微波对γ-Al_2O_3膜/污泥活性炭组成与孔结构的影响

将制得的污泥活性炭浸于[AlO(OH)]透明溶胶中,再干燥,最后经微波处理得到γ-Al2O3膜/污泥活性炭。研究微波处理工艺对γ-Al2O3膜/污泥活性炭组成与孔结构的影响。分别用X射线衍射、扫描电镜、红外光谱及孔径分布分析了γ-Al2O3膜/污泥活性炭的组成和孔结构。结果表明:增大微波功率γ-Al2O3膜/污泥活性炭的晶相由γ-Al2O3膜相和污泥活性炭相组成,辐照时间过长不利于形成γ-Al2O3相和污泥活性炭相。随着微波功率的增大,形成了附着于污泥活性炭孔内的多孔膜;γ-Al2O3膜/污泥活性炭的孔径呈双峰分布,峰明显变窄,但是随着辐照时间的过长,孔径分布向大孔移动,整个双峰变宽。因而,微波可以辅助物理活化法制备γ-Al2O3膜/污泥活性炭。     

天津市老年人PM2.5个体暴露化学组分特征

分别于2011年6月13日—7月2日(夏季)和11月30日—12月12日(冬季),采用颗粒物个体暴露采样器对天津市某社区101名老年人(平均年龄67岁)的PM_2.5个体暴露水平进行监测,以探讨PM_2.5个体暴露化学组分的特征. 结果表明,天津市老年人夏、冬季PM_2.5个体暴露浓度分别为(124.2±75.2)和(170.8±126.6)μg/m3. 斯皮尔曼相关分析表明,Si、NH₄+和NO₃-的暴露浓度均与PM_2.5暴露浓度显著相关(P<0.01),R(相关系数)分别为0.61、0.55和0.46. 富集因子分析表明,Cd、Zn和Pb 3种元素高度富集,受人为源的影响强烈. SO₄2-是水溶性离子中含量最高的组分,其次是NO₃-和NH₄+,在夏、冬季这3种离子暴露浓度之和分别占PM_2.5暴露浓度的34.3%和40.6%. OC是老年人PM_2.5个体暴露的主要成分之一,夏、冬季OC暴露浓度分别占PM_2.5暴露浓度的19.3%和27.4%. 老年人PM_2.5个体暴露化学组分浓度受气象因素、室内源和室外源的共同影响,季节变化明显. 冬季Al、Si、K、Ca和Fe的暴露浓度高于夏季,但大部分微量金属元素(V、Cr、Mn、Ni、Cu、Zn、As、Sb和Pb)的冬季暴露浓度却低于夏季. 方差分析表明,冬季SO₄2-、NO₃-、NH₄+、OC和EC的暴露浓度显著高于夏季(P<0.05).      

坝上高原栗钙土退化的一些特征

坝上高原生境脆弱与人为不合理活动的叠加影响,导致票钙土退化。表现为土壤代换量降低,养分含量减少,有机复合体破坏;松结合态、稳结合仓和紧结合态腐殖质下降,其下降率依序为21％～34％、44％～55．5％和5％～62％。     

春节期间烟花爆竹燃放对海口市空气质量的影响

基于2018年与2019年春节期间常规空气污染物数据、2019年细颗粒物PM_2.5中水溶性离子和OC/EC的化学组分数据,结合气象资料,分析了春节期间烟花爆竹燃放对海口市空气质量的影响。结果表明：春节期间烟花爆竹燃放对海口市初一的空气质量影响较大,主要影响污染物为PM₁₀、PM_2.5和SO₂,对NO₂、CO和O₃影响相对较小;实施烟花爆竹严格管控后空气质量明显改善,2019年除夕夜PM₁₀、PM_2.5和SO₂质量浓度峰值较2018年分别下降67.4%、68.5%和66.7%;烟花爆竹集中燃放主要造成K⁺、Cl^-、Mg²⁺和SO₄^2-快速上升,其中K⁺影响最为显著,K⁺短时上升了16.21 μg/m³,增加17.01倍;对于NO₂^-、Na⁺、F^-、NO₃^-、Ca²⁺、NH₄⁺等6种离子和OC/EC影响较小。     

农药与土壤腐殖物质的结合残留及其环境意义

农药或其代谢产物进入土壤环境后，可通过多种途径与土壤无机和有机组分形成结合残留物。越来越多的证据表明，在农药土壤环境行为的研究中，应重视其结合残留问题。文章阐述了农药在土壤中的主要结合残留机理，结合残留物在土壤腐殖物质各组分中的分布状况及其环境意义，并对该领域的深入研究提出建议。     

Chemical composition, mass closure and sources of atmospheric PM10 from industrial sites in Shenzhen, China

Concentrations of atmospheric PM10 and chemical components (including twenty-one elements, nine ions, organic carbon (OC) and elemental carbon (EC)) were measured at five sites in a heavily industrial region of Shenzhen, China in 2005. Results showed that PM10 concentrations exhibited the highest values at 264 μg/m3 at the site near a harbor with the influence of harbor activities. Sulfur exhibited the highest concentrations (from 2419 to 3995 ng/m3) of all the studied elements, which may be related to the influence of coal used as fuel in this area for industrial plants. This was verified by the high mass percentages of SO42-, which accounted for 34.3%-39.7% of the total ions. NO3-/SO42- ratios varied from 0.64-0.71, which implies coal combustion was predominant compared with vehicle emission. The anion/cation ratios range was close to 0.95, indicating anion deficiency in this region. The harbor site showed the highest OC and EC concentrations, with the influence of emission from vessels. Secondary organic carbon accounted for about 22.6%-38.7% of OC, with the highest percentage occurring at the site adjacent to a coal-fired power plant and wood plant. The mass closure model performed well in this heavily industrial region, with significant correlation obtained between chemically determined and gravimetrically measured PM10 mass. The main constituents of PM10 were found to be organic materials (30.9%-69.5%), followed by secondary inorganic aerosol (7.9%-25.0%), crustal materials (6.7%-13.8%), elemental carbon (3.5%-10.8%), sea salt (2.4%-6.2%) and trace elements (2.0%-4.9%) in this heavily industrialized region. Principal component analysis indicated that the main sources for particulate matter in this industrial region were crustal materials and coal/wood combustion, oil combustion, secondary aerosols, industrial processes and vehicle emission.     

Mobilities and teachabilities of heavy metals in sludge with humus soil

Chemical forms of Zn, Ni, Cu, and Pb in municipal sewage sludge were investigated by adding humus soil to sludge and by performing sequential extraction procedures. In the final sludge mixtures, Zn and Ni were mainly found in Fe/Mn oxide-bound (F3) and organic matter/sulfide-bound (F4) forms. For Zn, exchangeable (F1), carbonate-bound (F2), and F3 forms were transformed to F4 and residual forms (F5). For Ni, Fl and F2 forms were transformed to Fl, F2, and F3 forms. Both Cu and Pb were strongly associated with the stable forms F4 and F5. For Cu, F2 and F3 forms were major contributors, while for Pb, F3 and F4 forms were major contributors to F5. Humus soil dosage and pH conditions in the sludge were strongly correlated with the forms of heavy metals. Five forms were used to evaluate metal mobilities in the initial and final sludge mixtures. The mobilities of the four heavy metals studied decreased after 28 days. The metal mobilities in the final sludge mixtures were ranked in the following order: Ni > Zn > Cu = Pb. Leaching tests showed that the mobilities of Zn and Ni in lower pH conditions (pH 4) were higher than those in higher pH conditions (pH 8).     

甲基汞和腐殖质在污泥堆肥过程中的变化特征及其相互关系

好氧堆肥-土地利用是实现污泥资源化处置的主要方式,但污泥中重金属的环境健康风险是限制污泥土地利用的重要因素。通过观测北方某工程规模的污泥好氧堆肥过程汞、甲基汞的变化,并基于三维荧光光谱区域积分分析,研究好氧堆肥过程甲基汞的变化特征及其与有机物中腐殖质变化关系。结果表明,堆肥前后,汞与甲基汞质量分数未发生明显变化,但通过质量衡算发现,堆肥结束后堆体中汞总量从(272.56±25.71) g下降到(211.10±12.97) g,出现22.5%的汞散失,而甲基汞质量从0.37 g下降至0.28 g,24.3%的甲基汞可能发生去甲基化而形态转变。在堆肥过程中,甲基汞质量与荧光区域Ⅲ（富里酸）体积积分呈显著负相关(r=−0.897,p<0.05),与荧光区域Ⅳ（微生物代谢副产物）体积积分呈显著正相关(r=0.933,p<0.01)。基于堆肥过程甲基汞和汞质量的动态变化,在堆肥前10 d的有机物快速腐熟化阶段发生了甲基汞的去甲基化,而后随好氧堆肥过程翻堆、曝气发生了汞的蒸发散失。本研究结果可为评价污泥好氧堆肥后对汞、甲基汞健康风险提供参考。