天然沸石对海水中氨氮的吸附特性

以天然沸石为吸附剂进行吸附海水中氨氮实验研究,考察了沸石粒径、反应液pH值和盐度对吸附效果的影响,对吸附动力学和热力学特性进行了探讨。实验结果表明,天然沸石粒径越小,越有利于其对海水中氨氮的吸附,反应液pH值对氨氮吸附影响较小,但在碱性条件下NH+4能够与海水中的Mg2+、PO3-4反应生成Mg NH4PO4·6H2O沉淀,导致反应液氨氮平衡浓度降低。随着海水盐度梯度增加,天然沸石对氨氮的吸附量呈显著下降趋势。天然沸石对海水中氨氮的吸附是快速吸附、缓慢平衡的过程,吸附过程较好地满足准二级动力学模型。吸附等温线更好地符合Langmuir等温吸附方程,通过热力学计算发现,△G0为负值,而△H0和△S0均为正值,说明天然沸石对海水中氨氮的吸附是吸热易发过程。     

页岩陶粒对水体中磷的吸附作用及动力学

研究了页岩陶粒对水溶液中磷的等温吸附特征,考察了溶液磷初始浓度、吸附剂粒径和温度对吸附作用的影响,利用一级和准二级动力学模型对页岩陶粒吸附除磷动力学过程进行了分析.结果表明,页岩陶粒对磷的等温吸附特征符合Langmuir方程,最大磷吸附量为131.58 mg/kg.溶液磷初始浓度越大,温度越高,页岩陶粒对磷的吸附量越大.随着吸附剂粒径的减小,一级动力学速率常数增大,吸附平衡时间缩短.尽管一级和准二级动力学模型都能反映不同条件下页岩陶粒的吸附除磷动力学过程,但相比较而言,准二级动力学对该过程的描述更为准确,由该模型估算出页岩陶粒对磷的平衡吸附量qe,其误差基本小于13.00%.     

矿化垃圾对渗滤液的吸附试验及其动力学研究

应用矿化垃圾吸附处理实际渗滤液中的COD和氨氮,分别研究了粒径、投加量、pH对吸附效果的影响,并在最佳吸附条件下对吸附过程进行动力学分析。结果表明,反应360min时,COD吸附达到平衡,去除率达到69.01%,单位吸附量为87.91mg/g;反应510min时,氨氮吸附达到平衡,去除率达到71.45%,单位吸附量为16.86mg/g,这表明用矿化垃圾作为吸附剂吸附垃圾渗滤液中的COD和氨氮是可行的;用COD和氨氮动力学数据拟合吸附过程,均符合伪二级动力学方程。     

基于除磷效果的人工湿地基质组合筛选及影响因素的动力学分析

选取6种人工湿地基质进行磷吸附实验,利用Langmuir和Freundlich两种等温吸附模型对6种基质的磷吸附能力进行对比,将吸附效果最佳的3种基质按不同比例混合构建混合基质,筛选磷吸附效果最佳的混合基质在不同浓度、温度和粒径下进行磷吸附动力学分析。结果表明,沸石、陶瓷滤料和石灰石以质量比3:1:1配比时获得的混合基质(FTS311)除磷效果最优,提高温度、增加进水TP质量浓度、减小基质粒径均有助于提高FTS311对TP的平衡吸附量,温度越高,一级动力学吸附速率常数越低,吸附反应进行的越慢,进水TP浓度越小越有利于磷的吸附去除,粒径变化对TP的吸附动力学速率影响不大,但增加FTS311粒径会降低其对TP的吸附量。     

麦秆对水中扑草净的吸附性能研究

农业秸秆富含纤维素、木质素等组分,是良好的吸附材料。采用麦秆作为吸附剂,其对浮油及溶解油具有良好吸附效果。选用麦秆为吸附剂,探究其对扑草净的吸附效果。主要考察麦秆粒径、投加量、振荡频率、扑草净初始质量浓度4种因素对吸附的影响,研究麦秆对扑草净的吸附等温线和吸附动力学过程,并采用正交实验对影响吸附的因素进行优化。结果表明:(1)麦秆可有效降低废水中扑草净浓度,在振荡频率150r/min、麦秆粒径250~500μm、投加量0.500 0g、吸附300min时,扑草净初始质量浓度由5.20mg/L降至3.22mg/L,去除率为38.08%。(2)单因素吸附平衡实验表明,随麦秆粒径增加(150~4 000μm),其比表面积减小,平衡吸附量随之减小,麦秆粒径150~250μm时平衡吸附量为0.192 0 mg/g,显著大于1 700~4 000μm时的平衡吸附量(0.059 3mg/g);随麦秆投加量增加(0.100 0~1.000 0g),去除率随之提高,平衡吸附量与之相反,0.100 0g投加量时平衡吸附量为0.222 0mg/g;随着振荡频率加剧,麦秆在水中扩散增强,与扑草净碰撞几率增加,振荡频率250r/min时平衡吸附量为0.191 0mg/g;随扑草净初始质量浓度增加(1.03~6.18mg/L),平衡吸附量随之增加,初始质量浓度为6.18mg/L,平衡吸附量为0.226 0mg/g。(3)分别以Henry型、Langmuir型、Freundlich型吸附等温式进行拟合,资料表明,以Henry型吸附等温式较适宜描述该吸附过程。(4)采用伪一级动力学方程、伪二级动力学方程、Elovich经验方程、颗粒内扩散方程分析吸附动力学过程,以伪二级动力学方程较符合。(5)在振荡频率为150r/min、初始质量浓度为2.00mg/L、麦秆粒径为250~500μm、投加量为0.700 0g时,扑草净最佳去除率为47.80%。     

斜发沸石处理氨氮废水

以斜发沸石为吸附剂处理氨氮废水,研究了斜发沸石粒径、反应时间、废水pH、废水氨氮初始浓度、斜发沸石用量对吸附的影响,分析了斜发沸石的吸附动力学和热力学特征。结果表明,在298 K下,当斜发沸石用量为7 g/100 mL,沸石粒径小于74μm,废水氨氮初始浓度为200 mg/L,pH为7,吸附时间为3 h时,废水中氨氮的去除率可达到92.71%,斜发沸石吸附氨氮符合拟二级动力学方程。在温度为298~318 K之间时,吸附等温线更好地符合Freundlich方程。在此基础上,热力学计算发现,ΔH00、ΔG00、ΔS00,表明氨氮在斜发沸石上的吸附是自发吸热过程,以物理吸附为主。     

建筑垃圾对雨水径流中Cu的吸附特性

以砖混建筑垃圾为研究对象,采用人工模拟雨水,通过静态和动态吸附实验研究了不同粒径粒级建筑垃圾对雨水径流中Cu的吸附效果。结果表明,准二级动力学模型比准一级动力学模型能更好地描述建筑垃圾对Cu的吸附过程;Freundlich等温模型能较好地拟合其等温吸附过程;不同粒径粒级建筑垃圾均对雨水径流中的Cu具有较好的净化效果,去除率均超过90%,粒径粒级越小,对Cu的净化效果越好,但其渗透性能越差;建筑垃圾的粒径粒级对Cu的吸附平衡时间、吸附速率和吸附量具有重要影响,粒径粒级2.36~4.75 mm的建筑垃圾对Cu的平衡吸附速率和平衡吸附量最大,分别为4.1μg/min和12.4μg/g。     

不同粒级的煤胶体对汞的吸附动力学

为了解煤胶体对汞的吸附动力学特性,采用沉降法和离心法提取由霍林河采集煤样中的煤胶体(0~2、2~5、5~10μm),采用批量实验对不同粒径和不同温度下,煤胶体对汞的吸附动力学特性进行了研究。结果表明:煤胶体对汞的吸附反应为吸热反应,以化学吸附为主,其吸附动力学过程可用准二级动力学方程和双室模型很好的描述。煤胶体对汞的平衡吸附量随粒径的减小和温度的升高而逐渐增大,不同粒径煤胶体受温度影响的大小关系为(5~10)μm(2~5)μm(0~2)μm。煤胶体对汞的吸附从初始阶段到达到表观平衡,快速吸附均占据优势。在表观平衡时,粒径越大,快速吸附的贡献率越小。煤胶体对汞的吸附反应速率随温度升高和粒径减小而增大。温度越高、粒径越小,快速吸附速率越大;而慢速吸附速率则随温度升高和粒径增大而增大。汞在0~2μm和2~5μm煤胶体上的吸附过程,粒内扩散是其主要控速步骤;而对于5~10μm的煤胶体,膜扩散是主要控速步骤。     

磁性复合有机海泡石吸附双酚A特性及动力学

通过对天然海泡石进行磁改性与有机改性,制得新型水质净化功能材料——磁性复合有机海泡石(MCOS),采用振动样品磁强计对其进行了表征,考察了其在不同pH、投加量、初始浓度、时间和温度下对水中双酚A(BPA)的吸附效果,并研究了其对BPA的吸附动力学。结果表明:MCOS具有超顺磁性,饱和磁化率为14.1 emu·g~(-1);MCOS对BPA的最佳吸附pH为10.0;当BPA的初始浓度为30 mg·L~(-1)时,MCOS的适宜投加量为1.0 g·L~(-1);MCOS对BPA的平衡吸附时间为90 min;随着反应温度的升高,MCOS对BPA的吸附量减小。准二级反应动力学模型可以很好地描述MCOS对BPA的吸附动力学行为。颗粒内扩散模型表明,在BPA的吸附初始阶段发生了颗粒内扩散。吸附活化能为11.7 k J·mol~(-1),表明吸附过程可能由化学吸附控制。     

废弃啤酒酵母吸附水中酸性湖蓝A的实验研究

以废弃啤酒酵母作为吸附剂,研究了不同条件下吸附水中酸性湖蓝A(ATBA)的特性,并对吸附机理进行了探讨。结果表明:溶液pH值对ATBA的吸附有显著影响,最佳pH值为2.0;废弃啤酒酵母吸附ATBA是一个快速的过程,40 min即到达平衡,随着初始浓度的增加,吸附量越大,吸附达到平衡所需的时间越长,动力学数据较好地符合拟二级动力学方程;ATBA在废弃啤酒酵母上的平衡吸附较好地符合Langmuir模型,最大吸附量随着温度的升高而增加,在40℃时达最大8.468×10-4mol/g(585.14 mg/g);吸附过程是一个自发、吸热的过程;废弃啤酒酵母上氨基、酰胺基、羧基和磷酸基在吸附ATBA的过程中起主要作用。     

Effect of deposit age on adsorption and desorption behaviors of ammonia nitrogen on municipal solid waste

Ammonia nitrogen pollution control is an urgent issue of landfill. This research aims to select an optimal refuse for ammonia nitrogen removal in landfill from the point of view of adsorption and desorption behavior. MSW (municipal solid waste) samples which deposit ages were in the range of 5 to 15 years (named as R₁₅, R₁₁, R₇, and R₅) were collected from real landfill site. The ammonia nitrogen adsorption behaviors of MSW including equilibrium time, adsorption isotherms, and desorption behaviors including equilibrium time were determined. Furthermore, the effects of pH, OM, Cu(II), Zn(II), and Pb(II) on adsorption and desorption behavior of ammonia nitrogen were conducted by orthogonal experiment. The equilibrium time of ammonia nitrogen adsorption by each tested MSW was very short, i.e., 20 min, whereas desorption process needed 24 h and the ammonia nitrogen released from refuses was much lesser than that adsorbed, i.e., accounted for 3.20 % (R₁₅), 14.32 % (R₁₁), 20.59 % (R₇), and 20.50 % (R₅) of each adsorption quantity, respectively. The maximum adsorption capacity estimated from Langmuir isotherm appeared in R₁₅-KCl, i.e., 25,000 mg kg^?1. The best condition for ammonia nitrogen removal from leachate was pH >7.5, OM 23.58 %, Cu(II) <5 mg L^?1, Zn(II) <10 mg L^?1, and Pb(II) <1 mg L^?1. Ammonia nitrogen in landfill leachate could be quickly and largely absorbed by MSW but slowly and infrequently released. The refuse deposited for 15 years could be a suitable material for ammonia nitrogen removal.     

镇江斜发沸石对氨氮的吸附动力学及热力学研究

采用静态平衡法,开展了镇江斜发沸石对水中氨氮的吸附动力学和热力学研究.结果表明,吸附量随反应温度升高而增加,斜发沸石对氨氮吸附符合Freundlich等温线方程,对氨氮吸附实验数据与准二级动力学模型拟合更好(R2＞0.998),热力学参数吸附焓变△H=18.26 kJ/mol,熵变△S=0.0632 kJ/kmol,对...     

沸石改性及其去除水中氨氮的实验研究

通过实验研究了沸石改性条件及其对水中氨氮吸附去除的影响。结果表明，加热改性与无机酸改性不能显著提高沸石对氨氮的吸附量。利用NaOH改性的最佳浓度为1 mol/L，此条件下对氨氮吸附量可提高到650.68 mg/kg，为天然沸石的2.82倍。利用无机盐改性时，对氨氮吸附效果最好的是NaCl改性沸石，其次为KCl改性沸石与CaCl₂改性沸石。随着NaCl溶液浓度和改性时间的增加，改性沸石对氨氮的吸附量显著增加，可达天然沸石的3～4倍；在NaCl浓度为150 g/L与改性时间为18 h条件下，改性沸石对氨氮吸附量可达887.35 mg/kg，为天然沸石的3.84倍。     

黄河兰州段、白银段重金属污染的磁学指标初探

对黄河兰州段、白银段的水样及沉积物样进行了环境磁学研究,并对部分样品进行了重金属含量分析.结果表明,污水的输入对河水的磁化率产生影响,且磁化率变化因污染源而异;亚铁磁性矿物主导了沉积物的磁性特征.重金属含量与磁参数的相关性均不显著,但在黄河白银段东大沟以下河段,重金属含量与非磁滞剩磁(ARM)、ARM/SIRM(SIRM为饱和等温剩磁)、频率磁化率(Xfd%)等磁参数有同步增强趋势,可能与细磁性晶粒对重金属的吸附作用有关.综合分析磁参数与重金属含量变化发现,河水Xfd%和ARM/SIRM可作为衡量部分重金属污染程度的参数.     

天然沸石颗粒对NH4+动态吸附过程中的离子交换特性研究

采用天然斜发沸石颗粒,进行了沸石吸附水溶液中NH4+的动态吸附实验研究.实验结果表明,沸石颗粒粒径、沸石床高度、上升流速、进水氨氮浓度、进水水质等因素对沸石颗粒吸附NH4+有着明显的影响,在工程实践应用时,要根据动态吸附实验结果选择合适的设计及运行参数.离子交换机理研究表明,Na+首先被交换出来,随着反应进行,Ca2+...     

北运河表层沉积物对重金属Cu、Pb、Zn的吸附

首先分析了北运河6个采样点表层沉积物中重金属含量及相关基本特征。通过实验室模拟实验,利用分配系数Kd评价沉积物对重金属Cu、Pb、Zn的吸附特性,进一步考察了水体pH变化和有机质对重金属在北运河沉积物上吸附的影响。结果表明,沉积物中重金属的含量顺序为Zn>Cu>Pb,去除有机质后,沉积物对重金属的吸附能力显著降低,但各采样点中的重金属含量,沉积物对重金属吸附能力,以及沉积物中的有机质含量并没有明显相关性,这可能是因为不同采样点中有机质种类与结构不同导致的。总之,北运河沉积物对Pb有很强的吸附能力,其次是Cu和Zn,而且,Cu、Zn、Pb的吸附量随着pH的升高逐渐增大,水体pH值对于Zn的吸附影响更大。     

Seasonal and spatial distribution of nonylphenol in Lanzhou Reach of Yellow River in China

Nonylphenol (NP) is known as an endocrine disruptor and consequently has drawn much environmental concern. This study focused on seasonal variation and spatial distribution of NP in various matrices including water, suspended particles, and sediment taken from Lanzhou Reach of Yellow River in China. NP was measured in July and November in 2004. Concentrations of NP in water ranged from 34.2 to 599.0 ng/l, in suspended particles from 49.6 to 2835.2 ng/g dry wt, and in sediment from 38.4 to 863.0 ng/g dry wt. In terms of most water and suspended particles samples, concentrations were higher in warmer seasons than in colder seasons. Good linear correlations (R(2)=0.90 in July, R(2)=0.97 in November) were obtained for NP concentrations between water and suspended particles. In terms of sediment samples, concentrations were higher in November than in July, probably due to greater deposition of suspended particles. Reasonable linear correlations (R(2)=0.60 in July, R(2)=0.79 in November) were obtained for NP concentrations between water and sediment.     

海水改性沸石处理氨氮废水

沸石因具有独特的架状结构而表现出良好的选择吸附和离子交换性能,在废水处理中被广泛应用,但吸附容量偏低,需要进行改性。针对天然沸石的局限性,研究了不同改性方法对氨氮吸附的影响,确定了最佳的沸石改性方法,并进行了吸附等温模型,吸附动力学研究。结果表明,采用高温300℃焙烧后再用预处理后的海水浸泡24 h改性沸石去除氨氮效果最佳。当活化沸石投配量为10 g/L,接触时间为150 min,进水氨氮浓度为37.91 mg/L时,沸石对氨氮吸附容量为4.08 mg/g,氨氮去除率为90.45%;沸石及改性沸石对氨氮的吸附等温线符合Langmuir方程和准一级动力学方程。用海水来改性沸石的方法,不仅可提高沸石对氨氮的吸附容量和吸附速度,而且无任何添加药剂,具有简单易行、费用低廉的优点,为沸石在水处理工程中的应用提供技术支撑。     

Biodegradation of polycyclic aromatic hydrocarbons in the natural waters of the Yellow River: effects of high sediment content on biodegradation

The contamination of polycyclic aromatic hydrocarbons (PAHs) has become one of the major problems in the Yellow River of China. As the Yellow River is the most turbid large river in the world, it remains unknown to which extent the high suspended sediment content in the river may affect the fate and effect of PAHs. Here we report the effect of sediment on biodegradation of chrysene, benzo(a)pyrene and benzo(g,h,i)perylene with phenanthrene as a co-metabolism substrate in natural waters from the Yellow River. Biodegradation kinetics of the PAHs in the river water with various levels of sediment contents were studied in the laboratory by fitting with a biodegradation kinetics model for organic compounds not supporting growth. The results indicated that the biodegradation rates of PAHs increased with the sediment content in the water. When the sediment contents were 0, 4 and 10 g/l, the biodegradation rate constants of chrysene with the initial concentration of 3.80 microg/l were 0.053, 0.084 and 0.111 d(-1), respectively. Further studies suggested the enhanced biodegradation rate in the presence of sediment was caused by the following mechanisms: (1) the population of PAH-degrading bacteria in the water system was found to increase with the sediment content; the bacteria population on sediment phase was far greater than that on water phase during the cultivation process; (2) the sorption of PAHs on the sediment phase was well described by the dual adsorption-partition model. Although the sorption capacity of PAH per unit weight of sediment decreased with the increase of the sediment content, the amount of sorbed PAH increased with the sediment content; and, (3) the desorption of PAHs from the solid phase led to a higher concentration near the water-sediment interface. Since the bacteria were also attached to the interface, this resulted in an increased contact chance between the bacteria and PAHs.     

Polycyclic aromatic hydrocarbons in the surface sediments from Yellow River, China

Fourteen surface sediment samples were collected from Lanzhou Reach of Yellow River, China in July 2005. The concentrations of 16 priority polycyclic aromatic hydrocarbons (PAHs) were determined by gas chromatography equipped with a mass spectrometry detector (GC-MS). Total concentrations of the PAHs ranged from 464 to 2621 ng/g dry weight. Sediment samples with the highest PAH concentrations appeared at the downstream of Lanzhou City, where there was the biggest wastewater discharge pipeline from Lanzhou Oil Refinery Factory and Lanzhou Chemical Industry Company. Municipal sewage also contributed to the PAH contamination in the sediments. A correlation existed between the sediment organic carbon content (f(oc)) and the total PAH concentrations (r(2)=0.57), suggesting that sediment organic carbon content played an important role in controlling the PAHs levels in the sediments. According to the observed molecular indices, PAHs contamination in Lanzhou Reach of Yellow River originated both from the high-temperature pyrolytic processes and from the petrogenic source, showing a mixed PAH input pattern, which was also confirmed by the results of a principal component analysis (PCA). According to the numerical effect-based sediment quality guidelines (SQGs) of the United States, the levels of PAHs at most studied sites in Lanzhou Reach of Yellow River should not exert adverse biological effects. Although at some sites (such as S10, S12, etc.) one PAH may exceed the effects range low (ERL), individual PAH did not exceed the effects range median (ERM). The results indicated that sediments in all sites should have potential biological impact, but should have no impairment.