低中放处置场环境评价参数灵敏度分析

选取90Sr、239Pu和14C为代表核素,采用单参数变分法对某低中水平放射性固体废物处置场环境影响评价中与核素迁移相关的主要评价参数开展了参数灵敏度分析.分析结果表明:对于低中放处置场而言,环境影响评价模式中主要评价参数的选择对最终评价结果的影响很大,因此在环境影响评价中开展不确定度及敏感度分析是必要的.     

Fe-MnOx-CeO2/ZrO2低温催化还原NO性能研究

以纳米ZrO2为载体,用浸渍法制备出Fe-MnOx-CeO2/ZrO2催化剂,考察了活性组分配比和助剂负载量对催化剂低温NH3选择性催化还原NO活性的影响,并对催化剂进行了XRD、SEM、EDS和BET表征;探讨了温度、H2O和SO2对Fe-MnOx-CeO2/ZrO2催化剂低温下NH3选择性催化还原NO的影响,结果表明,无SO2和H2O条件下,8%Fe-10%MnOx-CeO2/ZrO2催化剂具有良好的催化活性和稳定性.120℃时,催化剂的脱硝效率为85.23%,当温度升至180℃时,脱硝效率可达到92.0%.SO2和H2O共存条件下,催化剂易失活,采用傅立叶变换红外光谱对各反应阶段的催化剂进行了表征,对其失活机制进行深入研究,结果表明,催化剂失活的主要原因是催化剂表面硫酸铵盐的沉积和催化剂本身活性成分的硫酸盐化.     

TiO2/PS/Fe3O4 光催化剂的低温制备及其光催化和磁回收性能

以聚苯乙烯(PS)包覆油酸修饰过的纳米Fe3O4为磁核,在低温(90℃)、中性(pH=7左右)条件下,制备了以PS为惰性隔离层的磁载TiO2光催化剂.用X射线衍射仪(XRD)、透射电子显微镜(TEM)、傅里叶红外分光光度计(FT-IR)、振动样品磁强计(VSM)对催化剂的物相组成、形貌、表面性质、磁学性质进行了表征.以苯酚为模拟污染物,考察了其光催化活性,以自制的磁回收装置,考察其回收特性.结果表明,低温制备的TiO2为锐钛矿结构,平均粒径为2～5 nm,催化剂TiO2/PS/Fe3O4[其中物质的量比为n(TiO2)∶n(St)∶n(Fe3O4)=60∶2.5∶1]具有结构完整的壳/壳/核结构,TiO2在PS/Fe3O4表面负载牢固;光催化降解苯酚遵循一级反应动力学方程,TiO2/PS/Fe3O4[n(TiO2)∶n(St)∶n(Fe3O4)=60∶2.5∶1]的反应速率常数K=0.025 8,与纯TiO2的活性接近(K=0.026 2);循环使用5次后,反应速率常数仅降低0.003 4.所制催化剂具有较强的磁感应强度,平均回收率可达到92%以上.该低温水解法制备的磁载TiO2光催化剂具有良好的应用前景.     

短程深度脱氮中试工艺的低温启动和维持

试验采用有效体积为7.0 m3的SBR中试反应器处理生活污水,考察了低温条件下短程深度脱氮工艺的启动方法及稳定性.利用基于鼓风机频率(BF)和pH的实时控制策略对SBR系统进行实时控制.结果表明,SBR系统在低温条件(11～16℃)和50 d内快速启动短程深度脱氮工艺,亚硝酸盐积累率从19.8%上升到90%.在中低温条件(9～28℃)下短程深度脱氮性能维持长达550 d,亚硝酸盐积累率始终维持在95%左右,出水TN浓度维持在3 mg·L-1,TN去除率维持在95%以上.由此可见,低温下启动SBR短程深度脱氮工艺并长期维持完全可行.     

KrBr*准分子灯直接光解一甲胺气体

研究了正弦电源驱动的207 nm KrBr*准分子灯光解气相中的一甲胺(MA).考察了降解的影响因素(气体流速、初始浓度、输入功率),测定了灯的输入功率和辐射光谱.为了评价光解过程,对去除效率、能率、碳平衡和CO2的选择性这4个参数进行了研究.结果表明,去除率随着灯的输入功率升高、气体流速的降低以及气体初始浓度的升高而升高.能率与一甲胺初始浓度呈正相关性,输入功率为65.1 W时能率最高.输入功率升高,气体流速下降,碳平衡和CO2选择性都略有升高.当灯的输入功率为79.8 W,气体流速9.0 m3·h-1,初始浓度为2 897 mg·m-3,一甲胺去除率为56.8%,能率为185.6g·(kW·h)-1,相应的碳平衡和CO2选择性为16.8%和10.3%.最后,利用气质联用仪测定了一甲胺降解的产物,结合一甲胺的吸收光谱,推测了一甲胺的光解机制.     

基于多区域投入产出(MRIO)的中国区域居民消费碳足迹分析

近年来,居民消费活动和环境的关系逐渐受到关注,而与温室气体排放相关的研究更是其中的热点.因此,本文采用“居民消费碳足迹”概念来定义特定居民消费活动所导致的直接和间接温室气体排放的总和,主要包括CO2、CH4、N2O3种温室气体;构建了基于环境扩展的多区域投入产出(Multiregional input-output,MRIO)模型的碳足迹核算方法,并以2007年中国8个区域为例对其居民消费碳足迹的数量、构成、分布及转移进行了分析.结果显示,2007年全国居民消费碳足迹总量达到31.74亿t(以CO2当量计).此外,碳足迹还呈现出区域差异明显、间接排放大于直接排放、城乡差距过大等特征.人均碳足迹方面,发展水平较高的京津、东部沿海地区明显高于相对滞后的西北、西南区域.研究还对碳足迹的区域分布和转移进行了深入探讨.结果发现,东北、京津、西北和西南区域转移收支为负,表示这些区域为其他区域承担的排放大于其他区域为其承担的排放;剩余的北部沿海、东部沿海、南部沿海和中部区域情况则正好相反.这些结果对现阶段中国制定具体区域消费政策或分配碳减排责任等具有参考价值;本研究的方法论也适用于研究其他环境因子及足迹因子与居民消费的关系.     

垦殖对湿地土壤有机碳垂直分布及可溶性有机碳截留的影响

通过测定和计算兴凯湖地区沼泽湿地及由其垦殖而来的旱田和水田土壤剖面有机碳含量和密度及土壤剖面不同深度土壤溶液中可溶性有机碳含量,分析了垦殖对兴凯湖周边沼泽湿地土壤有机碳垂直分布及土壤剖面截留可溶性有机碳的影响.结果表明,垦殖显著影响湿地0～40 cm土壤有机碳含量,大豆田和水稻田0～10、10～20、20～30、30～40 cm土壤有机碳含量与湿地相比分别降低了79.07%和82.01%、79.01%和82.28%、79.86%和92.90%、37.49%和78.05%;40 cm以下土层土壤有机碳含量垦殖前后差异不显著.大豆田和水稻田有机碳密度相比沼泽湿地分别降低了25.50%和47.35%,但三者1 m深土壤中大部分的有机碳均是储存在0～50 cm土层中.垦殖前后土壤有机碳含量与深度之间的关系均可用指数函数来描述,垦殖改变了土壤有机碳含量但并未改变其随土壤深度的变化规律.垦殖为大豆田土壤剖面对可溶性有机碳的截留效果较湿地和水稻田更明显,沼泽湿地和水稻田对可溶性有机碳的截留效果大致相当.     

Adsorption of lead on multi-walled carbon nanotubes with different outer diameters and oxygen contents: Kinetics, isotherms and thermodynamics

The effects of different outer diameters and surface oxygen contents on the adsorption of heavy metals onto six types of multi-walled carbon nanotubes (MWCNTs) were investigated in an aqueous solution and lead was chosen as a model metal ion. The results indicated that the percentage removal and adsorption capacity of lead remarkably increased with decreasing outer diameter due to larger specific surface area (SSA). The SSA-normalized maximum adsorption capacity (qm /SSA) and SSA-normalized adsorption coefficient (Kd /SSA) were strongly positively correlated with surface oxygen content, implying that lead adsorption onto MWCNTs significantly increases with the rise of oxygen content and decreases with decreasing SSA. The calculated thermodynamic parameters indicated that adsorption of lead on MWCNTs was endothermic and spontaneous. When the oxygen content of MWCNTs increased from 2.0% to 5.9%, the standard free energy (△ G0 ) became more negative, which implied that the oxygenated functional groups increased the adsorption affinity of MWCNTs for lead. Through calculation of enthalpy (△ H0 ), G0 and free energy of adsorption (Ea ), lead adsorption onto MWCNTs was recognized as a chemisorption process. The chemical interaction between lead and the phenolic groups of MWCNTs could be one of the main adsorption mechanisms due to highly positive correlations between the phenolic groups and K d /SSA or q m /SSA.     

A pilot-scale study of cryolite precipitation from high fluoride-containing wastewater in a reaction-separation integrated reactor

Fluoride removal by traditional precipitation generates huge amounts of a water-rich sludge with low quality, which has no commercial or industrial value. The present study evaluated the feasibility of recovering fluoride as low water content cryolite from industrial fluoride-containing wastewater. A novel pilot-scale reaction-separation integrated reactor was designed. The results showed that the seed retention time in the reactor was prolonged to strengthen the induced crystallization process. The particle size of cryolite increased with increasing seed retention time, which decreased the water content. The recovery rate of cryolite was above 75% under an influent fluoride concentration of 3500 mg/L, a reaction temperature of 50℃, and an influent flow of 40 L/hr. The cryolite products that precipitated from the reactor were small in volume, large in particle size, low in water content, high in crystal purity, and recyclable.     

Influences of perfluorooctanoic acid on the aggregation of multi-walled carbon nanotubes

The aggregation of multi-walled carbon nanotubes (MWCNTs) in the aqueous phase not only inhibits their extensive utilization in various aspects but also dominates their environmental fate and transport.The role of surfactants at low concentration in the aggregation of MWCNTs has been studied,however the effect of perfluorinated surfactants at low concentration is uncertain.To understand this interfacial phenomenon,the influences of perfluorooctanoic acid (PFOA),and sodium dodecyl sulfate (SDS) as a control,on MWCNT aggregation in the aqueous phase were examined by the UV absorbency method.Influences of pH and cationic species on the critical coagulation concentration (CCC) value were evaluated.The CCC values were dependent on the concentration of PFOA,however a pronounced effect of SDS concentration on the CCC values was not observed.The CCC values of the MWCNTs were 51.6 mmol/L in NaCl and 0.28 mmol/L in CaCl 2 solutions,which suggested pronounced differences in the effects of Na+ and Ca2+ ions on the aggregation of the MWCNTs.The presence of both PFOA and SDS significantly decreased the CCC values of the MWCNTs in NaCl solution.The aggregation of the MWCNTs took place under acidic conditions and was not notably altered under neutral and alkaline conditions due to the electrostatic repulsion of deprotonated functional groups on the surface of the MWCNTs.