Optimization of ground sediment and calcium carbide residue as raw materials for geopolymer


Citation

M. A. Shafie, . and Ean, L. W. and M. H. Khairuddin, . (2020) Optimization of ground sediment and calcium carbide residue as raw materials for geopolymer. Journal of Energy and Environment (Malaysia), 12 (2). pp. 1-6. ISSN 1985-7462

Abstract

This paper aims to study the synthesized geopolymers by using Ground Sediment (GS)and Calcium Carbide Residue (CCR) as aluminosilicate sources. The efficiency of the source materials in producing geopolymer products was optimized by using Taguchi method via five parameters including Sodium Hydroxide (NaOH) concentration, Solid to Liquid ratio, Sodium Silicate to Sodium Hydroxide (Na₂SiOɜ/NaOH) ratio, oven curing time and oven curing temperature. Each of the parameter was tested at four levels with L16 array. The performance of the specimens was assessed by density test and compression test. Taguchi analysis of the experimental result suggested a specimen with NaOH concentration of 8M, Solid to Liquid Ratio equals to 1, Na₂SiOɜ/NaOH of 2, oven curing time for 36 hours and oven curing temperature at 60°C to acquire the highest strength after 14 days of curing at room temperature.


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Abstract

This paper aims to study the synthesized geopolymers by using Ground Sediment (GS)and Calcium Carbide Residue (CCR) as aluminosilicate sources. The efficiency of the source materials in producing geopolymer products was optimized by using Taguchi method via five parameters including Sodium Hydroxide (NaOH) concentration, Solid to Liquid ratio, Sodium Silicate to Sodium Hydroxide (Na₂SiOɜ/NaOH) ratio, oven curing time and oven curing temperature. Each of the parameter was tested at four levels with L16 array. The performance of the specimens was assessed by density test and compression test. Taguchi analysis of the experimental result suggested a specimen with NaOH concentration of 8M, Solid to Liquid Ratio equals to 1, Na₂SiOɜ/NaOH of 2, oven curing time for 36 hours and oven curing temperature at 60°C to acquire the highest strength after 14 days of curing at room temperature.

Additional Metadata

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Item Type: Article
AGROVOC Term: waste utilization
AGROVOC Term: environmental engineering
AGROVOC Term: sampling
AGROVOC Term: analysis
AGROVOC Term: calcium
AGROVOC Term: environmental impact
Geographical Term: Malaysia
Depositing User: Nor Hasnita Abdul Samat
Date Deposited: 21 Nov 2025 09:15
Last Modified: 21 Nov 2025 09:15
URI: http://webagris.upm.edu.my/id/eprint/1554

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