北京市近12年空气污染变化特征及其与气象要素的相关性分析

以北京市近12年空气污染指数(API)为数据基础,首先分析了2001—2012年北京市API、污染等级、首要污染物的变化特征以及污染天数年度值、季度值、月值的变化特征;然后根据API转换得到PM10质量浓度,对其变化特征进行分析;最后采用相关系数法分析了北京市API、PM10质量浓度与气象因素的相关性。结果表明,北京市近12年空气污染天数有明显下降趋势,首要污染物主要为可吸入颗粒物;空气污染主要集中于春季,优良天气主要集中于夏季;PM10质量浓度年度最大值出现在2006年,季度最大、最小值分别出现在春、夏季,月值最大、最小值分别出现在3月和7月;气象因素与空气污染关系密切,气温、相对湿度、降雨量与污染天数和PM10质量浓度均呈显著负相关,而风速与污染天数和PM10质量浓度则呈显著正相关。     

Extracellular polymeric substance induces biogenesis of vivianite under inorganic phosphate-free conditions

Vivianite is often found in reducing environments rich in iron and phosphorus from organic debris degradation or phosphorus mineral dissolution. The formation of vivianite is essential to the geochemical cycling of phosphorus and iron elements in natural environments. In this study, extracellular polymeric substances (EPS) were selected as the source of phosphorus. Microcosm experiments were conducted to test the evolution of mineralogy during the reduction of polyferric sulfate flocs (PFS) by Shewanella oneidensis MR-1 (S. oneidensis MR-1) at EPS concentrations of 0, 0.03, and 0.3 g/L. Vivianite was found to be the secondary mineral in EPS treatment when there was no phosphate in the media. The EPS DNA served as the phosphorus source and DNA-supplied phosphate could induce the formation of vivianite. EPS impedes PFS aggregation, contains redox proteins and stores electron shuttle, and thus greatly promotes the formation of minerals and enhances the reduction of Fe(III). At EPS concentration of 0, 0.03, and 0.3 g/L, the produced HCl-extractable Fe(II) was 107.9, 111.0, and 115.2 mg/L, respectively. However, when the microcosms remained unstirred, vivianite can be formed without the addition of EPS. In unstirred systems, the EPS secreted by S. oneidensis MR-1 could agglomerate at some areas, resulting in the formation of vivianite in the proximity of microbial cells. It was found that vivianite can be generated biogenetically by S. oneidensis MR-1 strain and EPS may play a key role in iron reduction and concentrating phosphorus in the oligotrophic ecosystems where quiescent conditions prevail.     

珠三角典型区域农田小区尺度氮、磷、镉、砷输移特征与控制对策

区域氮、磷、镉、砷输移变化是影响农业生产、导致农田面源污染的主要因素。基于土壤表观平衡模型,以珠三角流域佛山市农业科学研究所试验农田为典型研究区域,构建农田小区尺度土壤表观氮、磷、镉、砷平衡模型,对4种元素在土壤中输移结构和平衡进行分析。结果表明：研究区域4种元素的主要输入途径是施肥,而输出的主要形式各有不同。其中,氮、磷主要输出形式是作物富集输出,输出占比分别为57.5%和39.0%;镉、砷主要输出形式分别是地表径流和作物富集输出,输出占比分别为66.7%和10.7%。研究区域4种元素均出现了不同程度土壤富集现象,农田小区尺度氮、磷平衡处于盈余状态,而镉、砷平衡处于亏损状态,4种元素的平衡强度分别为37.40、8.88、−1.35和−20.50 kg/(hm²·a),仅氮、磷未超过当地土壤环境安全阈值。分析试验农田中5类蔬菜各部位镉、砷富集情况发现,砷的富集系数均达到70.0%以上,而镉的富集只在辣椒叶中较为突出,富集系数达到57.5%。研究显示,应重视肥料输入的有效利用,加强农田灌溉水、农作物和地表径流中重金属的监测,以保障区域粮食安全和水环境安全。

     

北方地区农村清洁取暖技术适用性评价—以北京为例

为了切实改善区域大气环境质量,中国在北方地区大规模开展以煤改电、煤改气为主的农村清洁取暖改造工程,如何选择技术可行、经济上可接受的清洁取暖技术路径是清洁取暖改造可持续的关键问题。基于北京农村地区实地调研数据,从经济性和舒适性2个维度对4种农村清洁取暖技术进行适用性评价,总结出各种技术的适用条件,提出农村清洁取暖技术路径选择建议。结果表明：空气源热泵运行费用较低,舒适性较好,适合冬季温度不低于−20 ℃的各类区域;燃气壁挂炉运行费用略高于空气源热泵,舒适性较好,适合距离燃气管线或燃气站较近的平原、半山区地区,不同气候温度范围均适用;蓄能式电暖器运行费用较高,舒适性较差,适合冬季温度接近于城区的农村或城乡接合部、农宅面积较小的区域;地源热泵取暖最好结合政府资金支持项目实施,运行费用较低,舒适性较好,适合地质结构适宜建井,有足够空间进行地埋管的区域。建议农村清洁取暖工作立足长远,因地制宜地选择清洁取暖技术,着力降低农户清洁取暖运行成本,同时提高农村清洁取暖电力和天然气供应的可靠性。

     

美国公共管理面面观——在伊利诺伊州芝加哥市感受美国

美国政府的公共管理是建立在美国特有的政治制度和经济体制的基础上的。 美国的政府体系是由联邦、州和地方政府三个层级组成的联邦制政府体系,它们分别具有各自独立的政府权威和管辖领域．实行多中心治理和法定分权体制。联邦政府由立法机构、行政机构和司法机构三个分支组成,实行三权分立的政治体制。     

Transition of human and livestock waste management in rural Hanoi: a material flow analysis of nitrogen and phosphorus during 1980–2010

Journal of Material Cycles and Waste Management - Human and livestock waste, i.e., excreta, were intensively used in crop cultivation in Asia over the years. However, rapid economic growth induced...     

Facile Preparation of Chitosan Films for High Performance Removal of Reactive Blue 19 Dye from Aqueous Solution

This study aimed at finding effective strategies for high-performance removal of reactive blue 19 (RB19) dye from aqueous solution. Chitosan (CS) films had been prepared by using solvent casting with mild drying for this purpose. The CS films were characterized by X-ray diffraction, field-emission scanning electron microscopy, and Fourier transform infrared (FTIR) spectroscopy. The performance of RB19 removal using CS were evaluated by varying contact time, solution pH, initial dye concentration, and adsorbent dosage. Adsorption isotherms, kinetics, and desorption were investigated by batch experiments. Results showed that CS films exhibited the optimal adsorption performance for RB19 removal and high maximum adsorption capacities of RB19, which were 799 and 822.4 mg g^?1 at 20 and 40 °C, respectively. Adsorption kinetic data were well described by the pseudo-second-order kinetic model. FTIR analyses further indicated that interactions between RB19 and the CS film occurred during adsorption. The CS films also exhibited satisfactory desorption of RB19 at about 80 % after 30 min of desorption at pH 11. Our study demonstrated that the CS films can be easily prepared and applied for effective removal of RB19 in treatment of wastewater.     

Chromatographic partitioning of impurities (H2S) contained in a CO2 stream injected into a deep saline aquifer: Part 2. Effects of flow conditions

Laboratory experiments reported in a companion paper were carried out to examine the chromatographic partitioning of impurities contained in a stream of CO₂ injected into a deep saline aquifer. The solubility of the impurity gas in the CO₂ stream compared to that of CO₂, the in situ conditions of pressure, temperature and water salinity, and the concentration of the impurity gas affect the partitioning of the two gases. For CO₂ streams containing H₂S, numerical simulations reported here have successfully replicated the laboratory results including the breakthrough of CO₂ ahead of H₂S. Sensitivity analysis performed with the numerical model has shown that flow conditions, controlled by such parameters as medium permeability, pressure gradient, dispersion, gas mobility and flow direction, affect the breakthrough time and separation of the two gases, leading to delayed or earlier breakthrough, and increasing or decreasing the time lag between the breakthrough of the two gases. Vertical bottom-up flow leads to earlier breakthrough, while top-down flow leads to delayed breakthrough. These results are important in establishing monitoring strategies at CO₂ storage sites and in evaluating the risks associated with the possible leakage of injected CO₂ that contains impurities.