Comparative Evaluation on Enhancing Fuel Properties of Biocoal from Bagasse Using Hydrothermal Carbonization and Torrefaction Processes

Abstract

This research investigates the thermochemical conversion of sugarcane bagasse into biocoal using a subcritical aqueous medium (water, 200–250°C) and a limited oxygen atmosphere (nitrogen, 250–300°C). The aim is to discover alternative renewable energy sources to replace fossil fuels. The effects of those different methods on the physiochemical properties of the solid product were determined. The best results of fixed carbon (37.13%), carbon content (62.17%), fuel ratio (0.61), and higher heating value (HHV) (25.75 MJ/kg) were obtained under hydrothermal carbonization (HTC) at 250°C. Additionally, the HTC process effectively reduced the ash and sulphur content of the solid products. Moreover, HTC was found to be a promising method for depolymerizing hemicellulose. Hydrochar produced at 250°C is located within the range of lignite, which is typically obtained at lower reaction temperatures compared to biochar samples. Consequently, the conversion of sugarcane bagasse into solid biofuel through HTC shows great potential from a thermochemical perspective.