广东省不同母质赤红壤磷的吸附与解吸

研究了广东省4种不同母质赤红壤磷的吸附与解吸特征,结果表明,4种不同母质赤红壤等温吸附方程（Langmuir方程,Freundilch方程和Temkin方程）的拟合结果都达到了极显著的水平。土训吸附磷量由大到小的顺序为：玄武岩＞页岩＞花岗岩＞砂页岩。赤红壤对磷的解吸顺序为：玄武岩＜页岩＜花岗岩＜砂页岩,说明粘粒较少的母质土壤对磷的吸附力也小,因此,更容量解吸。提高土壤有机质的含量,可以改善土训的供磷性能。     

江苏省含低放射性废渣清洁解控技术规范探讨

以江苏省稀土行业废渣实际情况为背景,基于国内外对天然放射性物质(NORM)的管理限值水平,通过理论研究和模型构建,建立了废渣中放射性核素质量活度与现场γ剂量率之间的关系。通过现场实验和样品γ谱核素分析结果进行模型修正,在留有足够安全冗余的情况下确定现场γ剂量率筛选水平,并提出了一套操作性较强的NORM废物γ剂量率筛选现场检验程序。     

土壤污染修复技术研究进展

总结了当前针对污染土壤的物理化学、生物及联合修复技术研究进展,归纳了纳米材料、生物炭和表面活性剂等新兴修复材料的优缺点及应用情况。提出今后的研究方向为强化生物修复技术,开展联合修复技术、复合材料修复技术及土壤修复技术风险防范研究。     

环境监测实验室重要试剂及耗材的质量验收方法

阐述了对环境监测实验室重要试剂及消耗性材料进行质量验收的必要性,以实验用水、过硫酸钾、活性炭采样管和滤膜等典型的试剂及消耗材料为例,介绍了常用的重要试剂及消耗性材料质量验收的程序、范围、方法、要求与结果讨论.     

室内空气污染监测用氨标准样品研究

根据中国对室内空气污染监测的实际需要,介绍了室内空气污染监测用氨标准样品的研制方法,包括试剂的验证、均匀性和稳定性检验、分析定值和测定数据的统计检验等方面。氨标准样品采用重量法制备,用纳氏试剂分光光度法对样品进行均匀性和稳定性研究,并进行不确定度评估。研究结果表明,氨标准样品的均匀性良好,室温条件下可稳定18个月以上;在全面分析不确定度来源的基础上,定值结果为0.494 mg/L,不确定度小于3%。与美国同类标准物质进行比对分析,结果具有可比性。可用于氨测定的质量控制、分析方法评价以及实验室能力验证等方面。     

对纳米医学材料安全性问题的思考

笔者在综合国内外研究的基础上,从风险辨识、剂量反应阈值、接触阈值、风险评价、风险管理等5个步骤进行了危害分析和控制,提出了"人体、社会环境以及纳米医学材料"三者所构成系统的安全评价模型,认为其过程可分3步来进行;针对该模型提出建立健全相关法律、法规、质量和安全标准等8项安全对策措施,以降低纳米医学材料带来的风险。     

浅谈汽车内饰材料挥发成雾性测试

汽车内饰材料中所含挥发性物质的释放是造成车内环境污染最直接的也是最主要的原因。对汽车内饰材料进行挥发性物质测试的重要方法之一就是挥发成雾性测试。本文中,笔者将对汽车内饰材料挥发成雾性测试的测试原理、测试设备、当前业界流行的主要测试方法和相关的标准作一些介绍。     

Novel materials for environmental remediation of tailing pond waters containing naphthenic acids

A nanofiltration strategy for tailing pond waters (TPWs) that utilizes cyclodextrin (CD)-based polymeric materials as supramolecular sorbents is proposed. Naphthenic acids (NAs) from the Athabasca TPWs are investigated as the target sorbate molecules.The sorption properties of several supramolecular porous materials were characterized using equilibrium sorption isotherms in aqueous solution wherein electrospray ionization mass spectrometry was used to monitor the concentration of NAs in aqueous solution. The characterization of the supramolecular sorbents was performed using ¹³C NMR and IR spectroscopy, while nitrogen porosimetry was used to estimate their surface area and pore structure properties. Independent estimates of surface area were obtained using a chromophore dye adsorption method in aqueous solution.The sorption results for NAs in solution were compared between a commercially available standard; granular activated carbon (GAC) and three types of synthetic materials. The sorption capacities for GAC ranged from 100 to 160 mg NAs/g of material whereas the polymeric materials ranged from 20 to 30 mg NAs/g of material over the experimental conditions investigated. In general, differences in the sorption properties between GAC and the CD-based sorbents were observed and related to differences in the surface areas of the materials and the chemical nature of the sorbents. The CD-based supramolecular materials displayed sorption capacities ranging from 36.2 to 657 m²/g as compared to that for GAC (795 m²/g).     

PAH desorption from river floodplain soils using supercritical fluid extraction

Sequential supercritical fluid extraction (SFE) was performed in order to estimate desorption of PAHs from river floodplain soils which contain coal and coal-derived particles. Original soils, soils' light fractions (ρ < 2 g cm⁻³), and <63 μm fractions were studied for PAHs' desorption kinetics. Desorption data were successfully described using a two-site model. Desorption rate constants were one order of magnitude lower than those of “slow” and “very slow” desorption rates from other studies. This suggests very slow and extremely slow desorption. Estimated time scales releasing 99% of total extractable contaminants ranged from decades for 2-4-ring PAHs and hundreds of years for 5-6-ring PAHs. We demonstrate that, despite high soil PAH concentrations which are due to coal and coal-derived particles, the general environmental risk is reduced by the very slow and extremely slow desorption rates.