上海郊区小城镇街道灰尘理化性质及重金属时空分布特征

为了解上海郊区不同类型小城镇街道灰尘的基本理化性质和重金属的时空分布特征,分别于2003年7月（夏季）和2004年4月（春季）在枫泾镇、松江新城和朱家角镇采集街道灰尘样品共计90个,分析了样品的pH、粒度、有机质和重金属的含量。结果表明：3个小城镇街道灰尘的理化性质和重金属时空分布特征具有较好的一致性,pH值为841~1137,呈碱性;有机质的平均含量为3413 g/kg;粒度主要呈单峰和双峰分布特征,粒径平均值为1736 μm,以砂粒为主。各重金属的平均含量均高于上海市土壤环境背景值。Cr和Ni含量夏季高于春季,但区域分异不显著。城镇中心区域和镇级公路Cd、Cu、Pb和Zn含量明显大于乡村。Cr Ni,Cu Pb Zn,Fe Mn之间具有极显著的相关性,有机质是街道灰尘重金属的重要载体     

废旧天然胶胶粉应用研究

以80目的废天然胶胶粉为研究对象,处理后将其分别以20%,30%的比例添加到天然混炼胶(NR)中,制备废胶粉/NR共混硫化胶;同时,通过邻苯二甲酸酐(PA)和高芳烃油对胶粉进行处理改性,制备了全胶粉弹性体。拉伸强度测试表明,对于共混胶弹性体,NR混炼胶空白样的拉伸强度为19.21 MPa,添加20%,30%比例的胶粉/NR共混硫化胶的拉伸强度可以分别达到18.03 MPa,17.23 MPa;改性后制备的全胶粉混炼胶硫化样品拉伸强度达到8.12 MPa,超过了再生胶的国标标准。同时应用扫描电子显微镜SEM分析、比较了各试样断裂面的微观结构,应用比表面仪BET和SEM表征了胶粉的表面形貌与结构,发现胶粉表面呈现"绒球"状,具有较好的表面性能。     

水环境中腐殖酸的荷电特性与聚集特性

通过腐殖酸的Zeta电位和粒径的变化规律研究,探讨化学条件对腐殖酸的荷电状态和聚集状态的影响。结果表明,腐殖酸具有自我凝聚的特性;在pH较低和溶液离子强度较高时,腐殖酸胶粒的Zeta电位绝对值减小而聚合度增大,从而使腐殖酸胶粒聚集而凝聚;随腐殖酸浓度增大,腐殖酸胶粒的Zeta电位绝对值增大,腐殖酸胶粒的缩聚程度降低而使粒径减小。     

污水厂污泥流变特性变化规律

污泥流变特性是影响其传质效果的重要因素,对污泥管道输送、搅拌、混合以及热交换等处理处置单元的设计和运行均起到重要作用。本研究利用旋转黏度计测定了污水处理厂含水率分别为90%、93%和96%时污泥的流动曲线和黏度曲线,并分析了污泥含水率、温度对污泥流变特性的影响。实验结果表明,污泥属于典型的假塑性流体,其流变特性可以用Ostwald de Vaele模型,即幂律模型τ=K(D)n来拟合。污泥黏度随含水率的减小而增加,且剪切速率越小,这种增加趋势越明显;污泥黏度随温度升高呈现降低趋势,且这种趋势在低剪切速率时表现的比较明显,在高剪切速率时变化幅度很小。     

Modelling agronomic properties of Technosols constructed with urban wastes

The greening of urban and suburban areas requires large amounts of arable earth that is a non-renewable resource. However, concentration of population in cities leads to the production of high amounts of wastes and by-products that are nowadays partly recycled as a resource and quite systematically exported out of urban areas. To preserve natural soil resources, a strategy of waste recycling as fertile substitutes is proposed. Eleven wastes are selected for their environmental harmlessness and their contrasted physico-chemical properties for their potential use in pedological engineering. The aim is (i) to demonstrate the feasibility of the formulation of fertile substrates exclusively with wastes and (ii) to model their physico-chemical properties following various types, number and proportions of constitutive wastes. Twenty-five binary and ternary combinations are tested at different ratios for total carbon, Olsen available phosphorus, cation exchange capacity, water pH, water retention capacity and bulk density. Dose–response curves describe the variation of physico-chemical properties of mixtures depending on the type and ratio of selected wastes. If these mixtures mainly mimic natural soils, some of them present more extreme urban soil features, especially for pH and P_Olsen. The fertility of the new substrates is modelled by multilinear regressions for the main soil properties.     

Microalgae biosynthesis of silver nanoparticles for application in the control of agricultural pathogens

The occurrence of diseases in cultivars has caused significant losses in global food production. The advancement of nanobiotechnology makes it possible to obtain new products to be used in the control of pathogens in cultivars. Silver nanoparticles can be synthesized by microalgae and are widely known for their antimicrobial activity. In addition, the biomass produced in microalgal culture for the biosynthesis of the nanoparticles also demonstrates antimicrobial properties, as it can increase the antibacterial and antifungal potential of the silver nanoparticles. In this context, this article addresses the use of microalgae to biosynthesize silver nanoparticles simultaneously with biomass production. In addition, we demonstrate the antimicrobial potential of these nanomaterials, as well as of the microalgal biomass produced in biosynthesis, to use in the control of pathogens in agriculture.     

Effects of soil properties on heavy metal accumulation in flowering Chinese cabbage (Brassica campestris L. ssp. chinensis var. utilis Tsen et Lee) in Pearl River Delta,China

This study was conducted to investigate the effects of soil properties on the heavy metal accumulation in flowering Chinese cabbage (Brassica campestris L. ssp. chinensis var. utilis Tsen et Lee) at the field scale. The concentrations of cadmium (Cd), mercury (Hg), and chromium (Cr) in topsoil and vegetable samples from Nanhai district of Foshan city in the Pearl River Delta (PRD) were analyzed. The results showed that 56.5% of the soil samples exceeded the grade II of the Chinese Soil Environmental Quality Standard (GB 15618-1995) for Hg concentrations, while 8.70% and 17.4% of the vegetable samples exceeded the criteria of the Chinese Safety Qualification of Agricultural Products (GB 18406.1-2001) for Cd and Hg concentrations, respectively. The calculated bio-concentration factor (BCF; i.e., the ratio of the metal concentration in the edible parts of flowering Chinese cabbage to that in soil) values were ranked as: Cd (0.1415) > Cr (0.0061) > Hg (0.0012) (p < 0.01), which demonstrated that Cd was easier to be accumulated in the edible parts of flowering Chinese cabbage than Hg and Cr. Furthermore, the following relationships between (bio-concentration factor) BCF values (BCFs) and soil physicochemical properties were concluded from our results: i) the mean BCFs of coarse-textured soils were higher than those of fine-textured soils; ii) the BCFs decreased with increasing soil pH; iii) the soils with high organic matter(OM) and Cation exchange capacity (CEC) have low BCFs, resulting from their high sorption capacities for Cd, Hg, and Cr. The stepwise linear multiple regression analyses showed that total metal concentrations and available calcium in soils were two main factors controlling the accumulation of Cd, Hg, and Cr in the flowering Chinese cabbage.     

含氟有机化合物的生态迁移及转化

含氟有机化合物的众多特性使得其在各方面得到越来越广泛的应用,同时也成为了一种较普遍的环境污染物。本文列举了含氟有机化合物的应用类型及相应的应用特点;指明其污染途径和毒性特征;从含氟有机物的分子结构特征、降解茵的类型、外部因素三方面阐明了其生物降解特性;总结了酶作用于碳氟键使得含氟有机物发生降解的四种作用;并介绍了含氟有机污染物的生物处理和生态修复的一般方法。     

树脂基复合材料模拟海洋环境长期老化及失效行为

目的 实现高性能树脂基复合材料的环境适应性评价和使用寿命预测。方法 选取玻璃纤维增强不饱和聚酯(GF/197S)与玻璃纤维增强乙烯基脂(GF/905-2)2种树脂基轻质复合材料,开展模拟海洋环境实验室盐雾、湿热和盐水浸泡环境9 600 h的加速老化试验。基于4种力学性能(拉伸强度、弯曲强度、压缩强度及层间剪切强度)开展材料老化行为规律研究,利用傅里叶变换衰减全反射红外光谱(ATR-FTIR)对树脂基体在3种加速老化环境中的分子链段与官能团变化情况进行分析,得到基体树脂的老化机理。利用外观、超声扫描成像、SEM分析树脂纤维界面的变化情况,明确树脂/纤维界面的失效模式。利用差示扫描量热分析(DSC)与热重分析(TG)分析3种加速老化方式对玻璃纤维增强树脂复合材料(GFRPC)的玻璃化转变温度(tg)与热质量损失的影响。结果 3种老化方式对树脂基体的老化影响顺序依次为70 ℃/95%RH湿热、35 ℃盐雾、常温盐水浸泡。结论 得到了先进轻质树脂基复合材料的模拟海洋环境老化行为、失效模式以及树脂基体的老化机理,为实现高性能树脂基复合材料的环境适应性评价和使用寿命预测奠定了基础。     

几种油气输送管材料的疲劳特性与管道寿命预测

针对油气输送管道的疲劳问题,选择管道工程中常用的螺旋缝埋弧焊管(SSAW)、高频电阻焊管(ERW)和直缝埋弧焊管(UOE)3种材料采用小试样对不同区域(管体、焊缝、热影响区)的疲劳裂纹扩展特性进行测试与对比研究.同时,采用自行研制的油气输送管全尺寸实物疲劳试验系统对含裂纹类缺陷的X60 SSAW焊管进行了水压实物疲劳试验,对含表面裂纹缺陷的输送管在承受内压疲劳载荷下表面裂纹的扩展规律进行了探索研究.建立了小试验疲劳试验与管道实物疲劳试验结果的相关性.该研究结果为管道的抗疲劳设计与评价、在役管道疲劳寿命的预测和检测周期的确定提供了依据.