Adsorptive removal of arsenic from drinking water using KOH-modified sewage sludge-derived biochar

Ahsan Shah , Arun Arjunan , Anusha Thumma , Julia Zakharova , Timothy Bolarinwa , Shreah Devi , Maryam Batool
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Abstract

This paper reveals a green chemistry approach to remove arsenic (As+3) from water using potassium hydroxide (KOH) modified sewage sludge-derived biochar (SSDB-KOH). Characterisation of the morphology, particle size and composition of the SSDB-KOH pre- and post-adsorption confirmed porous and heterogenous surface favouring adsorption. At ambient temperature (20 °C), the SSDB-KOH dose of 20 g/l achieved 98 % arsenite removal at nearly neutral solution pH (8). This compared favourably with pristine SSDB, where the performance was limited to 41.6 % removal. The enhanced arsenite adsorption of SSDB-KOH was informed by several mechanisms, including ionic interactions, pore filling and metal-pi interactions. The experimental data fits closely with the Langmuir isotherm and pseudo-second-order kinetic models, revealing monolayer adsorption and the chemical interaction between adsorbents and the adsorbate. The spontaneous and endothermic nature of the process was confirmed by the negative value of ΔG and the positive value of ΔH, respectively. The performance of the biochar was evaluated for four-cycle regeneration. Finally, a cost analysis was performed to demonstrate the economic feasibility of using SSDB-KOH to remove arsenic from water.

利用 KOH 改性污水污泥衍生生物炭吸附去除饮用水中的砷
本文揭示了一种利用氢氧化钾(KOH)改性污水污泥衍生生物炭(SSDB-KOH)去除水中砷(As+3)的绿色化学方法。对 SSDB-KOH 吸附前后的形态、粒度和成分进行的表征证实,多孔和异质表面有利于吸附。在环境温度(20 °C)下,SSDB-KOH 的剂量为 20 克/升,在溶液 pH 值接近中性(8)的条件下,亚砷酸盐的去除率达到 98%。与原始 SSDB 相比,后者的去除率仅为 41.6%。SSDB-KOH 增强亚砷酸盐吸附能力的机理有多种,包括离子相互作用、孔隙填充和金属-π相互作用。实验数据与 Langmuir 等温线和伪二阶动力学模型非常吻合,揭示了单层吸附以及吸附剂与吸附剂之间的化学作用。ΔG为负值,ΔH为正值,这分别证实了吸附过程的自发和内热性质。对生物炭的四次再生性能进行了评估。最后,进行了成本分析,以证明使用 SSDB-KOH 去除水中砷的经济可行性。
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