磁性水滑石/生物炭复合材料的制备及其对水溶液中磷的吸附性能

以芦苇秸秆生物炭为基体,制备了磁性水滑石/生物炭复合材料(Fe3O4-Mg/Al-LDH/BC)。考察不同pH、Fe3O4-Mg/Al-LDH/BC投加量、初始磷浓度、吸附时间以及反应温度对Fe3O4-Mg/Al-LDH/BC吸附磷的影响。结果表明:Fe3O4-Mg/AlLDH/BC对磷的吸附符合准二级动力学模型和Freundlich模型,吸附过程是自发的吸热反应。在最佳的实验条件下(Fe3O4-Mg/Al-LDH/BC投加量为5.0g/L,磷初始质量浓度为20 mg/L,pH为6.0,温度为30℃,吸附时间为120 min),Fe3O4-Mg/AlLDH/BC对磷的去除率可达99.24%,该材料是一种新型高效的磷吸附材料。     

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.

     

Removal and recovery of copper and nickel ions from aqueous solution by poly(methacrylamide-co-acrylic acid)/montmorillonite nanocomposites

Nanocomposite hydrogels based on poly(methacrylamide-co-acrylic acid) and nano-sized montmorillonite were prepared by aqueous dispersion and in situ radical polymerization. Optimum sorption conditions were determined as a function of montmorillonite content, contact time, pH, and temperature. The equilibrium data of Cu²⁺ and Ni²⁺ conformed to the Freundlich and Langmuir isotherms in terms of relatively high regression values. The maximum monolayer adsorption capacity of the nanocomposite hydrogel (with 3 wt% montmorillonite content), as obtained from the Langmuir adsorption isotherm, was found to be 49.26 and 46.94 mg g^?1 for Cu²⁺ and Ni²⁺, respectively, at contact time?=?60 min, pH?=?6.8, adsorbent dose?=?100 mg/ml, and temperature?=?318 K. Kinetic studies of single system indicated that the pseudo-second order is the best fit with a high correlation coefficient (R ²?=?0.97–0.99). The result of five times sequential adsorption–desorption cycle shows a good degree of desorption and a high adsorption efficiency.     

Preparation of GO/MIL-101(Fe,Cu) composite and its adsorption mechanisms for phosphate in aqueous solution

Environmental Science and Pollution Research - In this study, MIL-101(Fe), MIL-101(Fe,Cu), and graphene oxide (GO)/MIL-101(Fe,Cu) were synthesized to compose a novel sorbent. The adsorption...     

复合功能超高交联树脂吸附邻苯二酚的热力学研究

研究了胺基修饰的复合功能超高交联树脂对水溶液中邻苯二酚的静态吸附热力学特征。结果表明，在超高交联树脂上引入适量的胺基，可明显提高树脂的吸附容量。该类树脂对邻苯二酚的吸附为自发的放热过程，属于物理吸附过程。     

Surfactant-assisted adsorption of uranyl ions in aqueous solution on TiO2/polythiophene nanocomposite

In this work, hexadecyltrimethylammonium-bromide (HTAB)-modified polythiophene (PTh)/TiO₂ nanocomposite (HTAB/PTh/TiO₂) was applied to remove uranyl ions (UO₂²⁺). FT-IR, XRD, ζ potential, TGA, SEM, and XPS were utilized to obtain the chemical and physical properties of HTAB/PTh/TiO₂. The effects of HTAB content, preparation temperature, and adsorption conditions on UO₂²⁺ removal were investigated comprehensively. And the UO₂²⁺ adsorption process on HTAB/PTh/TiO₂ was fitted to the Sips model with a saturated adsorption capacity of 234.74 mg/g, which was 6 times over TiO₂. The results suggested that the surfactant of HTAB can significantly improve the adsorption ability of TiO₂ for UO₂²⁺ ions. This work provides a strategy of surfactant modification for enhancing the separation and recovery ability of adsorbent toward UO₂²⁺ in the radioactive wastewater.

     

交联羧甲基玉米淀粉对水溶液中铅离子吸附性能的优化研究

以玉米淀粉为原料,采用先醚化后交联改性工艺合成了交联羧甲基玉米淀粉吸附剂。在单因素试验的基础上,采用Box-Benhnken的中心组合试验设计及响应面分析法,研究了交联羧甲基玉米淀粉吸附剂用量、吸附时间和pH值3因素对水溶液中铅离子吸附效果的影响,得出了吸附剂对铅离子吸附效果的回归模型。结果表明,最佳吸附工艺参数为吸附剂用量0.22 g,pH值为6.6,吸附时间32.9 min,交联羧甲基玉米淀粉对铅离子吸附容量可达44.72 mg/g,铅离子去除率达到98.38%。常温下吸附动力学模型符合Freundlich等温式Q=0.4152C^0.9894。采用0.9 mol/L盐酸溶液作为解析液,铅离子回收率可达97.55%。     

Mg/Al/Fe型类水滑石焙烧产物吸附去除水中硫酸根离子

通过共沉淀法制备了Mg/AUFe型类水滑石(MgAlFe-HTLCs)并在500℃下焙烧得焙烧产物(HTLCs-500),利用HTLCs-500吸附去除水中的硫酸根离子,并用X射线衍射对MgAlFe-HTLCs及HTLCs-500吸附硫酸根离子前后的结构进行了表征,研究了环境中其他因素对HTLCs-500吸附硫酸根离子的影响.结果表明,实验数据对准二级动力学模型的拟合结果最好;吸附过程符合Langmuir吸附等温模型,通过实验得到HTLCs-500对硫酸根离子的最大吸附量为157.73 mg/g,和Langmuir等温线得到的理论最大吸附量161.29 mg/g相差不大,对硫酸根离子具有良好的吸附性能;硫酸根溶液的初始pH值对HTLCs-500吸附硫酸根离子的性能影响不大,最佳pH值为3;X射线衍射结果表明,HTLCs-500吸附去除硫酸根离子的机理之一为HTLCs-500通过吸附硫酸根离子来恢复层状结构.     

Correction to: Preparation of GO/MIL-101(Fe,cu) composite and its adsorption mechanisms for phosphate in aqueous solution

Environmental Science and Pollution Research - A Correction to this paper has been published: https://doi.org/10.1007/s11356-021-15526-6     

CTAB-HAP@ZMS复合材料的制备及其对氟离子的吸附性能

使用贝壳和粉煤灰等固体废弃物为原材料,采用水热合成法将十六烷基三甲基溴化铵(CTAB)改性后的羟基磷灰石(HAP)负载到粉煤灰基沸石分子筛(ZMS)上,得到一种高效的吸附剂(CTAB-HAP@ZMS)用于去除氟离子。当投加量为8.0 g·L⁻¹、pH为3、温度为55 ℃时,CTAB-HAP@ZMS复合材料的最高吸附容量达到了10.4 mg·g⁻¹,对10.0 mg·L⁻¹氟化钠溶液中F⁻的去除率可以达到95%。动力学和热力学拟合参数表明吸附过程主要为多分子层式、自发、吸热的化学吸附。将此吸附剂用于处理模拟地热水(F⁻初始浓度为8.0 mg·L⁻¹),去除率达到89%,残留浓度低于我国饮用水质量标准中F⁻的浓度限值(1.0 mg·L⁻¹)。此外,经4次循环再生吸附后,CTAB-HAP@ZMS复合材料仍然表现出较高的氟离子去除效率。该复合材料的制备不仅能使固体废物资源化,还在氟离子去除方面有广阔应用前景。     

阴-阳离子有机膨润土制备及其对铅离子的吸附

用十八烷基三甲基溴化铵（STAB）和十二烷基苯磺酸钠（SDBS）共同改性膨润土制备阴．阳离子有机膨润土,并用红外光谱分析法、热分析法和X粉晶衍射分析进行了表征;考察了阴-阳离子有机膨润土对铅离子的吸附性能。结果表明,用0．5CEC（cationexchangecapacity）十八烷基三甲基溴化铵和0．4CEC十二烷基苯磺酸钠改性的膨润土吸附铅的效果最佳;阴-阳离子有机膨润土吸附铅离子的能力比改性前明显增加,达到吸附平衡所需要的时间缩短;pH值强烈影响有机膨润土对铅离子吸附;有机膨润土对铅离子等温吸附过程符合Langmuir吸附模型;吸附热力学分析表明该吸附是一个放热过程,降低温度有利于铅离子的吸附。     

利用13X沸石分子筛净化含NH+4-N废水的实验研究

研究了13X沸石分子筛在静态和动态条件下对中低浓度含NH4^＋-N废水的吸附性能,包括影响吸附的主要因素、沸石对NH4^＋-N的吸附效果和沸石的再生等。静态实验结果表明,pH值为6．5～7．5,吸附时间35rain,吸附温度20～30℃的条件下,沸石对50mL NH4^＋-N初始浓度（C0）为80mg／L的废水吸附效果最佳,吸附过程符合Langmuir型吸附等温式,饱和吸附量为8．61mg／g。动态条件下,随水力停留时间增加,沸石对NH4^＋-N的吸附量上升,最大饱和吸附量可达24．20mg／g,吸附过程符合Thomas吸附模型。直接焙烧法对吸附后的沸石进行再生活化处理效果良好。实验证明,利用13X沸石净化中低浓度含NH4^＋-N废水具有良好的工业化应用前景。     

Batch and continuous adsorption of Cu(II) and Zn(II) ions from aqueous solution on bi-functionalized sugarcane-based biosorbent

Environmental Science and Pollution Research - A new one-pot synthesis method optimized by a 23 experimental design was developed to prepare a biosorbent, sugarcane bagasse cellulose succinate...     

麦草对水中苯胺的动态吸附研究

通过对苯胺初始浓度、流速、初始pH值和吸附床高度对穿透曲线的影响进行探讨,采用BDST模型和Thomas模型对动态实验数据进行线性拟合分析,研究了麦草对水中苯胺的动态吸附性能。结果表明：麦草能够有效地去除水中的苯胺,随着吸附床高度增加,穿透时间延长;而随着苯胺初始浓度、流速和pH值的增大,穿透时间急剧缩短。BDST模型能够准确地预测新的操作条件下的穿透时间,误差均〈5％;Thomas模型能够很好地描述麦草对苯胺的动态吸附动力学,由Thomas模型获得的麦草吸附柱对苯胺的动态吸附量与实验值相符。对吸附饱和后的麦草可用0．6mol／L盐酸进行解吸。     

合成碳羟基磷灰石对水中双酚A的吸附性能研究

利用废弃蛋壳为原料、尿素为添加剂,合成纳米碳羟基磷灰石(CHAP)用于吸附水中双酚A（BPA）。利用红外光谱、扫描电镜和X射线能谱测试技术对CHAP样品表面化学进行了表征,同时考察了环境因子pH值、吸附时间和BPA初始浓度对吸附的影响。实验结果表明,CHAP对BPA去除率在酸性（pH=3～6）溶液中较好,而在中性和碱性环境中减弱。通过静态吸附实验数据计算分析得知,CHAP对BPA吸附符合Langmuir和Freundlich等温式,准二级动力学模型比准一级动力学模型能更好地描述CHAP对BPA吸附动力学行为。     

Preparation of a porous clay heterostructure and study of its adsorption capacity of phenol and chlorinated phenols from aqueous solutions.

A porous clay heterostructure (PCH) from a Mexican clay was prepared and characterized, and its aqueous phenol and dichlorophenols (DCPs) adsorption capacities were studied using a batch equilibrium technique. The PCH displayed a surface area of 305.5 m2/g, 37.2 A average porous diameter, and a basal space of 23.2 A. The adsorption capacity shown by the PCH for both phenol and DCPs from water (14.5 mg/g for phenol; 48.7 mg/g for 3,4-DCP; and 45.5 mg/g for 2,5-DCP) suggests that the PCH has both hydrophobic and hydrophilic characteristics, as a result of the presence of silanol and siloxane groups formed during the pillaring and calcination of the PCH. The values of maximal adsorption capacity for dichlorophenols were higher than those reported for aluminum pillared clays and some inorgano-organo clays and comparable with some ionic exchange resins.     

Single adsorption of diclofenac and ronidazole from aqueous solution on commercial activated carbons: effect of chemical and textural properties

Environmental Science and Pollution Research - The importance of the textural and physicochemical characteristics upon the adsorption capacity of the commercial activated carbons (ACs) Coconut,...     

Characterization of modified Alternanthera philoxeroides by diethylenetriamine and its application in the adsorption of copper(II) ions in aqueous solution

Environmental Science and Pollution Research - By a simple and convenient method of using epichlorohydrin as linkages, a novel Alternanthera philoxeroides (AP) derivative modified with...     

Role of amination of a polymeric adsorbent on phenol adsorption from aqueous solution

Adsorption of seven phenols, one aromatic carboxylic acid and one sulfonated aromatic acid from aqueous solution, by a hypercrosslinked polymeric adsorbent (CHA-111) and the derivative animated by dimethylamine was compared. The results of different adsorption isotherms indicated that amino group on the polymeric matrix played a significant role on adsorption of almost all the employed compounds. For most employed compounds adsorption capacities increase to different degree and significantly for those with lower value of pK(a). It may be attributed to the enhanced adsorbent-adsorbate interaction for amino group introduced on the polymeric matrix. The empirical Freundlich isotherm equation was employed to interpret the adsorbent-adsorbate interaction. The adsorption enthalpy change indicated the uptake of phenols on MCH-111 to be an enhanced physical adsorption because of the hydrogen-bonding interaction. Adsorption kinetic study of phenols on CHA-111 and MCH-111 was also conducted and amino group on the matrix will reduce the adsorption rate for change of pore size distribution and loss of macroprous volume as well as the hydration effect on the surface partly.