Potential of silica from water treatment sludge modified with chitosan for Pb(II) and color adsorption in sasirangan waste solution

Q3 Engineering
D. R. Wicakso, A. Mirwan, Era Agustin, Nova Fitria Nopembriani, Ikhsan Firdaus, Muhammad Fadillah
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引用次数: 1

Abstract

Water treatment sludge (WTS) still contains a lot of silica oxide (SiO2) as much as 43.12-66.90% by weight and can act as an adsorbent to be applied to the treatment of Sasirangan wastewater. Silica extraction from WTS was carried out by microwave-assisted leaching, which - compared to conventional extraction - had several advantages including high extraction yields, fast, uniform, and more selective processing time. In addition, Sasirangan liquid waste is a by-product of the dyeing process of Sasirangan cloth, which still contains heavy metals in amounts exceeding the quality standard. This study aims to extract silica from WTS by microwave-assisted leaching process to synthesize silica modified by chitosan (Si-Kit) as an adsorbent to reduce Pb(II) from Sasirangan wastewater, and to obtain a kinetic model of the adsorption process. The silica from microwave-assisted leaching process (Si-MaL) and Si-Kit adsorbents were characterized using FTIR and SEM. The results showed that the dominant functional groups of Si-Kit included Si-O-Si, Si-O-C stretching vibrations, and stretching vibration of C=N showing that the condensation between aldehyde groups and amino groups occurred to form base after the addition of glutaraldehyde. The SEM images showed that Si-MaL and Si-Kit adsorbent obviously increased in particle size with the presence of visible particles of homogeneous granules and large pores. The removal efficiency percentage of Pb(II) and color occurred at 6% w/v adsorbent weight and 70 min was 87.20% and 61.87% respectively. Meanwhile, the adsorption kinetics of Pb(II) and color followed the zero order kinetics model at weight variation of 6%-w/v based on the value of R2 close to one and the adsorption capacity of Pb(II) ion and color were 12.01 mg g-1 and 467 mg g-1, respectively.
壳聚糖改性水处理污泥中二氧化硅在沙氏甘废液中吸附铅(II)和颜色的潜力
水处理污泥(WTS)仍然含有大量的二氧化硅(SiO2),其重量比高达43.12-66.90%,可以作为吸附剂应用于萨西朗干废水的处理。采用微波辅助浸出法从WTS中提取二氧化硅,与传统浸出法相比,具有提取率高、快速、均匀、选择性强等优点。此外,萨斯朗干废液是萨斯朗干布染色过程的副产品,其中仍然含有超过质量标准的重金属。本研究旨在通过微波辅助浸出法从WTS中提取二氧化硅,合成壳聚糖(Si-Kit)改性二氧化硅作为吸附剂,对Sasirangan废水中的Pb(II)进行还原,并获得吸附过程的动力学模型。采用红外光谱(FTIR)和扫描电镜(SEM)对微波辅助浸出二氧化硅(Si-MaL)和Si-Kit吸附剂进行了表征。结果表明,Si-Kit的优势官能团包括Si-O-Si、Si-O-C的伸缩振动和C=N的伸缩振动,表明戊二醛加入后,醛基与氨基发生缩合形成碱。SEM图像显示,Si-MaL和Si-Kit吸附剂粒径明显增大,可见颗粒呈均匀状,孔隙较大。在吸附剂质量为6% w/v和70 min时,对Pb(II)和颜色的去除率分别为87.20%和61.87%。同时,基于R2接近于1,在重量变化6%-w/v时,Pb(II)离子和颜色的吸附动力学符合零级动力学模型,Pb(II)离子和颜色的吸附量分别为12.01 mg g-1和467 mg g-1。
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
Communications in Science and Technology
Communications in Science and Technology Engineering-Engineering (all)
CiteScore
3.20
自引率
0.00%
发文量
13
审稿时长
24 weeks
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