Hexavalent Chromium Adsorption on Adsorbent Derived From Biomass of Fabaceae Plant in Vietnam: Effect of Preparation Conditions on Equilibrium Adsorption Capacity

IF 1.5 Q4 ENGINEERING, ENVIRONMENTAL

Environmental Quality Management Pub Date : 2024-11-07 DOI:10.1002/tqem.22353

Thai Phuong Vu, Lam Thi Thanh Quyen, Nguyen Trung Hiep, Ta Thi Hoai Thu, Tran Tuyet Suong

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Abstract

The present work is devoted to examining the potential of Sesbania sesban biochar produced through slow pyrolysis for 120 min at 300°C in removing hexavalent chromium from the aqueous phase. The physicochemical characteristics of biochar were analyzed utilizing a variety of analytical tools including SEM, BET, and FTIR. Results revealed that the biochar had a smooth surface, an even stacking pattern with a porous texture, a large BET surface area equal to 562 m²/g, and a pH_pzc of 6.9. The biochar efficiency in eliminating Cr (VI) was investigated through several variables, including biochar dosage (0.1–0.4 g), pH (2–8), initial chromium ion concentration (10–40 mg/L), and adsorption time (15–120) min. The results identified the best conditions for adsorbing Cr (VI): an initial concentration of 10 mg/L, an absorbent dosage of 0.3 g, a pH solution of 2, and a reaction time of 90 min. The experiment achieved a Cr (VI) removal efficiency of over 90% by applying these conditions. The adsorption isotherm data were analyzed and showed a strong correlation coefficient (R² = 0.985) for Langmuir monolayer model, in which the maximum adsorption capacity achieved was 5.3 mg/g. According to the kinetic investigation, the adsorption of Cr (VI) was adapted to a pseudo-second-order model having a high R² value of 0.998. These results demonstrate that Sesbania sesban biochar has excellent potential as a cost-effective and highly efficient adsorbent for removing hexavalent chromium and improving water quality.

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越南豆科植物生物质吸附剂对六价铬的吸附：制备条件对平衡吸附容量的影响

本研究专门探讨了在 300°C 下经过 120 分钟缓慢热解产生的芝麻生物炭在去除水相中的六价铬方面的潜力。利用扫描电镜、BET 和傅立叶变换红外光谱等多种分析工具对生物炭的物理化学特性进行了分析。结果表明，生物炭表面光滑，堆积模式均匀，质地多孔，BET 表面积大，为 562 m2/g，pH 值为 6.9。通过生物炭用量（0.1-0.4 克）、pH 值（2-8）、初始铬离子浓度（10-40 毫克/升）和吸附时间（15-120 分钟）等几个变量，研究了生物炭消除六价铬的效率。结果确定了吸附六价铬的最佳条件：初始浓度为 10 毫克/升，吸附剂用量为 0.3 克，溶液 pH 值为 2，反应时间为 90 分钟。在这些条件下，实验达到了 90% 以上的 Cr (VI) 去除率。对吸附等温线数据进行了分析，结果表明 Langmuir 单层模型具有很强的相关系数（R2 = 0.985），最大吸附容量为 5.3 mg/g。根据动力学研究，Cr (VI) 的吸附符合假二阶模型，其 R2 值高达 0.998。这些结果表明，芝麻木生物炭作为一种具有成本效益的高效吸附剂，在去除六价铬和改善水质方面具有很好的潜力。

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来源期刊

Environmental Quality Management Environmental Science-Management, Monitoring, Policy and Law

CiteScore

2.20

自引率

0.00%

发文量

期刊介绍： Four times a year, this practical journal shows you how to improve environmental performance and exceed voluntary standards such as ISO 14000. In each issue, you"ll find in-depth articles and the most current case studies of successful environmental quality improvement efforts -- and guidance on how you can apply these goals to your organization. Written by leading industry experts and practitioners, Environmental Quality Management brings you innovative practices in Performance Measurement...Life-Cycle Assessments...Safety Management... Environmental Auditing...ISO 14000 Standards and Certification..."Green Accounting"...Environmental Communication...Sustainable Development Issues...Environmental Benchmarking...Global Environmental Law and Regulation.