首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到19条相似文献,搜索用时 93 毫秒
1.
胡敏酸对高岭石吸附铜离子的强化作用   总被引:4,自引:2,他引:4       下载免费PDF全文
考察酸性条件特别是在近中性 pH范围内胡敏酸对高岭石吸附铜离子的强化作用。研究表明 ,胡敏酸的加入可以提高高岭石对铜离子的吸附率 ,甚至在pH 5~ 6附近高岭石对铜离子的吸附率也从约 5 0 %提高到约 6 5 %。当 pH <4时 ,由于高岭石表面铝的高溶出或胡敏酸阴离子基团离解程度降低等因素 ,使其表面对胡敏酸的吸附率有所降低 ,但与高岭石样品相比 ,胡敏酸高岭石复合体对铜离子的吸附仍然有明显的增加。胡敏酸对高岭石吸附铜离子的强化机制是 ,高岭石端面形成了Al—HA—Cu三元配合物 (B型 ) ,与传统的诸如pH、离子强度与离子初始浓度等介质条件影响不同。在 pH >7时高岭石端面及腐殖质基团去质子化增强 ,因而静电排斥降低了高岭石对胡敏酸的吸附 ,从而使得胡敏酸对铜离子在高岭石表面上的吸附作用有所减弱 ,此时可能出现胡敏酸铜及氢氧化铜的沉淀 ,铜离子的表观吸附率可能不会有明显变化  相似文献   

2.
高岭石对重金属离子的吸附机理及其溶液的pH条件   总被引:14,自引:0,他引:14  
高岭石对Cu^2+,Pb^2+离子的吸附实验及高岭石的溶解实验表明,高岭石对重金属离子的吸附有别于石英单一表面配位模式,离子交换和表面配位模式并存,并随溶液pH由酸性往碱性的变化发生规律性的演替:pH<6.5时主要表现为外圈层配位的离子交换吸附,且在pH<4时由于受到高岭石表层中铝的高溶出及溶液中较高离子强度的影响,高岭石对Cu^2+,Pb^2+离子的吸附率较低,pH为5~6时由于高岭石端面的荷电性为近中性,吸附率则有明显的提升并且表现为一个吸附平台;pH>6.5时离子交换和表面配位均为重要吸附机制,pH再升高时沉淀机制则起着重要作用。研究表明,pH调控高岭石-水界面溶解与质子化-去质子化反应过程,并影响着Cu^2+,Pb^2+离子的吸附行为。最后采用Sverjensky(1993)表面配位的物理模型对吸附结果作了描述。  相似文献   

3.
蒙脱石/胡敏酸复合体对重金属离子吸附实验研究   总被引:2,自引:0,他引:2       下载免费PDF全文
主要研究了蒙脱石吸附胡敏酸后形成的复合体对Cu2 、Cd2 、Cr3 3种重金属离子的吸附.实验结果表明:用胡敏酸对蒙脱石改性后能提高其对3种重金属离子的吸附性能,胡敏酸浓度越大,吸附性能提高程度越大,3种重金属离子的Langmuir吸附等温线线性相关都能达到0.99以上.蒙脱石/胡敏酸复合体对3种重金属离子的吸附量都随pH值的升高而增加,随离子强度的增加而减小.另外还对其吸附动力学进行了研究,发现可用Elovicb方程和双常数方程对吸附过程进行较好地拟合.  相似文献   

4.
重金属离子在胡敏酸-高岭石复合体上的吸附   总被引:6,自引:0,他引:6  
本文研究了胡敏酸存在下高岭石对重金属离子的吸附行为。实验结果表明:①胡敏酸和Cu2 溶液按先后顺序或同时加入高岭石中反应,在Cu2 平衡浓度<10mg/L时,3种加入顺序对Cu2 的吸附量基本相同,当Cu2 平衡浓度>10mg/L时,(K Cu) HA和(K Cu HA)两种加入顺序对Cu2 的吸附量比(K HA) Cu的略大。②在pH=5时,胡敏酸-高岭石复合体对Cu2 的吸附量明显大于纯高岭石。这是由于胡敏酸含有大量的羧基和酚羟基等活性基团,吸附在高岭石上的胡敏酸增加了其表面吸附位,在复合体表面形成了S—HA—Cu三元配合物,且Cu2 的吸附量与复合体中胡敏酸的含量在一定范围内成正相关;③溶液pH值在4~7之间变化可调控复合体对Cu2 的吸附机制。④在Cu2 和Cd2 共存时,随着金属离子初始浓度的增大,Cu2 的吸附量呈直线上升,而Cd2 的吸附量增加缓慢,表明复合体对Cu2 的吸附能力比对Cd2 强。  相似文献   

5.
粘土矿物对胡敏酸的吸附行为研究   总被引:2,自引:0,他引:2  
以蒙脱石和高岭土为吸附剂,分别与胡敏酸反应,研究胡敏酸在蒙脱石和高岭石上的吸附行为,并运用红外光谱、热重和Zeta电位等分析方法,表征分析了吸附前后的粘土矿物.实验结果表明,吸附过程受胡敏酸的初始浓度和pH值等因素影响;胡敏酸对粘土矿物的吸附等温线符合Freundlich等温方程;表征分析表明两种粘土矿物与胡敏酸复合体的红外光谱出现了C-H振动吸收峰;粘土矿物与胡敏酸结合后Zeta电位下降.实验的结果将有助于进一步探明环境中粘土矿物对胡敏酸的吸附机理.  相似文献   

6.
铬酸根离子在羟基铁离子-蒙脱石体系中的吸附行为研究   总被引:8,自引:0,他引:8  
采矿、电镀、制革等行业废物排放及含Cr矿物风化可造成一些地区土壤和地下水的Cr污染 .Cr主要以三价和六价形式存在 ,其中Cr(Ⅵ )有强的迁移能力 ,对动植物均有很强的毒害性 .研究了在氧化、酸性条件下 ,土壤及土壤溶液中的蒙脱石和羟基铁离子共存时对铬酸根离子 (主要以HCrO2 - 4和CrO2 - 4等Cr(Ⅵ )形式存在 )的吸附行为 .进行了蒙脱石、羟基铁离子、Cr(Ⅵ )离子添加顺序不同的 3个系列的实验 ,重点研究了Cr的初始质量浓度、溶液 pH值、环境温度、吸附时间、溶液离子强度对 3个系列Cr吸附行为的影响 ,并与羟基铁离子体系进行了对比 .结果表明 ,蒙脱石 -羟基铁离子体系的Cr吸附能力明显强于蒙脱石而低于羟基铁离子 ,其Cr吸附率随Cr初始质量浓度、温度的升高和吸附时间的延长而降低 ,随离子强度的升高而升高 ,而pH值对不同系列的Cr吸附率有不尽相同的影响 .  相似文献   

7.
铬酸根离子在羟基铁离子一蒙脱石体系中的吸附行为研究   总被引:2,自引:0,他引:2  
采矿,电镀,制革等行业废物排放及含Cr矿物风化可造成一些地区土壤和地下水的Cr污染,Cr主要以三价和六价形式存在,其中Cr(Ⅵ)有强的迁移能力,对动植物均有很强的毒害性。研究了在氧化,酸性条件下,土壤及土壤溶液中的蒙脱石和羟基铁离子共存时对铬酸根离子(主要以HCrO4^2-)和CrO4^2-等Cr(Ⅵ)形式存在)的吸附行为,进行了蒙脱石,羟基铁离子,Cr(Ⅵ)离子添加顺序不同的3个系列的实验,重点研究了Cr的初始质量浓度,溶液pH值,环境温度,吸附时间,溶液离子强度对3个系列Cr吸附行为的影响,并与羟基铁离子体系进行了对比。结果表明,蒙脱石-羟基铁离子体系的Cr吸附能力明显强于蒙脱石而低于羟基铁离子,其Cr吸附率随Cr初始质量浓度,温度的升高和吸附时间的延长而降低,随离子强度的升高而升高,而pH值对不同系列的Cr吸附率有不尽相同的影响。  相似文献   

8.
高岭石、蒙脱石和伊利石三种粘土矿物对五氯苯酚的吸附实验研究表明,其pH等温线为峰型曲线,三种矿物在pH<3时基本不吸附,在pH≈5或6时有一吸附峰,此后在pH≈6.5或7时有一低值,当pH>7时,高岭石和蒙脱石两矿物吸附量又表现出上升趋势。三种矿物表面位的化合态分析证明,吸附属于表面络合型,其峰型特征起因于矿物表面两种羟基位的化合态浓度和五氯苯酚的离子态浓度均随溶液pH变化而变化。  相似文献   

9.
高岭土/胡敏酸复合体对重金属离子吸附解吸实验研究   总被引:2,自引:0,他引:2  
本文利用高岭土对胡敏酸吸附形成稳定的有机一无机络合物,研究了高岭土/胡敏酸复合体对Cu^2+、Cd^2+和Cr^2+的吸附。结果表明,胡敏酸对高岭土改性后能提高上述三种重金属离子的吸附性能,高岭土/胡敏酸复合体对三种重金属离子的吸附量都随pH值的升高而增加,随离子强度的增加而减小。本文还研究了高岭土/胡敏酸复合体对上述三种重金属离子的吸附动力学,发现吸附过程可用Elovich方程和一级动力学方程进行较好的拟合。  相似文献   

10.
Cu2+和Cd2+在蒙脱石-胡敏酸复合体上的吸附及其竞争   总被引:1,自引:0,他引:1  
土壤和水体中的腐殖酸常常与粘土矿物紧密结合成为特殊的复合体.这种粘土矿物-腐殖酸复合体对重金属的吸附作用既有别于粘土矿物,更有别于腐殖酸.以蒙脱石和胡敏酸分别作为粘土矿物和腐殖酸的代表,通过一系列实验研究了Cu2+、Cd2+在单一体系和共存体系条件下在蒙脱石-胡敏酸复合体上的吸附作用,同时探讨了二者的竞争特点.实验结果表明,在单一体系条件下,蒙脱石-胡敏酸复合体对Cu2+的吸附量始终明显大于Cd2+,且二者的吸附量均随其初始浓度的增大而呈线性增大;而在Cu2+和Cd2+共存体系条件下,Cu2+的吸附量始终略大于Cd2+的吸附量,即复合体对Cu2+的吸附有较好的选择性.在吸附过程中,复合体中的蒙脱石与Cd2+和Cu2+的阳离子交换作用处于主导地位.无论是在单一体系还是在共存体系中,Cd2+优先替换电价相同而半径略大的Ca2+,而Cu2+则优先替换半径相近、电价低的Na+.因此,Cd2+的存在使Cu2+在复合体上的吸附量明显地减小,而Cu2+的存在对Cd2+的吸附几乎没有影响.这些实验结果将有助于深入探讨重金属离子在土壤、水体等环境中的迁移-固定行为.  相似文献   

11.
为探讨天然黏土矿物及有机质对纳米乳化油在多孔介质中迁移滞留的影响,本文选取高岭石和蒙脱石这两种黏土矿物以及有机质的典型代表腐殖酸,开展了单一矿物、有机质及有机矿质复合物对纳米乳化油的吸持批实验研究,并运用比表面积全分析、扫描电镜(SEM)、傅里叶红外光谱(FTIR)、X射线衍射(XRD)等技术手段探讨了吸持机理。实验结果表明,介质对纳米乳化油的吸持均符合Freundlich模型;单一矿物及腐殖酸对纳米乳化油的吸持能力表现为:蒙脱石>腐殖酸>高岭石,有机矿质复合样品的吸持能力表现为:蒙脱石-腐殖酸>高岭石-腐殖酸,且均大于其对应的单一样品,出现了“1+1>2”的现象,表明介质组成越复杂,对纳米乳化油的吸持滞留程度越大。进一步分析证实,纳米乳化油主要通过氢键和疏水作用吸持在矿物和腐殖酸表面,表面结构性质是高岭石和蒙脱石吸持过程中的主导因素,因此蒙脱石具有更强的吸持能力,而腐殖酸的吸持主要通过颗粒间聚集作用来实现;对于复合样品,吸持主要通过氢键、配体交换和疏水作用结合来实现。腐殖酸与矿物的复合会增加吸持位点并且增强矿物表面疏水性,从而促进吸持。腐殖酸与纳米乳化油的共吸...  相似文献   

12.
高岭石和硅/铝-氧化物对腐殖酸的吸附实验研究   总被引:10,自引:6,他引:10       下载免费PDF全文
矿物结合的腐殖质可改变矿物的表面性质,矿物对腐殖酸的吸附强度与矿物的吸附位性质、密度、荷电性及比表面积有关.若按比表面积计算,矿物对腐殖酸的吸附强度顺序为氢氧化铝>高岭石>石英;按单位质量计算,吸附强度顺序为高岭石>氢氧化铝>石英.研究表明,矿物表面活性受水溶液pH值的调控,且当pH值在4~7时,上述3种矿物对腐殖酸的吸附机理为石英主要表现为氢键作用;氢氧化铝主要表现为配体交换表面配位作用;高岭石表现为多种形式并存,包括氢键、配体交换表面配位和疏水性作用以及金属离子桥键作用.  相似文献   

13.
Pharmaceuticals have gained significant attention in recent years due to the environmental risks posed by their versatile application and occurrence in the natural aquatic environment. The transportation and distribution of pharmaceuticals in the environmental media mainly depends on their sorption behavior in soils, sediment?Cwater systems and waste water treatment plants, which varies widely across pharmaceuticals. Sorption of ibuprofen, a non-steroidal anti-inflammatory drug, onto various soil minerals, viz., kaolinite, montmorillonite, goethite, and activated carbon, as a function of pH (3?C11), ionic strength (NaCl concentration: 0.001?C0.5?M), and the humic acid concentration (0?C1,000?mg/L) was investigated through batch experiments. Experimental results showed that the sorption of ibuprofen onto all sorbents was highest at pH 3, with highest sorption capacity for activated carbon (28.5?mg/g). Among the minerals, montmorillonite sorbed more ibuprofen than kaolinite and goethite, with sorption capacity increasing in the order goethite (2.2?mg/g)?<?kaolinite (3.1?mg/g)?<?montmorillonite (6.1?mg/g). The sorption capacity of the selected minerals increased with increase in ionic strength of the solution in acidic pH condition indicating that the effect of pH was predominant compared to that of ionic strength. An increase in humic acid concentration from low to high values made the sorption phenomena very complex in the soil minerals. Based on the experimental observations, montmorillonite, among the selected soil minerals, could serve as a good candidate to remove high concentrations of ibuprofen from aqueous solution.  相似文献   

14.
The fate of Polycyclic Aromatic Hydrocarbons (PAHs) residing in the atmosphere has received enormous attention in recent years due to their mutagenic and carcinogenic risks on human health. In this context, the stability of pyrene (as a representative PAHs) on quartz, alumina, montmorillonite, kaolinite, humic acid and quartz coated with sorbed humic acid was investigated at controlled relative humidity (RH: i.e. 5% and 30%) without light irradiation in order to detect the presence of catalytic effect of mineral surface on PAHs decomposition. The stability of pyrene was found to depend strongly on the physicochemical properties of the substrates. Quartz showed a strong catalytic effect for the decomposition of pyrene even though it was coated with sorbed humic acid. Pyrene sorbed on montmorillonite and humic acid remained stable during the experimental period (i.e. 3 days). Moisture in the experimental cell also affected the stability of pyrene in particular minerals. Especially, pyrene sorbed on alumina was rapidly decomposed at higher RH. However, there were almost no effect in the case of quartz, kaolinite and humic acid. Depending on the physicochemical properties of aerosols and RH, PAHs associated with minerals in the atmosphere would be decomposed and/or stably reside in the atmosphere.  相似文献   

15.
镉在蒙脱石等粘土矿物上的吸附行为研究   总被引:5,自引:0,他引:5  
研究了土壤中主要硅酸盐粘土矿物蒙脱石、伊利石、高岭石、海泡石对重金属镉的吸附行为.结果表明:硅酸盐粘土矿物吸附镉受酸度和离子强度的影响;吸附反应是快反应,能很好地符合Lagergren二级吸附速度方程;优化条件下的高岭石对镉吸附很弱,蒙脱石、伊利石、海泡石对镉的实验饱和吸附容量分别为2.88、1.08、2.82 mg/g,蒙脱石吸附镉更适合Freundlich拟合,伊利石、海泡石对镉的吸附结果更适合Langmuir拟合;相关性分析表明,硅酸盐粘土矿物对镉的饱和吸附容量大小与其理化性质有关,其中矿物中氧化锰含量高低与其对镉饱和吸附容量大小的相关性达到极显著水平.  相似文献   

16.
The adsorption of pentachlorophenol (PCP) onto quartz, kaolinite, illite, montmorillonite and iron oxides has been investigated by batch equilibrium techniques. The pH-dependent isotherms are curves with peak values, the position of which is at about pH = 5-6 depending on the mineral species. Based on distribution of both speciation of surface hydroxyls on minerals and PCP in solution a surface reaction model involving surface complexation and surface electrostatic attraction is presented to fit the pH-dependent isotherms, and both reaction constants are calculated. The results show that on quartz and phyllosilicate minerals the predominant adsorption reaction is surface complexation, meanwhile both of surface electrostatic attraction and surface complexation are involved on the iron oxide minerals. The reaction constants of surface electrostatic adsorption are usually one to three orders in magnitude, larger than that of surface complexation. The concentration-dependent isotherms can be well fitted by Langmnir equation with the correlation coefficient R〉0.93 for kaolinite and iron oxides. The maximum adsorption is found in the order: hematite 〉 lepidocrocite 〉 goethite 〉 kaolinite 〉 quartz 〉 montmorillonite ≈ illite, which can be interpreted by consideration of both reaction mechanism and surface hydroxyl density. The significant adsorption of PCP onto mineral surfaces suggests that clay and iron oxide minerals will play an important role as HIOCs are adsorbed in laterite or latertoid soil, which is widespread in South China.  相似文献   

17.
蒙脱石等粘土矿物对重金属离子吸附选择性的实验研究   总被引:71,自引:6,他引:65  
矿物质与重金属离子间的相互作用已是当今环境科学、矿物学,土壤化学等学科领域研究的热点。通过蒙脱石,伊利石和高龄石在一定的介质条件下对Cu^2+、Pb^2+、Zn^2+、Cd^2+、Cr^3+五种重金属离子的竞争吸附实验研究,阐明了三种粘土矿物对五种重金属离子的吸附选择性。  相似文献   

18.
The adsorption of three copper species, the hydrated cupric ion, bisglycine Cu(II) and a Cu(II)-humic acid complex, on montmorillonite and imogolite at pH 7 was investigated by electron paramagnetic resonance (EPR) spectroscopy. The spectra of the supernatant solutions indicated that adsorption of the glycine complexes was very much less than that of the uncomplexed ion for both minerals and that montmorillonite adsorbed significantly more Cu from the humic acid solution than did imogolite. In every case the adsorbed Cu was characterized by more than one type of chemical environment and the spectral parameters show differences between the adsorbed species depending on their freedom of movement and their mode and site of adsorption. Qualitatively similar spectra were obtained when the uncomplexed ion was adsorbed on either of the mineral species and it is suggested that simple Cu(II) ions were involved and that their coordination environments comprised water molecules and hydroxyl groups. With the bisglycine Cu(II) complexes, the spectra were characterized by two components which may be accounted for by adsorption at two different types of site in the structures. In each case one component had parameters that are similar to those of the bisglycine Cu(II) in the solid state, but the second component in the spectra of the montmorillonite sample was quite different to that obtained with imogolite. The Cu(II)-humic acid complex with montmorillonite gave spectra that were similar to that from copper humate, but with imogolite the spectra from the Cu(II)-humic acid system were similar to those obtained with the uncomplexed Cu(II) ion, indicating that imogolite is able to extract copper from humic acid.  相似文献   

19.
东胜煤系砂岩型高岭土的富集机理   总被引:6,自引:0,他引:6  
通过对东胜含煤地层成煤期沉积环境、古介质等的分析,并用有机吸附实验对高岭石与有机质的吸附关系进行了实验,探讨了东胜砂岩型高岭土的富集机理。结果表明,高岭石在河流环境中的富集成矿与水介质中大量有机质的存在有关,植物分解产生的腐殖质具有很强的吸附性,在pH值>5.5和适量的多价阳离子存在的条件下,介质水中的腐殖质可通过多价阳离子与高岭石和石英相互牢固吸附,形成高岭石-有机质-石英复合体,从而使高岭石能够与石英一起搬运、沉积;某些具有一定疏水性的有机质与矿物的吸附,改变了矿物颗粒表面的亲水性,促进了高岭石的沉积富集。   相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号