以废旧玻璃为原料,绿色合成可高效去除重金属的介孔吸附剂

IF 4.8 3区 材料科学 Q1 CHEMISTRY, APPLIED
Jean-Baptiste Mawulé Dassekpo , Haiying Zhong , Chonkei Iong , Zhijun Dong , Ningning Shao , Innocent Sègla Dassekpo , Dongmin Wang , Jianqiao Ye
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引用次数: 0

摘要

通过水热反应将废硅玻璃粉与 NaOH 溶液混合,成功合成了介孔蚁酸吸附剂(MaA)。通过调节调节时间(Ct)、反应温度(Rt)和反应物的相对比例(Rr = SiO2:Na2O),获得了令人满意的反应性能。对所选样品进行了 XRF、XRD、SEM、BET、FTIR、AFM、TG 和 TEM 分析。然后将制备的 MaA 吸附剂用于处理 Pb2+、Cd2+ 和 Cu2+ 离子,从而有效地检验了物理化学特性(pH 值、温度和接触时间)对吸附量的影响。结果表明,初始 pH 值和接触时间对吸附量有显著影响。相反,温度变化对平衡吸附量的影响不大。此外,0.1 克 MaA 的用量、1000 毫克/升的浓度、6 至 8 的 pH 值和 25 °C左右的温度被认为是吸附所研究重金属的最佳工艺条件,而接触时间的差异记录如下:1 小时内,Pb2+ 和 Cu2+ 离子的吸附量分别为 75.081 毫克/克和 74.054 毫克/克;3 小时内,Cd2+ 离子的吸附量为 75.530 毫克/克。在趋势分析中,Langmuir 等温线模型的相关系数(R2 = 0.99)与 Freundlich 等温线模型(R2 从 0.10 到 0.55)相比越来越一致,从而表明该过程为均相单分子层吸附。此外,与准二级动力学方程相比,动力学方面也同样一致,从而进一步确定了该过程主要受离子交换、粒子外、粒子内和液膜扩散控制。此外,还对 MaA 吸附剂用于处理重金属后的潜在可再利用性进行了研究。经高温处理后的复合材料结晶相显示,硅灰石(CaSiO₃)和绿帘石(Na₂CO₃)是主要的矿物相。这些矿物有利于制备功能性建筑材料,为废玻璃的全面回收利用提供了一个可持续的解决方案,并为有效的固体废物管理和环境保护做出了贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Waste glass as a source for green synthesis of mesoporous adsorbent for efficient removal of heavy metals

Waste glass as a source for green synthesis of mesoporous adsorbent for efficient removal of heavy metals
Mesoporous analcime Adsorbent (MaA) was cogently synthesized in a hydrothermal reaction where a waste silica glass powder was mixed into NaOH solution. The satisfactory reaction properties were achieved by regulating the conditioning time (Ct), reaction temperature (Rt), and relative ratio of the reactants (Rr = SiO2:Na2O). XRF, XRD, SEM, BET, FTIR, AFM, TG and TEM analysis formed part of the selected samples. The prepared MaA adsorbent was then applied to treat Pb2+, Cd2+ and Cu2+ ions, thus effectively allowing the physicochemical properties (pH, temperature and contact duration), on the adsorption amount to be examined. Upon completion, the results indicated that the initial pH as well as the contact duration had notable effect on the adsorption amount. Conversely, the temperature change had an insignificant effect on the equilibrium adsorption amount. In addition, a dosage of 0.1 g of MaA, concentration of 1000 mg/L, pH ranging from 6 to 8, and temperature of about 25 °C were found to be the optimum process conditions for the adsorption of the examined heavy metals, whereas difference in contact time was recorded as follows: 1 h for Pb2+ and Cu2+ ions with adsorption amounts of 75.081 mg/g and 74.054 mg/g, respectively; and 3 h for Cd2+ ion with adsorption equal to 75.530 mg/g. In the analysis of the trend, the coefficients of correlation (R2 = 0.99) of the Langmuir isotherm model were increasingly consistent compared to Freundlich isotherm model (R2 from 0.10 to 0.55), thus indicating that the process to be a homogeneous monomolecular layer adsorption. Moreover, the kinetic aspects were similarly consistent in relation to quasi-secondary kinetic equation, which then further established that the process was primarily controlled by ion exchange, extra-particle, intra-particle, and liquid film diffusion. In addition, research on the potential reusability of MaA adsorbent after being employed to treat heavy metals was also performed. The crystalline phase of the composite after subjected to high temperature indicated wollastonite (CaSiO₃) and gregoryite (Na₂CO₃) as the main mineralogical phases. These minerals are beneficial in the preparation of functional building materials by promoting a sustainable solution for the full recycling of waste glass and contributing to efficient solid waste management and environment protection.
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来源期刊
Microporous and Mesoporous Materials
Microporous and Mesoporous Materials 化学-材料科学:综合
CiteScore
10.70
自引率
5.80%
发文量
649
审稿时长
26 days
期刊介绍: Microporous and Mesoporous Materials covers novel and significant aspects of porous solids classified as either microporous (pore size up to 2 nm) or mesoporous (pore size 2 to 50 nm). The porosity should have a specific impact on the material properties or application. Typical examples are zeolites and zeolite-like materials, pillared materials, clathrasils and clathrates, carbon molecular sieves, ordered mesoporous materials, organic/inorganic porous hybrid materials, or porous metal oxides. Both natural and synthetic porous materials are within the scope of the journal. Topics which are particularly of interest include: All aspects of natural microporous and mesoporous solids The synthesis of crystalline or amorphous porous materials The physico-chemical characterization of microporous and mesoporous solids, especially spectroscopic and microscopic The modification of microporous and mesoporous solids, for example by ion exchange or solid-state reactions All topics related to diffusion of mobile species in the pores of microporous and mesoporous materials Adsorption (and other separation techniques) using microporous or mesoporous adsorbents Catalysis by microporous and mesoporous materials Host/guest interactions Theoretical chemistry and modelling of host/guest interactions All topics related to the application of microporous and mesoporous materials in industrial catalysis, separation technology, environmental protection, electrochemistry, membranes, sensors, optical devices, etc.
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