不同环境因子对黑土胶体在饱和多孔介质中运移特性的影响

为评价不同环境条件下黑土胶体在地下水多孔介质中的运移,采用离心法对采自于黑龙江海伦黑土样品中的胶体颗粒进行提取. 通过胶体在石英砂填充柱中的淋溶试验研究了pH、离子强度和溶解性有机质等环境因子对胶体在多孔介质中运移特性的影响. 结果表明:当pH在4～9的范围内变化时,MR(回收率)和k(沉积速率系数)没有发生显著变化,即其对胶体运移能力影响不显著. 随着离子强度从0.001 mmol/L升至1 mmol/L,黑土胶体穿透曲线MR降低,k值升高,说明高无机离子强度使胶体易于沉积在石英砂表面,运移能力降低. 当溶液中含有溶解性有机质HA(胡敏酸)和FA(富里酸)时,MR降低,k值增加,表明胶体运移能力受到抑制,并且FA对胶体颗粒运移的抑制作用比HA强. 溶液离子强度、HA和FA含量对黑土胶体在饱和多孔介质中的运移过程影响较大,是影响地下水中胶体运移过程的关键环境因子.      

离子强度和SO2-4对土壤吸附Al的影响

研究了离子强度和SO4^2-对土壤吸附Al的影响，结果表明：在所研究的pH范围内，随着NaCl支持电解质浓度的提高，土壤对Al的吸附量基本保持不变，并且当pH＜3．9时，即土壤表面净电荷为正时，土壤对Al的吸附量仍然很大，超过最大吸附量的50％，而用CaCl2作支持电解质时，当pH＜4．5时，在溶液中CaCl2浓度最高的情况下，Al的吸附量最小，在其余两种浓度条件下则基本相等；当pH＞4．5时，Al的吸附量几乎不受CaCl2浓度变化的影响。SO4^2-的加入对土壤吸附Al没有影响。这些都说明土壤吸附Al的作用机制主要为专性吸附。     

Field study of TCE diffusion profiles below DNAPL to assess aquitard integrity

An area where a free-product accumulation of trichloroethylene (TCE) dense non-aqueous phase liquid (DNAPL) occurs at the bottom of a 10-m-thick surficial sand aquifer was studied to determine the integrity of the underlying, 20-m-thick, clayey silt aquitard formed of glaciolacustrine sediment. TCE concentration-versus-depth profiles determined from aquitard cores collected at five locations indicated penetration of detectable TCE 2.5 to 3.0 m into the aquitard. Two of the profiles show persistent DNAPL at the aquitard interface, while two others indicate that DNAPL, present initially, was completely dissolved away producing concentration declines at the aquitard interface. The fifth profile suggests shallow DNAPL penetration (<0.5 m) into the aquitard, however, this penetration, which was likely caused by cross-contamination during core collection or cone penetrometry (CPT) of the aquitard interface, did not increase the maximum depth of TCE penetration. Combining the field profiles with one-dimensional model simulations, downward migration of the aqueous TCE front, defined as the EPA MCL of 5 microg/l, which was below the analytical detection limit, was projected to a distance between 4 and 5 m below the top of the aquitard. Using a single set of estimated aquitard parameter values, simulations of aqueous TCE migration into the aquitard provided a good fit to four of the field profiles with a migration time of 35 to 45 years, consistent with the history of TCE use at the site. These simulations indicate aqueous TCE migration is diffusion-dominated with only small advective influence by the downward groundwater velocity of 2 to 3 cm/year or less in the aquitard due to pumping of the underlying aquifer to supply water to the facility in the past 50 years. The applicability of the parameter values was confirmed by in situ diffusion experiments of 1-year duration, in which stainless steel cylinders containing DNAPL were inserted into the aquitard. The diffusion-dominated nature of the profiles indicates that the aquitard provides long-term protection of the underlying aquifer from contamination from this DNAPL zone. Simulations of long-term migration of the TCE solute front indicate breakthrough to the lower aquifer at 1200 years for the no advection scenario and at 500 years if the strong downward hydraulic gradient persists. However, even after breakthrough, the mass flux through the aquitard to the underlying aquifer remains relatively low, and when considered in terms of potential impacts to pumping wells, concentrations are not expected to increase significantly above present-day MCLs. The use of contaminant profiles of different time and distance scales, in addition to hydraulic data, dramatically improves the ability to assess aquitard integrity, and provides improved transport parameter values for estimating contaminant arrival times and fluxes. The apparent lack of deep preferential pathways for TCE migration, such as open fractures, is probably due to the softness of the silty aquitard deposit and minimal physical or chemical weathering of the aquitard provides long-term protection of the underlying aquifer from contamination from this DNAPL zone. Simulations of long-term migration of the TCE solute front indicate breakthrough to the lower aquifer at 1200 years for the no advection scenario and at 500 years if the strong downward hydraulic gradient persists. However, even after the breakthrough, the mass flux through the aquitard to the underlying aquifer remains relatively low, and when considered in terms of potential impacts to pumping wells , concentrations are not expected to increase significantly above present-day MCLs. The use of contaminant profiles of different time and distance scales, in addition to hydraulic data, dramatically improves the ability to assess aquitard integrity, and provides improved transport parameter values for estimating contaminant arrival times and fluxes. The apparent lack of deep preferential pathways for TCE migration, such as open fractures, is probably due to the softness of the silty aquitard deposit and minimal physical or chemical weathering of the aquitard.     

离子强度、pH值和Ca2+/Al3+对马尾松幼苗的铝毒影响

测定了在不同溶液酸度、不同离子强度和Ca²⁺/Al³⁺比下,铝对马尾松幼苗生长状况的影响。结果表明,溶液酸度增加,离子强度减小时,铝的毒害作用增大。钙对铝毒有明显缓解作用,当Ca²⁺/Al³⁺增大时,铝的毒性减小,但其缓解作用与铝浓度有关,当铝浓度增加,钙的缓解能力下降。     

植物吸收环境中金属元素的动力学模型

植物吸收金属元素的过程主要是一个主动吸收过程。目前用离子载体学说解释离子主动吸收过程已经得到了广泛的认同 ;而且各种各样的酶参与了植物主动吸收金属离子的过程。本文对利用酶促反应动力学描述植物吸收环境中金属元素这一现象的可行性及应用现状作了讨论。     

日本东京湾地区冬季飘尘污染研究

对东京湾地区冬季高浓度飘尘污染进行了分析，研究结果表明，日本某些特定地区也存在着与中国严重污染城市相当的飘尘污染；分析指出高浓度的飘尘污染主要来自于人为污染，其中废弃物焚烧和汽车排气的贡献占重要地位，这与中国大气煤烟型污染截然不同。     

功能化层状复合材料的制备及其电催化性能

目的制备一种新型功能化离子液体修饰层状复合材料,研究其对L-酪氨酸(L-Tyr)的电催化氧化行为。方法通过静电自组装方式将氮氧自由基功能化离子液体(TEMPO-IL)与钙铌酸钾(KCa_2Nb_3O_(10))进行复合,并运用XRD,FTIR,SEM,HRTEM等测试手段对所作材料的微观形貌和结构进行分析表征。另外,将其作为电极修饰剂修饰于电极表面通过电化学工作站测试其电化学性质。结果该修饰电极对于电催化氧化L-Tyr有着较高的电化学活性。同时实验还表明,当L-Tyr的浓度在1×10~(-4)~1.16×10~(-2) mol/L之间时,峰电流值与L-Tyr浓度呈良好的线性相关,检测下限为6.2×10~(-5) mol/L(信噪比为3)。结论静电自组装是一种能够快捷、高效的制备层状复合材料方法,且得到的复合材料显示出在生物传感器方面的应用前景。     

The use of ionic liquids based on choline chloride for metal deposition: A green alternative?

Ionic liquids are studied intensively for different applications. They tend to be denoted as “green solvents”, largely because of their low vapour pressure. In recent years toxicity and biotoxicity of ionic liquids have also been investigated, which proved that not all of these are “green”. In this paper the use of ionic liquids based on choline chloride and ethylene glycol in electrochemistry is discussed in the context of their use as green solvents. Due to their low toxicity and ready biodegradability, these deep eutectic solvents are promising for the electrodeposition of metals. The influence of the use of these liquids as metal deposition baths on the waste water is investigated. Drag-out was found to be the most influencing parameter on the environmental impact of the process, as it is three times higher compared to classical solutions due to the higher viscosity of the ionic liquid. There are no major changes needed in the rinsing configuration of classic electroplating plants, and ion exchange to remove the metal out of the waste water was not hindered by the presence of the ionic liquid. The formation of by-products during the deposition of metals has to be further investigated and evaluated in consideration of the environmental impact.     

Fire accident investigation of an explosion caused by static electricity in a propylene plant

This study investigated a 2010 fire and explosion that occurred at a polypropylene (PP) and copper-clad laminate high-tech plant in Taiwan. Liquid acetone leakage caused the fire and explosion. One person was killed and five were injured; property damage was estimated at US$20 million. In contrast to conventional plants, high-tech plants have sophisticated instrumentation, highly complex pipelines, and confined spaces. In addition, the floor area in a high-tech plant is large and frequently contains a channel through the ground floor to the second or third floor. This channel design enables the fire compartment to be destroyed. Therefore, the system cannot confine the fire to a specific area, thus hindering fire-relief operations. In this study, the original fire outbreak occurred in the PP processing area on the ground floor. The acetone storage tank was located on the third floor. The investigation conducted at the fire site of the situations of the burning (bursting) loss determined that the acetone liquid leaked and dripped from floor cracks and tunnel oven to the PP processing area. Because the PP manufacturing process rapidly generates static electricity, the flammable liquids made contact with the source of ignition, which caused the explosion and fire. Various procedures, such as those involving the operating environment of production, packaging, and processing in a high-tech plant, are likely to produce static electricity in a workplace. Improved electrostatic management can prevent the loss of property and lives, liquid acetone leakage, and loss of equipment caused by static electricity fire.     

2011年春季沙尘天气影响下上海大气颗粒物及其化学组分的变化特征

于2011年4月28日~5月18日对上海大气中颗粒物的质量浓度及细粒子中的化学组分进行了连续观测,获得了上海受春季沙尘天气影响下大气颗粒物质量浓度和主要化学组分特征.结果表明,沙尘天气中PM10和PM2.5的质量浓度显著高于非沙尘天,最高日均浓度分别达到787.2μg·m-3和139.5μg·m-3,PM2.5/PM10的均值为(32.9±14.6)%(15.6%~85.1%);总水溶性无机离子(TWSⅡ)占PM2.5的质量分数为(27.2±19.2)%(4.8%~80.8%),二次组分SNA(SO2-4、NO-3、NH+4)占TWSⅡ的(76.9±13.9)%(41.9%~94.2%),TWSⅡ和SNA对PM2.5的贡献均小于非沙尘天,而Ca2+的含量比却有明显上升.非沙尘天测得的OC/EC值高于强沙尘天,但低于弱沙尘天.此外分析还得到,沙尘中的高矿尘粒子具有酸性缓冲作用,使得沙尘天颗粒的碱性强于沙尘发生前.非沙尘天SO2-4、NO-3主要以NH4HSO4、(NH4)2SO4和NH4NO3的形式存在,沙尘天还会与其他矿物离子结合.