Upgrading of palm empty fruit bunch for solid biofuel production through hydrothermal carbonization

Abstract: In this study, palm empty fruit bunch (EFB) was upgraded into solid fuel called biochar through hydrothermal carbonization process (HTC). The experiments were performed at different temperatures of 160, 180, 200 and 240 °C for 30 min. The properties of biochar products in terms of proximate and ultimate analysis, heating value and thermal decomposition were characterized. The results indicated that hydrothermal carbonization decreased the biochar yield from 79.2% at 160 °C to 39.5% at 240 °C. As the reaction t… Show more

“…However, the intense gasification process damaged a portion of the microporous structure at the higher temperature of 900 °C, which reduced the surface area and pore volume 61 . In addition, elevated temperature increases the percentage of ash and fixed carbon, which reduces volatile matter and solid yields 62 . Therefore, the temperature condition at 500 °C was chosen to be the optimum carbonization temperature for MB adsorption.…”

Activated carbon derived from sugarcane and modified with natural zeolite for efficient adsorption of methylene blue dye: experimentally and theoretically approaches

“…However, the intense gasification process damaged a portion of the microporous structure at the higher temperature of 900 °C, which reduced the surface area and pore volume 61 . In addition, elevated temperature increases the percentage of ash and fixed carbon, which reduces volatile matter and solid yields 62 . Therefore, the temperature condition at 500 °C was chosen to be the optimum carbonization temperature for MB adsorption.…”

Activated carbon derived from sugarcane and modified with natural zeolite for efficient adsorption of methylene blue dye: experimentally and theoretically approaches

Valorization of Oil Palm Trunk Waste: A Path to Green Catalyst for Bioethylene Synthesis via Diluted Ethanol Dehydration

Hydrothermal carbonization of oil palm trunk: Hydrochar properties and combustion behaviors