衡山PM_（2.5）中痕量金属元素的分析

建立了微波消解-电感耦合等离子体质谱法同时测定PM2.5中12种痕量金属元素的方法。对不同消解体系进行了讨论,确定采用HNO3＋H2O2消解体系。方法检出限在0.01～6.4 ng/m3之间,精密度为0.5%～8.9%,加标回收率在69.2%～92.6%之间。应用该方法测定了衡山PM2.5中痕量金属元素的含量,讨论了痕量元素的浓度分布特征,对各元素进行了相关性分析,并应用富集因子法对来源进行了分析。     

冻融循环及有机肥配施对黑土中镉形态的影响

以黑龙江黑土为对象,研究了冻融循环及有机肥配施量对黑土中镉形态分布的影响。对配施不同有机肥的土壤样品进行5次冻融循环,采用电感耦合等离子质谱仪(ICP-MS)分析土壤样品中镉的赋存形态。结果表明,冻融循环数及有机肥的配施有助于降低黑土中的总镉量;冻融循环会促使黑土中的镉由交换态、碳酸盐结合态、有机结合态向铁锰氧化物结合态和残渣态转化,而增加有机肥配施量会使黑土中的镉由交换态向其他形态转化。因此,冻融循环及有机肥配施有助于降低土壤中镉的生物有效性,进而降低其环境风险。     

道路车辆电气及电子设备在振动试验中的应力循环和试验设计原则

本文试从振动试验的特点和受试样品承受振动激励的应力循环切入分析,为把握试验方案的拟订提供支持。同时也简要介绍了应力循环的计算方法,供试验人员参考使用。     

我国高架交通系统环境振动研究概况

对目前国内该领域的研究手段、研究方法及研究成果进行了分析,指出了该领域的发展所需解决的问题,并给出了需要进一步深入探讨的几个研究课题。     

WO3/TiO2复合半导体的光催化性能研究

采用Ｓｏｌ－Ｇｅｌ法制备ＷＯ３／ＴｉＯ２纳米粉末,以高压汞灯为光源,亚甲基蓝溶液的光催降为模型反应,结果表明,掺入ＷＯ３摩尔比为２％时,ＷＯ３／ＴｉＯ２的光活性最高;随着热处理温升高,ＷＯ３／ＴｉＯ光活性增强;     

氧化剂与新型絮凝剂协同去除酸性大红的研究

选取浓度为25mg/L的酸性大红-GR溶液为模拟染料废水,采用氧化-絮凝耦合工艺,探索了氧化剂种类、絮凝剂种类、废水pH值、氧化剂和絮凝剂投加量对氧化-絮凝耦合处理酸性大红染料的影响,确定最佳处理条件为:酸性大红溶液初始pH值不变,高锰酸钾和PTSS的投加量分别为为20mg/L和10mg/L(以钛离子计),脱色率和COD去除率均最大,分别为96.3%、56.5%。通过FTIR光谱扫描、絮体的显微形貌观察、酸性大红和新型絮凝剂聚硅硫酸钛(PTSS)的表面电动电位随pH值的变化的测定,分析了氧化-絮凝耦合法的反应历程:高锰酸钾破坏酸性大红的发色基团后,自身被还原成新生态二氧化锰胶体;二氧化锰胶体吸附酸性大红及其氧化产物,并被无机高分子絮凝剂PTSS通过电中和及架桥网捕等作用卷裹成絮体。     

海水中痕量元素测定及其在重金属污染源判别方面的应用

利用电感耦合等离子体质谱(ICP-MS)研究了胶州湾及莱州湾这两个海域中痕量元素污染水平,发展了ICP-MS海水环境中痕量元素的测定方法,同时找出海水环境中具有保守性的数种元素作为污染示踪元素.达到对于海水环境中痕量污染物被动示踪的目的.对18个真实样品进行了识别率试验,识别率可达90%以上,在选取3个海水样品及1个河水样品混合后的模拟分担率实验,也取得了满意的结果,其误差平均值仅有1.17%.     

CALPUFF-AERMOD大气预测模式耦合系统

AERMOD和CALPUFF在模型应用尺度、适用范围、气象与地形预处理以及特殊计算功能模块等方面具有自身的特点和优势。为了使模型系统计算结果合理科学,本文综合考虑AERMOD和CALPUFF的应用范围和特点,建立了CALPUFF-AERMOD耦合系统。以广东省东莞、中山、深圳的污染源和气象条件等资料为背景,进行污染预测模拟,以此评价模式的模拟性能,并对比CALPUFF与AERMOD的预测结果,最终计算得出的预测结果相对科学合理。     

Chemical pollution: Transfer of chemical elements to the aboverground phytomass of herbaceous plants

Changes in the species composition and a decrease in species diversity and total plant biomass along the gradient of soil pollution with heavy metals have been shown. Data on the concentrations of chemical elements (Zn, Cu, Cd, Pb, Co, Ni, Mn, Cr, and Fe) in the aboveground organs of herbaceous plants and the biomass of each species make it possible to estimate the role of higher producers in the incorporation of chemical elements into biogenic cycles in background zones and under conditions of chemical pollution. Plants of the composite family (Asteraceae) play the main role in accumulation of chemical elements. The results obtained indicate that natural ecosystems have mechanisms limiting excessive accumulation of chemical elements into the aboveground plant biomass.     

A “measurable” definition of sustainable development based on closed cycles of resources and its application to energy systems

Human society consumes resources that it is not able to reproduce. Human activities are still based on “open cycles,” starting from a condition of natural environmental balance and reaching an environmental imbalance. The challenging scope of scientific and technological research towards sustainability appears clear if it is based on this analysis: to find development systems based on “closed cycles” of resources. The challenging objective of realizing closed cycles leads to a definition of sustainability that indicates the path to sustainable development, as well as stating the general principle. It also provides a key to the qualitative measurement of sustainability. This means that the sustainability level of a system can be measured by measuring its capacity to avoid the consumption of resources. Zero consumption is a necessary condition for sustainability, and brings about as a side effect the highly desired “zero-waste” result. Materials entering the proposed endless scheme pass through the process of usefulness without losing their capacity to feed the system again after being used. Thus, the concept of “consumption” itself is replaced by one of “use” when resources are inserted into closed loops capable of feeding human development. The application of the closed cycle sustainability criterion particularly displays its feasibility, and a theoretical guiding role, in the energy sector. Energy vectors such as hydrogen and electricity enable the closure of the energy resources loop by effectively approaching the objective of “zero consumption” (and the side result of “zero waste”) through already demonstrated technological solutions.