UASB反应器对印染废水中碳、氮、硫的协同去除研究

采用"UASB-缺氧好氧-混凝沉淀"组合工艺对印染废水进行中试处理研究.结果发现,UASB反应器不仅可以解决印染废水可生化性低、色度高的问题,还对废水中的碳、氮、硫具有协同去除作用,优化条件下UASB可将废水B/C从0.18~0.26提高至0.4以上,对色度、COD、TN、SO_4~(2-)、S~(2-)平均去除率分别为77.0%、36.4%、38.5%、77.5%、60.1%.同时,为了探究碳、氮、硫协同去除机理,对优化条件下的运行数据进行了分析并采用454高通量测序技术进行菌种鉴定.结果表明,UASB反应器内存在硫酸盐还原、厌氧氨化、同步脱硫反硝化和硝化反硝化4种作用,从而造成了碳、氮、硫的同步去除.菌种鉴定未发现产甲烷菌,说明产甲烷菌受到了抑制,UASB反应器很好地停留在了水解酸化阶段.进一步结合小试研究得出,硫酸盐还原是促使硝化反硝化、脱硫反硝化产生的原因,同时也促进了有机物去除.总体而言,硫酸盐还原促进了碳、氮、硫的协同去除.     

城市街道汽车污染扩散规律模拟研究

如何简单而准确地模拟城市街区污染的扩散规律,对于城市汽车污染控制决策具有重要的意义,从大量实测数据,分析了风速风向等影响街道峡谷污染物扩散的主要因素,采用丹麦开发的街道峡谷模式ＯＳＰＭ,对汽车污染扩散规律进行模拟研究。与北京实测数据对比结果表明,该模式较好地模拟昼间风速风向对街道峡保内汽车污染扩散的影响,比较准确地反映了峡保中流场的主要特征,以及汽车排放污染物的扩散规律,污染物浓度与风速的倒数摈心     

燃煤烟气同时脱硫脱硝方法的研究进展及分析

近年来,烟气同时脱硫脱硝技术因占地面积小,可同时控制多种污染物而引起广泛的关注,但该技术多数仍停留在实验阶段。文章重点介绍了等离子体法、固相吸附法、溶液吸收法及微生物法等方法研究进展,对各方法的脱硫脱硝特点及功效进行评述,分析其问题与不足,并提出燃煤烟气同时脱硫脱硝方法的研究方向,为同时脱硫脱硝技术的改进提出建议。     

从5·12抗震救灾中看燕赵儿女的人文精神

通过对河北政府和人民在5·12抗震救灾救助中典型人物和具体行为的剖析,概括总结出河北人民的人文个性如慷慨悲歌的任侠精神、厚重质朴的生命意识、亲情浓烈的乡土观念、豪迈大气的英雄气质、家国相连的全局思想等特点,并认为这是支撑这场救援活动的强大的精神动力.     

滇池流域土壤活性腐殖质及其主要组分的紫外-可见与三维荧光光学特性

利用紫外-可见光谱和三维荧光光谱技术,结合土壤腐殖质及腐殖质组分(胡敏酸、富里酸)中的有机碳含量,研究了滇池流域土壤活性腐殖质及其组分胡敏酸和富里酸的光谱特征.结果表明,滇池流域土壤活性腐殖质中富里酸含量高于胡敏酸,流域范围内土壤活性腐殖质及其组分含量分布不均匀,活性腐殖质、胡敏酸和富里酸含量的变异系数分别达37.7%、36.4%、40.9%.土壤活性腐殖质及其组分胡敏酸和富里酸的碳含量均表现为菜地荒地草地湿地.光谱特征结果表明,滇池流域土壤活性腐殖质主要由自生源物质和经一定程度降解后的外源物质共同组成.此外,自生源性与光化学及生物活性具有正相关关系.因此,具有弱自生源性的滇池流域土壤活性腐殖质所具有的光化学和生物活性较弱.     

北京市MODIS气溶胶光学厚度与PM_(10)质量浓度的相关性分析

利用北京地区2012年1—12月NASA MODIS气溶胶光学厚度(AOD)和通过空气污染指数(API)转换得到的PM10质量浓度进行了相关性分析.结果发现,二者的直接相关程度较低,在引入季节变化的气溶胶标高且考虑了气溶胶的垂直分布后,进行标高订正,二者的相关系数有所提高;在考虑了湿度影响因子后,进行湿度订正,二者的相关系数显著提高;引入平均风速、平均气温和平均气压等气象因素,进行多元回归分析,相关系数进一步提高.证实了卫星遥感气溶胶光学厚度在经过垂直和湿度订正并考虑气象因素的情况下,可以作为监测北京地区颗粒物污染物地面分布的一个有效手段.     

Concentrations and chemical forms of potentially toxic metals in road-deposited sediments from different zones of Hangzhou, China

The 25 road-deposited sediments were collected from five different land-use zones (industrial, residential, commercial, park, and countryside) in Hangzhou, China. The concentrations of metals (Cd, Co, Cr, Cu, Fe, Mn, Ni, Pb, and Zn) in these samples were determined using the ICP-AES after digestion with the mixture of HNO3-HF-HCl (aqua regia), and chemically fractionated using the modified BCR (the European Community Bureau of Reference) sequential extraction procedure. The highest metal concentration level was detected in the sample from industrial zone and commercial zone having heavy traffic. While the lowest metal level was noted in the street dust sample from residential zone, park, and countryside zone. The mobility sequence based on the sum of the BCR sequential extraction stages was: Zn (80.28%), Pb (78.68%), Cd (77.66%) ＞ Cu (73.34%) ＞ Mn (67.92%) ＞ Co (41.66%) ＞ Ni (30.36%) ＞ Cr (21.56%), Fe (20.86%). Correlation analysis and principal component analysis were applied to the data matrix to evaluate the analytical results and to identify the possible pollution sources of metals. Factor analysis showed that these areas were mainly contaminated by three sources, namely lithology, traffic, and industry.     

Investigation on the relationship between the fine particle emission and crystallization characteristics of gypsum during wet flue gas desulfurization process

The relationship between the fine particles emitted after desulfurization and gypsum crystals in the desulfurization slurry was investigated, and the crystallization characteristics varying with the operation parameters and compositions of the desulfurization slurry were discussed. The results showed that the fine particles generated during the desulfurization process were closely related to the crystal characteristics in the desulfurization slurry by comparison of their morphology and elements. With the higher proportion of fine crystals in the desulfurization slurry, the number concentration of fine particles after desulfurization was increased and their particle sizes were smaller, indicating that the optimization of gypsum crystallization was beneficial for the reduction of the fine particle emission. The lower pH value and an optimal temperature of the desulfurization slurry were beneficial to restrain the generation of fine crystals in the desulfurization slurry. In addition, the higher concentrations of the Fe^3 + ions and the F⁻ ions in the desulfurization slurry both promoted the generation of fine crystals with corresponding change of the morphology and the effect of the Fe^3 + ions was more obvious. With the application of the desulfurization synergist additive, it was beneficial for the inhibition of fine crystals while the thinner crystals were generated.     

Emission of intermediate volatility organic compounds from a ship main engine burning heavy fuel oil

Intermediate volatility organic compounds (IVOCs) are crucial precursors of secondary organic aerosol (SOA). In this study, gaseous IVOCs emitted from a ship main engine burning heavy fuel oil (HFO) were investigated on a test bench, which could simulate the real-world operations and emissions of ocean-going ships. The chemical compositions, emission factors (EFs) and volatility distributions of IVOC emissions were investigated. The results showed that the main engine burning HFO emitted a large amount of IVOCs, with average IVOC EFs of 20.2–201?mg/kg-fuel. The IVOCs were mainly comprised of unspeciated compounds. The chemical compositions of exhaust IVOCs were different from that of HFO fuel, especially for polycyclic aromatic compounds and alkylcyclohexanes. The volatility distributions of IVOCs were also different between HFO exhausts and HFO fuel. The distinctions in IVOC emission characteristics between HFO exhausts and HFO fuel should be considered when assessing the IVOC emission and related SOA formation potentials from ocean-going ships burning HFO, especially when using fuel-surrogate models.     

生物炭对土壤中重金属铅和锌的吸附特性

利用固定床热解实验装置在不同热解温度(300~700℃)下制备了3种生物炭[杨树枝炭(PBC)、水葫芦炭(WHC)和玉米秸秆炭(CSC)],以南京市铅锌银矿区周边的菜园土为对象,研究了生物炭种类、热解温度和生物炭添加量对土壤重金属(Pb和Zn)吸附特性的影响,并结合生物炭的孔隙度、XRD和FTIR等分析,初步探讨了生物炭对土壤重金属的吸附机制.结果表明,生物炭的添加均不同程度地降低了土壤中Zn和Pb的浸出含量,水葫芦炭对土壤重金属的吸附效果最佳,在热解温度为500℃和生物炭添加量为5%的条件下,水葫芦炭对土壤中Zn和Pb的吸附率分别为21.83%和44.57%,相应的单位吸附量分别为227.65μg·g~(-1)和363.76μg·g~(-1).随着热解温度的升高,生物炭对土壤中Zn和Pb的吸附率逐渐增大,且在热解温度为500℃和700℃下制备的水葫芦炭对土壤中Zn和Pb的吸附能力相差不大,这表明中等温度热解有利于水葫芦炭形成较好的理化特性.随着生物炭添加量的增加,水葫芦炭对土壤中Zn和Pb的吸附率逐渐增大,但单位吸附量却逐渐减小,当水葫芦炭添加量为10%时,其对土壤中Pb的吸附率可达93.93%.结合生物炭的理化结构和土壤重金属吸附实验的结果,可以推测离子交换和络合作用是水葫芦炭修复重金属污染土壤的主要作用机制.