酒糟生物炭负载铝对饮用水中氟的去除

以酒糟生物碳为原料,采用负载Al(OH)_3改性制得生物吸附剂(CDGB)。通过静态吸附实验研究吸附剂用量、初始浓度、吸附时间、pH值和共存离子对CDGB吸附氟能力的影响。结果表明:CDGB具有非常宽的最适pH值范围,在pH值为5.0~9.0范围内CDGB均能有效地去除饮用水中的氟离子;并且在氟初始浓度为10 mg·L~(-1),吸附时间40 min,CDGB的添加量为2 g·L~(-1)时氟的去除率可达90%以上,且吸附后水中氟离子含量低于1 mg·L~(-1),符合国家饮用水标准;溶液中常见的共存离子(硝酸根、氯离子和硫酸根)对吸附剂吸附没有显著影响;CDGB对氟离子吸附过程符合Langmuir吸附等温线模型和伪二级吸附动力学模型,理论饱和吸附容量为18.05 mg·g~(-1)。     

负载TiO_2的活性炭纤维改性电极电吸附除氟

采用溶胶-凝胶法制备TiO2凝胶,将TiO2凝胶涂覆在活性炭纤维表面并进行热处理制备改性电极（TiO2/ACF）,利用扫描电子显微镜（SEM）、X射线衍射光谱仪（XRD）、比表面和孔隙度分析仪对负载前后电极的表面特性进行表征,并探讨了其对NaF溶液的电吸附效果。结果表明,电极负载TiO2后表面变得粗糙,比表面积和总孔体积减小,而介孔体积和平均孔径增大。此外,表面的TiO2同时以金红石和锐钛矿的晶型存在。电吸附实验结果显示,加电可以提高吸附容量,而且电压、pH和初始氟离子浓度均对电吸附容量产生影响：电压增大,吸附容量增加,当施加电压为2 V时,电吸附容量为1.03 mg/g,比开路电位时提高40%;pH可以通过影响氟离子在溶液中的存在形态和TiO2/ACF电极表面的羟基基团对电吸附容量产生影响;初始氟离子浓度升高,电极吸附容量增大,但是去除率降低。在处理初始氟离子浓度为4 mg/L的NaF溶液时,在2 V电压、中性pH和12 h的吸附时间下,改性ACF为电极的吸附量为1.32 mg/g。     

赤泥活化处理及其除氟剂性能研究

以赤泥为主要原料,采用FeCl3、柠檬酸、聚硅酸等对赤泥进行活化处理,并制成粒径约3mm的球形赤泥除氟剂。采用X射线衍射(XRD)对赤泥除氟剂进行了物相分析,并研究了活化剂种类、活化剂浓度、焙烧温度等对赤泥除氟剂除氟性能的影响。结果表明:3种活化剂中,柠檬酸活化效果最好,而最佳焙烧温度与活化剂的种类有关。采用质量分数为5%的柠檬酸进行活化,焙烧温度500℃、焙烧时间2h的赤泥除氟剂除氟效果最佳,吸附率达99%以上,吸附容量为0.95mg/g,氟离子质量浓度可从19.00mg/L降低到0.07mg/L。     

负载TiO2的活性炭纤维改性电极电吸附除氟

采用溶胶-凝胶法制备TiO2凝胶,将TiO2凝胶涂覆在活性炭纤维表面并进行热处理制备改性电极(TiO2/ACF),利用扫描电子显微镜(SEM)、X射线衍射光谱仪(XRD)、比表面和孔隙度分析仪对负载前后电极的表面特性进行表征,并探讨了其对NaF溶液的电吸附效果。结果表明,电极负载TiO2后表面变得粗糙,比表面积和总孔体积减小,而介孔体积和平均孔径增大。此外,表面的TiO2同时以金红石和锐钛矿的晶型存在。电吸附实验结果显示,加电可以提高吸附容量,而且电压、pH和初始氟离子浓度均对电吸附容量产生影响:电压增大,吸附容量增加,当施加电压为2 V时,电吸附容量为1.03 mg/g,比开路电位时提高40%;pH可以通过影响氟离子在溶液中的存在形态和TiO2/ACF电极表面的羟基基团对电吸附容量产生影响;初始氟离子浓度升高,电极吸附容量增大,但是去除率降低。在处理初始氟离子浓度为4 mg/L的NaF溶液时,在2 V电压、中性pH和12 h的吸附时间下,改性ACF为电极的吸附量为1.32 mg/g。     

工业废渣基除磷材料的静态吸附研究

研究了高效除磷材料（EPRC）对磷素的吸附特性,考察了投加量、初始浓度、初始pH值、粒径等对EPRC吸附性能的影响,分析了不同条件下EPRC的吸附过程。结果表明,最佳投加量为3.5 g/250 mL时,去除率达91.07%,出水TP浓度为0.45 mg/L。随着粒径减小,EPRC对磷素的吸附量增大,吸附平衡时间缩短。溶液初始pH值在碱性条件下,吸附容量变大。     

方解石基羟基磷灰石的制备及其对水中氟化物的去除效能研究

采用方解石基羟基磷灰石材料去除水溶液中的氟化物。研究吸附剂用量、反应时间、F-初始浓度、共存阴离子分别对吸附量的影响,以及吸附过程中材料渗透率的变化。结果表明:反应在100min达到平衡,饱和吸附量为10.98mg/g;吸附量随着吸附剂用量、F-初始浓度的提高以及反应时间的延长而增大,当反应达到平衡时不再发生变化;除HCO-3外,其他共存阴离子(NO-3、SO2-4和Cl-)对吸附量影响不大;材料渗透率随反应时间的延长而下降,但大大高于传统羟基磷灰石材料的渗透率;方解石基羟基磷灰石材料对水溶液中氟化物的吸附符合Langmuir等温吸附方程以及Psuedo-二级动力学吸附模型,符合单层吸附反应。同时,采用扫描电子显微镜(SEM)、X射线衍射(XRD)对方解石基羟基磷灰石材料及其反应产物进行表征,探讨方解石基羟基磷灰石材料的除氟机制。     

煅烧的水滑石同时去除水体中砷和氟

为探讨水滑石类材料对水体中氟、砷离子的同时去除效果,采用共沉淀法合成(Mg∶Al=2∶1)纳米类水滑石(LDHs),用傅立叶转换红外光谱、电子扫描透射电镜、X射线晶体衍射等手段对合成的材料进行了表征,并研究纳米材料在不同初始浓度、pH、吸附时间、阴离子干扰条件下其同时除砷氟性能。结果表明,煅烧后的水滑石(LDOs)对砷最大吸附量为51.02 mg/g,对氟最大吸附量为36.63 mg/g。吸附动力学实验表明,煅烧水滑石对砷的吸附在前6 h内基本完成,对氟的吸附在前10 h内基本完成。砷氟共存溶液保持pH=4~10及pH=6~8时,水滑石分别对砷、氟保持良好的吸附效率。对比不同阴离子对水滑石共除砷氟效率的影响,水滑石除砷速率受到阴离子影响力大小为:HPO2-4CO2-3NO-3Cl-SO2-4;水滑石除氟速率受到阴离子影响力大小为:CO2-3HPO2-4SO2-4Cl-NO-3。材料再生循环利用4次后,对砷和氟的吸附效率均能达到90%以上。实验结果表明,所合成的水滑石是一种优秀的能共除砷氟的吸附剂。     

电增强载铝活性炭纤维吸附氟离子性能

以载铝活性炭纤维毡为电极,在电场作用条件下对模拟含氟水进行静态吸附实验。结果表明,该载铝活性炭纤维毡正极化可以强化吸附除氟效果,吸附动力学数据很好地符合Lagergren二级速率方程,加电场时二级反应速率常数为4.50 g/(mg·h);其对高浓度含氟饮用水也有较高去除率,Freundlich吸附等温方程能很好地描述吸附平衡数据。加电场情况下,该载铝炭毡对氟离子的最大吸附量为16.584 mg/g,去除氟离子的最佳pH范围是5.5~8.9。共存阴离子Cl-、SO2-4和NO-3对炭毡吸附除氟没有抑制作用,但CO2-3的存在会导致除氟吸附量显著下降。     

分子筛对水中Pb2+的吸附行为及回收利用

以4A和13X分子筛为吸附材料,考察了分子筛投加量、废水pH值、Pb2+初始浓度和吸附时间对去除率的影响。结果表明,4A和13X分子筛投加量为0.16 g/L,废水pH为5,Pb2+初始浓度为30 mg/L时,吸附10 min后Pb2+去除率达到95%以上。通过吸附等温线和吸附动力学方程拟合,4A和13X分子筛对Pb2+的吸附过程均符合Langmuir吸附模型和Lagergren二级速率方程,计算出的饱和吸附容量Q0分别为714.3 mg/g和684.9 mg/g,二级反应速率常数k2分别为8.9×10-4g/(mg·s)和7.1×10-5g/(mg·s)。4A分子筛沉降性能较好,适宜回收;经过4次吸附-解吸仍保持88.7%的Pb2+去除率和493.2 mg/g的吸附容量,经解吸后的浓缩液中富含铅离子720.3 mg/L,富集倍数3.78,加入Na2S生成硫化物沉淀能够达到回收金属铅的目的。     

负载铝铈污泥生物炭对模拟废水的强化除氟作用

以市政污泥为原料,通过热解、活化及共沉淀工艺制备了铝铈负载污泥生物炭复合材料(Al/CeCSBC),运用多种分析技术表征了材料形貌、比表面积及结构特征,通过模拟废水的批量吸附实验,考察了pH、初始氟离子质量浓度及吸附时间对Al/Ce-CSBC吸附氟性能的影响,最后探究了其除氟机制。结果表明,活化和改性均提高污泥生物炭的比表面积,其中Al/Ce-CSBC具有丰富的狭缝形介孔,比表面积为176.36 m²·g^-1,pH_PZC为9.5。负载于材料表面的无定形铝/铈氧化物是主要吸附组分,且发挥了双金属协同作用,在pH=4.0～9.0内其可保持较高的吸附容量。吸附动力学符合伪二级模型,吸附等温线符合Freundlich模型。最大吸附容量可达到41.74 mg·g^-1,显著优于其他常见生物炭材料。其吸附机理主要包括静电吸附、离子交换和表面络合。本文可为污泥的资源化利用提供重要的参考。     

载铁活化天然沸石处理高氟地下水

采用氯化铁改性天然沸石进行地下水除氟效果的研究,考察了地下水中4种阴离子Cl-、HCO3-、SO24-和PO34-对该改性沸石除氟效果的影响,并分析了其除氟机理和表面成分。研究结果表明,对于初始氟浓度不同的水样,随着阴离子浓度的增加,吸附剂对氟的去除率逐渐下降。Cl-对吸附剂除氟效果影响较小,氟去除率降低较慢;随着HCO3-浓度的增大(由100 mg/L到1 000 mg/L),水样pH由8.42缓慢升高到9.52,而氟去除率则由70.36%缓慢下降到56.73%(2mg/L);SO24-及PO34-对改性沸石除氟效果影响较大,氟去除率降低较快,且PO34-的影响大于SO24-。可以得到载铁活化天然沸石对4种阴离子的吸附顺序为:PO34->SO24->HCO3->Cl-。     

Green preparation of a novel red mud@carbon composite and its application for adsorption of 2,4-dichlorophenoxyacetic acid from aqueous solution

This study reports the eco-friendly preparation of a novel composite material consisting of red mud and carbon spheres, denoted as red mud@C composite, and its application for the removal of 2,4-dichlorophenoxyacetic acid herbicide (2,4-D) from aqueous solution. The preparation route has a green approach because it follows the low-energy consuming one-step hydrothermal process by using starch as a renewable carbon precursor and red mud as a waste from aluminum production industry. Characterization of the red mud@C composite was performed by FT-IR, TGA, SEM, TEM, BET, XRD, and Raman microscopy analyses. The batch adsorption studies revealed that the red mud@C composite has higher 2,4-D adsorption efficiency than those of the red mud and the naked carbon spheres. The maximum removal at initial pH of 3.0 is explained by considering the pKa of 2,4-D and pH of point of zero charge (pH_pzc) of the composite material. The adsorption equilibrium time was 60 min, which followed the pseudo-second-order kinetic model together with intra-particle diffusion model. The isotherm analysis indicated that Freundlich isotherm model better represented the adsorption data, with isotherm parameters of k [15.849 (mg/g) (mg/L)^?1/n] and n (2.985). The prepared composite is reusable at least 5 cycles of adsorption-desorption with no significant decrease in the adsorption capacity.

     

4A沸石分子筛处理中低浓度氨氮废水

利用天然沸石、采用水热合成法制备4A沸石分子筛,用XRD和SEM进行了表征。通过考察吸附剂用量、pH、共存金属阳离子、吸附时间、氨氮废水初始浓度、温度对吸附性能的影响,结合动力学方程、吸附等温线、热力学函数等研究了吸附性能和机理。结果表明,当4 g/L的4A沸石分子筛在废水pH值为4~8的条件下对中低浓度氨氮吸附120min后,去除率可达88%;废水中共存单一金属阳离子(Pb2+、Cu2+、Ca2+和Mg2+)浓度大于100 mg/L时,对中低浓度的NH+4有强烈的竞争吸附;氨氮的吸附过程较好地符合准二级动力学方程、Freundlich模型,是一种混乱度增加、自发的放热过程。     

Investigating the potential of functionalized MCM-41 on adsorption of Remazol Red dye

The modification of MCM-41 was performed with 3-aminopropropyltrimethoxysilane. The structural order and textural properties of the synthesized materials were studied by X-ray diffraction, Fourier transform infrared spectroscopy, thermogravimetry/differential thermogravimetry, nitrogen adsorption, and desorption analysis. The adsorption capacity of NH₂-MCM-41 was studied with Remazol Red dye. The following parameters were studied in the adsorption process: pH, temperature, adsorbent dosage, and initial concentration. The desorption process was studied in different concentrations of NaOH solutions. The Freundlich isotherm model was found to be fit with the equilibrium isotherm data. Kinetics of adsorption follows the modified Avrami rate equation. The maximum adsorption capacity was estimated to be 45.9 mg?g^?1, with removal of the dye of 99.1 %. The NH₂-MCM-41 material exhibited high desorption capacity with 98.1 %.     

Graphene—a promising material for removal of perchlorate (ClO4 −) from water

A batch adsorption process was applied to investigate the removal of perchlorate (ClO₄ ^?) from water by graphene. In doing so, the thermodynamic adsorption isotherm and kinetic studies were also carried out. Graphene was prepared by a facile liquid-phase exfoliation. Graphene was characterized by Raman spectroscopy, Fourier-transform infrared spectroscopy, powder X-ray diffraction, scanning electron microscope, and zeta potential measurements. A systematic study of the adsorption process was performed by varying pH, ionic strength, and temperature. The adsorption efficiency of graphene was 99.2 %, suggesting that graphene is an excellent adsorbent for ClO₄ ^? removal from water. The rate constants for all these kinetic models were calculated, and the results indicate that second-order kinetics model was well suitable to model the kinetic adsorption of ClO₄ ^?. Equilibrium data were well described by the typical Langmuir adsorption isotherm. The experimental results showed that graphene is an excellent perchlorate adsorbent with an adsorbent capacity of up to 0.024 mg/g at initial perchlorate concentration of 2 mg/L and temperature of 298 K. Thermodynamic studies revealed that the adsorption reaction was a spontaneous and endothermic process. Graphene removed the perchlorate present in the water and reduced it to a permissible level making it drinkable.     

Efficacy of biochar in removal of organic pesticide,Bentazone from watershed systems

Abstract

Bentazone is one of the toxic insecticides used to control forest tent caterpillar moths, boll weevils, gypsy moths, and other types of moths in various field crops. We report the efficacy of biochar prepared from the Azardirachta Indica waste biomass as adsorbent for removal of Bentazone. Biochar material was prepared by pyrolysis process under limited oxygen conditions. Biochar material was characterized by proximate and ultimate analysis, SEM analysis, FTIR analysis and TG/DTA analyses. The Bentazone adsorption capacity by biochar from aqueous solutions was assessed. Effect of time, adsorbent dosage, insecticide concentration and pH on the adsorption characteristics of the biochar were evaluated. Adsorption parameters were obtained at equilibrium contact time of 150?min, with biochar dosage of 0.5?g at pH 8. From the optimization studies, desirability of 0.952 was obtained with response (adsorption uptake) of 79.40?mg/g, for initial concentration of insecticide (50?mg/L), adsorbent dosage (0.448?g), time 30.0?min and pH 2. The adsorption isotherm data for the removal of Bentazone fitted well with the Freundlich isotherm. This study indicates that the biochar produced from the bark of Azardirachta Indica biomass could be employed as a potential adsorbent for removal of synthetic organic pollutants from the water streams.     

凹凸棒土对腐殖酸的低温吸附性能研究

首次研究凹凸棒土对饮用水中腐殖酸的低温吸附性能,考察5℃条件下,吸附时间与腐殖酸初始浓度、吸附剂投加量、pH对凹凸棒土吸附腐殖酸的影响,确定吸附剂的吸附等温线、吸附动力学和热力学等相关理论参数,研究凹凸棒土对腐殖酸的吸附性能与机理。结果表明,江苏盱眙凹凸棒土在温度5℃、pH=4、水中腐殖酸初始浓度为5 mg/L,投加量为15 g/L的条件下,吸附180 min后对腐殖酸的去除率可达97.26%。凹凸棒土对腐殖酸的吸附符合二级吸附动力学方程与Freundlich吸附等温式,吸附过程由孔隙内扩散过程控制,吸附为自发的吸热过程,包括物理吸附与化学吸附。根据Fre-undlich吸附等温式拟合计算,5℃、pH=7时理论最大吸附量为9 mg/g,说明凹凸棒土对于低温饮用水中腐殖酸具有良好的吸附效果。     

Dynamic behaviour of Cd2+ adsorption in equilibrium batch studies by CaCO3 −-rich Corbicula fluminea shell

This work presents the structural and adsorption properties of the CaCO₃ ^?-rich Corbicula fluminea shell as a natural and economic adsorbent to remove Cd ions from aqueous solutions under batch studies. Experiments were conducted with different contact times, various initial concentrations, initial solution pH and serial biosorbent dosage to examine the dynamic characterization of the adsorption and its influence on Cd uptake capacity. The characterization of the C. fluminea shell using SEM/EDX revealed that the adsorbent surface is mostly impregnated by small particles of potentially calcium salts. The dominant Cd adsorption mechanism is strongly pH and concentration dependent. A maximum Cd removal efficiency of 96.20 % was obtained at pH 7 while the optimum adsorbent dosage was observed as 5 g/L. The Langmuir isotherm was discovered to be more suitable to represent the experimental equilibrium isotherm results with higher correlation coefficients (R ²?>?0.98) than Freundlich (R ²?<?0.97).The correlation coefficient values (p?<?0.01) indicated the superiority of the Langmuir isotherm over the Freundlich isotherm.     

5种铁氧化物去除As(V)性能的比较研究

为了从铁氧化物中筛选得到潜在经济有效的除砷材料,对5种铁氧化物去除As(V)的性能进行了比较研究。吸附实验结果表明,其吸附容量依次为施氏矿物四方纤铁矿水铁矿赤铁矿针铁矿,其吸附过程均符合准二级动力学,约24 h时吸附达到平衡。其中,pH=5时,施氏矿物的吸附容量达到83 mg/g。分别投加500 mg/L和300 mg/L的施氏矿物,可将含砷1.484 mg/L和0.850 mg/L、高TOC含量和高pH特征的模拟配水砷浓度降至0.01 mg/L以下。鉴于施氏矿物良好的吸附除砷性能,进一步通过SEM、FTIR和电位滴定对其表面特性进行了深入研究,结果显示,本研究中制备的施氏矿物存在结构性或表面吸附的SO42-,其(质子)表面位密度约为4.32个/nm2,表面质子化常数pK1为4.60,pK2为-8.98。