杭州市大气细颗粒物中铁溶解度的变化特征及影响因素

采集了杭州市污染天和非污染天的PM_2.5样品,并进一步获取了PM_2.5中可溶铁(FeS)的浓度及%FeS.研究结果显示,采样期间气溶胶中总Fe(FeT)的浓度为(629±296)ng/m³(150～1167ng/m³),FeS的浓度为(51.4±30.5)ng/m³(4.2～90.5ng/m³),%FeS为(7.8%±3.5%)(1.5%～12.9%).污染天PM_2.5、FeT和FeS的浓度均明显高于非污染天,且污染天%FeS为9.3%,高于非污染天的5.1%.本研究发现%FeS的差异主要与Fe的来源和大气酸化过程相关,污染天Fe受交通排放和工业排放等人为源的影响更大,且污染天大气酸化程度更强.     

高性能聚醚醚酮紫外光加速老化行为研究

目的 研究特种工程塑料聚醚醚酮(PEEK)在紫外光照射实验室加速条件下的老化行为。方法 对PEEK塑料采取紫外线光老化方式进行试验,对老化前后的样品进行外观变化、力学性能、热性能、微观结构表征与分析,明确紫外环境因素对材料的性能影响,进而确定PEEK塑料在紫外光条件下的老化行为。结果 随着紫外光老化时间的增加,PEEK样品表面变黄,颜色加深,出现鼓包与裂纹等宏观与微观损伤。样品内部力学性能、热性能、红外特征吸收峰、元素含量与价态没有明显变化,样品表面热性能下降,傅里叶变换衰减全反射红外光谱(ATR-FTIR)特征吸收峰变化明显。结论 PEEK塑料表面对紫外光比较敏感,在紫外光的照射下容易发生表层的分解,短时间内不会引起材料整体热性能及力学性能的明显变化。     

太阳山湖群叶绿素a变化及与总氮、总磷关系

为探明太阳山湿地湖泊叶绿素a季节性变化情况及空间分布特征,探究营养输入总氮、总磷与叶绿素a之间的关系,作者于2019年1-12月份采集水样并检测了叶绿素a、总氮、总磷含量.采用方差分析、聚类分析研究叶绿素a浓度变化特征,通过相关性分析和回归分析研究总氮、总磷与叶绿素a之间的关系.结果 表明,叶绿素a浓度在时间上有显著差异,在时间维度上可分为干季和湿季2个时期.整体上表现为干季明显小于湿季;空间分布在干季期表现为1号湖＜西湖＜东湖＜3号湖＜2号湖＜小南湖,湿季期表现为1号湖＜东湖＜西湖＜3号湖＜2号湖＜小南湖.1月叶绿素a与TN相关性较大,7月和10月的叶绿素a与TP相关性较大,12月叶绿素a与TP、TN均表现出一定相关性,其他月份相关性不明显.相比于总氮,叶绿素a与总磷的关系响应程度更显著,说明总磷对其浓度水平影响作用较大.     

某油田稠油采出液生产分离器机械消泡技术研究

目的 针对某油田进行机械消泡技术研究,进而为促进分离器内稠油的快速消泡提供解决办法.方法 利用Fluent软件模拟不同导流板参数下分离器中气液分离效果及泡沫变化情况,并采用动态解析法发泡方式,利用高压溶气消泡测试系统对不同类型和型号的金属规整填料和两种化学消泡剂,进行消泡测试以及组合消泡实验.结果 导流板放置角度为45°时,分离效率和泡沫聚并效果均较好,而导流板放置距离影响不大;随着消泡填料的高度增加,消泡效果随之增加.结论 分离器入口导流板最佳放置角度为45°,孔板波纹填料SM250*12 cm为优选的机械消泡构件.实际生产采用机械消泡方法即可满足消泡需求,要求更好的消泡效果时,可将机械消泡与化学消泡剂消泡两种方式结合使用.     

A critical review on the application of biochar in environmental pollution remediation: Role of persistent free radicals (PFRs)

Biochar as an emerging carbonaceous material has exhibited a great potential in environmental application for its perfect adsorption ability. However, there are abundant persistent free radicals (PFRs) in biochar, so the direct and indirect PFRs-mediated removal of organic and inorganic contaminants by biochar was widely reported. In order to comprehend deeply the formation of PFRs in biochar and their interactions with contaminants, this paper reviews the formation mechanisms of PFRs in biochar and the PFRs-mediated environmental applications of biochar in recent years. Finally, future challenges in this field are also proposed. This review provides a more comprehensive understanding on the emerging applications of biochar from the viewpoint of the catalytic role of PFRs.     

Selection of water source for water transfer based on algal growth potential to prevent algal blooms

Water transfer is becoming a popular method for solving the problems of water quality deterioration and water level drawdown in lakes. However, the principle of choosing water sources for water transfer projects has mainly been based on the effects on water quality, which neglects the influence in the variation of phytoplankton community and the risk of algal blooms. In this study, algal growth potential (AGP) test was applied to predict changes in the phytoplankton community caused by water transfer projects. The feasibility of proposed water transfer sources (Baqing River and Jinsha River) was assessed through the changes in both water quality and phytoplankton community in Chenghai Lake, Southwest China. The results showed that the concentration of total nitrogen (TN) and total phosphorus (TP) in Chenghai Lake could be decreased to 0.52 mg/L and 0.02 mg/L respectively with the simulated water transfer source of Jinsha River. The algal cell density could be reduced by 60%, and the phytoplankton community would become relatively stable with the Jinsha River water transfer project, and the dominant species of Anabaena cylindrica evolved into Anabaenopsis arnoldii due to the species competition. However, the risk of algal blooms would be increased after the Baqing River water transfer project even with the improved water quality. Algae gained faster proliferation with the same dominant species in water transfer source. Therefore, water transfer projects should be assessed from not only the variation of water quality but also the risk of algal blooms.     

三峡库区汉丰湖水体氮磷及化学计量比季节变化特征

在分析2017年3月至2018年2月汉丰湖水体氮磷营养盐质量浓度季节性变化的基础上,利用氮磷化学计量摩尔比评估水体氮磷养分限制状态.结果表明：湖体TN、DN和NO₃^--N平均质量浓度分别为1.60、1.25和0.91 mg·L^-1,三者季节变化过程相似,均呈现出冬季最高、夏季最低的特点.NO₃^--N对水体TN贡献较大,NH₄⁺-N和NO₂^--N质量浓度维持在较低水平且变化平稳.TP、DP和PO₄^3--P平均质量浓度分别为0.13、0.09和0.06 mg·L^-1,TP和DP质量浓度变化相似,呈春夏季升高,秋冬季先降低再升高的趋势,而PO₄^3--P质量浓度则波动降低.TN/TP范围在11.07~56.02之间,均值为29.23,TN/TP呈季节性波动变化,最高值出现在冬季,最低值出现在夏季.汉丰湖水体多数时间适宜藻类生长繁殖,少数时间处于N限制状态,极少数时间处于P限制状态.降雨径流、肥料使用、污水排放和水生生物活动等因素皆会影响TN/TP的季节变化,同时根据汉丰湖水质特征提出保护建议.     

Chemical formation and source apportionment of PM2.5 at an urban site at the southern foot of the Taihang mountains

The region along the Taihang Mountains in the North China Plain (NCP) is characterized by serious fine particle pollution. To clarify the formation mechanism and controlling factors, an observational study was conducted to investigate the physical and chemical properties of the fine particulate matter in Jiaozuo city, China. Mass concentrations of the water-soluble ions (WSIs) in PM_2.5 and gaseous pollutant precursors were measured on an hourly basis from December 1, 2017, to February 27, 2018. The positive matrix factorization (PMF) method and the FLEXible PARTicle (FLEXPART) model were employed to identify the sources of PM_2.5. The results showed that the average mass concentration of PM_2.5 was 111 μg/m³ during the observation period. Among the major WSIs, sulfate, nitrate, and ammonium (SNA) constituted 62% of the total PM_2.5 mass, and NO₃^? ranked the highest with an average contribution of 24.6%. NH₄⁺ was abundant in most cases in Jiaozuo. According to chemical balance analysis, SO₄^2?, NO₃^?, and Cl^? might be present in the form of (NH₄)₂SO₄, NH₄NO₃, NH₄Cl, and KCl. The liquid-phase oxidation of SO₂ and NO₂ was severe during the haze period. The relative humidity and pH were the key factors influencing SO₄^2- formation. We found that NO₃^? mainly stemmed from homogeneous gas-phase reactions in the daytime and originated from the hydrolysis of N₂O₅ in the nighttime, which was inconsistent with previous studies. The PMF model identified five sources of PM_2.5: secondary origin (37.8%), vehicular emissions (34.7%), biomass burning (11.5%), coal combustion (9.4%), and crustal dust (6.6%).     

Application of a real-ambient fine particulate matter exposure system on different animal models

Simulation of fine particulate matter (PM_2.5) exposure is essential for evaluating adverse health effects. In this work, an ambient exposure system that mimicked real atmospheric conditions was installed in Taiyuan, China to study impacts of chronic PM_2.5 exposure on adult and aged mice as well as Sirtuin3 knockout (Sirt3 KO) mice and wild-type (WT) mice. The real-ambient exposure system eliminated the possible artificial effects caused from exposure experiments and maintained the physiochemical characteristics of PM_2.5. The case studies indicated that aged mice exhibited apparent heart dysfunction involving increased heart rate and decreased blood pressure after 17-week of real-ambient PM_2.5 exposure. Meanwhile, 15-week of real-ambient PM_2.5 exposure decreased the heart rate and amounts of associated catecholamines to induce heart failure in Sirt3 KO mice. Additionally, the increased pro-inflammatory cytokines and decreased platelet related indices suggested that inflammation occurred. The changes of biomarkers detected by targeted metabolomics confirmed metabolic disorder in WT and Sirt3 KO mice after exposed to real-ambient PM_2.5. These results indicated that the real-ambient PM_2.5 exposure system could evaluate the risks of certain diseases associated with air pollution and have great potential for supporting the investigations of PM_2.5 effects on other types of rodent models.     

磁性活性炭强化SBR脱氮除磷及微生物种群分析

为了提高传统活性污泥法脱氮除磷效率,改善污泥易膨胀等问题,在序批式活性污泥反应器（SBR）中,投加140目1.00g/L的磁性活性炭构建磁性炭基活性污泥系统（1^#）,同时,以不投加任何材料（单独活性污泥系统）为对照组（0^#）,研究磁性活性炭对活性污泥系统除污性能和主要微生物种群结构组成的影响,探讨了磁性活性炭强化活性污泥系统脱氮除磷机理.结果表明：1^#对TN和TP的平均去除率分别为68.59%和78.25%;而0^#对于TN和TP的平均去除率则为53.17%与54.10%,1^#出水NO₃^--N浓度平均降低了7.03mg/L,两系统对NH₄⁺-N和COD的去除效率差别不大,均在95.00%以上.典型周期内1^#中TN、NH₄⁺-N、TP、COD的下降速率快于0^#;0^#同步硝化反硝化效率为60.31%,反硝化速率为4.44mg/（L·h）,1^#同步硝化反硝化效率为80.74%,反硝化速率为6.13mg/（L·h）,实验组1^#脱氮速率明显快于空白对照组0^#.高通量测序结果表明,1^#内污泥的优势菌门为Saccharibacteria（38.74%）、Proteobacteria（22.52%）、Actinobacteria（18.54%）和Chloroflexi（8.40%）.此外,与0^#相比,1^#引发污泥膨胀密切相关的Actinobacteria菌门的微生物相对丰度显著下降;与脱氮除磷功能相关的Micropruina、Shinella、norank_f_Anaerolineaceae和norank_f_Xanthomonadaceae 4种菌属的相对丰度都明显上升.SBR系统中加载一定量的磁性活性炭既能抑制引起污泥膨胀微生物的生长,又能利于脱氮除磷微生物的富集,整个污泥系统表现出良好的稳定性和脱氮除磷性能.