甲胺生产废水中氨氮资源化的试验研究

利用MgSO4·7H2O和Na2HPO4·12H2O作为试验药剂,通过正交试验和单因素优化试验,对化学沉淀法处理甲胺生产废水中氨氮的工艺条件进行优化.结果表明,在pH=9.4、反应时间15 min、搅拌速度150 r/min、Mg:N(摩尔比值)=1.1、P:N(摩尔比值)=1.0时,化学沉淀法处理300 mL甲胺生产废水,氨氮去除率维持在92%以上,COD去除率可达37%以上.同时为验证工艺条件适应性和沉淀物(MgNH4PO4)作为农作物肥料使用的价值性,对最优条件下得到的沉淀物进行研究.与MgNH4PO4纯度为100%相比,沉淀物MgNH4PO4纯度达到86%以上.因此,化学沉淀法处理氨氮不仅具有良好的效果,而且得到的MgNH4PO4含有较高N、P,可以用作农作物肥料.     

稀土Ce掺杂SnSb复合涂层电极的实验研究

采用涂刷热分解氧化法,把无机盐SnCl4·5H2O、SbCl3和Ce(NO3)3·6H2O以一定的配比溶解在有机溶剂异丙醇中制备涂层液,以钛板为基体,制备多组分的涂层电极.考察了不同掺杂量下制备的电极对生活污水的处理效果,并对稀土Ce掺杂SnSb涂层进行了SEM表征,结果表明,在热处理温度为500℃、稀土掺杂量(原子质量比)为Sn∶Sb∶Ce=100∶10∶1的电极降解效果最好;稀土Ce的掺杂有利于锡锑金属氧化物涂层电极的电化学性能的提高.     

电除尘器气流分布试验研究和数值计算

结合660 WM机组电除尘器的设计要求,对电除尘器内气流流动进行了数值模拟与试验研究.计算中选择SIMPLE方法求解三维雷诺平均方程和κ-ε两方程湍流模型.研究结果表明,无论电除尘器两室流量分配还是第一电场进口断面气流分布,计算结果与试验吻合较好,数值计算结果可以指导电除尘器设计与模型试验研究.     

区域规划环境影响跟踪评价的理论研究

随着环境影响评价制度的深入实施,其实施领域已由项目环评向区域环评和规划环评转变,评价内容也由广泛实施的预测评价向后评价和跟踪评价转变。然而,对于区域规划环评的评价层次、评价程序和评价内容,目前还没有明晰的认识;同时,对于促进规划环评有效实施的跟踪评价,其相关的理论和实践研究几乎没有。文中就此问题作了深入探讨。     

宁夏地质灾害气象预报预警研究

利用1982—2004年宁夏的地质灾害与降水资料,分析了宁夏主要地质灾害的分布规律和形成机理,重点研究了引发地质灾害的气象条件。结果表明,滑坡和泥石流是宁夏主要的地质灾害类型,它们形成的气候条件都与降雨有直接的关系;地质灾害主要集中在其易发区内强降雨和暴雨出现频次较多的季节,由降雨引发的滑坡等地质灾害大多发生于降雨时段的中后期或稍后,泥石流一般与暴雨、持续降雨同时发生,雨量越大的地区地质灾害越发育,而连续性降水、短时强降水和暴雨是造成地质灾害的主要气象诱因。同时,根据研究结果,采用统计学方法建立了宁夏汛期地质灾害潜势预报模型,通过2004年汛期业务试运行,表明该预报模型有一定的参考价值,但还需进一步改进。     

不同重要性建筑的名义基准期取值合理性研究

用名义基准期来标定建筑的重要性类别的方法能够直观体现重要性类别的不同,通过分析比较了我国抗震设计规范与文中所提方法在规定不同重要性建筑的设防参数方面的差别,并重点对17个同家的和文中所提方法计算的不同重要性建筑的地震作用进行分析比较之后,发现所提方法确定的不同重要性建筑地震作用的比值与美国、日本、欧洲等多数国家均比较接近,从而定量地验证了所提方法确定的名义基准期取值的合理性.该方法目前已经被我国<建筑工程抗震性态设计通则(试用)>(CECS 160:2004)采用.     

基于岩体质量指标Q分类系统的风险分析方法

基于岩体质量指标Q分类系统,应用Monte-Carlo模拟技术,研究了岩体质量风险分析方法。该方法视Q分类系统中各单因素取值为随机变量,建立了各单因素取值概率模型;通过对所建模型的抽样计算,可获取所评价岩体实际Q值小于设计所采用Q值的概率;通过对比分析Q值累计曲线和岩体质量分布图,可得到任意Q值对应的风险概率,查清岩体中可能出现的质量等级以及每个质量等级所占百分比的情况。本文研究成果已在青岛胶州湾海底隧道工程中得到应用,并获得良好效果。     

Survey of heavy metal pollution and assessment of agricultural soil in Yangzhong district, Jiangsu Province, China

We investigated concentrations of Hg, Cd, Pb, Zn, Cu, As, Ni, and Cr in samples of soil, cereal, and vegetables from Yangzhong district, China. Compared to subsoils, the sampled topsoils are enriched in Hg, Cd, Cu, Pb, Zn, and As. High levels of Cd and Hg are observed in most agricultural soils. Concentrations of Cr and Ni show little spatial variation, and high Cu, Pb, and Zn contents correspond well to areas of urban development. High As contents are primarily recorded at the two ends of the sampled alluvion. The contents of Cd, Hg, and total organic carbon (TOC) increase gradually to maximum values in the upper parts of soil profiles, while Cr and Ni occur in low concentrations within sampled profiles. As, Pb, Cu, and Zn show patterns of slight enrichment within the surface layer. Compared to data obtained in 1990, Cd and Hg show increased concentrations in 2005; this is attributed to the long-term use of agrochemicals. Cr and Ni contents remained steady over this interval because they are derived from the weathering of parent material and subsequent pedogenesis. The measured As, Cu, Pb, and Zn contents show slight increases over time due to atmospheric deposition of material sourced from urban anthropogenic activity. Low concentrations of heavy metals are recorded in vegetables and cereals because the subalkaline environment of the soil limits their mobility. Although the heavy metal concentrations measured in this study do not pose a serious health risk, they do affect the quality of agricultural products.     

Generalized models for prediction of pentachlorophenol dissipation dynamics in soils

Dissipation of pentachlorophenol (PCP) in soil was investigated and the chemical relationships with soil properties were addressed. The results indicate that the dissipation of extractable PCP residues can be described using first-order kinetics equations, with a half-dissipation time (T(1/2)) ranging from 6.5 to 173.3d. The sharply different patterns of PCP dissipation in different soils were closely related to soil properties. Correlations of stepwise regression equations obtained were significant at 0.01 probability level between soil parameters and extractable PCP residues (R(2)=0.974**) as well as T(1/2) values (R(2)=0.882**). Using pH together with organic carbon content (OC) and soil particle size distribution, the dissipation dynamics of PCP in soil could be accurately predicted.     

Determining Sources of Fecal Bacteria in Waterways

The microbiological contamination of waterways by pathogenic microbes has been, and is still, a persistent public safety concern in the United States and in most countries of the world. As most enteric pathogens are transmitted through the fecal–oral route, fecal pollution is generally regarded as the major contributor of pathogens to waterways. Fecal pollution of waterways can originate from wastewater treatment facilities, septic tanks, domestic- and wild-animal feces, and pets. Because enteric pathogens are derived from human or animal sources, techniques capable of identifying and apportioning fecal sources have been intensively investigated for use in remediation efforts and to satisfy regulatory concerns. Pollution of human origin is of the most concern, since human feces is more likely to contain human-specific enteric pathogens. Fecal indicator bacteria have been used successfully as the primary tool for microbiologically based risk assessment. However measurement of fecal indicator bacteria does not define what pathogens are present, or define the sources of these bacteria. Microbial source tracking (MST) methods that have the ability to differentiate among sources of fecal pollution are currently under development. These methods will ultimately be useful for risk assessment purposes and to aid regulatory agencies in developing strategies to remediate microbiologically impaired waterways.