硝酸改性活性炭特征及其催化臭氧氧化性能

采用硝酸氧化对颗粒活性炭进行改性处理,研究了硝酸改性后活性炭结构和表面化学性质,及其对酸性大红3R的吸附能力和催化臭氧氧化去除效果的影响。结果表明,硝酸改性后,活性炭比表面积减小,微孔孔容减小,中孔孔容增大。活性炭表面以羧基为主的酸性含氧官能团随着硝酸改性浓度提高而显著增加,并对其吸附能力和催化臭氧氧化能力产生显著影响。硝酸改性活性炭吸附能力在碱性条件下由于表面酸性官能团和酸性大红3R之间的静电作用而有所降低;在酸性条件下由于二者的色散作用而增强。表面酸性官能团在碱性条件下参与臭氧分解,产生·OH,增强了硝酸改性活性炭对酸性大红3R的催化臭氧氧化去除效果。     

两种新型涂铁改性砂的过滤性能及反冲洗条件研究

以两种新型涂铁改性石英砂(纳米氧化铁改性砂,Nano-OCS;氧化铁改性砂,IOCS)及普通石英砂(RQS)为研究对象,考察了两种新型改性砂对沉后水腐殖酸及浊度的直接过滤效果,对其反冲洗条件进行优化研究,并对3种滤料的过滤效果进行了比较.结果表明,1滤层厚度为45 cm时,最佳滤速为6 m·h-1;3种滤料对腐殖酸和浊度的直接过滤效果依次为:Nano-OCSIOCSRQS,其中两种涂铁砂对腐殖酸的去除率分别为71.70%和61.61%;2Nano-OCS和IOCS滤柱的反冲洗流程分4步,对应的流程及最佳操作条件为:首先,用0.5 mol·L-1NaOH的溶液浸泡,气冲强度13 L·s-1·m-2,气冲时间6 min;然后,用0.075 mol·L-1的NaOH溶液与空气同时反冲洗,NaOH溶液冲洗强度为8 L·s-1·m-2,气冲强度13 L·s-1·m-2,冲洗时间3 min;接着用0.015 mol·L-1的FeCl3溶液与空气同时反冲洗,FeCl3溶液冲洗强度为8 L·s-1·m-2,气冲强度13L·s-1·m-2,冲洗时间2 min;最后,用清水冲洗,冲洗强度8 L·s-1·m-2,冲洗时间4 min.两种涂铁砂反冲洗前后表面形态结构更加复杂、粗糙度增加,对腐殖酸去除率进一步提高.3当滤层厚度由45 cm增加到80 cm时,Nano-OCS对腐殖酸直接过滤的最高去除率由74.6%提高至80.3%,平均去除率由57.9%提高至68.5%.     

碱改性净水污泥对水中氨氮的吸附效能研究

采用氢氧化钠浸渍法改性净水污泥,研究了碱改性净水污泥对水中NH+4的去除性能.同时,考察了模拟废水pH、吸附剂投加量、NH+4初始浓度、吸附温度及吸附时间对吸附性能的影响.结果表明,当pH为弱酸性或中性,投加碱改性净水污泥20 g·L-1时,在室温下对初始浓度为50 mg·L-1的NH+4模拟废水振荡吸附120 min,可达到氨氮排放二级标准.将实验数据分别用吸附等温模型和动力学模型进行拟合,发现净水污泥对NH+4的吸附符合Langmuir模型和二级动力学模型,且净水污泥对氨氮的吸附包括静电吸引和离子交换两种作用机理.     

改性小麦秸秆的制备及其对水中亚甲基蓝的吸附性能

用碳酸钾(K2CO3)溶液活化法成功地制备改性小麦秸秆。采用傅里叶红外光谱仪(FT-IR)、扫描电子显微镜(SEM)和静态吸附试验对改性前后样品的组成、形貌和吸附性能进行表征和测定,对比了秸秆改性前后的结构和组成变化。结果表明:改性后小麦秸秆半纤维素被部分溶解,出现了多孔疏松的结构。改性小麦秸秆用量、溶液p H和亚甲基蓝的浓度在一定范围内增大有助于改性小麦秸秆对亚甲基蓝吸附速率的提高,吸附类型符合Langmuir吸附等温方程模型且属于拟二级动力学吸附过程。     

Removal of polycyclic aromatic hydrocarbons from aqueous solution by raw and modified plant residue materials as biosorbents

Removal of polycyclic aromatic hydrocarbons （PAHs）, e.g., naphthalene, acenaphthene, phenanthrene and pyrene, from aqueous solution by raw and modified plant residues was investigated to develop low cost biosorbents for organic pollutant abatement. Bamboo wood, pine wood, pine needles and pine bark were selected as plant residues, and acid hydrolysis was used as an easily modification method. The raw and modified biosorbents were characterized by elemental analysis, Fourier transform infrared spectroscopy and scanning electron microscopy. The sorption isotherms of PAHs to raw biosorbents were apparently linear, and were dominated by a partitioning process. In comparison, the isotherms of the hydrolyzed biosorbents displayed nonlinearity, which was controlled by partitioning and the specific interaction mechanism. The sorpfion kinetic curves of PAHs to the raw and modified plant residues fit well with the pseudo second-order kinetics model. The sorption rates were faster for the raw biosorbents than the corresponding hydrolyzed biosorbents, which was attributed to the latter having more condensed domains （i.e., exposed aromatic core）. By the consumption of the amorphous cellulose component under acid hydrolysis, the sorption capability of the hydrolyzed biosorbents was notably enhanced, i.e., 6-18 fold for phenanthrene, 6-8 fold for naphthalene and pyrene and 5-8 fold for acenaphthene. The sorpfion coefficients （Kd） were negatively correlated with the polarity index [（O＋N）/C], and positively correlated with the aromaticity of the biosorbents. For a given biosorbent, a positive linear correlation between logKoc and logKow for different PAHs was observed. Interestingly, the linear plots of logKoc-logKow were parallel for different biosorbents. These observations suggest that the raw and modified plant residues have great potential as biosorbents to remove PAHs from wastewater.     

Mo-modified Pd/Al2O3 catalysts for benzene catalytic combustion

Mo-modified Pd/Al2O3catalysts were prepared by an impregnation method and tested for the catalytic combustion of benzene. The catalysts were characterized by N2 isothermal adsorption, X-ray diffraction（XRD）, X-ray photoelectron spectroscopy（XPS）, temperatureprogrammed desorption of NH3（NH3-TPD）, H2temperature-programmed reduction（H2-TPR）, and high-angle annular dark-field scanning transmission electron microscopy（HAADF-STEM）. The results showed that the addition of Mo effectively improved the activity and stability of the Pd/Al2O3catalyst by increasing the dispersion of Pd active components, changing the partial oxidation state of palladium and increasing the oxygen species concentration on the surface of catalyst. In the case of the Pd-Mo/Al2O3catalyst,benzene conversion of 90% was obtained at temperatures as low as 190°C, which was 45°C lower than that for similar performance with the Pd/Al2O3catalyst. Moreover, the 1.0% Pd-5% Mo/Al2O3catalyst was more active than the 2.0% Pd/Al2O3catalyst. It was concluded that Pd and Mo have a synergistic effect in benzene catalytic combustion.     

壳聚糖絮凝微藻的研究进展及展望

微藻作为一种卓越的生物资源已经受到全世界的关注。从藻液中采收微藻一直是个瓶颈。壳聚糖是目前被普遍认可的安全有效的微藻絮凝剂,通过对其进行适当的改性,可以更好地提高絮凝效率。文章综述了壳聚糖以及改性壳聚糖絮凝剂的絮凝机理和性能,并对壳聚糖絮凝微藻研究的发展趋势进行了展望。     

颗粒活性炭改性同步去除水中铅、铬的研究

为提高颗粒活性炭同步去除水中铅、铬污染物的能力,分别使用氧化铁、氧化锰、十六烷基三甲基溴化铵(HTMAB)和氯化十六烷基吡啶(CPC)制作改性活性炭(Fe Cl3-AC,Mn O2-AC,HTMAB-AC,CPC-AC)。通过测定4种改性活性炭表面的等电点p H、酸碱官能团和扫描电子显微镜图像,研究4种改性活性炭吸附效果优异并分析其中原因。结果表明:Fe Cl3-AC同步去除铅、铬效果最佳,HTMAB-AC、CPC-AC与原炭效果持平,Mn O2-AC效果还不及原炭。从等电点p H来看,Fe Cl3-AC拥有较低的等电点p H,有利于静电吸附铬酸根阴离子团;从酸性基团数目来看,Fe Cl3-AC表面拥有较多酸性官能团,有利于离子交换作用,保证了对铅离子较高的吸附效率;从SEM来看,Fe Cl3-AC上Fe Cl3负载均匀,有效改善了活性炭表面特性,有利于吸附。     

改性沸石对餐厨垃圾释放的恶臭气体吸附研究

通过课题组的前期调研发现,餐厨垃圾处理过程中释放出的恶臭气体以氨气和甲硫醇居多,实验以改性沸石为吸附剂对混合恶臭气体甲硫醇和氨气进行吸附性能变化研究。利用不同浓度的磷酸溶液对沸石进行浸渍改性,考察烘干温度、浸渍浓度和浸渍时间对沸石结构和吸附性能的影响,探讨吸附机理。实验结果表明,改性之后的沸石物理结构发生了变化,烘干温度、浸渍浓度和浸渍时间对吸附效果的影响均呈现先增大后减小的趋势,沸石比表面积和表面酸含量共同作用于改性沸石对混合气体的吸附能力,其中在烘干温度为70℃、浸渍浓度为15%和浸渍时间为2.5 h条件下改性的沸石对混合气体的吸附能力最佳,此时氨气和甲硫醇的吸附量分别为224.727和4.527 mg/g,与未改性沸石相比增大了79.3%和143%。     

胡敏酸改性膨润土钝化污染土壤Pb&Cd及机理

通过盆栽试验,探讨了胡敏酸改性膨润土对重金属铅、镉污染土壤的钝化效果及机理。结果表明,铅、镉污染土壤中施加胡敏酸改性膨润土能显著降低小白菜中Pb、Cd的含量,在添加Cd(3 mg/kg)/Pb(250 mg/kg)污染土壤和Cd(1 0 mg/kg)/Pb(5 00 mg/kg)污染土壤上小白菜地上部分Pb含量分别比对照降低19.08%和47.91%,Cd含量分别比对照降低9.79%和14.89%。土壤本身对添加的重金属Pb/Cd有一定的耐受力和自我净化能力,在添加重金属后,添加的Pb/Cd元素大部分直接转化为较为稳定的碳酸盐结合态和铁锰氧化结合态。相关性分析显示小白菜的鲜重与小白菜Pb/Cd含量极显著负相关,进一步说明胡敏酸改性膨润土是通过提高小白菜的生物量,从而降低Pb/Cd在小白菜中的含量。