Ag/TiO2-SiO2的制备及其光催化降解有机污染物的研究

结合溶胶凝胶法和光还原法制备了Ag/TiO2-SiO2光催化材料,采用X射线衍射(XRD)、扫描电子显微镜(SEM)、N2吸附-脱附曲线、紫外—可见漫反射等测试技术对材料形貌、结构等进行了表征,并测试了其对2×10-5 mol/L亚甲基蓝(MB)溶液及实际废水的光催化降解性能。结果表明,适量的Ag负载可有效提高材料的光催化活性。以Ag负载量为5%(质量分数)的Ag/TiO2-SiO2(记为TS-A5)为例,TS-A5与商用光催化剂P25相比具有更优越的可见光催化活性;在500 W氙灯做为光源条件下,5次重复使用后TS-A5对MB仍能保持较高的光催化活性,应用于实际废水中可使其COD明显下降,表明该材料具有较好的实际应用潜力。     

柠檬酸对生物炭钝化污染土壤中重金属稳定性的影响

为了研究生物炭(BC)对重金属复合污染土壤的钝化效果以及环境条件变化后钝化产物的稳定性.在受Cd、Pb和Zn污染的土壤中添加不同比例的生物炭进行土培实验,两个月后,添加不同浓度的柠檬酸模拟植物根际环境条件,分析土壤环境条件变化后重金属钝化产物的稳定性.结果表明,与对照组相比,添加生物炭(5%和8%)显著提高了土壤的pH值、阳离子交换容量(CEC)、土壤有机质(SOM),而有效态重金属和重金属毒性浸出浓度均显著降低,且后者低于其国际标准.添加柠檬酸后,土壤pH值随柠檬酸浓度的增加呈现下降趋势;生物炭的添加比例一定时,有效态Cd(DTPA-Cd)和Cd的毒性浸出浓度(TCLP-Cd)随柠檬酸浓度的增加呈现先降低(2 mmol·kg~(-1))后升高(10、20 mmol·kg~(-1))的趋势,而有效铅(DTPA-Pb)和有效态锌(DTPA-Zn)随柠檬酸浓度的增加而上升.柠檬酸浓度一定时,有效态重金属和重金属毒性浸出浓度随生物炭的添加比例的增加而降低,当生物炭的添加比例大于5%时,TCLP-Cd和TCLP-Zn虽有所上升(与无柠檬酸相比),但均低于其国际标准.可见,生物炭可对重金属污染土壤进行有效修复,但随着环境条件的变化,被钝化的重金属会发生解吸和溶解释放,从而增强其生物有效性和环境风险,但当生物炭的添加比例较高时,会一定程度抑制重金属的解吸和溶解释放,Cd和Zn的环境风险仍处于可接受的安全水平.     

日本促进可持续消费经验的启示

日本相对丰富的促进可持续消费经验对我国正在大力推动绿色生活方式的形成有较好的参考价值。本文介绍了日本循环社会法律框架下循环再生利用法和绿色采购促进法对促进可持续消费的作用,以及可持续消费的最新实践活动,并从循环再生利用法律法规建立、深化公共绿色采购评估、发布面向普通消费者产品清单、建立消费者发声通道、提升消费者意识、促进消费者导向管理等方面提出对我国推动绿色消费的启示。     

国际典型可持续发展指标体系分析与借鉴

可持续发展指标体系是表征可持续发展的一个重要工具。本文对有代表性的国际综合性指标体系包括UNCSD、IISD和UNECE-Eurostat-OECD TFSD等进行了对比分析,研究其在一定维度和主题下指标体系构建和指标选取的特点。比较分析了我国近年来绿色发展、生态文明建设和美丽中国建设等评价考核指标体系的指标选取存在的不足,提出了在新时期可持续发展理念下构建我国可持续发展指标体系的有关建议。     

基于模糊综合评价的地铁站消防安全风险评估

为了降低地铁车站的火灾发生率,对地铁车站消防安全风险进行评价,从主动防火能力、被动防火能力、消防安全管理、乘客安全行为4个方面建立包含24个二级指标的地铁站消防安全风险评价体系。对武汉市武昌火车站地铁站进行实地调研,利用模糊综合评价法对地铁站进行火灾风险评估,得出该地铁车站火灾风险隶属矩阵为{0.2284,0.3721,0.3225,0.0770,0},依据最大隶属度原则,发现该地铁站的整体消防水平处于“比较安全”的层次,但在消防安全管理与乘客安全行为两方面还存在问题并亟待改善,该研究结果可为今后降低地铁站消防安全风险提供借鉴意义。     

超顺磁性纳米Fe3O4@SiO2功能化材料对镉污染土壤的修复

土壤Cd污染已成为我国的主要环境问题,严重威胁着农业的可持续发展,因此,亟需探索经济、有效的土壤修复技术.采用共沉淀法制备超顺磁性纳米Fe₃O₄@SiO₂功能化材料（MFS）,以此为修复剂并磁选回收去除土壤中的Cd,考察了MFS投加量、修复时间、土壤pH、土壤Cd含量和土壤有机质含量对MFS修复Cd污染土壤的影响,并探讨了有机酸活化联合MFS修复对实际农田土壤中Cd的去除效果.结果表明,对于总Cd含量为2.348mg·kg^-1的土壤,随着MFS投加量的增加,土壤总Cd和有效态Cd含量均呈下降趋势;当MFS投加量为1.5%（材料∶土壤,质量比）时,土壤总Cd和有效态Cd含量分别下降23.21%和31.59%.土壤总Cd和有效态Cd含量均随修复时间的延长而降低,修复30d时土壤总Cd和有效态Cd含量分别下降24.07%和35.94%;投加MFS可以显著降低土壤酸溶态和还原态Cd含量,氧化态Cd含量也有一定程度下降.土壤pH对去除土壤Cd有较大影响,在酸性土壤中Cd去除率较高.随着土壤Cd污染程度的加重,...     

Evaluation of batch anaerobic co-digestion of palm pressed fiber and cattle manure under mesophilic conditions

Palm pressed fiber (PPF) and cattle manure (CM) are the waste which can be managed properly by anaerobic co-digestion. The biogas production in co-digested PPF and CM at three volatile solids (VS) ratios of 3:1, 1:1, and 1:3 was investigated in a series of batch experiments at an organic loading rate of 30.0 g VS/L under mesophilic (37 ± 1 °C) conditions. The highest daily biogas yield of PPF and CM only, was 90.0 mL/g VS_added at day 12 and 23.4 mL/g VS_added at day 7. For co-digestion of PPF/CM at mixing ratios of 3:1, 1:1 and 1:3, there were 93.6 mL/g VS_added at day 11, 86.8 and 26.4 mL/g VS_added at day 8. VS removal rate for PPF, CM, and co-digestion at mixing ratio of 3:1, 1:1, and 1:3 were 91.1%, 86.0% and 71.0%, respectively. The anaerobic digestion of PPF and CM and their co-digestion systems were stable in operation with low range of volatile fatty acids (VFA)/TIC (total inorganic carbon) of (0.035–0.091). The main volatile fatty acids were propionic, and iso-butyric acids for PPF, iso-butyric and n-butyric acids for CM. The VFAs and ammonium inhibition were not occurred. The modified Gompertz model can be used to perform a better prediction with a lower difference between the measured and predicted biogas yields. A VS ratio of 3:1 is recommended for practice.     

A Model for Simulating the Soil Organic Carbon Pool of Steppe Ecosystems

In this research, the improved Terrestrial Ecosystem Regional (TECO-R) model was adapted to steppe ecosystems and then utilized to simulate the soil organic carbon pool in the period from 1989 to 2011 (excluding 1994, 2002, 2009, and 2010) for a typical steppe in Xilingol League of Inner Mongolia in China. The improved TECO-R model is an ecological model in combination of remote sensing data, which allows the spatial scale for the analysis of soil organic carbon which is not limited to vegetation or soil type. The spatial and temporal resolution advantages of remote sensing image can be well utilized in this model. The results indicate that in addition to an accurate simulation of the soil carbon pool of a steppe ecosystem, the vegetation aboveground carbon pool, grazing intensity of herbivores, mowing coefficient, litter carbon pool, root carbon pools of different vegetation layers, root-shoot ratio, actual residence time of different carbon pools, and allocation coefficients of different carbon pools in corresponding years are also available from the TECO-R model. Some of the above data are difficult to obtain through macro-observation but can be simulated with the TECO-R model by combining the model with input data; this is very important for a correct understanding of the feedback relationships between the steppe ecosystem’s carbon cycle and climate change (e.g., global warming) and human activities such as grazing.     

北京市典型城区环境空气中苯系物的污染特征、来源分析与健康风险评价

自2013年6月以来,利用Airmo VOC在线分析仪在北京市典型城区开展了环境空气中挥发性有机物(VOCs)的连续观测,选取2014年4个季节中各1个月的苯系物在线数据,分析了其浓度水平、变化特征、光化学反应活性,利用美国环保署(US EPA)提出的健康风险评价方法开展了有毒有害苯系物物种的健康风险评价,结合来源分析结果,明确北京市应重点控制的苯系物污染来源。研究区观测期间环境空气中16种苯系物的质量浓度为(22.64±16.83)μg·m-3,且具有秋季冬季春季夏季的特点,其中BTEX(苯、甲苯、乙苯和二甲苯)的质量浓度为(19.27±14.46)μg·m-3,占苯系物浓度水平的41.09%~95.16%。研究区观测期间苯系物质量浓度夜间高于日间,日变化呈V字形,在13:00—15:00时质量浓度低。16种苯系物的臭氧生成潜势(OFP)的范围为66.62~170.67μg·m-3,其中间+对二甲苯、甲苯和邻二甲苯的OFP值相对较大;二次有机气溶胶生成潜势(SOAFP)的范围为0.71~1.86μg·m-3,其中甲苯、间+对二甲苯和乙苯的SOAFP值相对较大。研究区观测期间6种苯系物(BTEX和苯乙烯)的危害指数在8.19E-03~5.01E-02之间,在4个季节中对暴露人群尚不存在非致癌性风险;而Ⅰ类致癌物质苯的风险值处于7.13E-08~8.13E-06之间,在夏、秋和冬季对研究区暴露人群的人体健康均存在潜在的致癌性风险。来源分析结果表明,研究区春、秋季苯系物主要来源于机动车尾气的排放,其中春季还受到溶剂等挥发的影响,夏、冬季苯系物则主要来自于燃煤源。     

Spatial and temporal distribution of Mo in the overlying water of a reservoir downstream from mining area

This study aimed to evaluate the spatial and temporal variations of molybdenum (Mo) in the downstream water body of a Mo mine during three hydrologic periods (wet, dry and medium seasons). The physical properties in Luhun Reservoir reflected seasonal variations in different hydrological periods. The redox potential (ORP) and dissolved oxygen (DO) increased in the dry season. The concomitant decrease in temperature (T), conductivity (COND) and total dissolved solids (TDS) were lowest in the wet season. The pH value did not change significantly during the three hydrologic periods. The distribution of Mo in the dry season was high in upstream and low in downstream areas, which was significantly different from that of the wet and medium seasons. The total Mo concentration in wet (150.1 µg/L) and medium season (148.2 µg/L) was higher than that in the dry season, but the TDS (288.3 mg/L) and the percentage dissolved Mo (81.3%) in overlying water was lowest in the wet season. There was no significant relationship between the dissolved Mo and the total Mo with TDS. In the dry season, the mean total Mo concentration was 116.3 µg/L, which was higher than the standard limit value (70 µg/L) for drinking water (US EPA-United States Environmental Protection Agency recommended value 40 µg/L). Non-point source pollution is the main characteristic of mining area pollution, which was closely related to rainfall. Thus, the Luhun Reservoir contains substantial Mo pollution, which was a significant concern given that it is used as a source of drinking and irrigation water.