Investigation of rice husk semi-continuous combustion in suspension furnace to produce amorphous silica in ash

• Published in: Biomass conversion and biorefinery Vol. 14; no. 20; pp. 25757 - 25772
• Main Authors: Steven, Soen, Pasymi, Pasymi, Hernowo, Pandit, Restiawaty, Elvi, Bindar, Yazid
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.10.2024
• Subjects: Biotechnology; Energy; Original Article; Renewable and Green Energy; Rice husk; Amorphous; Combustion; Ash; Flame
• ISSN: 2190-6815; 2190-6823
• DOI: 10.1007/s13399-023-04777-7

The usage of biomass can reduce vast amounts of fossil resource dependence. Rice husk is attractive due to its calorific value and high silica content in ash. In order to produce amorphous silica in ash, rice husk was combusted with temperatures below 700°C and this can be realized in a suitable furnace type, i.e. suspension furnace. This study began with rice husk ignition test in a fixed bed furnace. The ignition temperature was observed above (428 ± 8) o C. Combustion was then performed in a suspension furnace. Rice husk was semi-continuously fed when it attained the ignition temperature with total air to biomass ratio of 8.5. The mass flowrates of rice husk were set at 9.27, 20.23, 25.20, 31.36, and 42.51 kg/h. The feeding was stopped until it reached 2500 g for the first 4 variations and 500 g for the last variation. From this study, the flaming combustion lasted for 15–30 min and then continued with glowing combustion which plays an important role in the successful conversion to ash. The highest temperatures of combustion were 552–560°C. Besides, the yield of produced ash was 18.94–23.68%-wt with silica content therein of 88.29–89.15%-wt. Ash was acquired in the amorphous silica phase with unburnt carbon content of 5.11–23.27%-wt.