纳米羟基磷灰石的制备及其对Pb2+的吸附性能

采用溶胶-凝胶法制备了纳米羟基磷灰石(n-HAP),使用FTIR、XRD、气体吸附仪等表征了n-HAP的物相及微观结构,并研究了n-HAP对模拟含Pb2+废水中Pb2+的吸附特性。实验结果表明:所制备的n-HAP粒径为24.39 nm,比表面积为53.50 m2/g,孔体积为0.32 cm3/g;n-HAP对Pb2+的去除率随吸附时间、吸附温度和溶液pH(小于6.5的实验范围)的增加而增大,随初始Pb2+质量浓度增大而减小;n-HAP对Pb2+的吸附较符合准二级吸附动力学方程,颗粒内扩散过程是吸附速率的控制步骤;Langmuir吸附等温方程比Freundlich吸附等温方程更适合描述n-HAP对Pb2+的吸附热力学行为,Pb2+在n-HAP上的吸附符合单分子层吸附形式。     

含油泥砂洗涤法在大港油田的应用

含油泥砂洗涤法可以将含油泥砂中混合的原油、泥、砂回收并重新资源化利用,且处理过程中不产生新的污染物。大港油田应用含油泥砂洗涤法对北部地区产出的含油泥砂进行处理,处理后的泥砂浸出液COD、石油类等指标均能达到GB 8978-1996《污水综合排放标准》一级标准,处理后的泥砂符合JTJ034-2000《公路路面基层施工技术规范》中的石灰工业废渣稳定土抗压强度标准,符合道路修筑用土的抗压强度要求。     

3个城市生活垃圾焚烧炉飞灰中二恶英类分析

对3个城市生活垃圾焚烧炉飞灰中二恶英类浓度分布的实验研究表明，飞灰中二恶英类异构体的浓度分布具有相类似的特征，高氯代二恶英类的含量明显高于低氯代二恶英类．飞灰中二恶英类的毒性贡献主要来自多氯二苯并呋喃(PCDFs)．布袋除尘器前添加活性炭粉末时，飞灰的二恶英类浓度比没有添加活性炭时高1．8倍，而尾气中二恶英类浓度相应降低。     

重金属污染物在下包气带饱水条件下迁移转化的研究

不同的重金属污染物进入饱水的下包气带土层之后,由于其形态和价态变化差异较大,在土壤中的迁移、转化特征有明显差别,其迁移顺序为Cr_2O_7~(2-)>AsO_2~->>Hg~(2+)>Cd~(2+)>Pb~(2+).不同土质对重金属污染物迁移的影响为:在砂土中迁移最快,亚砂土中次之,亚粘土中最慢.     

中国中小城市生活垃圾优化管理模型的应用

根据中国中小城市生活垃圾基本特点,提出了适宜于中国中小城市生活垃圾优化管理的基本原则,确定出优化管理模型程序.通过实例分析,具体说明了优化管理模型的应用,计算出1999年、2005年和2010年规划系统城市生活垃圾的优化处理方案,通过费用比较充分验证和说明了中国中小城市生活垃圾优化管理模型的适用性与优越性.     

胶莱盆地一种新金矿类型——蓬家夼式金矿床研究

赋存于胶莱盆地下白垩统莱阳组含碳碎屑岩系中的蓬家夼式金矿床与金矿化 ,无论其形成地质时代还是岩石特征或沉积环境 ,均与国内外已知的金矿不同 ,为一种新类型金矿床。本文阐述了蓬家夼式新类型金矿床的地质特征 ,并论述了其成因 ,认为其为一种沉积 -改造作用形成的新类型金矿床。     

Biodegradation of organic matters from mixed unshredded municipal solid waste through air convection before landfilling

Landfilling is a dominant municipal solid waste (MSW) disposal method in most developing countries. In China, approximately 85% of the generated MSW is being disposed of in the landfills. The amount of MSW is growing rapidly with the rate of approximately 8-10% annually, which contains a high quantity of moisture and organic matters. The problems of leachate treatment and landfill gas (LFG) emissions are increasing gradually. Reducing the hazard before emplacement, pretreatment of MSW before landfilling has become very important for the conventional landfill. In this study, aerobic pretreatment of mixed MSW was used, and much attention has been given to the natural convection of air in the mixed and unshredded MSW for bioconversion of organic matter (OM). This study is an attempt to investigate aerobic pretreatment suitability for the mixed and unshredded MSW at Beijing. A pilot-scale aerobic pretreatment simulator (APS) was developed at Beishen Shu Landfill in Beijing. To work out the biodegradation of the OM in the APS, fresh and pretreated MSW samples were collected and analyzed for OM, moisture content, temperature, chemical oxygen demand, total organic carbon, carbon, nitrogen, hydrogen, lignocelluloses, and biochemical methane potential at various stages of the pretreatment. Furthermore, results of the fresh and pretreated MSW are compared. Significant reduction in the observed parameters of the pretreated waste samples is observed. This work demonstrates that pretreatment is significantly effective in reducing the landfill emissions that is leachate and LFG.     

中国微生物絮凝剂的生产研究现状

微生物絮凝剂具有降解性能好、应用广泛、成本低、操作简单及不会导致二次污染等优点,正日益引起人们的广泛重视.综述了微生物絮凝剂的开发研究状况,系统介绍了微生物絮凝剂的培养条件、产絮凝微生物生长的影响因素以及中国目前利用废水生产微生物絮凝剂的现状,并指出了微生物絮凝剂生产的现存问题和发展方向.     

载体对氧化亚铁硫杆菌氧化活性的影响及生物量分析

载体的选择对氧化亚铁硫杆菌的固定化至关重要,选择活性炭、煤矸石、陶粒和沸石4种载体,考察这4种载体在不同添加量下对氧化亚铁硫杆菌氧化活性的影响,并分析载体表面附着的生物量.结果表明,这4种材料均可作为细菌固定化培养的载体材料.在载体添加量为25～75 g/L条件下,载体对细菌生长过程中Fe2 浓度变化影响最大,随载体添加量的增加,Fe2 氧化速率增加,而对pH变化和Eh变化无明显影响.单位重量的活性炭、陶粒和沸石的生物量高于单位重量煤矸石的,但随载体添加量的增加,其生物量减小;对煤矸石,随载体添加量的增加,其生物量增加.     

Light-induced variation in environmentally persistent free radicals and the generation of reactive radical species in humic substances

• Light irradiation increased the concentration of free radicals on HS. • The increased spin densities on HS readily returned back to the original value. • The “unstable” free radicals induced the formation of reactive radical species. • Reactive radicals’ concentration correlated strongly with EPFRs’ concentration. Environmentally persistent free radicals (EPFRs) in humic substances play an essential role in soil geochemical processes. Light is known to induce EPFRs formation for dissolved organic matter in aquatic environments; however, the impacts of light irradiation on the variation of EPFRs in soil humic substances remain unclear. In this study, humic acid, fulvic acid, and humin were extracted from peat soil and then in situ irradiated using simulated sunlight. Electron paramagnetic resonance spectroscopy results showed that with the increasing irradiation time, the spin densities and g-factors of humic substances rapidly increased during the initial 20 min and then gradually reached a plateau. After irradiation for 2h, the maximum spin density levels were up to 1.63 × 10¹⁷, 2.06 × 10¹⁷, and 1.77 × 10¹⁷ spins/g for the humic acid, fulvic acid, and humin, respectively. And the superoxide radicals increased to 1.05 × 10¹⁴–1.46 × 10¹⁴ spins/g while the alkyl radicals increased to 0.47 × 10¹⁴–1.76 × 10¹⁴ spins/g. The light-induced EPFRs were relatively unstable and readily returned back to their original state under dark and oxic conditions. Significant positive correlations were observed between the concentrations of EPFRs and reactive radical species (R² = 0.65–0.98, p<0.05), which suggested that the newly produced EPFRs contributed to the formation of reactive radical species. Our findings indicate that under the irradiation humic substances are likely to be more toxic and reactive in soil due to the formation of EPFRs.