电化学氧化法预处理超高盐榨菜腌制废水

鉴于超高盐榨菜腌制废水导电性良好,采用电化学氧化法进行预处理(阳极为Ti基RuO₂-TiO₂-IrO₂-SnO₂网状涂层形稳电极),考察初始pH、电流密度、电解时间和极板间距对COD_Cr和氨氮去除率的影响,并探讨该过程中有机物相对分子量的变化规律.结果表明,在电流密度156 mA/cm2、极板间距1.5 cm、初始pH 4.3~5.0、电解时间120 min时,COD_Cr和氨氮去除率较佳,分别为55.74%和99.77%.出水pH升至9.54,盐度由7.0%降至6.4%,大分子有机物转化为小分子有机物,对后续生物处理有利.      

高分子树脂与介孔分子筛吸附-脱附VOCs性能对比

采用溶剂热法制备介孔聚二乙烯基苯(PDVB)树脂,并以介孔分子筛MCM-41、SBA-15为参照,从吸附-脱附甲苯、邻二甲苯、均三甲苯性能和高湿度下的疏水性能方面对其进行对比研究.结果表明,PDVB具有最大的比表面积1219.1m2/g,其对低浓度甲苯吸附量约为介孔分子筛的2倍,同时吸附性能几乎不受水汽影响.随着VOCs分子尺寸增加,3种吸附剂对VOCs的饱和吸附量均有所增加,但PDVB的穿透吸附量明显高于分子筛.热重分析表明,在200℃以下3种吸附剂上吸附的有机分子均能脱附完全,具有优良的脱附再生性能.     

Effect of iron addition on the performance of anoxic-oxic membrane process and biological phosphorus removal北大核心CSCD

In order to solve the problem of poor treatment of phosphorus in membrane bioreactor (MBR) with long sludge retention time (SRT), a ferric salt was added to enhance phosphorus removal; FeCl36H2O (Fe/P = 2.0) was added to the reactor. The removal efficiency of nitrogen, organic matters, and phosphorus in the MBR was investigated systematically. Moreover, this study focused on the membrane performance, the change of active sludge flora, and the effect of adding a ferric salt on membrane fouling before and after the addition. It was seen that adding the ferric salt could not affect the removal of COD and NH4 +-N and the removal rate of COD and NH4 +-N reached over 90%. However, the average removal rate of phosphorus was 52%, while the removal rate increased by nearly 40% after adding the ferric salt. The effects of adding ferric salts on the dominant bacteria and biological phosphorus removal of activated sludge were further studied. The results showed that the addition of ferric salt (Fe/P = 2.0) decreased the diversity of active sludge flora and relative abundance of some phosphorusaccumulating organisms and had a negative effect on biological phosphorus removal. The analysis of transmembrane pressure difference (TMP) recording revealed that the concentration of iron salts did not exacerbate membrane fouling. The results showed that the concentration of iron salts entering the membrane bioreactor would reduce the relative abundance and phosphorus removal efficiency of the activated sludge in the system to a certain extent, but it had no obvious effect on membrane fouling. It allowed the effluent to attain acceptable standards, especially with respect to phosphorus removal efficiency. © 2018 Science Press. All rights reserved.     

阳澄湖水源中典型嗅味物质测定与来源分析

以阳澄湖水源为研究对象,采用固相微萃取-气质联用法测定水中2-甲基异莰醇(2-MIB)、土臭素(GSM)、2,4,6-三氯苯甲醚(2,4,6-TAC)、2,3,4-三氯苯甲醚(2,3,4-TAC)、2,3,6-三氯苯甲醚(2,3,6-TAC)、2-异丙基-3甲氧基吡嗪(IPMP)、2-异丁基-3甲氧基吡嗪(IBMP)、β-环柠檬醛、β-紫罗兰酮、异氟尔酮等10种典型嗅味物质,并分析可能的来源藻类.以2018年1月-12月阳澄湖水源中优势藻种为基础,建立以上述嗅味物质为变量的多元线性回归模型.结果表明,水源中2-MIB、GSM、β-环柠檬醛、β-紫罗兰酮、异氟尔酮5种嗅味物质与直链藻、针杆藻、鱼腥藻、色球藻、颤藻、微囊藻、束丝藻7种藻类有较强的相关性.     

A/O-电催化氧化法处理中转站垃圾渗滤液

采用A/O-电催化氧化法处理村镇垃圾中转站渗滤液,并针对工艺核心电催化氧化单元的相关运行参数进行探究。结果表明：使用椰壳活性炭作为粒子电极基体材料,以Sn-Sb作为活性催化剂,在初始pH值＜7、外加电压15 V条件下,电解中转站垃圾渗滤液效果较好;联合工艺连续运行阶段,当水力停留时间达到11 d时,原水COD从（31 098±1 270）mg/L下降到（391±44）mg/L,渗滤液可生化性（B/C）从0.336±0.020提升到0.719±0.024,可生化性显著增强。     

How aerosol direct effects influence the source contributions to PM2.5 concentrations over Southern Hebei,China in severe winter haze episodes

The aerosol direct effects result in a 3%–9% increase in PM_2.5 concentrations over Southern Hebei. These impacts are substantially different under different PM_2.5 loadings. Industrial and domestic contributions will be underestimated if ignoring the feedbacks. Beijing-Tianjin-Hebei area is the most air polluted region in China and the three neighborhood southern Hebei cities, Shijiazhuang, Xingtai, and Handan, are listed in the top ten polluted cities with severe PM_2.5 pollution. The objective of this paper is to evaluate the impacts of aerosol direct effects on air quality over the southern Hebei cities, as well as the impacts when considering those effects on source apportionment using three dimensional air quality models. The WRF/Chem model was applied over the East Asia and northern China at 36 and 12 km horizontal grid resolutions, respectively, for the period of January 2013, with two sets of simulations with or without aerosol-meteorology feedbacks. The source contributions of power plants, industrial, domestic, transportation, and agriculture are evaluated using the Brute-Force Method (BFM) under the two simulation configurations. Our results indicate that, although the increases in PM_2.5 concentrations due to those effects over the three southern Hebei cities are only 3%–9% on montly average, they are much more significant under high PM_2.5 loadings (~50 μg·m⁻³ when PM_2.5 concentrations are higher than 400 μg m⁻³). When considering the aerosol feedbacks, the contributions of industrial and domestic sources assessed using the BFM will obviously increase (e.g., from 30%–34% to 32%–37% for industrial), especially under high PM_2.5 loadings (e.g., from 36%–44% to 43%–47% for domestic when PM_2.5>400 μg·m⁻³). Our results imply that the aerosol direct effects should not be ignored during severe pollution episodes, especially in short-term source apportionment using the BFM.     

Catalytic reduction for water treatment

Treating water contaminants via heterogeneously catalyzed reduction reaction is a subject of growing interest due to its good activity and superior selectivity compared to conventional technology, yielding products that are non-toxic or substantially less toxic. This article reviews the application of catalytic reduction as a progressive approach to treat different types of contaminants in water, which covers hydrodehalogenation for wastewater treatment and hydrogenation of nitrate/nitrite for groundwater remediation. For hydrodehalogenation, an overview of the existing treatment technologies is provided with an assessment of the advantages of catalytic reduction over the conventional methodologies. Catalyst design for feasible catalytic reactions is considered with a critical analysis of the pertinent literature. For hydrogenation, hydrogenation of nitrate/nitrite contaminants in water is mainly focused. Several important nitrate reduction catalysts are discussed relating to their preparation method and catalytic performance. In addition, novel approach of catalytic reduction using in situ synthesized H₂ evolved from water splitting reaction is illustrated. Finally, the challenges and perspective for the extensive application of catalytic reduction technology in water treatment are discussed. This review provides key information to our community to apply catalytic reduction approach for water treatment.

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磁性水滑石双金属催化剂吸附-催化氢还原去除水中高氯酸盐的研究

采用化学共沉淀法制备磁性钯钴水滑石催化剂（M-Pd/Co@CHT）,用于吸附催化还原去除水中的高氯酸盐.同时,研究了不同溶液pH值、催化剂投加量、温度、共存离子和氢气流量等因素的影响,考察了吸附动力学和等温吸附过程.最后对反应前后材料进行表征,以明确吸附催化氢还原反应机理.结果表明：在较宽的pH范围（5~10）内,M-Pd/Co@CHT显示出对高氯酸盐较高、较稳定的吸附效率;伪二阶动力学模型和Langmuir模型能很好地拟合催化剂对高氯酸盐的吸附规律,说明该吸附过程是近似单层的化学吸附,最大单层吸附容量为172.65 mg·g^-1;温度、投加量和供氢气量对M-Pd/Co@CHT加氢催化还原高氯酸盐有显著的影响,当高氯酸盐初始浓度为10 mg·L^-1时,在最优实验条件下30 min可以去除约54%的高氯酸盐;利用XRD、FTIR、BET、XPS及VSM等手段对M-Pd/Co@CHT进行表征,结果表明,介孔M-Pd/Co@CHT可以有效吸附或催化高氯酸盐;高氯酸盐首先被吸附至M-Pd/Co@CHT上从而恢复其层状结构,而后在Pd/Co二元金属催化剂的作用下被氢还原去除;利用外加磁场能够实现材料的固液分离,可以有效地避免二次污染.     

生物膜系统中部分反硝化实现特性

以移动床生物膜反应器（moving-bed biofilm reactor,MBBR）为例,考察生物膜系统中部分反硝化NO₂^--N积累特性,并通过耦合厌氧氨氧化验证生物膜系统中部分反硝化耦合厌氧氨氧化（partial denitrification with anaerobic ammonium oxidation,PD+ANAMMOX）工艺的可行性.结果表明,在C/N为3.0,填充率为20%的条件下,经过40 d的富集培养,实现部分反硝化,NO₂^--N积累率达（69.38±3.53）%;接种生物膜NO₃^--N还原酶（nitrate reductase,NAR）活性为0.03 μmol·（min·mg）^-1,NO₂^--N还原酶（nitrite reductase,NIR）活性为0.18 μmol·（min·mg）^-1,富集培养后生物膜NAR活性增至0.45 μmol·（min·mg）^-1,NIR活性降至0.02 μmol·（min·mg）^-1,从酶学角度验证了部分反硝化实现;高通量测序结果显示,Thauera属从0.3%增加至37.27%,在微生物群落中占主导地位,该菌属被认为是部分反硝化过程的主要功能菌.随后与厌氧氨氧化耦合,出水总氮达（6.41±1.50） mg·L^-1,总氮去除率达（88.16±2.71）%,证明了生物膜系统中PD+ANAMMOX的可行性及稳定性.     

发酵制药废水二级出水中溶解性有机物特性分析

溶解性有机物（DOM）是发酵制药废水二级生化尾水深度处理工艺的主要去除对象,深入解析废水中DOM的特性是将其有效去除的前提和关键.本研究采集氨基酸类、头孢类、抗生素类、维生素类、阿维菌素类5种发酵制药废水二级出水,通过XAD-8树脂亲疏水性分离、凝胶色谱分子量分级、傅里叶变换红外光谱和三维荧光表征对二级出水中的DOM进行特性分析.结果表明,5种发酵制药废水二级出水的盐度和色度高,废水中有机物浓度高、波动大（48.60~245.40 mg·L^-1）.DOM大多数以疏水性组分为主,分子量分布广泛（210~10000 Da）.二级出水DOM均含有大量的不饱和双键、苯环结构,同时含有—OH、—NH₂和C=O等发色团和助色基团,造成废水色度较高.通过对发酵制药废水二级出水进行EEM-PARAFAC分析确定了4种荧光组分特征峰,包括3种腐殖质类（C1、C3、C4）和1种类蛋白类组分（C2）.发酵制药废水二级出水中DOM主要是以类腐殖质有机物为主（C1、C3）.全方面识别和解析发酵制药废水DOM的组成,可为废水深度处理工艺的优化提供指导.