Characterization Study of Dyes Photodegradation-Adsorption Products by TiO2-Chitosan Immobilized on Glass Beads using Flow System

Jurnal Kimia Valensi Pub Date : 2023-06-04 DOI:10.15408/jkv.v9i1.31855

Bella Sukma Mahadika, A. Saefumillah, Saepurahman Saepurahman, K. A. Kurnia, D. V. Wellia

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Abstract

Dyes have a complex molecular structure that is difficult to degrade and can persist for a long time in water bodies. This study examines more thoroughly the effectiveness of photodegradation-adsorption of dyes, kinetic aspects, isotherms, thermodynamics, identification of the structure of photodegradation products, and changes in environmental quality parameter values whose results are quite satisfactory. The combination of photodegradation-adsorption of dyes by TiO2-chitosan modified glass beads using a flow system has never been accomplished before. Flowing of the dye resulted in a dye degradation efficiency of 99%. The FESEM-EDX analysis shows that TiO2-chitosan has been coated onto the surface of the glass beads. R2 of kinetics MB, MO, RB are 0.99234, 0.9889, 0.9971, which were pseudo-first order. Qm, KL, R2 are 6.4382, 0.70533, 0.99923; 16.7364, 1.42059, 0.98816; 6.0078, 1.06973, 0.99889, respectively. The ∆H, ∆S, ∆S of -9.388, -0.024, -1.979; -27.182, -0.078, -3.592; -4.819, -0.017, 0.464 indicate the exothermic and spontaneous reaction. COD, TOC, pH, turbidity values have reached the threshold required by the government. The degradation products formed during the photodegradation-adsorption process were identified using LC-MS that the structure of the dye has been degraded to become simpler so that it is safely disposed of into the environment.

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流动系统固定tio2 -壳聚糖在玻璃微珠上的染料光降解-吸附产物表征研究

染料具有复杂的分子结构，难以降解，并且可以在水体中长期存在。本研究更全面地考察了染料光降解吸附的有效性、动力学方面、等温线、热力学、光降解产物结构的鉴定以及环境质量参数值的变化，其结果相当令人满意。使用流动系统的TiO2壳聚糖改性玻璃珠对染料的光降解吸附的组合以前从未实现过。染料的流动导致99%的染料降解效率。FESEM-EDX分析表明，TiO2壳聚糖已经被涂覆到玻璃珠的表面上。动力学参数MB、MO、RB的R2分别为0.99234、0.9889、0.9971，为拟一级。Qm、KL、R2分别为6.4382、0.70533、0.99923；16.7364、1.42059、0.98816；分别为6.0078、1.06973和0.99889。∆H、∆S和∆S分别为-9.388、-0.024、-1.979-27.182，-0.078，-3.592-4.819，-0.017，0.464表示放热和自发反应。COD、TOC、pH、浊度值已达到政府规定的阈值。使用LC-MS鉴定了在光降解吸附过程中形成的降解产物，即染料的结构已经被降解，变得更简单，从而可以安全地处理到环境中。

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

Jurnal Kimia Valensi

CiteScore

0.80

自引率

0.00%

发文量

审稿时长

24 weeks