Chitosan and chemically modified chitosan beads for acid dyes sorption

The capabilities of chitosan and chitosan-EGDE (ethylene glycol diglycidyl ether) beads for removing Acid Red 37 (AR 37) and Acid Blue 25 (AB 25) from aqueous solution were examined. Chitosan beads were cross-linked with EGDE to enhance its chemical resistance and mechanical strength. Experiments were performed as a function of pH, agitation period and concentration of AR 37 and AB 25. It was shown that the adsorption capacities of chitosan were comparatively higher than chitosan-EGDE for both acid dyes. This is mainly because cross-linking using EGDE reduces the major adsorption sites -NH3+ on chitosan. Langmuir isotherm model showed best conformity compared to Freundlich and BET. The kinetic experimental data agreed very well to the pseudo second-order kinetic model. The desorption study revealed that after three cycles of adsorption and desorption by NaOH and HCl, both adsorbents retained their promising adsorption abilities. FT-IR analysis proved that the adsorption of acid dyes onto chitosan-based adsorbents was a physical adsorption. Results also showed that chitosan and chitosan-EGDE beads were favourable adsorbers and could be employed as low-cost alternatives for the removal of acid dyes in wastewater treatment.     

Influence of particle size and salinity on adsorption of basic dyes by agricultural waste： dried Seagrape （Caulerpa lentiUifera）

Green macroalga Caulerpa lentillifera was found to have reasonable adsorption capacity for basic dyes, Astrazon Blue FGRL （AB）, Astrazon Red GTLN （AR）, and Astrazon Golden Yellow GL-E （AY）. The initial dye concentration was in the range of 100-1,800 mg/L. The dried algal sorbent was ground and sieved into 3 sizes： S （0.1-0.84 mm）, M （0.84-2.0 mm）, and L sizes （larger than 2.0 mm）. For all conditions examined in this work （at 25℃ in batch systems）, the adsorption reached equilibrium within the first hour. The kinetic data corresponded well with the pseudo second order kinetic model where the rate constant, k2, decreased as the sorbent size increased for all dyes. The adsorption isotherms followed both Langmuir and Freundlich models. Among three sorbent sizes, S size gave the highest adsorption capacity followed by M and L sizes. A reduction of sorbent size increased the specific surface area for mass transfer, and also increased the total pore volume, thus providing more active sites for adsorption. The adsorption of AB was adversely influenced by the protonation of algal surface at low pH. On the other hand, the adsorption of AR and AY could be due to weak electrostatic interaction, which was not significantly affected by pH. Increasing salinity of the system caused a decrease in adsorption capacity possibly due to the competition between Na^＋ and the dye cations for the binding sites on algal surface. Moreover, an increase in salinity generated a compressed electrical double layer on the algal surface which exerted repulsive force, retarding the adsorption of positive charged molecules such as the basic dyes.     

磁性吸附剂MZFS吸附偶氮染料中性红的性能及机理

利用正硅酸乙酯水解制备得到"核-壳"结构的磁性吸附剂MZF@SiO₂（MZFS），采用X射线衍射（XRD）、透射电子显微镜（TEM）、振动样品磁强计（VSM）和傅利叶变换红外光谱（FT-IR）对MZFS的结构和性能进行表征，并研究MZFS对偶氮染料中性红（NR）的吸附性能.结果表明，拟二级动力学和Freundlich模型均能较好地描述该吸附过程，吸附过程的速率控制步骤为化学吸附；吸附自由能E为0.472-0.773kJ/mol，△G为-20~0kJ/mol，△H为37.5kJ/mol，表明该过程是以物理吸附为主的自发吸热过程.FT-IR结果表明吸附的主要作用力为分子间氢键，MZFS可采用15% wt H₂O₂进行原位再生.研究结果能为偶氮染料废水处理方法的革新提供基础理论数据.     

青霉菌GX2对蒽醌染料的吸附作用

GX2生长菌体对 4种蒽醌染料均表现出优良的吸附性能 ,但由于染料分子的结构不同 ,吸附速率和吸附率也表现出一定的差异 .染料对菌体的生长具有一定的抑制作用 ,但即使在很高的染料浓度下 ,GX2生长菌体仍表现出很强的吸附性能 .对 250mg/L活性艳蓝KN-R的吸附率高达 100% ,对 400mg/LKN R的吸附率也可达91.4% .在 0～2%范围内 ,随着盐度 (NaCl)的增加 ,菌体干重增加 ;颗粒状菌团的直径却随之减小 ,比表面积增大 ,对GX2生长菌体的染料吸附表现出较为明显的促进作用 .碳源浓度通过影响菌体的生长而影响染料吸附 ,当培养基中的葡萄糖浓度大于 2.5g/L时 ,即可使浓度为 120mg/L的活性艳蓝KN R溶液完全脱色 .生长菌体具有比静止活体和死体更好的吸附性能 .     

苯的衍生物在活性炭/水界面上的吸附标准自由能及与其分子结构的关系

测定了25℃时活性炭自水中吸附苯、苯酚、苯胺、对－氯苯酚、苯甲酸、对－羟基苯甲酸、对－氯苯胺、硝基苯、对－氨基苯甲酸、对－硝式苯酚、对－硝基苯胺、对硝基苯甲酸的等温线，它们的等温线均为Langmuir型的，利用Langmuir参数计算了吸吸标准自由能变化△G^0，计算结果表明，△G^0具有加和性，即化合物的△G^0是组成该化合物各基团贡献之总和，化合物的分子量及分子连接性指数与△G^0有近似的线性关系。     

Photodegradation mechanism of two dyes: the influence of adsorption behavior on the novel TiO2 particles

The relationship between adsorption behavior and photocatalytic mechanism of the two dyes was investigated. Adsorption isotherms showed that the adsorption of cationic pink FG was Langmuir type behavior, while the reactive brilliant red k-2G was Freundlich type behavior. The increasing pH favored the adsorption of FG but have little effect on the photodegradation. The increasing pH favored the adsorption and the photodegradation of k-2G. The presence of scavenger of hvb^ and OH. radical potassium iodide inhibited the degradation of k-2G, free radicals scavenger tetranitromethane inhibited the photodegradation of FG. These results indicated that the photodegradation of FG mainly via free radicals in solution, and the photodegradation of k-2G was mainly on the catalysts surface or near the interface of solid and solution by react with hvb^ and surface-bound OH.. The different effect of SO4^2- , HCO3^- on the adsorption and photodegradation of two dyes confirmed these results.     

经丁二酮肟修饰的改性皂土对废水中镍的吸附

采用十六烷基三甲基溴化铵(CTMAB)对皂土改性,用丁二酮肟(DMG)对其表面修饰,并制备了新型固态吸附剂.研究了该吸附剂对水中Ni2+的吸附行为.结果表明,该固态吸附剂对水中Ni2+具有较强的吸附能力.吸附量受介质pH值、温度和吸附时间的影响.其吸附行为符合Langmuir吸附等温模型和HO准二级动力学方程,吸附焓变(△H)为58.759kJ/mol,各温度下,吸附自由能变(△G)均＜0,熵变(△S)均＞0,该吸附反应为吸热的自发过程.吸附了Ni2+的丁二酮肟修饰改性皂土,可用0.1mol/L的HNO3溶液洗脱再生.     

活性炭间歇式吸附亚甲基蓝废水的研究

以亚甲基蓝（MB）作为模拟染料废水,系统考察了活性炭（AC）对亚甲基蓝的吸附性能。计算得到了△G^0、△H^0、△S^0等几个热力学参数。实验结果表明：活性炭的吸附性能取决于吸附时间、废水pH值和废水温度。吸附行为符合二级反应速率方程所描述的规律和Langmuir吸附等温式。废水pH值的升高有利于提高最终吸附处理的效果。活性炭对亚甲基蓝的吸附是一个自发的、弱吸热的物理过程,温度的升高有利于吸附的进行。     

敌敌畏在土壤中吸附特性的研究

研究了敌敌畏在2种土壤(东胜土壤和杭锦2#土)中的吸附特性,观察了土壤的性质如w(有机质),w(粘粒),CEC,pH和离子强度等因素对吸附的影响.结果表明:敌敌畏在2种土壤中的吸附过程符合一级动力学规律,可用线性等温式描述,分配常数Kd分别为0.119 0和0.369 3 mL/g;敌敌畏在杭锦2#土中的吸附量比较大,在东胜土壤中的吸附速率比较快.土壤性质与分配常数的相关分析发现:支配敌敌畏在土壤中吸附的主要因素是pH和离子强度,随着pH的增加和离子强度的降低,敌敌畏在2种土壤中的吸附量增大.      

Effects of bile salts and divalent cations on the adsorption of norfloxacin by agricultural soils

The effects of bile salts （sodium cholate and sodium deoxycholate, 0-20 mmol/L）, divalent cations （Ca^2＋, Mg^2＋, Cu^2＋ and Zn^2＋, 0-20 mmol/L） or pH （3.0-10.0） on the adsorption of norfloxacin by three selected soils （Paddy_H, Paddy_G and Red_J） were systematically studied. Soil adsorption of norfloxacin follows a pseudo second-order kinetics model, and the maximum adsorption capacity has been determined from the nonlinear fit of the Langmuir isotherm model to be 88.8, 88.1 and 63.0 μmol/g for the adsorption onto Paddy_H, Paddy_G and Red_J, respectively. The results indicate that norfloxacin has a high adsorption affinity for the agricultural soils tested and that the organic content of these soils have at least a slight influence on this adsorption. The adsorption of norfloxacin to soils was strongly dependent on pH and exhibited a maximum at approximately pH 6. The presence of divalent cations prominently suppressed the adsorption of norfloxacin by paddy soils, which followed an order of Cu^2＋ 〉 Mg^2＋ 〉 Ca^2＋ 〉 Zn^2＋, and by red soil, which followed an order of Cu^2＋ 〉 Zn^2＋ 〉 Ca^2＋ 〉 Mg^2＋. The adsorption of norfloxacin （by the soils studied） sharply decreased as the amount of bile salts was increased. For uncharged norfloxacin at environmentally relevant pH values, such factors as soil type, exogenous divalent cations and macromolecules significantly altered the environmental fate and transport of norfloxacin between aquatic and soil interfaces.     

环丙沙星在亚高山草甸土和沼泽土中的吸附特性

为了研究环丙沙星（Ciprfloxacin,CIP）在土壤中的吸附过程及主要影响因素,以川西北高原亚高山草甸土和沼泽土为研究对象,采用OECD guideline 106批平衡方法,分析了亚高山草甸土和沼泽土对CIP的吸附动力学特征、吸附热力学特征以及pH、温度、CIP初始浓度等对其吸附过程的影响.结果表明:①不同初始浓度CIP在两种土壤中的吸附过程均符合准二级吸附动力学模型,R2为0.920 2~0.988 6.②Freundlich等温吸附模型能够较好地拟合两种土壤对CIP的吸附热力学过程,吸附等温线符合“L”型.③在15~35℃范围内,吸附热力学参数ΔHθ（吉布斯自由能）和ΔGθ（焓变）均小于0,ΔSθ（熵变）大于0,表明两种土壤对CIP的吸附过程以物理吸附为主,属于吸附体系混乱度增加的自发进行的放热反应.④吸附容量lg K_f满足沼泽土大于亚高山草甸土,说明沼泽土对CIP的吸附能力强于亚高山草甸土,且两种土壤的吸附能力与CIP的初始浓度呈正相关.⑤在pH为3~9条件下,吸附量均随pH的增加呈现先增后减的趋势,当pH为5时,两种土壤对CIP的吸附效果均最好,表明强酸和碱性环境均不利于土壤对CIP的吸附.研究显示,CIP在两种土壤中的吸附容量、吸附强度以及吸附速率均存在较大差异,温度、CIP的初始浓度和pH对两种土壤吸附CIP存在一定影响.      

氨基修饰磁性氧化石墨烯吸附离子型染料性能

采用恒温搅拌法和水热法首次制备磁性三乙烯四胺氧化石墨烯（M-T-GO）,并通过SEM和XPS对M-T-GO进行表征.以M-T-GO为吸附剂,分析pH值、吸附时间和初始浓度对阴离子染料酒石黄（TY）和阳离子染料亚甲基蓝（MB）吸附效果的影响.并对吸附动力学和吸附等温线进行拟合.结果表明：M-T-GO对离子型染料的吸附过程符合Langmuir吸附等温式和拟二级反应动力学描述.M-T-GO对TY和MB具有较好的吸附性能,饱和吸附量分别为157.23mg/g和169.49mg/g.与GO相比,M-T-GO对离子型染料的吸附效果更优异,同时具有快速分离和易再生的优点.     

北京郊区几种典型土壤对硼的吸附性能

采用室内模拟法,研究了石灰性土壤中硼的吸附及其与土壤各化性质的关系,对北京郊区不同海拔高度５种土壤吸附硼的几种影响因素研究结果表明,和种土壤对硼的吸附符合Ｆｒｅｕｎｄｌｉｃｈ等温吸附方程,其吸附量随土壤ＰＨ值的增加而升高,     

Contribution of organic matter to metolachlor adsorption on some soils

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铁锰生物污泥吸附磷

采用扫描电镜(SEM)、X射线能谱仪(EDS)、比表面和孔隙度分析仪等设备,研究了由生物除铁除锰滤柱反冲洗铁锰生物污泥制得的铁锰氧化物的表征性状,并结合等温吸附-解吸和动力学实验研究对铁锰氧化物吸附磷的吸附特性和相关机制进行探究.结果表明:供试铁锰氧化物是球形颗粒聚合体,孔隙发达且多以微孔形式存在,比表面积为285.6m2/g.铁锰氧化物的磷吸附特性可用Langmuir方程和Freundlich方程来描述,相关系数均大于0.9,达到极显著水平,吸附容量为39.06mg/g.中性盐介质(KNO3)中在最大吸附量时P的解吸率为13.04%.铁锰氧化物对磷的吸附焓变△H0为正值,是吸热过程,吉布斯自由能变△G0为负值,该吸附过程是自发进行的.准二级动力学模型可较好地反映供试铁锰氧化物的等温吸附动力学.     

天然有机质对土霉素在西北灰钙土上吸附行为的影响

抗生素被广泛应用于日常生活中,大量含有抗生素的废弃物通过多种途径进入土壤给人类健康和土壤环境带来了严重危害,因此,探索抗生素类有机污染物在土壤中的吸附机理对土壤污染防治具有重要意义.以西北灰钙土为研究对象、以OTC（oxytetracycline,土霉素）为目标污染物,采用批量法分析灰钙土在添加有机质前、后对OTC的吸附动力学、热力学特征及其影响因素.结果表明:OTC的动力学吸附过程分快吸附阶段（0~2 h）和慢吸附阶段（2~10 h）,10 h之后吸附基本达到平衡,吸附过程拟合均符合准二级动力学模型.对不同温度下OTC在灰钙土上的吸附过程进行拟合显示,Langmuir和Freundlich热力学模型拟合的R2分别在0.930~0.985和0.967~0.973之间;对于不同初始ρ（OTC）在添加有机质灰钙土上的等温吸附过程,Langmuir和Freundlich热力学模型拟合的R2分别在0.952~0.988和0.936~0.971之间,表明这两种模型均可较好地解释此吸附过程;热力学参数ΔGθ（吉布斯自由能变）小于0,ΔHθ（焓变）和ΔSθ（熵变）均大于0,表明吸附为自发进行的混乱程度增大的吸热反应.添加外源性有机质HA（humic acid,胡敏酸）和FA（fulvic acid,富里酸）能增加OTC的吸附量,且自制有机质的促进作用大于市售有机质,HA的促进作用大于FA.随着初始ρ（OTC）的增大,吸附量呈增加趋势;Ca2+和Na+的加入均使OTC的吸附量减小,且离子浓度越高、价态越高,抑制效果越明显;不同pH对OTC吸附的影响均较小.研究显示,不同来源、种类的有机质均可促进OTC吸附,但不会改变吸附平衡时间;HA的疏水性较FA强,对OTC的吸附量较高;溶液pH对OTC吸附影响不显著,但不同价态、浓度的金属阳离子对OTC的吸附有较大影响.      

青霉菌(Penicillium sp.)对三种活性染料的吸附和降解

通过14C标记底物的矿化实验发现青霉菌对多聚芳香族化合物有一定降解能力,本研究以3种偶氮和蒽醌型活性染料为作用底物,结果表明,青霉菌G-1 (Penicillium sp.)对染料进行吸附,吸附等温线符合Langmuir模型,最大理论吸附量(Q_max)可达169.5～243.9mg/g干重,被吸附染料最早在第4d完全脱色降解,有菌丝和去除菌丝的培养液中再次加入染料,均可在20～30h内使染料完全脱色降解.     

土壤吸附氟的能力及其生态学意义

用六种自然土壤进行了吸附氟的试验研究,表明土壤吸附氟的能力与土壤中粘粒和Al_2O_3的含量呈正相关,与Fe_2O_3及pH值呈负相关。理化性质不同的土壤吸附氟的能力各不相同,基本规律是酸性土壤吸附氟的能力较强,而碱性土壤较弱。     

硝化包埋菌颗粒氨吸附性能及动力学特性

采用水性聚氨酯(WPU)和聚乙烯醇-海藻酸钠(PVA-SA)制作硝化污泥包埋菌颗粒,同时对比无污泥空白包埋菌颗粒,研究不同初始氨氮浓度、p H、温度、盐度等对包埋菌颗粒NH_4~+-N吸附性能的影响;通过吸附等温线、吸附热力学以及吸附动力学对包埋菌颗粒NH_4~+-N吸附过程进行解析.结果表明,硝化包埋菌颗粒的吸附容量大于空白包埋菌颗粒,WPU包埋菌颗粒的吸附容量高于PVA-SA;初始氨氮浓度升高,包埋菌颗粒的平衡吸附容量增大,同时随着时间的增长,吸附容量呈现先升高后降低最终逐渐达到平衡的过程;中性条件(p H=7)下包埋菌颗粒NH_4~+-N吸附性能最好,温度和盐度的升高抑制NH_4~+-N的吸附;热力学研究表明该吸附过程是一个放热的过程.吸附等温线显示包埋菌的NH_4~+-N吸附过程同时符合Langmuir等温式和Freundlich等温式,在高能量水平上显示为多层吸附,在低能量水平下显示为单层吸附;包埋菌的NH_4~+-N吸附过程符合Lagergren准二级动力学模型,表明NH_4~+-N与包埋菌颗粒表面存在化学基团的相互作用.     

黄河口典型芦苇湿地土壤磷的吸附动力学特征

以黄河口不同淹水条件的芦苇湿地为研究对象（潮汐淹水湿地、淡水恢复湿地和季节性淹水湿地）,通过吸附模拟实验探讨了不同类型湿地表层土壤对磷的吸附动力学特征及其影响因素,评估了不同淹水条件下湿地土壤对磷的吸附能力。研究结果表明：具有不同水盐条件的芦苇湿地土壤对上覆水体中磷的吸附表现为淡水恢复湿地>潮汐淹水湿地>季节性淹水湿地,淡水恢复湿地土壤对磷的吸附量最大;三类湿地土壤对磷的吸附过程均表现为初期（0~3 h）最快、中期（3~24 h）逐渐减慢、后期（24 h以后）慢而平衡的状态,但淡水恢复湿地土壤对磷的吸附速率最快,季节性淹水湿地土壤对磷的吸附速率最慢且存在着时间上的延迟性;三类湿地土壤的水盐条件和理化性质差异（如pH、盐度、土壤质地、Al₀、Fe₀和Ca₀）是导致三类湿地土壤对磷的吸附量和吸附速率存在差异的主要因素;Simple Elovich模型和Power Function模型更适合模拟黄河口芦苇（Phragmites australis）湿地土壤对磷的吸附动力学特征。在黄河口退化芦苇湿地实施淡水恢复工程,能够在一定程度上促进湿地土壤对磷的吸附,进而降低湿地水体发生富营养化的风险。