Characteristics Analysis of Bio Based Silica Extracted from Sarawak Palm Oil Waste

Due to high production of palm oil, surplus quantities of palm oil wastes such as empty fruit bunches (EFB) and palm kernel shells (PKS) are generated. This study aims to analyze the characteristics of EFB and PKS ashes and their respective bio-silica content when combusted at different temperatures; 400°C, 600°C and 800°C. Several tests like weight loss, colour and Fourier Transform Infrared (FTIR) analysis are conducted. EFB records higher weight loss compared to PKS for all combustion temperatures, thus implying less silica content compared to the later. Both wastes also show the highest weight loss at 99.20% and 98.51% respectively, when they are burnt at 800°C than those combusted at lower temperatures. This happens because more impurities evaporate at 800°C, thus resulting in greater relative amount of silica in the ash. Colour analysis shows that the whiteness of both EFB and PKS ashes are the highest when combustion occurs completely at 800°C, particularly at 71.56 and 42.40 respectively. Besides, FTIR analysis depicts distinct presence of Si-O and Si-O-Si functional groups in both EFB and PKS ashes for all temperatures. It is als

Investigate the effectiveness of bio-silica absorbent from several sarawak palm oil waste ash

Due to the high production of palm oil, surplus quantities of palm oil biomass waste such as empty fruit bunches (EFB), palm kernel shell (PKS), and oil palm decanter cake (DC) are generated. Currently, to solve the waste disposal issues in palm oil industries, these wastes are used as fuel to generate steam for boilers, which end up as ash. As these wastes are rich with silica content, thus this study aims to study the potential of bio-silica extracted from EFBs,PKSs, and DCs ashes as moisture absorbent. Several analysis were conducted to study the characteristics and the amount of silica in EFB, PKS, and DC ashes at different combustion temperatures of 400°C to 800°C. Prior to the process, EFBs, PKSs, and DCs undergo acid leaching process using 1M citric acid to remove impurities and increase silica yield in the extraction process. The characteristic analyser of the ash include colour analysis, weight analysis, Fourier Transform Infrared (FTIR), Brunauer-Emmet-Teller (BET), and Scanning Electron Microscopy (SEM). For the extraction process, the treated EFBs, PKSs, and DCs ashes produced at temperature 800°C are chosen as it contains the highest amount of silica, and are gellified and continued with aging time of 1 and 2 hours to produce moisture absorbent. The characteristic analyser of extracted bio-silica in EFB, PKS, and DC include FTIR, BET, SEM, and Energy Dispersive X-Ray (EDX). SEM images of the extracted bio-silica give irregular shape particles with porous texture. From FTIR result, a dominant peak between 950 cm-1 to 1150 cm-1 was detected on all extracted bio-silica samples which refers to silicate (Si-O) functional group. From EDX result, bio-silica EFB 2-hours, PKS 2-hours, and DC 2-hours, has high percentage of element mass compared to 1 hour for all the samples. Meanwhile for BET, PKS 2-hours has the highest surface area, which is 14.037 m2 /g and based on the capability test it had perform closely to the pure silica made from natural quartz. It is recommended exploring bio-silica in the sample by using XRD and improve the extracted bio-silica absorption performance