Comparative evaluation of torrefaction and hydrothermal carbonization of lignocellulosic biomass for the production of solid biofuel

The work presented in this study demonstrates the potential of using hydrothermal carbonization (HTC) on miscanthus feedstock for the production of a carbon-rich solid fuel, referred to as hydrochar, whose physicochemical properties are comparable to that of coal. The effects of the processing conditions on the mass yield, energy yield and higher heating values (HHVs) were examined by varying the reaction temperature (190, 225, and 260 °C), the reaction time (5, 15, and 30 min) and the feedstock-to-water ratio (1:6 and 1:12). The results show that the reaction temperature is the most significant parameter governing the physicochemical properties of biomass. Increasing reaction temperature reduces the mass yield; however, it also significantly enhances the energy density of solid products. The hydrochar samples produced at 260 °C show a maximum energy density of 26-30 MJ/kg, with 66-74% of energy retained in the solid product. In comparison, the energy density, grindability, and hydrophobicity of the solid samples produced via torrefaction (a conventional thermal pre-treatment) were considerably lower than the hydrochar samples, even if the reaction time was kept much higher than HTC. Furthermore, the inorganic metallic composition of miscanthus feedstock almost remained unaffected after torrefaction; however, it was significantly reduced (30-70%) via HTC.