活性炭的表面性质对CeOx/AC催化臭氧氧化水中苯甲酸的影响机制

实验对活性炭(activated carbon,AC)进行了氧改性、氮改性、硫改性和氮-硫共改性,考查AC的表面性质对CeO_x/AC催化臭氧氧化苯甲酸性能的影响.结果表明,相比氧改性活性炭ACO、硫改性活性炭ACS和氮改性活性炭ACN,氮-硫共改性活性炭ACNS由于含氮官能团和含硫官能团的引入,提高了对苯甲酸的吸附性能和催化臭氧氧化性能.采用氮-硫共改性活性炭为载体制备的CeO_x/ACNS催化剂表面Ce~(3+)含量最高,因而具有最高的催化活性,反应30 min,苯甲酸的去除率由单独臭氧氧化的22%提高到88%,TOC的去除率单独臭氧氧化的7%提高到55%.CeO_x/ACNS催化剂具有良好的稳定性,循环使用6次,苯甲酸的去除率仅从88%降低到82%,整个过程中活性组分Ce的流失只占负载量的0.32%,是一种很有应用潜力的臭氧氧化催化剂.     

HPO42-和H2PO4-对蒙脱石-胡敏酸胶体凝聚的影响

为探究HPO₄^2-和H₂PO₄^-界面行为对土壤胶体凝聚的影响,以蒙脱石和胡敏酸胶体为研究对象,采用动态光散射技术比较研究HPO₄^2-和H₂PO₄^-引发胶体颗粒凝聚过程的差异.结果表明,随着电解质离子强度的升高,HPO₄^2-和H₂PO₄^-体系蒙脱石-胡敏酸混合悬液从慢速凝聚（线性增长）转化为快速凝聚（幂函数增长）,但胶体凝聚过程对H₂PO₄^-体系离子强度的变化更敏感.HPO₄^2-和H₂PO₄^-作用下凝聚体有效粒径增长、总体平均凝聚速率（TAA）、临界聚沉离子强度（CCIS）和活化能均存在明显差异;其中,与HPO₄^2-相比,H₂PO₄^-体系中拥有更高的TAA、更低的CCIS和活化能,说明H₂PO₄^-离子引发蒙脱石-胡敏酸混合胶体凝聚的作用更强,HPO₄^2-体系中CCIS是H₂PO₄^-中的2.43倍.HPO₄^2-和H₂PO₄^-体系中离子特异性效应的差异（活化能差值）随离子强度的降低而增大,主要由强电场中离子非经典极化作用引发.胡敏酸的添加明显增加了HPO₄^2-体系中胶体的CCIS和活化能,而对H₂PO₄^-体系未产生明显影响;HPO₄^2-和H₂PO₄^-离子特异性效应的强弱在不同比例蒙脱石/胡敏酸体系中表现为96%蒙脱石+4%胡敏酸 >> 99%蒙脱石+1%胡敏酸 > 100%蒙脱石.以上结果表明HPO₄^2-和H₂PO₄^-对蒙脱石-胡敏酸混合胶体的凝聚存在强烈的离子特异性效应,胶体表面附近电场强度直接影响该效应的强弱.     

基于好氧甲烷氧化菌的反硝化效能及微生物群落研究

采用气体循环序批式生物膜反应器（gcSBBR）,构建反硝化型甲烷好氧氧化（AME-D）系统.考察了进水氮负荷的影响,发现氮负荷为0.075kg/（m³·d）时,硝酸盐氮去除率达到98.93%,其反硝化速率为74.25mg/（L·d）,系统的甲烷日平均消耗量为35.91%（初期为50%）;扫描电子显微镜（SEM）分析结果显示,系统中的微生物主要以短杆菌（12~18 μm）为主,并存在少量的丝状菌（长150~200μm）;16S rRNA高通量测序结果显示,该系统中的甲烷氧化菌为Methylocaldum、Methylomonas、Methylococcus和Methylococcaceae_unclassified,反硝化菌为Denitratisoma、Hydrogenophaga、Azoarcus、Thiobacillus和Rhodobacter,其中主要的功能微生物为Methylocaldum、Denitratisoma和Hydrogenophaga,系统对氮的去除是由好氧甲烷氧化菌与反硝化菌协同实现.此外,系统中存在大量以甲醇和甲基胺类物质为生长基质的Methylophilaceae_uncultured（30.4%）.     

环境因子对胡敏酸介导下SDZ光解行为的影响

研究了在纯水条件及两种不同来源胡敏酸（HA）介导下,磺胺嘧啶（SDZ）和水稻土胡敏酸（SDHA）、泥炭土胡敏酸（NTHA）的不同浓度、pH值、光敏离子（NO₃^-和Fe³⁺）、离子强度（NaCl）以及金属离子（Ca²⁺、Mg²⁺和K⁺）等环境因子对SDZ紫外光降解的影响.结果表明：光照下,pH=7.1对两种体系的SDZ光降解有促进作用且效果最好.低SDZ浓度（2mg/L）以及低HA浓度（15mg/L）条件下使SDZ光解速率较快.光敏离子中NO₃^-通过光生·OH,促进了纯水中SDZ的光解,但在HA体系中,HA具有猝灭·OH的效应造成SDZ的光解速率低于纯水;Fe³⁺在HA体系下均表现为抑制作用,且抑制强度为NTHA>SDHA.在纯水中SDZ的光解速率随NaCl浓度增加而增加,HA介导下,较低浓度NaCl（C_NaCl=50mmol/L）抑制作用较强.金属离子（K⁺、Ca²⁺和Mg²⁺）在纯水中对SDZ的光解影响程度较弱,但在HA体系中均表现为抑制作用,抑制强度为K⁺ > Ca²⁺ > Mg²⁺,单价阳离子对SDZ光降解影响较为明显.     

Pilot-scale experiments on multilevel contact oxidation treatment of poultry farm wastewater using saran lock carriers under different operation model

A pilot-scale multilevel contact oxidation reactors system, coupled with saran lock carriers,was applied for the treatment of poultry farm wastewater. The removal efficiencies of CODcr, ammonia, and the total nitrogen as well as the elimination performance of CODcr and total nitrogen along the three-level contact oxidation tanks under six designed operational models were investigated. Based on the performance of the nitrogen removal of the saran lock carriers and the distribution of anoxic–aerobic interspace under the suitable operation model, the mechanism of nitrogen removal of the system was also explored. The results revealed that the intermittent aeration under parallel model is the most suitable operation model, while the removal efficiencies of CODcr, ammonia, and the total nitrogen were 86.86%, 84.04%, and 80.96%, respectively. The effluent concentration of CODcr,ammonia, and the total nitrogen were 55.6 mg/L, 8.3 mg/L, and 12.0 mg/L, which satisfy both the discharge standard of pollutants for livestock and poultry breeding industry(GB18596–2001) and the first grade of the integrated wastewater discharge standard(GB 8978–1996). Moreover, the mechanism for the nitrogen removal should be attributed to the plenty of anoxic–aerobic interspaces of the biofilm and the three-dimensional spiral structure of the saran lock carriers, where the oxygen-deficient distribution was suitable for the happening of the simultaneous nitrification and denitrification process. Therefore, the multilevel contact oxidation tanks system is an effective pathway for the treatment of the poultry farm wastewater on the strength of a suitable operation model and novel carriers.     

Visible-light-driven photocatalytic inactivation of bacteriophage f2 by Cu-TiO2 nanofibers in the presence of humic acid

Pathogenic viruses in drinking water are great threats to public health. Visible-light-driven photocatalysis is a promising technology for virus inactivation. However, the existing photocatalytic antiviral research studies have mostly been carried out in single-component systems, neglecting the effect of natural organic matter, which exists widely in actual water bodies. In this paper, electrospun Cu-TiO₂ nanofibers were prepared as photocatalysts, and their photocatalytic antiviral performance in the presence of humic acid (HA) was comprehensively studied for the first time. The properties of the reaction mixture were measured during the reaction. In addition, the safety, reliability and stability of photocatalytic disinfection in the mixed system were evaluated. The results showed that the virus removal efficiency decreased with the increase of the HA concentration. The type of reaction solution, such as PBS buffer solution or water, did not affect the removal efficiency noticeably. Under acidic conditions, the electrostatic forces between photocatalysts and viruses were strengthened, leading to higher virus removal efficiency. As the reaction time went on, the pH value in the solution increased first and then tended to be stable, the conductivity remained stable, and the dissolved oxygen increased first and then decreased. The safety test showed that the concentration of Cu ions released into the solution was lower than specified by the international standards. No photoreactivation was observed, and the addition of HA significantly reduced the reutilization efficiency of the photocatalysts.     

污泥与秸秆共基质中温两相厌氧消化特性

以污泥和秸秆为共基质,以沼气产量、ρ（VFA）（VFA为挥发性脂肪酸）和COD_Cr去除率等为指标,探究污泥与秸秆配比（以COD_Cr计,质量比分别为1:0、1:1、2:1、3:1）对中温两相厌氧消化工艺运行效能的影响,以及最佳配比时SRT（污泥停留时间）对产甲烷相厌氧消化稳态特性的影响.结果表明:与污泥试验组相比,添加秸秆试验组的厌氧消化效能均较好;污泥与秸秆的最佳配比为2:1,该稳定状态下产酸相COD_Cr的去除率最高,为17.5%,ρ（VFA）为752 mg/L;产甲烷相COD_Cr的去除率为33.5%,ρ（VFA）为250 mg/L,产气量为47.7 mL/d,总体运行效能较高.在最佳污泥与秸秆配比（2:1）并设定产甲烷相反应器的SRT为20 d时,稳定状态下产甲烷相各组分的变化情况:COD_Cr去除率为41.20%,ρ（VFA）为238 mg/L,产气量为51.3 mL/d,沼气产率为8.4 mL/（d·g）.研究显示,当控制污泥与秸秆配比为2:1、SRT为20 d时,中温两相厌氧消化工艺运行效果良好.      

模拟酸雨对福州平原稻田土壤细菌丰度及多样性的影响

为了探讨酸雨对稻田土壤细菌的影响,以福州平原某稻田为研究对象,测定和分析模拟不同酸度酸雨处理下早、晚稻土壤细菌群落组成及其丰度.结果表明：模拟酸雨处理提高了早稻土壤细菌的多样性,但却降低了晚稻土壤细菌的多样性;酸雨改变了稻田土壤细菌的丰度及群落结构,经模拟不同酸度的酸雨处理,稻田土壤细菌的优势菌属及其丰度并不一致;早稻pH3.5处理组与早稻对照组之间的物种多样性及群落结构差异最大,晚稻pH2.5处理组与晚稻对照组之间的物种多样性及群落结构差异最大;在酸雨作用下,溶杆菌属（Lysobacter）和产黄杆菌属（Rhodanobacter）的丰度明显升高,而马赛菌属（Massilia）的丰度则显著降低,说明溶杆菌属（Lysobacter）和产黄杆菌属（Rhodanobacter）为耐受酸雨的主要菌属,马赛菌属（Massilia）则为受酸雨影响最大的菌属;细菌属H16的相对丰度与土壤电导率（EC）呈极显著负相关（P<0.01）,Lysobacter的相对丰度与土壤pH值呈极显著负相关（P<0.01）,Arenimonas的相对丰度与土壤总有机碳（SOC）呈极显著正相关（P<0.01）.     

安徽铜陵铜尾矿硫形态及硫同位素分布特征

分析讨论了安徽铜陵水木冲S和SP剖面尾矿砂的理化指标、硫形态变化和硫酸根硫同位素组成与分布特征.结果显示：S和SP剖面整体呈酸性,pH值为2.59~6.12和3.50~6.27,由下而上有明显的降低趋势;Eh随剖面由下至上明显升高,范围为66~457和-37~307mV;酸可挥发性硫（AVS）含量为0~62.36和0~3.44mg/g,黄铁矿硫（CRS）含量为0.70~32.30mg/g和0.17~5.39mg/g;AVS与CRS的变化趋势基本一致,随剖面自下而上减少,且AVS先于CRS被氧化.2个剖面元素硫（ES）含量为0~8.83和0~3.62mg/g,随深度变化无明显规律.硫酸根硫（SO₄^2--S）含量为8.44~66.34和8.48~29.87mg/g,自下而上呈降低趋势,且分别在剖面的氢氧化物薄膜层（11.5~16.5cm和18~54cm）出现高值区.2个剖面总硫（TS）含量为9.18~109.69和12.38~37.72mg/g,表层由于淋滤含量较低,底层变化则不大.位于斜坡上的SP剖面TS及各形态硫含量均低于S剖面,表明淋滤对硫含量影响更明显.硫酸根硫同位素δ³⁴S为-3.32‰~13.43‰和-3.08‰~1.80‰,S-9硫酸根δ³⁴S为13.43‰,指示其来自于伴生硬石膏,其余层位δ³⁴S偏负且变幅较小,指示其硫酸根主要来源于硫化物的氧化.     

电弧离子镀HY11涂层的1200℃高温氧化行为研究

目的研究真空电弧镀方法制备的超高温金属涂层HY11在1200℃下的高温氧化行为。方法用真空电弧镀技术(AIP)在单晶镍基高温合金DD6上制备超高温金属涂层HY11,采用HB 5258循环氧化方法进行1200℃循环氧化试验,通过试验过程中试样质量变化评价涂层氧化寿命。通过扫描电镜(SEM)分析氧化后的试样显微形貌,用X-射线衍射仪分析涂层材料的相结构,通过氧化速率对涂层材料抗氧化性能进行表征。结果采用单靶真空电弧镀技术制备的HY11涂层,经过1050℃真空条件下扩散2h,涂层厚度为50～60?m,扩散区厚度为10～15μm,涂层微观组织均匀致密,涂层合金界面清晰平整。DD6合金的1200℃循环氧化寿命仅仅为4 h,HY11涂层在1200℃的循环氧化寿命近300 h。沉积态涂层HY11相结构主要以Al_2O_3和Ni3Al为主。氧化后涂层材料表面形成的氧化膜以Al_2O_3为主。结论 HY11涂层在1200℃的循环氧化寿命为298 h,极大地提高了DD6合金在1200℃的循环氧化寿命。