长江口湿地沉积物-水界面无机氮交换总通量量算系统研究

基于MapObjects组件式GIS技术和数学建模方法,以Visual Basic为开发平台,建立了长江口湿地沉积物-水界面无机氮交换通量空间插值模型、总通量量算模型和量算系统,该系统的主要功能包括对无机氮界面交换通量信息查询检索,空间插值分析,以及对长江口湿地不同岸段、不同季节无机氮交换总通量综合和动态量算.利用该系统和长江口湿地2000年10月-2004年7月无机氮界面交换通量季节性实测数据,对长江口湿地沉积物-水界面无机氮交换总通量进行了量算.结果表明:长江口湿地沉积物在春季向水体释放无机氮,在夏季、秋季和冬季则表现为净化水体中的无机氮,全年总体表现为净化水体中的无机氮.量算系统的实际应用表明,该系统在定量分析长江口湿地生态功能过程中发挥了重要作用.      

沙尘暴细颗粒物对人外周血淋巴细胞微核形成的影响

用胞质阻断微核试验法比较研究了内蒙古包头市和甘肃武威市沙尘暴和正常天气细颗粒物(PM2.5)及其无机与有机提取物对人外周血淋巴细胞微核形成的影响.结果表明本试验条件下,沙尘暴和正常天气PM2.5及其有机提取物均使淋巴细胞微核率(micronuclei frequency,MNF)显著增高,核分裂指数(nuclear division index,NDI)显著下降(p＜0.01),且存在剂量-效应关系,而无机提取物虽有剂量-效应关系,但各处理浓度之间及其与对照相比差异均不显著(p＞0.05);相同处理浓度下,除工业城市包头正常天气的PM2.5及其有机提取物处理的微核率显著高于沙尘(p＜0.01)外,沙尘暴和正常天气样品处理结果无显著差异(p＞0.05);城市之间相比,只有正常天气PM2.5及其有机提取物处理的微核率包头显著高于武威(p＜0.01),而沙尘暴PM2.5及其提取物的所有处理的微核率无城市间差异(p＞0.05).     

福宁湾活性磷酸盐和无机氮的时空变化特征

根据2002至2003年福宁湾海域的监测资料,研究该海域PO4-P、DIN的时空变化特征、营养程度现状以及本海域的营养盐限制因子.研究表明：PO4-P、DIN含量均呈冬季最高、夏季最低;福宁湾海域季度平均E值为1.48,水体已呈现富营养化状态;N/P〉16并不是福宁湾海域爆发赤潮的必要条件;福宁湾海域N/P值长期保持较高,秋、冬季N/P值较为稳定;PO4-P为福宁湾海域浮游植物生长营养盐限制因子.     

利用SPAMS研究长沙市秋季PM2.5化学组成及来源

2019年10月12日—11月25日,使用单颗粒气溶胶飞行时间质谱仪(SPAMS)在位于长沙市的湖南省生态环境厅点位进行了为期45 d的定点监测。结果表明,监测期间长沙市总体空气质量小时级别优、良天气占比为80.3%。长沙市首要污染物为PM_(2.5),其主要来源为机动车尾气源,二次无机源次之,工业工艺源排在第三位,占比分别为27.4%,21.5%和17.4%。整体来看,监测期间PM_(2.5)质量浓度的升高大多伴随着以上3种污染源颗粒物的同步升高。机动车尾气源具有明显的早高峰,工业工艺源、生物质燃烧源和餐饮源夜间占比增加。在偏东方向气团主导下,工业工艺源和燃煤源贡献最大;在东北方向气团主导下,PM_(2.5)质量浓度最高,且机动车尾气源占比最高。     

水体中常见无机阳离子对TiO_2薄膜光催化还原Cr(Ⅵ)的影响

选择了6种水体中常见的阳离子(Na+、Mg2+、Ca2+、Al3+、Cu2+、Ni2+),分别考查了其对TiO2薄膜光催化还原Cr(Ⅵ)的影响;从光吸收、无机离子本身的性质对光生电子的捕获及传递等讨论了上述离子影响TiO2薄膜光催化还原Cr(Ⅵ)的反应速率的原因。结果表明:由于其不能捕获光生电子,Na+、Mg2+、Ca2+本身对TiO2薄膜光催化还原Cr(Ⅵ)的反应速率影响不大;Al3+吸引电子能力较强,成为光生电子和Cr(Ⅵ)之间的桥梁,促进了Cr(Ⅵ)的还原;浓度为1 mmmol/L时,Cu2+显著地促进了Cr(Ⅵ)的光催化还原,其主要原因是Cu2+捕获光生电子的能力很强,起到了催化剂的作用,而浓度大于10 mmol/L时,Cu2+形成单质Cu以及对紫外光的吸收都使促进作用降低;Ni2+未充满的d轨道具有获得并传递光生电子的能力,也促进了Cr(Ⅵ)的还原;在浓度同为1mmol/L时,对Cr(Ⅵ)光催化还原的促进作用依次为:Cu2+Al3+Ni2+Na+、Ca2+、Mg2+。     

Decolourization and removal of some organic compounds from olive mill wastewater by advanced oxidation processes and lime treatment

Background Olive mill wastewater (OMW) generated by the olive oil extracting industry is a major pollutant, because of its high organic load and phytotoxic and antibacterial phenolic compounds which resist biological degradation. Mediterranean countries are mostly affected by this serious environmental problem since they are responsible for 95% of the worldwide oliveoil production. There are many methods used for OMW treatment, such as adsorption, electro coagulation, electro-oxidation, biological degradation, advanced oxidation processes (AOPs), chemical coagulation, flocculation, filtration, lagoons of evaporation and burning systems, etc. Currently, there is no such economical and easy solution. The aim of this study was to evaluate the feasibility of decolourization and removal of phenol, lignin, TOC and TIC in OMW by UV/H₂O₂ (AOPs). The operating parameters, such as hydrogen peroxide dosage, times, pH, effect of UV and natural sunlight were determined to find the suitable operating conditions for the best removal. Moreover, there is no study reported in the literature related to the use of UV/H₂O₂ and lime together in OMW treatment. Methods OMW was obtained from an olive-oil producing plant (Muğla area of Turkey) which uses a modern production process. No chemical additives are used during olive oil production. This study was realised by using two different UV sources, while taking the time and energy consumption into consideration. These two sources were mercury lamps and natural sunlight. Before starting AOPs experiments, one litre of OMW was treated by adding lime until a pH of 7.00. Then, 100 ml was taken from each sample, and 1 to 10 ml of a 30% H₂O₂ (Riedel-deHaen) solution was added. These solutions in closed vessels were laid in the natural sunlight for a week and their compositions and colour changes were analysed daily by UV-Vis spectrophotometer. At the end of the one-week period, they were treated with lime. In this study, the effect of changes in the initial pH, times and H₂O₂ concentrations on removal was investigated. At the end of all experiments, changes in colour, phenol, lignin, TOC and TIC concentrations were analysed according to standard methods. Results and Discussion In the samples exposed to natural sunlight and having an H₂O₂/OMW ratio of 3 ml/100 ml, a significant colour removal was achieved approximately 90% of the time at the end of 7 days. When the same samples were treated with lime (pH: up to 7), 99% efficiency was achieved. When phenol and lignin removals were examined in the same concentration, phenol and lignin removal were found 99.5%, 35%, respectively. However, for maximum lignin removal, more use of H₂O₂ (10 ml H₂O₂/100 ml OMW) was found to be necessary. Under these conditions, it was found that lignin can be removed by 70%, but to 90% with lime, at the end of a seven-day period. Rate constants obtained in the experiments performed with direct UV were found to be much higher than those of the samples exposed to natural sunlight (k^a _lignin = 0.3883 ≫ k^b _lignin = 0.0078; k^a _phenol = 0.5187 ≫ k^b _phenol = 0.0146). Moreover, it should be remembered in this process that energy consumption may induce extra financial burden for organisations. Conclusions It was found, in general, that colour, lignin, total organic carbon and phenol were removed more efficiently from OMW by using H₂O₂ UV and lime OMW. Moreover, in the study, lime was found to contribute, both initially and after radical reactions, to the efficiency to a great extent. Recommendations and Perspectives Another result obtained from the study is that pre-purification carried out with hydrogen peroxide and lime may constitute an important step for further purification processes such as adsorption, membrane processes, etc.     

螺旋藻培养与动力学模型

在内循环气升式光生物反应器中,就螺旋藻细胞在不同碳源培养其中的生长行以及藻细胞对光能和碳源的利用特性进行了初步研究,结果表明,向培养体系中通入气体流量1％的CO2,有助于提高经式培养的细胞终浓度和稳定培养体系的PH环境;改进的Lambert-Beer定律可较好地描述细胞浓度及光程对光衰减的综合影响,引入平均光强和平均比消光量概念,探讨了细胞比生长速率与它们之间的关系;藻液中总碳量随细胞浓度的上升呈指数关系减少,藻细胞对碳源的得率系数在批式 不同时期之间存在差异。图12参9     

石家庄市大气颗粒物中水溶性无机离子污染特征研究

用超声萃取－离子色谱法分析了石家庄市大气颗粒物中8种水溶性无机离子。结果表明,NO3－、SO2－4、NH4＋及 Ca2＋为主要组分;各个离子的质量浓度均有季节及空间变化差异;不同粒径颗粒物中 SO2－4和 NO3－相关性均很好,NH4＋与 SO2－4、NO3－在细颗粒物中具有良好的相关性,Ca2＋在粗粒子中与 NO3－和 SO2－4的相关性也较好。SO2－4／NO3－质量比季节变化表明,春、夏季固定源与流动源对大气颗粒物贡献相当,秋季流动源贡献较大,冬季固定源贡献较大。PM2．5中SO2与SO2－4、NO2与 NO3－转化率表明,SO2－4、NO3－主要是由二次转化而来。     

灰霾期间武汉城市区域大气污染物的理化特征

利用湖北省大气复合污染自动监测站2013年的全年监测数据,分析了灰霾期间武汉城市区域大气污染物的理化特征。霾日主要出现在春季、秋季和冬季。霾日与非霾日大气污染物质量浓度和气象参数的对比分析结果显示:高湿度、静风是武汉城市区域霾日的重要气象特征;PM1、PM_(2.5)、PM_(10)、NO_2、CO、NH3的质量浓度,SOR、NOR值以及PM_(2.5)中的二次无机离子(SO2-4、NO-3、NH+4)和部分元素(Pb、Se、Cd、Zn、K)的质量浓度均在霾日明显高于非霾日,而霾日SO2质量浓度仅在冬季略高于非霾日。选取2013年1月的连续灰霾日进行相关性分析,结果表明:污染组分主要来自当地排放(包括直接排放和二次形成),并受当地气象条件影响。此次灰霾过程中PM_(2.5)中的硫酸盐和硝酸盐主要来自气相反应,气态NO_2主要生成了气态HNO_3,而不是HNO_2。     

SO_2与CeO_2超细颗粒非均相反应产物的细胞毒性效应

大气二次细颗粒物(secondary fine particulate matters,SFPMs)是我国城市大气PM_(2.5)的主要组成部分。然而由于PM_(2.5)组成成份复杂,其毒性产生的来源并不明确。在本研究中,我们以二氧化铈(CeO_2)超细颗粒物(UFPs)为大气细矿物质颗粒模型,研究了SO_2气体在模拟大气环境中,如湿度(RH)、紫外光照(UV)和NO_2存在条件下,在CeO_2UFPs界面经多相反应生成的二次无机细颗粒物的性质及与细胞毒性的构效关系。实验通过实时高通量细胞分析系统,实时观察了CeO_2-SFPMs暴露对小鼠单核巨噬细胞(RAW264.7)增殖的影响;并进一步检测了CeO_2-SFPMs对细胞膜通透性和细胞凋亡的影响。结果表明,SO_2与CeO_2UFPs作用后可转化为硫酸盐,在有NO_2存在下转化更为明显。CeO_2-SFPMs对细胞毒性效应与其生成的环境条件相关,并具有时间效应性。RAW264.7细胞暴露于CeO_2-SFPMs 8 h,细胞增殖无明显变化;暴露8~25 h后,CeO_2-SFPMs对细胞增殖的抑制率随CeO_2@CeO_2+SO_2@CeO_2+SO_2+RH≈@CeO_2+SO_2+RH+UV@CeO_2+SO_2+RH+NO_2的顺序显著升高。CeO_2-SFPMs对Raw264.7细胞膜通透性和细胞凋亡的影响研究也证明CeO_2-SFPMs@CeO_2+SO_2+RH+NO_2产生的细胞毒性最明显。