Response surface methodology for optimizing pollutants elimination from wastewater using activated biochar derived from mixed biowastes

Sustainable Chemistry One World Pub Date : 2025-08-18 DOI:10.1016/j.scowo.2025.100099

Hanan H. Ahmed , Marwa H. Altamer , Duaa H. Altamer , Abdelrahman B. Fadhil

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Abstract

The present study explores the co-carbonization of mixed date palm pits (DPPs) with chicken bones (CBs) in a fixed-bed reactor. The resulting biochar (BC) was successfully converted into activated biochar (ABC) using ZnCl₂ as an activator. The optimal ABC was produced using a 2:1 ZnCl₂:BC impregnation ratio at 500 °C for 60 min and 10 °C/min heating rate. The BET-specific surface area for this ABC was 531 m²/g, while its average pore diameter was 2.649 nm, signifying its mesoporous structure. The adsorption performance of chromium ion Cr (VI) and methylene blue (MB) from wastewater was examined using Box-Behnken Design (BBD) to obtain the optimal preparation conditions. The outcomes disclosed that under the ideal experimental settings (0.25 g of ABC for 180 min at 30 °C), the highest adsorptive removal of 100 mg/L Cr (VI) solution was 86.89 %. In comparison, the highest adsorptive removal of 200 mg.L⁻¹ MB solution was 99.75 % utilizing 0.25 g of ABC for 30 min at 30 °C. The Frundlich isotherm model was determined to be a suitable fit for the experimental data. The kinetics investigation found that a pseudo-2nd-order model best suited the data, indicating chemisorption. In conclusion, mixed DPPs+CBs can be adopted as a potential and effective precursor for producing ABC with a sustainable and adsorptive material.

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利用混合生物废弃物衍生的活性生物炭优化废水中污染物去除的响应面法

研究了混合枣椰核（DPPs）与鸡骨（CBs）在固定床反应器中的共碳化。以ZnCl2为活化剂，成功地将所得生物炭（BC）转化为活性生物炭（ABC）。采用2:1的ZnCl2:BC浸渍比，在500℃、60 min和10 ℃/min的加热速率下，获得最佳的ABC。该ABC的bet比表面积为531 m2/g，平均孔径为2.649 nm，具有介孔结构。采用Box-Behnken设计（BBD）考察了其对废水中铬离子Cr （VI）和亚甲基蓝（MB）的吸附性能，确定了最佳制备条件。结果表明，在理想的实验条件下（0.25 g ABC, 30°C, 180 min），对100 mg/L Cr （VI）溶液的最高吸附去除率为86.89 %。相比之下，最高吸附去除率为200 mg。L−1 MB溶液为99.75% %,0.25 g ABC, 30°C, 30 min。确定了Frundlich等温线模型与实验数据的拟合性。动力学研究发现，伪二阶模型最适合数据，表明化学吸附。综上所述，混合DPPs+CBs可以作为一种可持续吸附材料生产ABC的潜在有效前驱体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sustainable Chemistry One World

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