Influence of magnesium content and phosphoric acid treatment on cadmium adsorption onto sugarcane leaf biochar

IF 2.8 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Siraprapa Suwanree, Kaewta Jetsrisuparb, Pornnapa Kasemsiri, Pawarin Tharamas, Hiroshi Uyama, Sanchai Kuboon, Jesper T. N. Knijnenburg
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Abstract

Biochar is an attractive low-cost sorbent for removal of heavy metals such as cadmium (Cd) from solution. This study presents modification of sugarcane leaf biochars with phosphoric acid (H3PO4) and magnesium oxide (MgO) and the influence of Mg:P atomic ratio (varied from 0 to 2) on the Cd2+ adsorption performance was evaluated. Compared to unmodified biochar (BC), pre-pyrolysis modification with H3PO4 alone (P-BC) greatly increased the surface area from 296 to 505 m2/g but its Cd2+ adsorptivity decreased by 5-folds due to high acidity. Incorporation of alkaline MgO increased the Cd2+ adsorption and pH, despite a reduction in surface area, confirming that Mg played a predominant role in Cd2+ removal. When Mg:P > 1 (1.5MgP-BC and 2MgP-BC), more than 99% of the Cd2+ was removed, but the solutions were alkaline with pH > 8. Adsorbent 1MgP-BC presented an overall good performance with a maximum Cd2+ adsorption capacity of 36.4 mg/g (compared to 12.8 mg/g for BC) and neutral pH. The adsorption kinetics of Cd2+ onto both BC and 1MgP-BC were best described by the Elovich and pseudo-second order models, suggesting chemisorption as primary adsorption mechanism. Adsorption isotherms followed the Langmuir (for 1MgP-BC) and Freundlich isotherm models (for BC). Characterization of the post-adsorption biochars with XRD, FTIR, XPS and SEM–EDX confirmed that Cd2+ adsorption onto BC was governed by precipitation of CdCO3 and interaction with specific surface sites, whereas for 1MgP-BC the Cd2+ was primarily adsorbed onto Mg phosphates on the biochar surface and precipitated as Cd3(PO4)2.

Abstract Image

镁含量和磷酸处理对甘蔗叶生物炭吸附镉的影响
生物炭是一种极具吸引力的低成本吸附剂,可用于去除溶液中的镉(Cd)等重金属。本研究用磷酸(H3PO4)和氧化镁(MgO)对甘蔗叶生物炭进行改性,并评估了 Mg:P 原子比(从 0 到 2)对 Cd2+ 吸附性能的影响。与未经改性的生物炭(BC)相比,仅用 H3PO4 进行热解前改性(P-BC)可将比表面积从 296 m2/g 大幅提高到 505 m2/g,但由于酸度较高,其 Cd2+ 吸附性降低了 5 倍。掺入碱性氧化镁后,尽管表面积减少了,但Cd2+的吸附率和pH值却提高了,这证实了镁在去除Cd2+的过程中起着主导作用。当 Mg:P > 1(1.5MgP-BC 和 2MgP-BC)时,99% 以上的 Cd2+ 被去除,但溶液呈碱性,pH 值为 8。吸附剂 1MgP-BC 的总体性能良好,最大 Cd2+ 吸附量为 36.4 毫克/克(BC 为 12.8 毫克/克),pH 值为中性。Cd2+ 在 BC 和 1MgP-BC 上的吸附动力学用 Elovich 和伪二阶模型进行了最佳描述,表明化学吸附是主要的吸附机制。吸附等温线遵循 Langmuir 模型(1MgP-BC)和 Freundlich 等温线模型(BC)。利用 XRD、FTIR、XPS 和 SEM-EDX 对吸附后的生物炭进行表征证实,Cd2+ 在 BC 上的吸附是由 CdCO3 的沉淀和与特定表面位点的相互作用决定的,而对于 1MgP-BC,Cd2+ 主要吸附在生物炭表面的磷酸盐镁上,并沉淀为 Cd3(PO4)2。
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来源期刊
CiteScore
5.70
自引率
18.20%
发文量
229
审稿时长
2.6 months
期刊介绍: Research on Chemical Intermediates publishes current research articles and concise dynamic reviews on the properties, structures and reactivities of intermediate species in all the various domains of chemistry. The journal also contains articles in related disciplines such as spectroscopy, molecular biology and biochemistry, atmospheric and environmental sciences, catalysis, photochemistry and photophysics. In addition, special issues dedicated to specific topics in the field are regularly published.
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