转轮式洗轮机对车轮带泥的冲洗效果简

施工车辆车轮带泥是我国道路扬尘污染控制面临的共性和突出问题。为在国内推广使用洗轮机提供技术依据,通过检测工地出口外道路积尘负荷来估算转轮式洗轮机对车轮带泥的冲洗效率,并以该洗轮机作为车轮带泥检测设备,检测和统计北京市车轮带泥量。结果表明,（1）转轮式洗轮机可以将工地出口外100 m道路积尘负荷增量由64.4 g/m²降至5.9 g/m²,转轮式洗轮机对车轮带泥的冲洗效率大于90%;（2）渣土车和混凝土车车轮带泥量的平均值分别为5.1和2.2 kg/车;（3）北京市未来车轮带泥量将超过8.8万t/a,施工车辆全部经过转轮式洗轮机冲洗后,车轮带泥量可削减7.9万t/a。建议在相关法律法规中以强制性条款落实施工车辆车轮带泥机械化冲洗要求。     

曝气对潜流人工湿地污染物沿程降解规律的影响

通过构建曝气及未曝气潜流人工湿地小试实验系统,研究曝气对人工湿地床体中污染物沿程变化规律的影响。实验结果表明,曝气对污染物沿程降解规律的影响与污染物种类有关,在净化COD和氨氮时,曝气人工湿地污染物主要以水平推流式降解为主,未曝气系统床体中则出现分层现象,深度为40 cm以上的床体区域中污染物以水平推流式降解为主,40 cm以下区域则以垂直梯度降解方式为主。对于磷来说,两对比系统均以水平推流降解方式为主,但不同深度上的降解速率有所差异,曝气系统30~50 cm的床体中间层降解速率较快,而未曝气系统50 cm以下的床体底层降解速率较快。将对比系统总体净化效果进一步比较发现,对于COD的去除来说,温度的影响大些,而对于氨氮和TP的去除来说,曝气的影响则更为显著。     

Evaluation and application of blast furnace slag as a mud cake modifier

The aim of this research was to reuse blast furnace slag (BFS) as a mud cake modifier (MCM) to improve the annular isolation quality in oil and gas wells. For the optimum formula of drilling fluid, the effects of MCM on the drilling fluid rheology were investigated. The relationship between the MCM addition and shear strength at cement–formation interface (SSCFI) was evaluated. The experimental results showed that the optimized formula of the drilling fluid has 1.0 wt% MCM and 0.5 wt% XY-27. The simulation results showed that SSCFI increased significantly with the addition of MCM. Based on the mechanism analysis of BFS as an MCM to improve SSCFI, it is found that the transformation of mud cake to agglomerated cake can be the main reason. The application results showed that the success rate of five wells reached 100%, and the rate of quality in cement was 100%. Especially, the average high quality rate of five wells reached 83.7%. Compared with conventional methods, the average high quality rate is increased by 32.6% points. This research provides a new way for sustainable utilization of BFS.     

The effect of municipal sludge compost on the mobility and bioavailability of Cd in a sierozem-wheat system in an arid region northwest of China

The effect of sewage sludge on the mobility and the bioavailability of trace metals in plant-soil systems have aroused wide interested and been widely explored. Based on a wheat-cultivating experiment, the effect of municipal sludge compost (MSC) on the mobility and bioavailability of Cd in a soil-wheat system was studied. With the application of MSC, soil organic matter (SOM), total nitrogen (TN), and total phosphorus (TP) in the soil increased significantly, while concentrations of trace metals (Cu, Zn, Ni, Pb, Cd) were below the China’s minimum thresholds. The application of MSC could improve wheat growth. The application of MSC at the rate of 0.5 % had no significant effect on the chemical fraction distribution of Cd in soil. In two soil treatments, Cd mainly existed in the labile chemical fractions (exchangeable chemical fraction (EXCF) and carbonate chemical fraction (CABF)). However, the application of MSC could reduce accumulation of Cd by wheat. Cd contents in each part of the MSC-applied wheat were significantly less than that of non-MSC-applied wheat. In the tested soils, the extractable concentrations decreased in the order: EDTA > MgCl₂ ≈ NH₄OAc > DTPA. There were no significant differences between soil treatments in the amounts of extractable Cd when the extraction was done under neutral conditions, although significant differences were observed when the extraction was done under alkaline conditions. In this study, the DTPA extraction procedure provided a good indication of Cd bioavailability. Our results suggest that, in the short term at least, amending soils with MSC may benefit crop dry matter production while not increasing the risk of human exposure to Cd through consumption of wheat grown on MSC-amended soils.     

Novel bacterial consortia isolated from plastic garbage processing areas demonstrated enhanced degradation for low density polyethylene

Environmental Science and Pollution Research - This study aimed to formulate novel microbial consortia isolated from plastic garbage processing areas and thereby devise an eco-friendly approach for...     

酸雨来源及控制策略分析

酸雨受致酸污染物、碱性污染物的种类和数量,气象条件,以及长距离输送过程等影响。应用相关性分析、主成分分析和聚类分析方法对环太湖地区某典型中小型城市酸雨致因进行解析。结果表明,降水离子主要来源是人为活动源、地壳源和海盐源。通过定量计算得出,三种来源贡献率分别为86.4%,7.3%和6.3%。针对性的提出了优化工业布局和产业结构、调整能源消费总量和结构、加快全过程污染控制技术创新、完善空气质量监测网络、建立基于临界负荷的减排策略、建立多污染协同控制策略等建议,为环太湖地区酸雨防治的宏观调控提供参考。     

BLR厌氧反应器处理垃圾焚烧厂渗滤液工程运行效能

采用1 100 m3BLR(biogas-lift reactor)厌氧反应器对垃圾焚烧厂渗滤液进行工程化处置,接种污泥为消化污泥,正常运行温度控制在(33±2)℃,启动负荷为1 kg COD/(m3·d),120 d后容积负荷达到10 kg/(m3·d)并稳定运行,出水COD浓度为4 500~6 500 mg/L,COD去除率为88%~92%,出水VFA含量为200~600 mg/L,p H值稳定在7.4~7.7,出水SS含量为1 000 mg/L左右,并可观察到沉降性较好的颗粒化污泥。反应器运行初期将VFA/ALK控制在1.6以内,系统并未因VFA积累而酸化崩溃,运行后期VFA/ALK值小于0.3,系统稳定运行。运行过程中进水氨氮浓度从400 mg/L升高到2 200 mg/L,未发现氨氮对厌氧生物处理的明显抑制现象。垃圾渗滤液中平均每去除1 kg COD产生沼气量为0.32 m3。     

以吡啶、喹啉和吲哚为单一碳源时反硝化过程中亚硝酸盐积累及动力学研究

以吡啶、喹啉和吲哚为单一碳源,通过摇床实验进行反硝化过程动力学研究。实验结果表明,以吡啶和喹啉为单一碳源的反硝化过程中,NO-2-N的积累率分别达到了53.4%和16.4%;以吲哚为单一碳源的反硝化过程中,NO-2-N的积累现象不明显,最高不超过4%。以NO-3-N+0.6 NO-2-N作为反硝化电子受体,采用基于Monod方程的动态模型进行拟合,拟合曲线与实验测定值相关性良好。其次,采用基于Monod方程的微分方程组模型,也能够很好地拟合3种碳源条件下反硝化过程硝酸盐、亚硝酸盐质量浓度的变化,得到相应的动力学参数。     

耐受重金属的芘降解真菌的筛选及芘降解动力学研究

为了提高复合污染土壤修复的微生物资源的丰富度,为混合菌群修复污染土壤积累资料,利用多环芳烃-重金属双抗培养基在污染土壤中筛选得到一株对Cu和Cd有高耐受性的芘降解真菌,经分子生物学鉴定为米曲霉。探究了米曲霉对芘污染水体的降解效果及对重金属Cu和Cd的耐受程度,利用缺乏生长基质的毒性抑制动力学模型对芘单基质降解过程进行了拟合,以期为后续共代谢、固定化的研究及实际工程应用提供一定的理论支撑。结果表明:(1)米曲霉以芘为单基质代谢时,降解率为33%;(2)米曲霉对重金属Cu和Cd的耐受浓度分别为500 mg/L和50 mg/L,分别高出国家土壤重金属二级标准5倍和83倍;(3)米曲霉对单基质芘的降解符合Crridle提出的毒性抑制动力学简化模型Sc=Sc0·Tb*cX0(1-e-bt)(R2=0.9237)。芘初始浓度Sc0=80 mg/L,米曲霉投加量X0=85 mg/L时,数值拟合得到内源呼吸常数b=0.027,生物转化量Tb*c=0.2875。该米曲霉对单基质芘及重金属Cu和Cd表现出一定的降解性能及耐受性能,故可经过适当强化后作为多环芳烃-重金属污染土壤的微生物修复菌种。