土壤重金属钝化修复剂生物炭对镉的吸附特性研究

目前以生物炭为代表的生物质对重金属的吸附表现出良好的应用前景.为确定生物炭对溶液中镉的吸附性能,选用由棉花秸秆制备的生物炭,研究吸附等温线、吸附动力学以及温度、pH和离子强度等对生物炭吸附Cd2+的影响.研究表明,生物炭对Cd2+的吸附可以用Freundlich等温线较好地拟合,在不同温度下其饱和吸附量分别为9.738 mg.g-1(288.15 K)、10.14 mg.g-1(298.15 K)、10.40 mg.g-1(308.15 K)和10.71 mg.g-1(318.15 K),热力学参数表明生物炭吸附Cd2+的过程是自发的吸热过程;吸附动力学过程符合二级动力学模型,在40 min即可达到平衡;pH对生物炭吸附Cd2+的影响较大,在pH2～8范围时,生物炭对Cd2+的吸附量随pH的增加先上升后下降;生物炭对Cd2+的吸附量随着溶液离子强度的增大呈降低趋势.该项研究可为生物炭在土壤重金属污染修复中的应用提供一定的理论基础.     

镧改性沸石活性覆盖控制重污染河道底泥溶解性磷酸盐和铵释放研究

通过实验考察了镧改性沸石对水中磷酸盐和铵的吸附性能,并探讨了低溶解氧情况下镧改性沸石覆盖控制底泥溶解性磷酸盐和铵态氮释放的效率.镧改性沸石对水中磷酸盐和铵的吸附动力学过程满足准二级动力学模型.镧改性沸石对水中磷酸盐的吸附平衡数据可以采用Langmuir等温吸附方程加以描述,对水中铵的吸附平衡数据可以采用Langmuir、Freundlich和Dubinin-Radushkevich(D-R)等温吸附方程加以描述.当pH 7时,镧改性沸石吸附水中磷酸盐的机制包括配位体交换、路易斯酸碱反应和静电吸引,吸附水中铵的机制是阳离子交换.镧改性沸石覆盖不仅可以有效地控制溶解性磷酸盐从底泥向上覆水的释放,而且可以明显降低铵态氮从底泥向上覆水迁移的速率.镧改性沸石覆盖量越多,控制底泥铵态氮释放的效果越好.镧改性沸石覆盖层吸附从底泥中释放出来的溶解性磷酸盐后主要以较为稳定的形态存在,低溶解氧情况下不容易重新释放出来.上述结果表明,镧改性沸石适合作为一种覆盖材料用于控制低溶解氧情况下溶解性磷酸盐和铵态氮从底泥向上覆水的释放.     

呼和浩特市可镇污水处理厂工程设计

呼和浩特市可镇污水处理厂近期建设规模1.0×104m3/d,远期总规模2.5×104m3/d。污水处理主体工艺采用组合式A2/O生化池+砂滤,污泥处理采用污泥贮池+带式浓缩脱水一体机,尾水采用液氯消毒,设计出水水质执行GB 18918—2002《城镇污水处理厂污染物排放标准》一级A排放标准。介绍了该工程的工艺流程、设计参数,总结分析了工艺设计的技术特点。同时阐述了针对低温条件下的运行保障措施和要求,为寒冷地区同类污水处理厂的设计提供参考和借鉴。     

大型炼锌厂周边土壤及蔬菜的汞污染评价及来源分析

采集某大型炼锌厂周边的耕种土壤及蔬菜样品,分析其汞含量,并采用单项污染指数法及相关标准对土壤和蔬菜的汞污染状况进行了评价.结果表明,炼锌厂周边的耕种土壤和蔬菜都受到了不同程度的汞污染.土壤样品汞的超标率为78%,其中污染最严重区域土壤中的汞浓度是背景点土壤汞浓度的29倍,已达到重度污染程度.所有蔬菜样品的汞含量超过无公害蔬菜重金属限量指标,最大超标64.5倍,平均超标25.4倍.85%的蔬菜样品叶片中汞含量明显高于根部汞含量,说明叶片中的汞主要来自于大气;蔬菜根部汞含量与土壤汞含量明显线性相关,说明根部的汞主要来自于土壤.炼锌厂汞排放对其周边土壤和蔬菜的汞污染均有显著的影响.     

废弃SCR脱硝催化剂的再生及其脱硝性能研究

对废弃脱硝催化剂处理后重新加工再生,研究了添加剂对其粉体成型和再生催化剂脱硝活性的影响,探讨了反应温度、空速、n(NH3)∶n(NO)摩尔比、氧含量、H2O和SO2对再生催化剂NH3选择性催化还原(SCR)NO的影响。结果表明:最佳再生条件是使用5%羧甲基纤维素和10%无机粘结剂辅助成型;废弃催化剂再生利用率高达90%;再生催化剂抗压强度为4.73 MPa,优于商用催化剂;空速5 000 h-1、氨氮摩尔比1、氧含量6%时,脱硝活性温度窗口为310⁴50℃,350℃时活性最高为94%;350℃时,单独通入1 000×10-6SO2或10%H2O对再生催化剂活性均有一定抑制作用,最低活性分别为70%和81%,停止通入SO2或H2O后其活性逐渐恢复;同时通入1 000×10-6SO2和10%H2O,再生催化剂活性下降至63%并于1 h内保持相对稳定,停止通入SO2和H2O 2 h后,活性逐渐恢复到73%。     

Decrease of NH4+-N by bacterioplankton accelerated the removal of cyanobacterial blooms in aerated aquatic ecosystem

We used aerated systems to assess the influence of the bacterioplankton community on cyanobacterial blooms in algae/post-bloom of Lake Taihu, China. Bacterioplankton community diversity was evaluated by polymerase chain reaction-denaturing gradient gel electrophoresis(PCR-DGGE) fingerprinting. Chemical analysis and nitrogen dynamic changes illustrated that NH4+-N was nitrified to NO2-N and NO3-N by bacterioplankton. Finally, NH4+-N was exhausted and NO3-N was denitrified to NO2-N, while the accumulation of NO2-N indicated that bacterioplankton with completely aerobic denitrification ability were lacking in the water samples collected from Lake Taihu. We suggested that adding completely aerobic denitrification bacteria(to denitrify NO2-N to N2)would improve the water quality. PCR-DGGE and sequencing results showed that more than 1/3 of the bacterial species were associated with the removal of nitrogen, and Acidovorax temperans was the dominant one. PCR-DGGE, variation of nitrogen, removal efciencies of chlorophyll-a and canonical correspondence analysis indicated that the bacterioplankton significantly influenced the physiological and biochemical changes of cyanobacteria. Additionally, the unweighted pair-group method with arithmetic means revealed there was no obvious harm to the microecosystem from aeration. The present study demonstrated that bacterioplankton can play crucial roles in aerated ecosystems, which could control the impact of cyanobacterial blooms in eutrophicated fresh water systems.     

Effects of physical and chemical characteristics of surface sediments in the formation of shallow lake algae-induced black bloom

Surface sediments are closely related to lake black blooms. The dissolved oxygen （DO） distribution and its penetration depth in surface sediments as well as the migration and transformation of redox sensitive elements such as Fe and S at the sediment-water interface are important factors that could influence the formation of the black bloom. In this study, dredged and undredged sediment cores with different surface properties were used to simulate black blooms in the laboratory. The Micro Profiling System was employed to explore features of the DO and ∑H2S distribution at the sediment-water interface. Physical and chemical characteristics in sediments and pore waters were also analyzed. The results showed that sediment dredging effectively suppressed the black blooms. In the undredged treatment, DO penetration depth was only 50 μm. Fe^2＋ concentrations, ∑H2S concentrations, and ∑H2S production rates were remarkably higher in surface sediments and pore waters compared to control and dredged treatments. Furthermore, depletion of DO and accumulation of Fe^2＋ and ∑H2S in surface sediments and pore waters provided favorable redox environments and necessary material sources for the blooms. The study results proved that physical and chemical characteristics in surface sediments are important factors in the formation of the black bloom, and could provide scientific guidance for emergency treatment and long-term pre-control of black blooms.     

关于加强我国污染场地环境管理政策建议探讨

本文在综述当前我国污染场地环境管理现状基础上,探讨了加强污染场地环境管理相关政策建议,以期为我国进一步完善污染场地环境管理提供决策参考。具体建议：强化污染场地信息管理;把握和贯彻基于风险的管理理念;搞好标准建设工作;重视复合绿色修复技术的研发;逐步开创适宜的融资机制和模式;建立合理有效的公众参与和信息公开制度。     

中国PM2.5管理策略研究

文章通过对PM2.5的基本组成、来源与影响因素的分析,构建中国PM2.5全过程管理体系,建立、完善PM2.5削减和控制长效机制,进而实现中国PM2.5管理。