菱镁矿浮选尾矿浆液的烟气脱硫性能

以菱镁矿浮选尾矿浆液为烟气脱硫剂,采用湿法烟气脱硫技术,对模拟烟气进行脱硫研究。实验结果表明：在脱硫剂浆液质量分数10%、脱硫剂浆液温度60 ℃、脱硫时间10 min时,脱硫剂浆液的脱硫率为85%;向脱硫剂浆液中添加柠檬酸和乙二酸时均有助于提高脱硫率,当有机酸的浓度3.5 mmol/L时,添加柠檬酸的脱硫剂浆液的脱硫率为96%,添加乙二酸的脱硫剂浆液的脱硫率为90%。     

江苏省湖泊遥感监测及10年动态变化分析

以多时相Landsat TM/ETM+影像和HJ CCD影像为数据源,提取江苏省2000、2005及2010年湖泊,分析江苏省湖泊10年的水域面积变化及驱动力。研究结果显示,江苏省湖泊三期水域面积分别为5 90223、5 89191和5 88319 km2,全省湖泊面积整体相对稳定,但单个湖泊变化差异较大,变化最明显的是洪泽湖和白马湖。洪泽湖及白马湖10年的动态变化表明,洪泽湖变化主要位于西南方向,白马湖变化明显的是西南与东北方向。进一步从人为和自然因素对其变化驱动力进行分析,结果表明,10年间洪泽湖和白马湖周边区域气温升高、降水量及入湖水量的减少是造成水面减小的重要自然因素;洪泽湖10年间面积加权的平均拼块分形维数（AWMPFD）变化不大,2000、2005及2010年分别为1161 0、1162 1和1159 0,处于相对稳定状态;白马湖10年间AWMPFD持续下降,从2000年的1274 5到2005年的1239 6,再到2010年的1211 3。因此,人为活动影响及湖周土地利用方式的变化是湖泊水域面积萎缩的重要人为因素     

黄河下游堤防保护范围的研究

历史上,黄河山东段曾多次泛滥,为了解定黄河下游堤防的保护范围及保护范围内的洪水风险,本文利用二维不规则网格非恒定流洪水仿真模型,研究了黄河下游山东段堤防的保护范围,该研究对于黄河下游堤防建设及两岸地区的防洪灾害具有重要的指导意义。     

Biosurfactant-producing strains in enhancing solubilization and biodegradation of petroleum hydrocarbons in groundwater

Three biosurfactant-producing strains designated as BS-1, BS-3, and BS-4 were screened out from crude oil-contaminated soil using a combination of surface tension measurement and oil spreading method. Thin layer chromatography and infrared analysis indicated that the biosurfactants produced by the three strains were lipopeptide, glycolipid, and phospholipid. The enhancement of solubilization and biodegradation of petroleum hydrocarbons in groundwater employing biosurfactant-producing strains was investigated. The three strain mixtures led to more solubilization of petroleum hydrocarbons in groundwater, and the solubilization rate was 10.5 mg l^?1. The combination of biosurfactant-producing strains and petroleum-degrading strains exhibited a higher biodegradation efficiency of 85.4 % than the petroleum-degrading strains (71.2 %). Biodegradation was enhanced the greatest with biosurfactant-producing strains and petroleum-degrading strains in a ratio of 1:1. Fluorescence microscopy images illustrate that the oil dispersed into smaller droplets and emulsified in the presence of biosurfactant-producing strains, which attached to the oil. Thus, the biodegradation of petroleum hydrocarbons in groundwater was enhanced.     

电感耦合等离子体质谱技术在环境监测中的应用进展

电感耦合等离子体质谱技术(ICP-MS)是目前发展最快的痕量元素分析测试技术之一。由于该技术提供了极低的检出限、极宽的动态线性范围,干扰少、分析精密度高,可进行多元素同时快速分析,可与多种分离技术及样品前处理方法和进样方法相结合等优点,得到了迅速的发展。介绍了ICP-MS的基本原理及仪器构造、与其他分析测试技术的比较及发展趋势,并着重介绍了其在环境监测和环境科学研究领域的应用。     

The emission patterns of volatile organic compounds during aerobic biotreatment of municipal solid waste using continuous and intermittent aeration

Because volatile organic compounds (VOCs) are one of the main concerns during municipal solid waste (MSW) treatment, the release patterns and the environmental effects of VOCs were investigated during laboratory-scale aerobic biotreatments of MSW with continuous and intermittent negative ventilation. When the same airflow amounts were used, intermittent ventilation was found to reduce the total VOC emissions from continuous ventilation process by 28%. In this study, 23 types of volatile organic compounds were analyzed, of which butyraldehyde, ethanol, and butanone were emitted in the highest concentrations of 748, 372, and 260 mg/m3, respectively. During the aerobic biotreatment process, ketones, aldehydes, and alcohols were primarily released during the first 4 days, accounting for 86-98% of the total VOC emissions during this period. The emission concentrations of malodorous sulfide compounds displayed two peaks on day 4 and day 9, with the contribution to the total VOC emissions being enhanced from less than 10% to 76-83%. The release of terpenes and aromatics lasted for more than 10 days with no significant emission peaks and the proportions of those compounds in the total VOCs increased gradually, but no more than 50% even at the end of the process. Considering the strength of the odors, aldehydes were the predominant contributors at the beginning of the experiment, whereas malodorous sulfide compounds became the most odorous compound as the biological process continued. Most of the VOCs emitted at the concentrations beneath the level causing health threat to the workers.     

Influence of ciprofloxacin on the microbial catabolic diversity in soil

In this study, the effect of ciprofloxacin (CIP) on the catabolic diversity of soil microbial communities was evaluated. Soil samples were spiked with ciprofloxacin (0, 1, 5 and 50 mg?kg^?1) and were incubated for 1, 3, 9, 22 and 40 days. Untreated controls received only water. The functional diversity of the microbial community studied was characterized using a catabolic response profile (CRP). Six substrate groups were tested: carbohydrates, amino acids, carboxylic acids, aromatic chemicals, alcohols and polymers. After 40 days, the CIP concentrations in the soil samples ranged from 25% to 58% of the initial concentrations. Soil respiratory responses to the individual substrates D-glucose, lactose, D-mannose, L-glutamic, Na-citrate, malic acid and inosine were inhibited at the high CIP concentrations (5 and 50 mg·kg^?1) in the soils and were increased at the lowest CIP concentration (1 mg·kg^?1). Soil respiration was inhibited at all of the CIP concentrations after the addition of D-galactose and glycerol. The CIP concentration and incubation time explained 45.3% of the variance of the catabolic responses. The CRP analysis clearly discriminated among the different CIP concentrations. The results suggest that CIP strongly affects the catabolic diversities of soil microbial communities and that its effect is more significant than that of incubation time.     

生物可渗透性反应墙修复石油烃污染地下水的效果及微生物多样性研究

采用可渗透性反应墙(PRB)协同微生物作用对石油烃污染地下水进行室内模拟修复.研究结果表明,生物PRB对石油烃污染地下水具有较好的处理效果.反应器运行200 d后,生物PRB前端介质总石油烃(TPH)含量高,15个取样点的TPH质量浓度为0.74～5.42 mg/L,后端介质TPH含量较低且分布较均匀,10个取样点中TPH均低于0.29 mg/L,生物PRB出水中未检出TPH.采用聚合酶链式反应(PCR)-变性梯度凝胶电泳(DGGE)技术对生物PRB内的微生物群落结构进行分析,结果显示,生物PRB中微生物群落结构的相似性随着横向距离的增大而降低,其中B2与B5取样点微生物相似度最高,达83.1％.在生物PRB前端TPH浓度高的部位,微生物群落较为稳定,多样性较低,而后端TPH浓度低的部位,微生物群落不稳定,多样性较高.     

表面增强拉曼光谱技术检测高氯酸根离子

高氯酸根离子是水质污染物中常见的污染源之一.通过化学还原法制备稳定、分散性好的纳米银溶胶颗粒(粒径为30～40 nm),并以此为基底,探究了利用表面增强拉曼光谱技术迅速准确地检测质量浓度为10-6～10-1 g/L的高氯酸根离子溶液的表面增强拉曼光谱.结果表明,当高氯酸根离子质量浓度为10-5～10-1 g/L时,随着高氯酸根离子浓度的降低,表面增强拉曼光谱强度逐渐减弱.     

铝污泥吸附六价铬的特征和机理

铝污泥是给水处理过程中不可避免的副产物,为了解其资源化利用作为吸附剂对Cr(Ⅵ)的吸附行为和吸附特征,本研究通过静态实验研究了铝污泥的水解特征、Cr(Ⅵ)在铝污泥上的吸附机理和影响因素。结果表明,(1)铝污泥表面的主要官能团为羟基、SO24-和Cl-;(2)铝污泥与Cr(Ⅵ)的吸附过程中,液相中Cr(Ⅵ)的浓度随吸附时间延长而降低(由20 mg/L降为15.42 mg/L),同时,液相中pH由6.01升高为7.06、SO24-由8.79 mg/L升高为11.40 mg/L、Cl-由10.54 mg/L升高为11.88 mg/L,这一结果表明,HCrO4-与铝污泥表面的羟基、SO24-、Cl-等官能团交换,其吸附机理为配体交换;(3)pH是影响Cr(Ⅵ)在铝污泥上的吸附量的主要因素,当pH由4.0升高至10.0时,吸附容量由7.63 mg/g下降为0.70 mg/g。实验表明,铝污泥作为一种新型的Cr(Ⅵ)吸附剂具有较高吸附能力和应用前景,并为优化吸附工艺提供了技术支撑。