Absorbance enhancement of a treated Tanzanian kaolin for removal of synthetic dyes from contaminated water

International Journal of Biological and Chemical Sciences Pub Date : 2024-01-18 DOI:10.4314/ijbcs.v17i6.34

Laurance Erasto, H. Hellar-Kihampa, Q. Mgani, Esther Hellen Jason Lugwisha

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Abstract

Kaolin possesses unique features suitable for removing pollutants from aqueous solutions, in this regard, improving its effectiveness as an adsorbent is important. This study focused on refining the absorbance efficiency of Pugu kaolin clay from Tanzania to enhance its utilization in removing textile dyes from contaminated water. The process involved acid-activation after calcination at 750oC. Characterization using X-ray Fluorescence (XRF), X-ray diffraction (XRD), Attenuated Total Reflectance-Fourier Transform Infrared Spectroscopy (ATR-FTIR) and Porosimeter techniques revealed the presence of kaolinite [Al2Si2O5(OH)4], silica (SiO2) and microcline [KAlSi3O8] as the main phases. Acid treatment resulted in an increase in silica content from 44.18% to 58.81% due to the appearance of tridymite, while alumina decreased from 26.70% to 12.74% due to the removal of kaolinite. Surface area significantly expanded from 15.36 to 149.61 m2/g as acid-soluble impurities were eliminated. Chemical composition was also altered, with a decrease in Fe2O3 and increase in other major oxides. The impact of acid activation on the adsorption capacity of the clay was investigated by studying various parameters such as contact time, temperature, adsorbent dose, initial pH and adsorbate concentration. Basic Blue 9 (BB9) and Direct Red 28 (DR28) dyes were used as model adsorbates. The results obtained at optimal conditions of 3 hours contact time, 27oC temperature, 0.9 g adsorbent dose, initial pH of 11 and initial adsorbate concentration of 90 mg/L, showed that acid modification of the clay increased its capacity to adsorb BB9 from 96.82% to 99.91%, and DR28 from 86.33% to 95.04%. These findings underscore the positive impact of modifying the raw clay, enhancing its suitability for dye removal applications.

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提高经过处理的坦桑尼亚高岭土的吸光率，去除受污染水体中的合成染料

高岭土具有适合从水溶液中去除污染物的独特特性，因此，提高其作为吸附剂的有效性非常重要。本研究的重点是改进坦桑尼亚 Pugu 高岭土的吸附效率，以提高其在去除受污染水体中的纺织染料方面的利用率。过程包括在 750 摄氏度煅烧后进行酸活化。利用 X 射线荧光 (XRF)、X 射线衍射 (XRD)、衰减全反射-傅立叶变换红外光谱 (ATR-FTIR) 和孔隙度计技术进行的表征显示，高岭石 [Al2Si2O5(OH)4]、二氧化硅 (SiO2) 和微云母 [KAlSi3O8] 是主要的物相。酸处理使二氧化硅含量从 44.18% 增加到 58.81%，原因是出现了三闪石，而氧化铝则从 26.70% 减少到 12.74%，原因是去除了高岭石。由于消除了酸溶性杂质，表面积从 15.36 m2/g 显著扩大到 149.61 m2/g。化学成分也发生了变化，Fe2O3 减少，其他主要氧化物增加。通过研究接触时间、温度、吸附剂剂量、初始 pH 值和吸附剂浓度等各种参数，研究了酸活化对粘土吸附能力的影响。碱性蓝 9 (BB9) 和直接红 28 (DR28) 染料被用作模型吸附剂。在接触时间为 3 小时、温度为 27 摄氏度、吸附剂剂量为 0.9 克、初始 pH 值为 11 和初始吸附剂浓度为 90 毫克/升的最佳条件下得出的结果表明，粘土的酸改性使其对碱性蓝 9 的吸附能力从 96.82% 提高到 99.91%，对直接红 28 的吸附能力从 86.33% 提高到 95.04%。这些发现强调了改性原粘土的积极影响，提高了其在染料去除应用中的适用性。

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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来源期刊

International Journal of Biological and Chemical Sciences

CiteScore

0.90

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0.00%

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