贵州新元古代冰期(Varanger)后环境演变与藻类的复苏

新元古代冰期引起生物大量绝灭 ,大绝灭后环境如何重建、生物怎样复苏是演化古生物学研究的重要课题。对贵州铜仁坝黄、瓮安北斗山剖面和台江五河剖面南沱冰碛岩之上连续沉积的陡山沱组底部的“碳酸盐岩帽”中藻类化石进行系统研究 ,并结合古海洋环境地球化学研究结果 ,认为冰期后生态环境恢复很快 ,藻类快速复苏 ,但藻类分异度低。“碳酸盐岩帽”沉积结束 ,藻类进入衰退期 ,到了陡山沱中晚期 ,藻类又进入顶盛期。而藻类的复苏、衰退与古海洋环境的δ13C ,δCe,δEu异常有着密切关系     

泰安市中水回用现状及分析

文章介绍了泰安市水资源和污水处理及中水回用现状,以泰安市第一污水处理厂为例,介绍了中水回用项目的工艺设计以及应用,探讨了实施中水回用存在的问题,并对中水回用提出了几点措施性建议.     

太原市大气PM2.5中水溶性离子的季节污染特征及来源分析

为探究当前空气质量持续改善背景下重污染地区大气PM_2.5和水溶性无机离子（WSⅡs）的污染特征和季节变化,于2019年在太原市采集了四季PM_2.5样品.结果表明,2019年太原市PM_2.5年均质量浓度为（65.50±30.44）μg·m^-3,水溶性离子浓度的季节特征为：冬季（39.81 μg·m^-3） > 秋季（33.05 μg·m^-3） > 春季（20.50 μg·m^-3） > 夏季（19.62 μg·m^-3）.WSⅡs以二次离子SNA为主,占总离子浓度的76.90%±10.51%,且随着PM_2.5污染加重,SNA的比重显著升高.其中,SO₄^2-和NO₃^-在秋、冬季的浓度最高,这与气态污染物排放增加和二次转化程度的升高（硫氧化率SOR>0.30,氮氧化率NOR>0.10）有关;NH₄⁺、Cl^-和K⁺在冬季的浓度最高,是其他季节的1.2~7.9倍,可能归因于冬季燃煤和生物质燃烧活动的增加;由于春季风速较高,受土壤扬尘的影响,Ca²⁺和Mg²⁺的比重在春季显著增加为20.2%.春季和夏季为贫氨状态,而秋、冬季为富氨状态,且硝酸盐颗粒物在高湿度条件下的吸湿增长比硫酸盐更为显著.太原市大气PM_2.5中水溶性离子主要来源于二次生成、燃煤、生物质燃烧和土壤扬尘.     

基于条件模拟的污染场地土壤修复量的确定研究

针对一般空间插值方法的局限性,以某铁合金厂污染场地为例,利用基于地统计的条件模拟法对研究区待修复的范围及土方量进行评估,定量评价土壤修复量估算结果的不确定性所带来的风险大小,并引入传递函数量化决策结果与风险损失之间的关系,提出一种以风险损失最小化为原则的修复范围划定方法.同时,将结果与利用反距离权重法、径向基函数法和普通克里格法得到的评估结果进行对比分析.研究结果显示,利用条件模拟法可以得到超过修复目标的污染概率的空间分布,进而得到确定不同土壤修复量时所面对的风险大小.研究区大部分面积的土壤中Mn的超标概率在20%~70%,超标概率较高的区域集中在场区北部和西南部.如果分别将超标概率在30%和50%以上的区域作为修复范围,所面对的相对风险值将分别为4.1%和56.5%.此外,通过与传递函数相结合,利用条件模拟法可以得到基于风险损失的修复范围,按照本研究所设定的风险损失条件,得到风险损失最小的待修复土方量为32.4×104m3.该方法将有助于决策者从风险损失出发对污染场地修复范围进行合理划定.     

Urban and rural transport of semivolatile organic compounds at regional scale: A multimedia model approach

Urban areas are generally regarded as major sources of some semivolatile organic compounds and other persistent organic pollutants(POPs) to the surrounding regions. Huge differences in contaminant emissions between urban and rural areas directly affect their fate in environmental media. Little is known about POPs behavior between urban and rural areas at a regional scale. A spatially resolved Berkeley-Trent-Urban-Rural Fate Model(BETR-UR) was designed by coupling land cover information to simulate the transport of POPs between urban and rural areas, and the Bohai Rim was used as a case study to estimate Polycyclic Aromatic Hydrocarbon(PAH) fate. The processes of contaminant fate including emission, inter-compartmental transfer, advection and degradation in urban and rural areas were simulated in the model. Simulated PAH concentrations in environmental media of urban and rural areas were very close to measured values. The model accuracy was highly improved, with the average absolute relative error for PAH concentrations reduced from 37% to 3% compared with unimproved model results. PAH concentrations in urban soil and air were considerably higher than those in rural areas. Sensitivity analysis showed temperature was the most influential parameter for Phen rather than for Bap, whose fate was more influenced by emission rate, compartment dimension, transport velocity and chemical persistence. Uncertainty analysis indicated modeled results in urban media had higher uncertainty than those in rural areas due to larger variations of emissions in urban areas. The differences in urban and rural areas provided us with valuable guidance on policy setting for urban–rural POP control.     

榆神府矿区开采沉陷损害影响因素的灰色关联分析

运用灰色关联分析法分析了榆神府矿区煤炭赋存条件和开采设计方面7个重要因素对矿区开采沉陷损害程度的影响。关联度分析结果表明,这7因素与开采沉陷损害程度的关联序是:扰动系数宽深比覆岩综合普氏硬度下沉系数深厚比煤层倾角初长比。希望从煤炭赋存条件和开采设计的角度出发,为煤矿区内的开采沉陷损害控制和评价提供科学依据。     

Performance and mechanistic study on electrocoagulation process for municipal wastewater treatment based on horizontal bipolar electrodes

• EC modified with BPEs enhances pollutant removal and reduce energy consumption. • Increasing BPE number cannot increase flocculants yield exponentially. • Simulations help to predict the distribution of electrochemical reactions on BPEs. The design of electrodes is crucial to electrocoagulation process (EC), specifically, with respect to pollutant removal and energy consumption. During EC, the mechanisms for interaction between different electrode arrangement and electrode reactions remain unclear. This work presents an integrated EC process based on horizontal bipolar electrodes (BPEs). In the electrochemical cell, the graphite plates are used as driving cathode while either Fe or Al plates serves as driving anode and BPEs. The BPEs are placed horizontally between the driving electrodes. For municipal wastewater treatment, the pollutant removal efficiency and energy consumption in different configurations of two-dimension electrocoagulation (2D-EC) system with horizontal BPEs were investigated. The removal efficiency of turbidity, total phosphorus and total organic carbon increased significantly with the number of BPEs. Noted that the energy consumption for TP removal decreased by 75.2% with Fe driving anode and 81.5% with Al driving anode than those of 2D-EC, respectively. In addition, the physical field simulation suggested the distributions of potential and current in electrolyte and that of induced charge density on BPE surface. This work provides a visual theoretical guidance to predict the distribution of reactions on BPEs for enhanced pollutant removal and energy saving based on electrocoagulation process for municipal wastewater treatment.     

Sources of 24-h personal exposure to PM2.5-bound metals: results from a panel study in Wuhan,China

Environmental Science and Pollution Research - Atmospheric PM2.5-bound metals have been widely addressed, but research on the exposure levels and sources of personal PM2.5-bound metals among urban...     

高空飞行的环境影响研究进展

航空运输业的高速发展的同时,环境问题亦不容小觑。民航是我国重要的交通运输方式之一,但我国民航运输业对于高空飞行对环境的影响的研究却很少。航空器巡航阶段属于高空飞行,占整个飞行时间的80%,因飞行距离长,距离地面高,所带来的温室效应具有放大效果,引起了国内外学者的广泛关注。文章概述了高空飞行的危害,认为CO_2排放和凝结尾生成是大气温室效应的直接污染源,进而对国内外典型的高空飞行影响评估模型进行阐述,并分析研究了高空飞行的温室效应防治措施。     

博斯腾湖流域沉积物中多环芳烃的时空分布、来源及生态风险评价

在新疆博斯腾湖及其上游采集了8个表层沉积物和1根湖心沉积柱样品,分析了其中16种多环芳烃(PAHs)的含量,对其时空分布特征、来源和潜在生态风险进行了研究,并采用~(210)Pb同位素测年法分析了沉积速率和沉积柱的时间跨度.结果表明:表层沉积物样品中PAHs含量范围为57.37～360.24 ng·g~(-1)(干重),开都河沉积物中PAHs以低分子量PAHs(2～3环)为主,博斯腾湖沉积物中PAHs以高分子量PAHs(4～6环)为主.开都河和博斯腾湖沉积物中萘(Nap)、菲(Phe)、苯并(b)荧蒽(BbF)和茚并(1, 2, 3-cd)芘(IP)等单体的含量较高.空间分布呈现出上游河流开都河高于博斯腾湖区,且湖区污染主要集中在湖心处的污染特征.沉积柱样品中15种PAHs含量范围为29.85～211.13 ng·g~(-1),沉积速率为0.18 cm·a~(-1),PAHs组成以5环和6环为主.沉积时间跨度为1852—2016年,PAHs含量峰值出现在1994年.采用比值法对表层沉积物和沉积柱样品进行源解析表明,博斯腾湖流域PAHs主要来源于生物质和煤热解过程,近年来有向煤炭和石油燃烧复合源转变的倾向.效应区间低/中值法(ERL/ERM)和平均效应区间中值商法(M-ERM-Q)评估结果表明,博斯腾湖及其上游表层沉积物中PAHs表现出低生态风险.