黄麻纤维活性炭对亚甲基蓝和甲基橙吸附动力学

以黄麻纤维为原料，采用磷酸活化法制备活性炭。研究黄麻纤维活性炭对亚甲基蓝和甲基橙2种染料的吸附行为。结果表明，采用磷酸制备的活性炭，由于表面含有羧基和含磷官能团等酸性基团，能够促进活性炭对亚甲基蓝的吸附；黄麻纤维活性炭对2种染料的平衡吸附量、初始吸附速率均随着初始浓度的增加而升高；相同条件下，黄麻纤维活性炭对亚甲基蓝的平衡吸附量大于甲基橙；黄麻纤维活性炭对两种染料的吸附行为更符合准二级动力学模型。     

污泥基活性炭吸附Cu2+的应用研究

以城市污水处理厂剩余污泥为原料，以ZnCl₂为活化剂制取污泥基活性炭。以此污泥基活性炭为吸附剂，对含Cu²⁺的废水进行了吸附实验研究。考察了溶液pH值、Cu²⁺的起始浓度对Cu²⁺离子吸附量的影响；利用等温吸附实验作出吸附等温线，并考察了污泥基活性炭吸附剂吸附Cu²⁺的动力学方程。实验结果表明，污泥基活性炭对Cu²⁺具有良好的吸附性能。吸附的最佳pH值为5；吸附符合Langmuir和Freundlich吸附等温方程，吸附为优惠吸附，吸附量随着吸附质溶液浓度的增加而增大；吸附平衡时间为4 h，吸附动力学符合二级动力学方程。     

玉米秸秆活性炭的制备及其吸附动力学研究

以玉米秸秆为原材料,采用ZnCl2活化法制备玉米秸秆活性炭,吸附次甲基蓝染料废水,进行动力学分析。本实验用Langmuir和Freundlich模型对吸附等温线进行拟合,结果表明,玉米秸秆活性炭对次甲基蓝的吸附与Langmuir方程拟合良好,R2=0.9857。采用Lagergren准一级速率模型、Lagergren准二级速率模型、Bangham动力学方程和Elovich动力学方程分别对秸秆活性炭吸附次甲基蓝溶液进行吸附动力学拟合,通过分析得出吸附过程与Lagergren准二级速率模型拟合最好,R2=0.9979。秸秆活性炭对次甲基蓝的最大吸附量达到909.09 mg/g,具有很高的吸附能力。     

污水污泥裂解及其性能的研究

以碘吸附值为裂解残渣吸附性能的指标，通过单因素实验和正交实验，确定了制备裂解残渣的最佳工艺条件，并对残渣的表面元素组成、孔结构组成、晶相组成和吸附性能等性质进行了表征。结果显示：以浓度均为5 mol/L的ZnCl₂和H₂SO₄作活化剂、复配比2∶1、活化温度600℃、活化时间1 h、固液比1∶2.5，制得的裂解残渣酸洗后碘值平均值可达892.8 mg/g；用制备的裂解残渣对苯酚废水进行处理，室温下振荡5 min，苯酚去除率即可达到87.9%，且符合Langmuir吸附等温线方程和Freundlich吸附等温线方程。     

磷酸微波活化多孔生物质炭对亚甲基蓝的吸附特性简

以甘蔗渣为原料，采用微波辅助H₃PO₄活化法制备富含含氧酸官能团的中孔生物质炭。通过扫描电子显微镜SEM、傅立叶变换红外光谱FT-IR等技术对生物质炭物理化学性质进行表征，并通过静态实验法，探讨炭样对亚甲基蓝的吸附行为及热力学性质。结果表明，H₃PO₄活化制备蔗渣生物质炭的适宜条件为浸渍比1：1，烘干时间10 h，活化功率900 W，活化时间22 min，在此条件下制得的生物质炭得率为39.2%，碘值为817 mg/g，亚甲基蓝值为229 mg/g，为国家一级品标准的1.7倍。红外光谱分析表明，炭样表面以羟基、羰基、羧基等酸性官能团为主。静态吸附实验表明，Freundlich方程与Redlich-Peterson方程能较好地描述等温吸附行为，表现为优惠吸附。热力学研究表明，吸附吉布斯自由能（ΔG⁰）<0，说明吸附反应是自发过程，而吸附标准焓变（ΔH⁰）>70 KJ/mol，表明亚甲基蓝在制备炭样上的吸附是吸热反应，升温有利于吸附，且化学反应在吸附过程中发挥了重要作用。     

粘胶基活性炭纤维用于低浓度SO2常温脱除的实验研究

活性炭纤维（ACF）是一种新型功能性炭材料。应用粘胶基活性炭纤维（cellulose-ACF）对低浓度SO₂（571 mg/m³）进行吸附氧化实验，通过改变活性炭纤维量、SO₂浓度、氧浓度，观察cellulose-ACF脱除低浓度SO₂能力的变化规律。实验结果表明，随着活性炭纤维量、氧浓度的增加，cellulose-ACF对低浓度SO2的脱除能力增强。在此基础上展望活性炭纤维在大气环保领域的应用前景。     

松树锯末对亚甲基蓝（MB）的吸附研究

采用松树锯末以及改性松树锯末对模拟废水中的亚甲基蓝进行吸附实验研究。研究结果表明，当亚甲基蓝的初始浓度为50 mg/L、pH为6、锯末投加量为1 g/L时，改性前后的锯末对亚甲基蓝的吸附量最大，分别为29.9 mg/g和60.6 mg/g。同时，对改性前后的锯末做了吸附等温线拟合及动力学研究。结果表明，吸附等温线均能很好地符合Langmuir吸附模式，吸附过程符合拟二级动力学方程。     

碳纳米管对偏二甲肼的吸附性能分析

利用NaOH和H₂O₂对碳纳米管进行表面处理，用于去除低浓度偏二甲肼废液，用分光光度法进行测定。扫描电镜和红外谱图观测表明，原产品管子较长，分散性差，NaOH处理的分散性好，H₂O₂处理的管子被截断并且表面引入了—OH、 >CO和—COOH。碳纳米管对偏二甲肼的吸附性能研究表明，H₂O₂浸泡氧化方法改性的碳纳米管吸附去除偏二甲肼效能最佳，NaOH处理的次之，原产品稍差。通过对吸附数据的拟合,发现在温度为298 K和40～190 mg/L的浓度范围内，吸附等温线均符合Freundlich和Langmuir吸附等温式。     

稻壳基活性炭的制备及其对亚甲基蓝吸附的研究

以稻壳为原料，采用K2CO3活化法和H3P04活化法制备了比表面积为1312m^2／g和682m^2／g的活性炭，通过扫描电子显微镜（SEM）、X-射线衍射仪（XRD）对样品进行了表征，并将孔隙发达的活性炭样品用于对亚甲基蓝的吸附，结果表明，K2CO3活化法制备的活性炭样品具有更多的微孔结构；随着亚甲基蓝溶液初始浓度的增加、活性炭吸附时间的延长，亚甲基蓝的去除率呈现逐渐降低和逐渐增大的变化规律，当pH值为6时，活性炭对亚甲基蓝的吸附效果最佳；稻壳基活性炭对亚甲基蓝的吸附等温线符合Langmuir模型，Qm最高可达476．2mg／g；热力学参数△G^0△H^0和△S^0均为负值，表明稻壳基活性炭对亚甲基蓝的吸附是一个自发的放热反应。     

磷酸根和硫离子在纳米铁表面的竞争吸附

通过纳米铁对磷酸根和硫离子的单吸附和竞争吸附的研究，从吸附动力学和吸附等温线两个方面分析并验证了其吸附特性和模式。分析表明，相对于磷酸根，纳米铁对硫离子的吸附能力更强，在竞争条件下居优势地位。采用准一级和准二级吸附动力学方程对实验数据进行模拟分析，结果表明，纳米铁对磷酸根和硫离子的吸附符合二级动力学方程。吸附等温线分析采用Freundlich和Langmuir吸附等温线方程模拟分析，分析结果表明，纳米铁颗粒对磷酸根的吸附符合Freundlich吸附模式，而对硫离子的吸附符合Langmuir吸附模式。     

凹凸棒粘土对水中亚甲蓝的吸附性能

用焦磷酸钠和盐酸纯化了地产凹凸棒粘土,SEM、XRD和FT-IR表征其结构。研究了凹凸棒粘土对亚甲蓝的吸附性能及热力学和动力学特征,考察了吸附时间、温度、初始浓度、pH和离子强度下对亚甲蓝吸附的影响。结果表明,不同实验条件下,吸附过程均符合准二级动力学特征。凹凸棒粘土对亚甲蓝是放热的物理吸附过程,吸附符合Langmuir模式,在303 K时最大吸附量为114.02 mg/g。与其他吸附材料相比,凹凸棒粘土对亚甲蓝有较快的吸附速率和较大的吸附量,可以作为价廉的吸附剂用于亚甲蓝的消除。     

The removal of reactive black 5 from aqueous solutions by cotton seed shell

This study investigated the removal of Reactive Black 5 (RB5) textile dye from aqueous solutions using cotton (Gossypium hirsutum) seed shell (CSS) as low cost adsorbents. The data were described according to the Freundlich and Langmuir isotherm models. Of these, the Langmuir model provided the best fit for the experimental data. The highest measured adsorption density was 12.19 mg/g at pH 2. An equilibrium adsorption rate of RB5 by CSS (q(e) = 11.879 mg/g) was observed at 30 minutes. In order to evaluate the adsorption kinetic mechanisms, pseudo first and second order rate kinetic models and an intraparticle diffusion model were applied, with the pseudo second order model providing an excellent fit for the data.     

Preparation of activated carbon from dried pods of Prosopis cineraria with zinc chloride activation for the removal of phenol

Utilization of agrowaste materials for the production of activated carbon, as an excellent adsorbent with large surface area, is well established industrially, for dephenolation of wastewater. In the present work, dried pods of Prosopis cineraria—a novel and low-cost agrowaste material—were used to prepare activated carbons by zinc chloride activation. Batch adsorption experiments were carried out to study the effects of various physicochemical parameters such as initial phenol concentration, adsorbent dose, initial solution pH, and temperature. Pseudo-first-order second-order and diffusion kinetic models were used to identify the possible mechanisms of such adsorption process. The Langmuir and Freundlich equations were used to analyze the adsorption equilibrium. Maximum removal efficiency of 86 % was obtained with 25 mg?L^?1 of initial phenol concentration. The favorable pH for maximum phenol adsorption was 4.0. Freundlich equation represented the adsorption equilibrium data more ideally than the Langmuir. The maximum adsorption capacity obtained was 78.32 mg?g^?1 at a temperature of 30 °C and 25 mg?L^?1 initial phenol concentration. The adsorption was spontaneous and endothermic. The pseudo-second-order model, an indication of chemisorption mechanism, fitted the experimental data better than the pseudo-first-order Lagergren model. Regeneration of spent activated carbon was carried out using Pseudomonas putida MTCC 2252 as the phenol-degrading microorganism. Maximum regeneration up to 57.5 % was recorded, when loaded phenol concentration was 25 mg?L^?1. The data obtained in this study would be useful in designing and fabricating an efficient treatment plant for phenol-rich effluents.     

In vitro study of oxytetracycline adsorption on activated charcoal

In vitro adsorption experiments simulating pH in gastric environment and using Langmuir isotherm, showed that 408 mg of oxytetracycline was adsorbed per gram of activated charcoal. Langmuir isotherm fitted adsorption data better than a Freundlich isotherm. Freundlich isotherm showed a specific adsorption capacity of 518 mg/g for activated charcoal. Both isotherm parameters indicated a strong oxytetracycline adsorption on activated charcoal in terms of quantity and binding strength. The results demonstrate that the concomitant use of oxytetracyline and activated charcoal should be avoided.     

改性沸石吸附低浓度氨氮废水及其脱附的研究

采用氯化钠溶液对浙江某地天然沸石改性,以低浓度氨氮废水为处理对象,比较了天然沸石和改性沸石的吸附等温线、吸附动力学和动态吸附,并进行了改性沸石的动态脱附研究.结果表明,沸石的平衡吸附量随着平衡浓度的增大而增大;Freundlich方程比Langmuir方程更好地描述沸石吸附低浓度氨氮废水的行为,改性沸石比天然沸石具有更...     

3种污泥对磺胺二甲基嘧啶的吸附性能

研究了厌氧颗粒污泥、厌氧污泥及好氧污泥对磺胺二甲基嘧啶(SM2)的吸附性能。当SM2初始浓度为50μg/L时,采用活性污泥灭活吸附,考察了吸附平衡时间、吸附等温线及温度对污泥吸附的影响,并比较了失活污泥与活性污泥的吸附性能。结果表明,3种污泥对SM2的吸附均在1 h内达到吸附平衡;3种失活污泥对SM2的吸附都可用Freundl-ich和Langmuir吸附模型来描述,并且Freundlich吸附模型的拟合效果要好于Langmuir模型(R2F>R2L);温度对3种污泥吸附影响规律一致,并且吸附常数KF(15℃)>KF(25℃)>KF(35℃),这说明吸附为放热反应,低温有利于吸附反应的进行。活性污泥对SM2的吸附与失活污泥吸附规律一致,都符合Freundlich模型。3种活性污泥对SM2的去除是吸附和降解的共同作用,并且都是降解占主导地位,降解效率为厌氧污泥>好氧污泥>厌氧颗粒污泥。     

纳米有机膨润土对苯酚的吸附性能研究

通过对天然膨润土改性,制备纳米有机膨润土并用于吸附苯酚,探讨了吸附时间、溶液pH、纳米有机膨润土投加量等因素对苯酚吸附的影响。结果表明,吸附在5 min内快速达到平衡,溶液pH可以影响苯酚在溶液中的状态,是影响苯酚吸附性能的重要因素。纳米有机膨润土吸附苯酚的过程可用伪二级反应动力学方程来描述,伪二级吸附速率常数为1.3 g/(mg.min)。吸附等温线符合Langmuir等温方程,在25℃时,Langmuir理论最大吸附容量可达到536.32 mg/g,吸附热力学参数表明吸附过程是自发的、放热的物理吸附过程。     

In vitro study of oxytetracycline adsorption on activated charcoal

Abstract

In vitro adsorption experiments simulating pH in gastric environment and using Langmuir isotherm, showed that 408 mg of oxytetracycline was adsorbed per gram of activated charcoal. Langmuir isotherm fitted adsorption data better than a Freundlich isotherm. Freundlich isotherm showed a specific adsorption capacity of 518 mg/g for activated charcoal. Both isotherm parameters indicated a strong oxytetracycline adsorption on activated charcoal in terms of quantity and binding strength. The results demonstrate that the concomitant use of oxytetracyline and activated charcoal should be avoided.     

Biosorption of Pb(II) by biomass of KC-2: kinetic, equilibrium and characteristic studies

Performance and characteristics of biosorption of Pb(II) had been studied in a batch system using the fungal strain biomass, KC-2. The biosorption performance was investigated by analysing the effects of such factors as the initial pH, initial Pb(II) concentration, and contact time at 303 K. The maximum Pb(II) adsorption was obtained at pH 5.0. The experimental data were described by the pseudo first-order, pseudo second-order and intraparticle diffusion kinetic models, and were closely followed the pseudo second-order kinetic model. The equilibrium experimental data were well fitted to Langmuir model and the maximum biosorption capacity was 84.03 mg g(-1). The adsorption mechanism was examined by FTIR, SEM and EDAX analysis. Results indicated that carboxylic, hydroxyl and amine groups were involved in the biosorption and ion exchange mechanism existed.     

Adsorptive removal of an acid dye by lignocellulosic waste biomass activated carbon: equilibrium and kinetic studies

Chemically prepared activated carbon material derived from palm flower was used as adsorbent for removal of Amido Black dye in aqueous solution. Batch adsorption studies were performed for the removal of Amido Black 10B (AB10B), a di-azo acid dye from aqueous solutions by varying the parameters like initial solution pH, adsorbent dosage, initial dye concentration and temperature with three different particle sizes such as 100 μm, 600 μm and 1000 μm. The zero point charge was pH 2.5 and the maximum adsorption occurred at the pH 2.3. Experimental data were analyzed by model equations such as Langmuir, Freundlich and Temkin isotherms and it was found that the Freundlich isotherm model best fitted the adsorption data and the Freundlich constants varied from (K_F) 1.214, 1.077 and 0.884 for the three mesh sizes. Thermodynamic parameters such as ΔG, ΔH and ΔS were also calculated for the adsorption processes and found that the adsorption process is feasible and it was the endothermic reaction. Adsorption kinetics was determined using pseudo first-order, pseudo second-order rate equations and also Elovich model and intraparticle diffusion models. The results clearly showed that the adsorption of AB10B onto lignocellulosic waste biomass from palm flower (LCBPF) followed pseudo second-order model, and the pseudo second-order rate constants varied from 0.059 to 0.006 (g mg⁻¹ min) by varying initial adsorbate concentration from 25 mg L⁻¹ to 100 mg L⁻¹. Analysis of the adsorption data confirmed that the adsorption process not only followed intraparticle diffusion but also by the film diffusion mechanism.