铁屑内电解法处理EDTA溶液中络合铜离子

采用批式试验和现代仪器分析研究了铁屑内电解法处理EDTA溶液中络合铜离子,考察了溶液浓度、溶液pH、温度和铁屑粒径等因素对铜离子去除过程的影响.结果表明,铜离子去除过程符合表观一级动力学方程.在pH 2.0～11.0范围内,pH值越低越利于铜离子去除;在酸性条件下溶液pH随内电解进行升高,在碱性条件下溶液pH随内电解进...     

高含沙水体中黄土吸持和释放铜的机理

研究了高含沙体系中不同环境因素条件下黄土中铜的吸持和释放机理.实验结果表明,黄土对铜的专性吸附和对铜的碳酸盐、氢氧化物等的沉淀作用很强,使黄土对铜有很强的吸持能力.黄土中铜的吸持量随着水体离子强度的增加而减小,且支持电解质阳离子电荷数不同对铜吸持的影响也不同.黄土中吸持的铜在中性盐溶液中释放率小于4%,且随溶液离子强度的增加而增加.pH是影响铜释放的最重要因素,酸性溶液中铜的释放量大于70%,铜释放量随释放溶液pH的降低而增加.水土体系pH恒定时,铜吸持量相同的等量黄土,释放溶液体积越多,铜的释放量和释放率越高;相同含沙量条件下,吸持量越大,释放量和释放率也越大.     

羧甲基壳聚糖吸附铜离子性能研究

对羧甲基壳聚糖与Cu^2 的吸附作用进行了研究，探讨了反应时间，离子强度、溶液的pH值、羧甲基取代度、温度等因素对吸附性能的影响。与壳聚糖及水溶性低聚壳聚糖相比，羧甲基壳聚糖对铜离子具有更强的络合能力。     

粉煤灰沸石吸附铜离子的试验研究

文章主要对粉煤灰沸石吸附水溶液中的铜离子进行了研究。通过试验考察了pH、温度、吸附时间、离子初始浓度等主要条件对吸附效率的影响。试验结果表明：NaA型沸石吸附铜离子的最佳pH 5;动力学研究表明,铜离子在100 min可以达到吸附平衡,而且更好地遵循二级动力学模型;热力学研究表明,45℃时吸附铜离子的效果最好,而且更好地遵循Langmuir等温式;随着离子初始浓度的增加,吸附量也相应增加。最佳条件下最大吸附量44.776 mg/g。     

水田土壤对铜离子吸附性能的试验研究

采用恒温振荡平衡法研究了乐山市某一水田土壤和未种植过的土壤对铜离子的吸附特性。结果表明:溶液的pH值越大,土壤对铜离子的吸附量越大;铜标准溶液的初始浓度越大,土壤对铜离子的吸附量越大;土壤含腐殖酸越多,对铜离子的吸附能力越强;水田土壤比未种植过的土壤对铜离子的吸附能力更强;用Freundlish方程来描述各种土壤对铜离子的吸附特性均得到了较好的相关性。     

交联氨基淀粉的制备及对铜离子的吸附性能

以玉米淀粉为原料，经环氧氯丙烷交联、醚化．合成醚化淀粉3-氯-2-羟基丙烯基交联淀粉。在碱性条件下．醚化淀粉进一步通过胺化反应．制备出对重金属具有较强吸附性能的氨基淀粉。对氨基淀粉的合成工艺及其对铜离子的吸附性能的实验结果表明：随着pH的增加．吸附量增加：在相同pH时，随着溶液中铜离子初始浓度的增加，吸附量增加，但吸附速率降低：铜在固液相中的分配比降低。     

铜改性MIL-101吸附溶液中碘离子研究

目的提升MIL-101对溶液中放射性碘离子的吸附性能。方法开展铜掺杂改性MIL-101研究。利用SEM,XRD和比表面与孔径分析仪等表征方法对改性前后的材料进行物理性能分析,并考察不同Cu掺杂量、吸附时间和初始碘离子浓度对吸附效果的影响。结果铜改性后吸附率明显增加,掺杂20%的铜时,材料的比表面积最大,吸附效果最佳;吸附速率随时间增大而降低,而吸附率随初始浓度减小而增大。结论铜改性后的MIL-101对溶液中碘离子有更好的吸附效果,其吸附速率和吸附量都有明显的优势。     

给水厂污泥颗粒制备及对铜离子的吸附行为

将给水厂污泥和粘土以质量比1：2制备了一种新型污泥颗粒,考察其对溶液中铜离子的吸附行为.结果发现,污泥颗粒对水中铜离子具有良好的吸附效果,对铜的吸附量随时间增加而增大,180min时可达最大吸附量的85%左右,吸附过程符合准二级吸附动力学方程;Langmuir等温吸附方程式可较好拟合不同温度时的吸附数据,且温度越高,平衡吸附量越大.多种重金属离子共存时,污泥颗粒仍优先吸附铜离子.pH值可显著影响污泥颗粒对铜离子的吸附,pH<5时,污泥颗粒对铜离子的吸附去除率随pH值升高而增大,pH=5时吸附去除效果最好.采用扫描电镜、红外光谱等对吸附铜离子前后的污泥颗粒进行表征,发现污泥颗粒表面粗糙、孔隙发达,含丰富表面基团,能够通过静电吸引、羟基取代和表面络合吸附铜离子.     

腐殖酸与镉离子在水合二氧化锰表面的分配系数研究

水体中腐殖酸(HA)和金属离子广泛存在,二者的相互作用对其在水中天然矿物颗粒表面的吸附、降解等环境行为具有重要影响.本文采用离子交换平衡法测定了HA和镉离子(Cd(Ⅱ))的配位数(co-ordination number,x)和络合稳定常数(complex stability constant,K),系统考察了pH值和离子强度对x和K的影响,并研究了HA和Cd(Ⅱ)在水合二氧化锰(HMO)表面的分配关系.结果表明:pH值对HA和Cd(Ⅱ)的配位数影响较小(x=1.651~1.752),而对络合稳定常数影响显著(log K=1.652~3.548);在不同pH值条件下,离子强度对HA和Cd(Ⅱ)的络合稳定常数影响均较小,而其配位数均随溶液离子强度的增加而提高;不同温度条件下,HA-Cd(Ⅱ)络合物在HMO表面的分配系数(Kd)均低于HA和Cd(Ⅱ)在HMO表面的分配系数,表明HA-Cd(Ⅱ)络合体系的存在抑制了HMO对Cd(Ⅱ)和HA的去除作用.     

微滤过程中腐殖酸与膜表面黏附特性的试验研究

为了进一步研究微滤过程中腐殖酸对微滤膜的污染机制,通过运用原子力显微镜(AFM),结合自制的PVDF胶体探针考察了不同的pH、离子强度以及钙离子浓度等水质条件下膜-腐殖酸与腐殖酸-腐殖酸之间微观黏附力的变化趋势以及与膜的通量衰减幅度之间的相关性.结果发现,微观黏附力是膜面污染产生的根本原因.由于pH的电性中和以及离子强度的电性屏蔽作用,膜-腐殖酸以及腐殖酸-腐殖酸之间黏附力随着pH的减小或离子强度的增大都呈增大趋势;而随着钙离子浓度的增大,由于少量钙离子的"架桥"作用以及过量时的电性中和作用,两种黏附力先增大后减小.各条件下,膜-腐殖酸与腐殖酸-腐殖酸之间黏附力都呈相同的变化趋势,且与对应污染膜的通量衰减幅度具有正相关性,为更加深入了解膜污染的形成机制提供了一定的理论支持.     

Effect of environmental factors on the complexation of iron and humic acid

A method of size exclusion chromatography coupled with ultraviolet spectrophotometry and off-line graphite furnace atomic absorption spectrometry was developed to assess the complexation properties of iron (Fe) and humic acid (HA) in a water environment. The factors affecting the complexation of Fe and HA, such as ionic strength, pH, temperature and UV radiation, were investigated. The Fe-HA complex residence time was also studied. Experimental results showed that pH could influence the deprotonation of HA and hydrolysis of Fe, and thus affected the complexation of Fe and HA. The complexation was greatly disrupted by the presence of NaCl. Temperature had some influence on the complexation. The yield of Fe-HA complexes showed a small decrease at high levels of UV radiation, but the effect of UV radiation on Fe-HA complex formation at natural levels could be neglected. It took about 10 hr for the complexation to reach equilibrium, and the Fe-HA complex residence time was about 20 hr. Complexation of Fe and HA reached a maximum level under the conditions of pH 6, very low ionic strength, in the dark and at a water temperature of about 25°C, for 10 hr. It was suggested that the Fe-HA complex could form mainly in freshwater bodies and reach high levels in the warm season with mild sunlight radiation. With changing environmental parameters, such as at lower temperature in winter or higher pH and ionic strength in an estuary, the concentration of the Fe-HA complex would decrease.     

Enhanced adsorption of Methylene Blue from aqueous solution by chitosan-g-poly （acrylic acid）/vermiculite hydrogel composites

A series of chitosan-g-poly (acrylic acid)/vermiculite hydrogel composites were synthesized and used as adsorbents for the investigation of the e ect of process parameters such as vermiculite content, pH of dye solution, contact time, initial concentration of dye solution, temperature, ionic strength and concentration of surfactant sodium dodecyl sulfate on the removal of Methylene Blue (MB) from aqueous solution. The results showed that the adsorption capacity for dye increased with increasing pH, contact time and initial dye concentration, but decreased with increasing temperature, ionic strength and sodium dodecyl sulfate concentration in the present of the surfactant. The adsorption kinetics of MB onto the hydrogel composite followed pseudo second-order kinetics and the adsorption equilibrium data obeyed Langmuir isotherm. By introducing 10 wt.% vermiculite into chitosan-g-poly (acrylic acid) polymeric network, the obtaining hydrogel composite showed the highest adsorption capacity for MB, and then could be regarded as a potential adsorbent for cationic dye removal in a wastewater treatment process.     

鼠李糖脂对林丹-重金属复合污染土壤的同步淋洗效果研究

选取典型有机氯农药林丹及典型重金属Pb、Cd为目标污染物,以模拟污染土壤为对象,考察了鼠李糖脂对林丹/重金属的增溶/配合作用及其影响因素,同时分析了淋洗前后土壤重金属的形态变化,并深入研究了鼠李糖脂对林丹-重金属复合污染土壤的淋洗效果.结果表明,林丹溶解度随鼠李糖脂浓度及离子强度的提高显著增大,但随pH(5.0~10.0)的提高而逐渐降低.鼠李糖脂对Pb的配合能力大于Cd,两种重金属的配合浓度随鼠李糖脂浓度的增加而增加;pH提高对Pb的配合有抑制作用,而对Cd有所促进.鼠李糖脂在土壤上的吸附符合线性等温吸附.当鼠李糖脂浓度高于5000 mg·L-1时,其对3种污染物的淋洗开始有显著效果;当鼠李糖脂浓度为40000 mg·L-1时,其对林丹、Pb及Cd的去除率分别达到76.9%、18.0%和100%,且pH为7.0时淋洗效果最好.同时,鼠李糖脂对不同形态Pb和Cd的去除能力有差异,其中,对可交换态重金属的去除最为有效.     

黄河中游泥沙对铜离子的吸持行为研究

以黄河中游泥沙和重金属Cu为研究对象，通过等温吸持实验和Tessier形态提取实验，研究了黄河中游泥沙在含量较高的条件下对铜离子的吸持特性．结果表明：黄河中游泥沙具有很强的吸持铜的能力．体系pH和泥沙理化性质对吸持具有强烈影响：当铜浓度较低时，pH是控制吸持的主要因素，不同泥沙对铜的吸持率均达到99％，泥沙吸持的空间差异很小；当铜浓度较高时，泥沙理化性质是使黄河中游泥沙吸持表现出空间差异的重要因素，碳酸盐是主要影响组份；在泥沙含量较高的条件下，单位吸持量随泥沙含量变化的规律符合“泥沙效应”规律，但吸持容量随泥沙含量升高而升高，这与泥沙含量升高导致体系pH升高有关。     

水质环境条件对恒流超滤过程的影响研究

研究了用聚丙烯腈中空纤维超滤膜组件净化含腐殖酸类有机物模拟废水的恒流膜过程,考察了水中的Ca2+浓度、离子强度、pH值等水质环境条件对超滤膜过滤性能的影响。试验结果表明,增加水中Ca2+浓度,增大溶液离子强度,以及降低pH值均能增大跨膜压差的增加速率;增加水中Ca2+浓度和降低pH值的效果较明显。Ca2+、离子强度变化基本不影响有机污染物的去除率,而pH值的升高降低了膜对水中有机污染物的去除率。     

Removal of a type of endocrine disruptors-di-n-butyl phthalate from water by ozonation

Ozonation of synthetic water containing a type of endocrine disruptor-di-n-butyl phthalate （DBP） was examined. Key impact factors such as pH, temperature, ionic strength, ozone dosage and initial DBP concentration were investigated. In addition, the activities of radicals on uncatalysed and catalysed ozonation were studied. The degradation intermediate products were followed and the kinetic of the ozonation were assessed as well. Results revealed that ozonation of DBP followed two mechanisms. Firstly, the reaction rate of direct ozonation was slower at lower pH, temperature, and ionic strength. Secondly, when these factors were increased for indirect radical reaction, higher percentage of DBP was removed with the increase of the initial ozone dosage and the decrease of the initial DBP concentration. In addition, tea-butanol, humic substances and Fe（Ⅱ） affected DBP ozonation through the radical pathway. It was determined that ozonation was restrained by adding tea-butanol for its radical inhibition effect. Furthermore, humic substances enhanced the reaction to some extent, but a slight negative effect would be encountered if the optimum dosage was exceeded. As a matter of fact, Mn（Ⅱ） affected the ozonation by ＂active sites＂ mechanism. In the experiment, three different kinds of intermediate products were produced during ozonation, but the amount of products for each one of them decreased as pH, temperature, ionic strength and initial ozone dosage increased. A kinetic equation of the reaction between ozone and DBP was obtained.     

Fe(II)、Fe(III)对砷与不同分子量腐植酸络合性能的影响

以腐植酸（HA）代表天然有机质,采用平衡透析和超滤的方法研究铁离子（Fe （II）、Fe （III））对不同分子量HA与砷离子（As （V）、As （III））络合作用的影响,并利用红外光谱（FT-IR）表征其络合特征.结果发现,Fe （II）和Fe （III）均能增强HA络合As能力,且对As （V）络合能力的增强作用大于As （III）;pH值显著影响HA络合As能力;溶解性有机碳（DOC）浓度由5mg/L增大到200mg/L,As络合百分比随之增加,此时HA-Fe （III）络合As （III）百分比最大,为24.55%;初始As浓度由10μg/L增加1000μg/L,As络合百分比随之降低,其中HA-Fe （III）络合As （III）百分比最低,为3.11%.相同环境条件下,分子量>100kDa络合As百分比最大,其中HA-Fe （II）络合As （III）的百分比最高为26.43%;分子量小于10kDa的HA络合As百分比明显高于其他分子量的HA.Fe的增强作用主要源于Fe与羧基形成桥梁再与As络合形成三元络合物.     

Effect of ionic strength on adsorption of As（Ⅲ） and As（Ⅴ） on variable charge soils

The study was to investigate the adsorption behavior of arsenite (As(Ⅲ)) and arsenate (As(Ⅴ)) on two variable charge soils, i.e., Haplic Acrisol and Rhodic Ferralsol at different ionic strengths and pH with batch methods. Results indicated that the amount of As(Ⅲ) adsorbed by these two soils increased with increasing solution pH, whereas it decreased with increasing ionic strength under the acidic condition. This suggested that As(Ⅲ) was mainly adsorbed on soil positive charge sites through electrostatic attraction under the acidic condition. Moreover, intersects of As(Ⅴ) adsorption-pH curves at different ionic strengths (a characteristic pH) are obtained for both soils. It was noted that above this pH, the adsorption of As(Ⅴ) was increased with increasing ionic strength, whereas below it the reverse trend was true. Precisely the intersect pH was 3.6 for Haplic Acrisol and 4.5 for Rhodic Ferralsol, which was near the values of PZSE (soil point of zero salt effect) of these soils. The effects of ionic strength and pH on arsenate adsorption by these soils were interpreted by the adsorption model. The results of zeta potential suggested that the potential in adsorption plane becomes less negative with increasing ionic strength above soil PZSE and decreases with increasing ionic strength below soil PZSE. These results further supported the hypothesis of the adsorption model that the potential in the adsorption plane changes with ionic strength with an opposite trend to surface charge of the soils. Therefore, the change of the potential in the adsorption plane was mainly responsible for the change of arsenate adsorption induced by ionic strength on variable charge soils.     

三氯乙烯在不同土壤中的吸附特性及其影响因素研究

吸附作用是影响三氯乙烯(TCE)在土壤环境中迁移、归趋的主要过程.采用有机碳含量不同的2种天然土壤以及用H2O2去除低聚合"软碳"和高温灼烧去除全部有机碳后所得到的4种土壤为吸附剂,考察了有机碳含量及组成、矿物质、TCE初始浓度、溶液pH、土壤含水率、离子强度等因素对吸附TCE的影响.结果表明,TCE在6种土壤上的吸附等温线呈非线性,随有机碳含量增加,土壤对TCE的吸附量增加;但矿物质的吸附贡献率却减小.土壤对TCE的吸附是土壤中有机碳和矿物质的共同作用,以有机碳为主,但矿物质的作用不可忽略;且TCE初始浓度越高,矿物质的贡献率相对越低.土壤中"软碳"的吸附等温线线性较好;而"硬碳"的吸附等温线为非线性.此外,增大离子强度对吸附具有促进作用,而pH和含水率对吸附几乎没有影响.