两室中性膜电解过程中铁离子的沉积特性研究

以亚硫酸钠和亚硫酸氢钠溶液模拟钠碱烟气脱硫吸收富液,应用二室中性膜电解装置,对铁离子在阴极板的沉积现象与沉积规律进行研究,确定了沉积物组成成分与铁离子沉积机理,明确了铁离子沉积与膜电解操作参数间的相互关系,结果表明阴极板沉积物中的铁离子主要为硫化亚铁,铁离子沉积量随膜电解电压和硫碱比r增大而明显增大;此外,膜电解过程中随着铁离子沉积于膜表面和阴极板表面的沉积量增加,阴极室压降由于阴极板结垢而降低,膜阻由于模孔堵塞而增大。     

海带对镉的吸附动力学与热力学研究

采用批量平衡法研究了海带对镉的吸附的动力学与热力学,并采用Lagrange假一级动力学方程、假二级动力学方程、Langmuir等温线方程、Freundlich等温线方程以及Dubimim-Radushkevich等温线方程对实验数据进行了拟合.结果表明,在4种温度下海带对镉的吸附率均随吸附反应时间增加而增大,在60 min时达到最大,此后基本保持不变,随着温度由20℃升高至50℃,其最大吸附率呈下降趋势,由90.2%降至77.5%;海带对镉的吸附动力学符合Lagrange假二级动力学方程;海带对镉的吸附热力学符合Langmuir等温线方程和Dubimim-Radushkevich等温线方程,表明吸附主要发生在海带表面的活性区位,属于单分子层吸附,其吸附平均活化自由能E为11.4 kJ/mol,表明该吸附过程为化学吸附,在4种温度下吉布斯自由能变化量△AG°均为负值,吸附焓变△H°也为负值,表明海带对镉的吸附为放热反应,能自发进行.     

Fenton试剂催化氧化嘧啶废水的特性

研究了Fenton催化氧化法对废水中嘧啶的去除效能,优化了处理体系中的反应条件,分析了各影响因子的作用机理;并用一元线性回归方程对不同温度下,嘧啶相对残余浓度对反应时间的相关性进行了定量分析。结果表明:温度为25℃,pH为3.5,Fe²⁺的投加量64 mmol/L,H₂O₂投加量为300 mmol/L时,反应2 h,Fenton试剂对嘧啶和COD的去除率分别达90%和50%以上;同时发现Fenton试剂对嘧啶的氧化降解具有相对优先性,且符合一级反应动力学模式,并计算表观反应速率常数和活化能。     

肝素提取废水的GC-MS分析和处理研究

肝素钠废水含有高浓度无机盐和大量有机污染物,对环境具有潜在的毒性且难以处理,已经受到环境工作者的关注。为了了解废水的主要成分和处理此类废水,本实验用GC-MS对废水进行了分析,并且利用芬顿试剂对其进行了处理,结果发现废水中有机物有26种,其中脂肪酸和芳香衍生物占有较大比例,处理后,有机成分只有3种;讨论了影响处理效果的因素和最佳的工艺条件,发现当pH 值为6.66,硫酸亚铁和过氧化氢的量分别为2.5 g/L和2.8‰ (v/v),搅拌速度为2 000 r/min, 搅拌时间为15 min时,COD的去除率可达到94.50%。     

Chemical characteristics of long-range transport aerosol at background sites in Korea

In this study, background concentration sites of Deokjeok and Gosan, which were deemed suitable for monitoring the impact of long-range transported air pollutants, were selected. An investigation of the source types of pollutants, their locations, and relative quantitative contributions to the particulate concentrations at both sites using appropriate methodologies to make initial estimations was conducted. Episodic measurements of PM_2.5, PM₁₀, and size distribution, along with its ion and carbon components were performed from 2005 to 2007, and a comprehensive analysis of the results was conducted utilizing back trajectory analysis. As for frequency of wind direction, it was quite apparent that the two sites are heavily influenced by air masses originating from the eastern and northern regions of China. For PM_2.5 and PM₁₀, the mass concentrations from north and east China were higher than other cases, originating from the ocean. In the northerly-wind case, meteorological properties for Deokjeok and Gosan and the influence of carbon emissions from northwest Korea resulted in a changing of air mass properties during transport. As was the case with mass concentration, the highest contribution for ionic and carbon components of PM_2.5 and PM₁₀ for both sites appeared for the westerly wind case. A specially high relative contribution, greater than 1.4 times, was apparent in the secondary aerosol case because of a large influence of long-range transported pollutants from east China. Carbon components exhibited different behaviors for the northerly and westerly wind cases compared with secondary aerosol. The major reason for this discrepancy appears to be the carbon emissions from northwest Korea.     

The gas/particle partitioning of polycyclic aromatic hydrocarbons collected at a sub-Arctic site in Canada

Polycyclic aromatic hydrocarbons (PAH) were measured in air samples at a remote air monitoring site established in the Yukon Territory, Canada as part of a global project (International Polar Year; IPY) to study the potential for atmospheric long-range transport of anthropogenic pollutants to the Arctic. Gas- and particle-phase PAH were collected in polyurethane foam plugs and on glass fibre filters respectively from August 2007 to October 2009. PAH concentrations were found to be highest in the winter months and lowest in summer. The gas/particle partitioning coefficients of 3–5 ringed PAH were computed and seasonal averages were compared. In the summer time, lower molecular mass PAH exhibited relatively higher partitioning into the particle-phase. This particle-phase partitioning led to the shallowest slopes being recorded during summer for the log–log correlation plots between the PAH partition coefficients and their sub-cooled vapour pressures. Air mass back trajectories suggest that local impacts may be more important during the summer time which is marked by increased camping activities at camping sites in the proximity of the sampling station. In conclusion, both summer and wintertime variations in PAH concentrations and gas/particle partitioning are considered to be source- and phototransformation-dependent rather than dependent on temperature-driven shifts in equilibrium partitioning.     

Competition of coagulation sink and source rate: New particle formation in the Pearl River Delta of China

The coagulation sink and its role in new particle formation are investigated based on data obtained during the PRIDE-PRD2004 campaign at Xinken of Pearl River Delta, China. Analysis of size distributions and mode contributions of the coagulation sink show that the observed higher load of accumulation mode particles impose a significant effect on the coagulation sink and result in higher coagulation sinks at Xinken despite of the lower total particle number compared with other areas. Hence it is concluded that the higher coagulation sink may depress the occurrence frequency of new particle formation events. The strategies targeting at controlling accumulation mode particles may have influences on the frequency of new particle formation events at this area. The factors affecting the coagulation sink are evaluated. The relatively lower ambient relative humidities may weaken the coagulation sink and facilitate the occurrence of new particle formation events during noontime, while the surmise of nucleation and growth involving organic matter may imply an actually higher coagulation sink than expected. These factors have a significant influence on the ultimate fate of the newly formed nuclei and new particle formation. A comparison of event and non-event days indicates that the coagulation sink is not the only decisive factor affecting new particle formation, other factors including the precursor vapors and photochemical activity are none the less important either. Competition of coagulation sink and high source rate leads to the occurrence of new particle formation events at Xinken.     

Fenton体系降解水中偶氮染料的研究

研究了Fenton体系对于水溶液中偶氮染料橙G(orange G,OG)的降解,反应30 min后,在[Fe2+]0=0.1mmol/L、[H2O2]0=10 mmol/L、pH=3.0的条件下,初始浓度为20 mg/L的OG的去除率达到99%以上。与H2O2相比,OG的降解速率随着Fe2+不同投加量的变化更为敏感。Fe2+和H2O2初始浓度较高时,反应过程中的Fe2+的浓度维持在一个较低的水平,OG的降解速率较快。腐殖酸对OG在Fenton体系中的降解影响表现出明显的阻碍作用,并且随着腐殖酸浓度的增加,抑制作用越来越大。     

Acute toxicity assessment of explosive-contaminated soil extracting solution by luminescent bacteria assays

Explosive-contaminated soil is harmful to people’s health and the local ecosystem. The acute toxicity of its extracting solution was tested by bacterial luminescence assay using three kinds of luminescent bacteria to characterize the toxicity of the soil. An orthogonal test L ₁₆ (4⁵) was designed to optimize the soil extracting conditions. The optimum extracting conditions were obtained when the ultrasonic extraction time, ultrasonic extraction temperature, and the extraction repeat times were 6 h, 40 °C, and three, respectively. Fourier transform infrared spectroscopy (FTIR) results showed that the main components of the contaminated soil’s extracting solution were 2,4-dinitrotoluene-3-sulfonate (2,4-DNT-3-SO₃ ⁻); 2,4-dinitrotoluene-5-sulfonate (2,4-DNT-5-SO₃ ⁻); and 2,6-dinitrotoluene (2,6-DNT). Compared with Photobacterium phosphoreum and Vibrio fischeri, Vibrio qinghaiensis sp. Nov. is more suitable for assessing the soil extracting solution’s acute toxicity. Soil washing can remove most of the contaminants toxic to luminescent bacterium Vibrio qinghaiensis sp. Nov., suggesting that it may be a potential effective remediation method for explosive-contaminated soil.

     

科技信任、管理信任及其对公众水灾风险认知的影响——基于长江中下游的社会调查

信任和风险在一定程度上互为因果,两者通过认知行为决策及行为后果这一环节构建互馈关系。探索公众对社会减灾能力的信任及其对灾害风险认知的影响机制,有助于揭示灾害风险的潜在因素,调适风险认知与避灾行为,从而降低灾害风险。选取水灾发生频繁、强度大、防洪措施多样的长江中下游地区为研究区,运用随机抽样调查和入户访谈相结合的方式获取资料,研究公众的水灾科技信任和管理信任的水平、影响机制、动机-效应差异。主要结论有:①公众科技信任水平普遍高于管理信任。信任水平受到公众性别、年龄、灾害经历、城乡差异等因素不同程度的影响,信任具有区域共构的特点;②科技信任改变了公众水灾风险认知,加强了其灾害应对信心,降低了其对受灾风险的估测,对其避灾行为倾向影响显著,而管理信任对公众水灾风险认知及防灾备灾行为倾向的影响均不大;③信任的产生动机以认可减灾措施有用性为前提,科技减灾和管理减灾由于具有不同的减灾原理及作用时段,导致了公众的不同信任动机及其效应。