Photo-assisted fenton oxidation of refractory organics in UASB-pretreated leachate

Nearly 91% of organic pollutants in Hong Kong leachate could be effectively removed by the UASB(upflow anaerobic sludge blanket)process followed by the fenton coagulation.The COD(chemical oxygen demand)of leachate was lowered from an average of 5620 mg/L to 1910 mg/L after the UASB treatment at 37℃,and was further lowered to 513 mg/L after fenton coagulation.The remaining refractory residues could be further removed by plotochemical oxidation with the addition of H2O2.The BOD/COD ratio was greatly increased from 0.062 to 0.142,indicating the biodegradability of organic residues was improved.The photochemical oxidation for the fenton-coagulation supernatant was most effective at pH3-4,with the addition of 800 mg/L of H2O2,and UV radiation time of 30 minutes.The final effluent contained only 148 mg/L of COD,21 mg/L of BOD(biochemical oxygen demand)and 56 mg/L of TOC (total organic carbon).     

Speciation and fractionation of heavy metals in soil experimentally contaminated with Pb,Cd, Cu and Zn together and effects on soil negative surface charge

Speciation and fractionation of heavy metals in soil subsamples experimentally loaded with Pb, Cd, Cu and Zn in orthogonal design was investigated by sequential extraction, and operationally defined as water-soluble and exchangeable(SE), weakly specific adsorbed( WSA),Fe and Mn oxides-bound(OX) and organic-bound( ORG). The results showed that fractions of heavy metals in the soil subsamples depended on their speciation. About 90% of Cd and 75% of Zn existed in soil subsamples in the SE fraction. Lead and Cu existed in soil subsamples as SE, WSA and OX fractions simultaneously, although SE was still the major fraction. Organic-bound heavy metals were not clearly apparent in all the soil subsamples. The concentration of some heavy metal fractions in soil subsamples showed the good correlation with ionic impulsion of soil, especially for the SE fraction. Continuous saturation of soil subsamples with 0.20 mol/L NH4CI, which is the first step for determination of the negative surface charge of soil by the ion retention method, resulted in desorption of certain heavy metals from the soil. It was found that the percentage desorption of heavy metals from soil subsamples depended greatly on pH, the composition and original heavy metal content of the soil subsamples. However, most of the heavy metals in the soil subsamples were still be retained after multiple saturation. Compared with the parent soil, the negative surface charge of soil subsamples loaded with heavy metals did not show difference significantly from that of the parent one by statistical analysis. Heavy metals existed in the soil subsamples mainly as exchangeable and precipitated simultaneously.     

1420Al-Li合金超塑特性及微成形

采用最大载荷法研究了 14 2 0Al Li合金的超塑特性 ,根据试验获得的超塑特性参数 ,采用两种形式的模具对 14 2 0Al Li合金的微成形性进行了研究。分析了成形压力、保压时间对微成形的影响 ,采用扫描电镜和金相显微镜分析了成形件的微观形貌 ,更好地理解了材料在微成形时的行为。     

柴油车排气微粒捕集用复合金属丝网的制备与性能研究

论述了用于柴油车排气微粒捕集器的复合金属丝网的制备和测试过程，讨论了丝网层数和涂层负载对复合金属丝网过滤性能的影响，并分析了其捕集机理。     

成都市典型溶剂源使用行业VOCs排放成分特征

对成都市5类典型溶剂使用行业挥发性有机物(VOCs)进行采样监测,测定了其主要组成成分,得出了各行业的VOCs本地化排放系数.结果表明:芳香烃和含氧VOCs是主要成分,不同行业的特征VOCs组分各有不同;大气化学反应活性较大的物种大部分为芳香烃,其中对/间二甲苯的臭氧生成潜势(OFP)值约为141.88 mg·m~(-3),甲苯的OFP值约为90.90 mg·m~(-3),二者占总OFP的53%;家具制造行业的VOCs排放系数为0.61 kg·件~(-1),汽车喷涂行业VOCs排放系数为3.1 kg·辆~(-1),制鞋行业VOCs排放系数为4.04 g·双~(-1),印刷行业VOCs排放系数为34.7g·kg~(-1)油墨,人造板生产行业VOCs排放系数为3.67 g·m~(-3)人造板.     

合肥科学岛低对流层二氧化碳时空分布特征

依据合肥市科学岛2013~2016年的CO₂体积比浓度廓线,分别从夜间、季节和年度分析了亚热带季风气候的CO₂分布特点和合肥科学岛的CO₂源汇特征.（1）大气CO₂体积比浓度随高度增加而减小,390m的CO₂浓度约为15m浓度的95%,夜间随时间推移浓度增加幅度约5%,天亮时CO₂浓度有减小的趋势;（2）测量点高度大于100m时,季节特征较明显,CO₂体积比浓度夏季最低,冬季最高,浓度相差约10×10^-6;（3）测量点高度大于100m时,2013~2016年CO₂体积比浓度的年分布随高度变化的梯度相关系数大于0.9,体积比浓度年增长约2.1648×10^-6.通过三个时间尺度的CO₂体积比浓度廓线分析得出,CO₂浓度特征是动植物活动和大气运动等共同作用的结果;CO₂长期循环过程中,存在近地面CO₂向高空的传输效应.     

纳米乳化油强化硝酸盐反硝化产气变化研究

为探究纳米乳化油原位修复硝酸盐污染地下水过程中产气对含水介质渗透性的影响,以硝酸盐为目标污染物,采用活性污泥滤液接种,分别以纳米乳化油、吐温80和司盘80为碳源开展硝酸盐降解批实验研究,探讨和评估硝酸盐降解及降解过程中的产气情况.结果显示,纳米乳化油、吐温80和司盘80均能促进硝氮的降解,在实验的100d内,共完成7个周期硝酸盐氮的有效去除,总去除率分别为79.5%、63.8%和68.8%.在硝酸盐氮降解过程中,受厌氧发酵和反硝化作用的影响,各反应体系中均有气体生成,只有活性污泥反应体系中主要产气成分是CO₂,未加碳源和分别加3种碳源的4个反应体系（都添加活性污泥和硝酸盐）中主要产气成分是CO₂、N₂.其中,添加纳米乳化油的反应体系U型管产气量最大,为47.73mL;受碳源厌氧发酵的影响,添加司盘80反应体系总产气量最大,为205.34mL.纳米乳化油反应体系次之,吐温80反应体系最小.根据三氮的变化,结合纳米乳化油反应体系理论与实际产气对比显示,在纳米乳化油强化硝酸盐反硝化过程中,18.8%纳米乳化油厌氧发酵产生CO₂,95.4%硝氮反硝化生成N₂.     

嘉兴市城市河网区多环芳烃污染源解析及生态风险评价

为研究嘉兴市城市河网区水体中多环芳烃的污染水平和来源并进行生态风险评价,采用气相色谱-质谱法（GC-MS）对环境优控多环芳烃（PAHs）进行分析检测.结果表明,枯水期和丰水期分别检测出10种和16种优控PAHs,质量浓度范围分别为77.32~283.76ng ·L^-1和13.05~133.02ng ·L^-1,平均质量浓度分别为143.83ng ·L^-1和73.47ng ·L^-1;枯水期低环（2环和3环）占比79.18%,丰水期低环占比73.60%;嘉兴市河网区水体多环芳烃污染情况与国内外其他地区相比处于较低水平;采用同分异构比值法和主成分分析法进行污染来源分析,结果表明嘉兴市枯水期和丰水期河网水体中多环芳烃污染主要来源为城市面源污染、燃烧源以及交通污染源;Kalf风险熵值法评价结果表明,枯水期：萘（Nap）、苊烯（Acy）、二氢苊（Ace）、芴（Flu）、菲（Phe）、蒽（Ant）、荧蒽（Fla）、芘（Pyr）和苯并［a］蒽（BaA）以及∑PAHs为中等生态风险水平,丰水期：萘（Nap）、苊烯（Acy）、芴（Flu）、菲（Phe）、荧蒽（Fla）、芘（Pyr）、苯并［a］蒽（BaA）、苯并［b］荧蒽（BbF）、苯并［k］荧蒽（BkF）、苯并［a］芘（BaP）、茚苯［1,2,3-cd］芘（InP）和苯并［ghi］苝（BghiP）属于中等生态风险水平,∑PAHs为低生态风险水平;总体而言,嘉兴市河网水体中PAHs生态风险呈中等水平,有关部门需采取措施降低河网水体中PAHs的生态风险.     

基于PCA-RBF神经网络的地铁车站火灾风险评估

为避免地铁车站火灾事故的发生,帮助地铁车站管理部门做好火灾风险评估工作,提出基于PCA-RBF神经网络的地铁车站火灾风险评估模型。采用主成分分析法(Principal Component Analysis,PCA)对风险评价指标体系进行降维处理,并将降维后的主成分作为RBF神经网络的输入变量;选择具有代表性的样本数据训练RBF神经网络,并用检验样本测试训练效果;最后,输入待测样本数据得出火灾风险评估结果。通过实例对比分析,验证了该评估模型在地铁车站火灾风险评估中的可行性与准确性,对类似项目火灾风险评估具有一定参考意义。     

上海吴淞地区PM_(10)中重金属的来源分析

使用8通道采样器ACCU(Automatic Cartridge Collection Unit)对上海吴淞地区进行大气颗粒物PM10的采样。对滤膜采用质子激发X射线荧光(PIXE)分析方法进行重金属质量浓度测定,然后对获取的数据分别进行主成分分析,讨论了吴淞地区PM10中含有的主要重金属的可能来源。