The influence of textural and chemical properties of palm kernel shell activated carbon on the adsorption capacity and desorption efficiency of -carotene in a model system


Citation

M. Ulfah, . and Raharjo S., . and P. Hastuti, . and Darmadji P., . The influence of textural and chemical properties of palm kernel shell activated carbon on the adsorption capacity and desorption efficiency of -carotene in a model system. pp. 345-353. ISSN 2231-7546

Abstract

The objectives of the present work were to characterise the textural and chemical properties of palm kernel shell activated carbon (PKSAC) prepared by chemical activation using phosphoric acid and its influence on the adsorption capacity and desorption efficiency of -carotene in a model system. The PKSAC was prepared by impregnation of the precursor in phosphoric acid solution at ratios of 2 and 3 mL/g and carbonisation at 500C for 30 45 60 and 75 min. The results showed that the yield of all PKSAC was not significantly different. The PKSAC under impregnation ratio of 3 mL/g had higher surface area total pore volume mesopore and micropore volume than those at 2 mL/g. This resulted in the increase in -carotene adsorption capacity by PKSAC at 3 mL/g. The textural properties of PKSAC and adsorption capacity under different carbonisation times were not significantly different. The PKSAC under impregnation ratio of 2 mL/g and carbonisation for 60 min (AC260) yielded the lowest non-polar surface functional group whereas AC230 the highest. Non-polar surface functional groups might have increased the adsorption capacity but decreased the desorption efficiency which was contrary with the polar functional group. AC260 also yielded the lowest adsorption capacity of -carotene onto the PKSAC in a model system but yielded the highest desorption efficiency


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Abstract

The objectives of the present work were to characterise the textural and chemical properties of palm kernel shell activated carbon (PKSAC) prepared by chemical activation using phosphoric acid and its influence on the adsorption capacity and desorption efficiency of -carotene in a model system. The PKSAC was prepared by impregnation of the precursor in phosphoric acid solution at ratios of 2 and 3 mL/g and carbonisation at 500C for 30 45 60 and 75 min. The results showed that the yield of all PKSAC was not significantly different. The PKSAC under impregnation ratio of 3 mL/g had higher surface area total pore volume mesopore and micropore volume than those at 2 mL/g. This resulted in the increase in -carotene adsorption capacity by PKSAC at 3 mL/g. The textural properties of PKSAC and adsorption capacity under different carbonisation times were not significantly different. The PKSAC under impregnation ratio of 2 mL/g and carbonisation for 60 min (AC260) yielded the lowest non-polar surface functional group whereas AC230 the highest. Non-polar surface functional groups might have increased the adsorption capacity but decreased the desorption efficiency which was contrary with the polar functional group. AC260 also yielded the lowest adsorption capacity of -carotene onto the PKSAC in a model system but yielded the highest desorption efficiency

Additional Metadata

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Item Type: Article
AGROVOC Term: Palm kernels
AGROVOC Term: Shell
AGROVOC Term: Activated carbon
AGROVOC Term: Chemical composition
AGROVOC Term: Beta
AGROVOC Term: Carotenes
AGROVOC Term: Adsorption
AGROVOC Term: Desorption
AGROVOC Term: Efficiency
AGROVOC Term: Texture
Depositing User: Mr. AFANDI ABDUL MALEK
Last Modified: 24 Apr 2025 00:53
URI: http://webagris.upm.edu.my/id/eprint/7807

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