Interfacial adsorption facilitated arsenate immobilization in soil using biochar-supported nanoscale goethite

IF 8.1 1区 工程技术 Q1 ENGINEERING, CHEMICAL Separation and Purification Technology Pub Date : 2024-12-16 DOI:10.1016/j.seppur.2024.131122
Jing Nie, Shiyu Cao, Yanbiao Shi, Jiangshan Li
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Abstract

As(V)-contaminated soil is a serious global environmental issue and As(V) immobilization is still a challenge. This study synthesizes and applies a high-performance biochar-supported nanoscale goethite (nGBC) to immobilize As(V) in soil, elucidating the interfacial mechanisms through various characterization methods and density functional theory calculations. nGBC was successfully synthesized at 600 °C for 2 h using 0.6 mol/L Fe3+, achieving a maximum adsorption capacity of 110.28 mg/g As(V). When the As(V) concentration in soil of 50 mg/g, the leaching As(V) concentration decreases to 0.0004 mg/L after 28 d remediation, which is lower than Class I groundwater quality limit. During the remediation, As(V) replaces hydroxyl groups on goethite, and forms stable bidentate binuclear complexes with surface iron. Consequently, nGBC transformed organic, carbonate, and exchangeable fractions into a more stable residue fraction. This study offers an effective material for stabilizing As(V)-contaminated soils and introduces a novel strategy for investigating the interfacial remediation mechanisms of heavy metal-contaminated soils.

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利用生物炭支撑的纳米级戈壁石的界面吸附作用促进土壤中砷酸盐的固定化
砷(Ⅴ)污染土壤是一个严重的全球环境问题,而砷(Ⅴ)固定化仍然是一个挑战。本研究合成并应用了一种高性能的生物炭支撑纳米级鹅卵石(nGBC)来固定土壤中的As(V),并通过多种表征方法和密度泛函理论计算阐明了其界面机理。nGBC在600 ℃下用0.6 mol/L Fe3+成功合成2 h,最大吸附容量达到110.28 mg/g。当土壤中的 As(V) 浓度为 50 mg/g 时,经过 28 d 的修复后,沥滤的 As(V) 浓度降至 0.0004 mg/L,低于地下水的一级质量限值。在修复过程中,As(V) 取代了鹅绿泥石上的羟基,并与表面的铁形成稳定的双核络合物。因此,nGBC 将有机物、碳酸盐和可交换组分转化为更稳定的残留组分。这项研究为稳定砷(V)污染土壤提供了一种有效的材料,并为研究重金属污染土壤的界面修复机制引入了一种新策略。
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来源期刊
Separation and Purification Technology
Separation and Purification Technology 工程技术-工程:化工
CiteScore
14.00
自引率
12.80%
发文量
2347
审稿时长
43 days
期刊介绍: Separation and Purification Technology is a premier journal committed to sharing innovative methods for separation and purification in chemical and environmental engineering, encompassing both homogeneous solutions and heterogeneous mixtures. Our scope includes the separation and/or purification of liquids, vapors, and gases, as well as carbon capture and separation techniques. However, it's important to note that methods solely intended for analytical purposes are not within the scope of the journal. Additionally, disciplines such as soil science, polymer science, and metallurgy fall outside the purview of Separation and Purification Technology. Join us in advancing the field of separation and purification methods for sustainable solutions in chemical and environmental engineering.
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