饮用水中BDOC测定动力学研究

采用悬浮培养测定法,讨论了ＢＤＯＣ测定中动力学特性,得出在２８ｄ测定中ＢＤＯＣ的降解动力学满足一级反应,动力学方程为ＢＤＯＣｔ＝ＢＤＯＣｕ（１＝１０＾－０．０７７ｔ）,降解常数ｋ＝０．０７７ｄ＾－１,通过比较实测的ＢＤＯＣ３和据公式计算出的ＢＤＯＣ３,证明这种动力学关系基本正确。     

安太堡露天煤矿煤矸石自燃的治理

论迷了安太堡矿煤矸石自燃的原因、特征及治理措施,并对今后的工作提出了几点建议。     

Optimal Absorbent Evaluation for the CO2 Separating Process by Absorption Loading,Desorption Efficiency,Cost, and Environmental Tolerance

The CO₂ absorption capacities of potassium glycinate, potassium sarcosinate (choline, proline), mono-ethanolamine (MEA), and tri-ethanolamine were evaluated to find the optimal absorbent for separating CO₂ from gaseous products by a CO₂ purification process. The absorption loading, desorption efficiency, cost, and environmental tolerance were assessed to select the optimal absorbent. MEA was found to be the optimum absorbent for separating the CO₂ and H₂ mixture in gaseous product. The maximum absorption loading rate was 0.77 mol CO₂ per mol MEA at temperature of 20°C and absorbent concentration of 2.5 mol/L, whereas desorption efficiency was 90% by heating for 3 h at 130°C. MEA was found to be an optimal absorbent for the purification process of CO₂ during gaseous production.     

乘用车不锈钢装饰条耐蚀性能研究

采用化学分析、金相分析、盐雾试验方法研究了市场上几款车型不锈钢装饰条的化学成分、金相组织和耐蚀性能。试验结果显示,SUS430MA BA5和SUS436L耐大气腐蚀性能良好,是理想的装饰条材料,SUS430因含C量高,且不含稳定化元素Nb和Ti,耐蚀性差,不适合用做装饰条。     

清水江流域福泉市段水体主要污染指标评价研究

对2012年清水江流域福泉市段10个监控断面监测数据进行分析,结果表明:10个断面的TP污染最为严重,存在严重超标情况;通过相关性分析,氟化物、TP和NH3-N三者呈极显著相关关系,具有同一来源;根据综合污染负荷指数可知,高坪河、市化肥厂、川恒公司排口上游、黑塘桥、越都取水口5个断面能够达到III类水质的要求;根据Tomlinson污染负荷指数法,可判断福泉市水体整体处于中等污染水平。     

汞在海洋浮游植物中的生物累积和毒性效应

浮游植物是海洋生态系统的主要初级生产者,同时作为食物也是许多水生生物摄取汞的主要途径。本文综述了近年来汞在海洋浮游植物中的最新研究进展,包括汞在浮游植物中的吸收、累积规律及其影响因素,汞对浮游植物的毒性效应(生长抑制、光合作用影响)以及生物的适应机制(汞的还原、螯合解毒、矿化固定等),最后对浮游植物中汞累积和毒性的未来研究方向进行了展望。     

Responses of bacterial strains isolated from drinking water environments to N-acyl-L-homoserine lactones and their analogs during biofilm formation

Often as a result ofbiofilm formation, drinking water distribution systems （DWDS） are regularly faced with the problem of microbial contamination. Quorum sensing （QS） systems play a marked role in the regulation of microbial biofilm formation; thus, inhibition of QS systems may provide a promising approach to biofilm formation control in DWDS. In the present study, 22 bacterial strains were isolated from drinking water-related environments. The following properties of the strains were investigated： bacterial biofilm formation capacity, QS signal molecule N-acyl-L-homoserine lactones （AHLs） production ability, and responses to AHLs and AHL analogs, 3-chloro-4-（dichloromethyl）-5-hydroxy-2（5H）- furanone （MX） and 2（5H）-furanone. Four AHLs were added to developed biofilms at dosages ranging from 0.1 nmol.L J to 100nmol.L1. As a result, the biofilm growth of more than 1/4 of the isolates, which included AHL producers and non-producers, were significantly promoted. Further, the biofilm biomasses were closely associated with respective AHLs concentrations. These results provided evidence to support the idea that AHLs play a definitive role in biofilm formation in many of the studied bacteria. Meanwhile, two AHLs analogs demon- strated unexpectedly minimal negative effects on biofilm formation. This suggested that, in order to find an applicable QS inhibition approach for biofilm control in DWDS, the testing and analysis of more analogs is needed.     

Comparative study on the efficiency and environmental impact of two methods of utilizing polyvinyl chloride waste based on life cycle assessments

Two processes of utilizing polyvinyl chloride （PVC） waste, an incineration process and a vacuum pyrolysis process, for energy conversion were compared to determine their efficiency and environmental perfor- mance. We carried out a life cycle assessment with each of the two processes to evaluate their environmental impact and defined the goals and limits of our remit. As well, we established an inventory of PVC waste from incineration and vacuum pyrolysis based on process analysis, data collection and calculations. The results show that electrical power output per unit mass of PVC waste in the incineration process was twice as high as that of the vacuum pyrolysis process. Incineration had a larger total environmental impact potential than vacuum pyrolysis. The total environmental impact potential of PVC waste from incineration was three times higher than that from vacuum pyrolysis. Incineration of PVC disposed 300 ng. 100 kgI of dioxins and vacuum pyrolysis 98.19 ng- 100 kgI of dioxins. As well, we analyzed the data for their uncertainty with results quantified in terms of three uncertainties： basic uncertainty, additional uncertainty, and computational uncertainty. The coefficients of variation of the data were less than 25% and the quality of the inventory data was acceptable with low uncertainty. Both PVC waste disposal processes were of similar quality and their results comparable. The results of our life cycle impact assessment （LCIA） showed considerable reliability of our methodology. Overall, the vacuum pyrolysis process has a number advantages and greater potential for development of PVC disposal than the incineration process.     

N2O emission from a sequencing batch reactor for biological N and P removal from wastewater

Nitrous oxide （N2O） is a greenhouse gas that can be released during biological nitrogen removal from wastewater. N2O emission from a sequencing batch reactor （SBR） for biological nitrogen and phosphorus removal from wastewater was investigated, and the aims were to examine which process, nitrification or denitrification, would contribute more to N2Oemission and to study the effects of heterotrophic activities on N2O emission during nitrification. The results showed that N2O emission was mainly attributed to nitrification rather than to denitrification. N2O emission during denitrification mainly occurred with stored organic carbon as the electron donor. During nitrification, NaO emission was increased with increasing initial ammonium or nitrite concentrations. The ratio of N2O emission to the removed ammonium nitrogen （N2O- N/NH4-N） was 2.5% in the SBR system with high heterotrophic activities, while this ratio was in the range from 0.14% to 1.06% in batch nitrification experiments with limited heterotrophic activities.