are sensitive for characterizing the antagonistic effects of TBBPA on T3-induced metamorphosis. Following a 24-hr exposure,we found that TBBPA antagonized expression of T3-induced TH-response genes in the tail,which is consistent with previous findings in the intestine. We propose that the tail can be used as an alternative tissue to the intestine for examining molecular endpoints for evaluating TH signaling disruption. In conclusion, our results demonstrate that the T3-induced Xenopus metamorphosis assay we developed is an ideal in vivo assay for detecting TH signaling disruption.     

高岭土负载纳米Fe/Ni同时去除水中Cu2+和NO3-

工业废水常含有不同污染物如重金属离子和无机阴离子,而如何有效去除复合污染物就成为环境科学前沿研究的挑战性课题.这些污染物因化学性质不同而导致去除机理和途径也不同.本文采用合成高岭土负载纳米双金属Fe/Ni(K-Fe/Ni)同步去除水中Cu2+和NO-3.结果表明K-Fe/Ni能有效去除水中Cu2+和NO-3,但它们的去除效果却会相互受到影响.在Cu2+浓度为200mg·L-1时,NO-3的去除率达到42.5%;而未加入Cu2+时,NO-3的去除率仅有26.9%,说明Cu2+的存在提高了NO-3降解效率.同样,水中NO-3的存在也影响Cu2+的去除(Cu2+去除率从99.7%降到96.5%).但NO-3浓度对去除Cu2+的影响小于Cu2+浓度对NO-3的影响.通过BET比表面积、X射线衍射(XRD)、扫描电镜(SEM)、X射线能量散射(EDS)和X射线光电分析(XPS)对K-Fe/Ni表征的结果显示,反应后K-Fe/Ni的表面存在铁的氧化物、Ni0和被还原的Cu0.基于以上结果,我们发现K-Fe/Ni同步去除水中Cu2+和NO-3的机理是:高岭土负载下的纳米Fe0作为还原剂,在Ni0的催化产氢作用下将Cu2+还原成Cu0并沉积在K-Fe/Ni上而形成纳米Fe/Ni/Cu三金属催化剂,从而加速催化水中NO-3降解.     

新版GB/T28001的主要变化

介绍了GB／T28001—2001标准修订的背景及修订原则,解读了新版标准的主要变化。     

T型氧化沟工艺处理低碳源生活污水的效果研究

详细介绍了T型氧化沟工艺的特征,并考察研究了该工艺处理低碳源生活污水的长期运行效果。研究结果表明,工艺出水COD、BOD5、NH3-N、TN和TP年平均浓度分别为13.9、3.8、0.91、18.80和1.67 mg/L,去除率分别为88.99%、94.37%、96.74%、37.57%和41.58%,均能达到相应的排放标准。由于T型氧化沟中以好氧环境为主,缺乏厌氧和缺氧环境以及进水的BOD5/TN值低,工艺对有机物及NH3-N的去除效果较好,但TN和TP去除效果较低。提出了加强工艺脱氮除磷的措施,为同类型污水处理厂改造提供参考。     

FeⅡ(EDTA)络合协同RDB去除NO废气效能及过程分析

为进一步提高一氧化氮(NO)的去除效率,在新型生物转鼓反应器(rotating drum biofilter,RDB)中,以FeⅡ(EDTA)络合协同RDB生物转鼓的耦合技术强化难水溶性NO的气液传质速率,提高生物还原效能为目标进行了研究.结果表明,适量FeⅡ(EDTA)被添加到RDB底部营养液后,能迅速吸收气相中的NO并生成FeⅡ(EDTA)-NO络合物,进而可通过反硝化实现同步脱氮和络合剂再生.在转速0.5 r.min-1、空床停留时间(EBRT)57.7 s、温度30℃、pH 7～8的实验条件下,RDB的净化效能随络合剂的投加而显著改善;FeⅡ(EDTA)质量浓度从0增至500 mg.L-1后,NO去除率从61.1%提高到97.6%,去除负荷从16.2 g.(m3.h)-1上升到26.7 g.(m3.h)-1.分析了FeⅡ(EDTA)络合协同净化NO的反应过程,建立了NO净化效率与FeⅡ(EDTA)添加浓度的关联方程,可较好地拟合实验数据.     

酿酒酵母吸附Pb(Ⅱ)的表面特性研究

为深入探讨酿酒酵母吸附Pb（Ⅱ）的微观作用机制,本文利用表面显微分析技术（SEM-EDS、TEM-EDS、AFM）研究了酿酒酵母细胞吸附重金属离子Pb（Ⅱ）前后的细胞表面变化.研究结果表明,酿酒酵母细胞与Pb（Ⅱ）作用后,细胞表面除吸附Pb（Ⅱ）外,同时产生大量更高浓度的含Pb（Ⅱ）沉淀,导致Pb（Ⅱ）从溶液中被去除.酵母与Pb（Ⅱ）反应前,酵母细胞表面可检测到的主要元素包括C、O、N、P、S、K、Mg;酵母与Pb（Ⅱ）作用后,细胞表面始终保持C、O、P吸收峰,而N、K、Mg、S吸收峰随反应条件不同而减弱、消失或增强.P作为细胞表面组分可能与Pb（Ⅱ）结合.酵母与Pb（Ⅱ）作用过程中,重金属离子促进酵母细胞释放细胞内含物.原子力显微镜（AFM）证实,云母片表面对酵母吸附Pb（Ⅱ）后细胞的铺展变形作用明显增大.     

西辽河流域沙土的氨氮解吸行为研究

采用小型回填式土柱淋溶实验方法研究了西辽河流域沙土的氨氮解吸行为。结果表明,西辽河流域沙土的氨氮解吸行为符合Langmuir和Freundlich解吸等温式;沙土氨氮解吸比率Dr在0.44～0.99之间,平均为0.75,解吸迟滞性指数TⅡ在0.05～0.65之间,平均为0.29,沙土对氨氮的解吸迟滞性较强,解吸可逆性较弱。被吸附的氨氮解吸淋失的环境风险较小;沙土氨氮解吸比率Dr与土壤有机质含量、粘粒含量和粗粘粒含量呈极显著负相关,影响程度顺序为:有机质含量>粗粘粒含量>粘粒含量;解吸分配系数k和解吸迟滞性指数与土壤有机质含量分别呈极显著和显著正相关,与粘粒含量和粗粘粒含量没有相关性;草地、农田和林地结构由于土壤有机质和团聚体含量较高,氨氮解吸迟滞性较强,氨氮流失的环境风险较小,沙荒地结构氨氮流失的环境风险较大。