Effectiveness of Sequential Pre-treatment and Application of High-porosity Hybrid Fly Ash Geopolymer/alginate Adsorbent for the Treatment of Batik Wastewater

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Azwa Saiyed Mohd Nurddin Siti Mazatul; Sufian Suriati; Man Zakaria; Rabat Nurul Ekmi; Ahmad Nazwin

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Journal: JOURNAL OF CHEMICAL HEALTH RISKS Year:2021 | Volume:11 | Issue:4 Page(s): 345-356

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Title

Effectiveness of Sequential Pre-treatment and Application of High-porosity Hybrid Fly Ash Geopolymer/alginate Adsorbent for the Treatment of Batik Wastewater

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Keywords

Geopolymer / alginate

Batik wastewater

Adsorbent

High-porosity

Abstract

ABSTRACT: In this work, hybrid fly ash geopolymer / alginate spheres (GSA) were produced and used as an effective and economical adsorbent in a treatment of batik wastewater. A preparation of GSA adsorbent involved a facile method where the fly ash (FA) based geopolymer was entrapped into sodium alginate (SA) followed by crosslinking of Ca2+ and SA. In additional to that, natural egg white was utilized as a foaming agent. Characterization of the GSA adsorbent strongly confirmed the formation of hybrid spheres that composed of geopolymer and alginate with extremely porous microstructure with porosity of 87. 64%. Surface area, average pore diameter and pore volume was 12. 874 m2 g-1, 3. 3110 nm and 0. 1684 cm 3g, respectively. Prior to the adsorption process, the batik wastewater was pre-treated using high concentration acid hydrofluoric (HF) and magnesium oxide (MgO). The optimum acidification pre-treatment at pH=3 removed ~ 93% of chemical oxygen demand (COD). In the subsequent stage, the highest percentage of COD removal was ~27% by utilizing 1500 mg L-1 f MgO powder. In the final stage, different dosages of GSA adsorbent was used in order to treat the remaining COD and resulted in as maximum as ~67% of the COD removal. According to the finding, the sequential pre-treatment and application of high-porosity hybrid GSA adsorbent offered a great potential to be implemented as an economical and effective batik wastewater treatment.

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APA: Copy

Azwa Saiyed Mohd Nurddin, Siti Mazatul, Sufian, Suriati, Man, Zakaria, Rabat, Nurul Ekmi, & Ahmad, Nazwin. (2021). Effectiveness of Sequential Pre-treatment and Application of High-porosity Hybrid Fly Ash Geopolymer/alginate Adsorbent for the Treatment of Batik Wastewater. JOURNAL OF CHEMICAL HEALTH RISKS (JCHR), 11(4), 345-356. SID. https://sid.ir/paper/1052671/en

Vancouver: Copy

Azwa Saiyed Mohd Nurddin Siti Mazatul, Sufian Suriati, Man Zakaria, Rabat Nurul Ekmi, Ahmad Nazwin. Effectiveness of Sequential Pre-treatment and Application of High-porosity Hybrid Fly Ash Geopolymer/alginate Adsorbent for the Treatment of Batik Wastewater. JOURNAL OF CHEMICAL HEALTH RISKS (JCHR)[Internet]. 2021;11(4):345-356. Available from: https://sid.ir/paper/1052671/en

IEEE: Copy

Siti Mazatul Azwa Saiyed Mohd Nurddin, Suriati Sufian, Zakaria Man, Nurul Ekmi Rabat, and Nazwin Ahmad, “Effectiveness of Sequential Pre-treatment and Application of High-porosity Hybrid Fly Ash Geopolymer/alginate Adsorbent for the Treatment of Batik Wastewater,” JOURNAL OF CHEMICAL HEALTH RISKS (JCHR), vol. 11, no. 4, pp. 345–356, 2021, [Online]. Available: https://sid.ir/paper/1052671/en

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