LAUSR

Abstract In this study, thermodynamic analysis and environmental impact of a lab-scale biomass-fired open cycle power plant have been performed. The performance of the plant including combustion and generated power efficiencies was studied based on first and second laws of thermodynamics. The combustion temperature and mass fraction of pollutants resulted from direct burning of biomass were also estimated theoretically using a mathematical model developed by the authors. It was found that the measured temperature of combustion of biomass mixture reached 818 °C, which agrees with theoretical result. The estimated energy and exergy efficiencies of the plant were 12 and 16.4%. The heat addition process in the boiler through the burner was the major source of irreversibility in the lab-scale plant; due to non-adiabatic heat transfer in the un-insulated burner where most exergy destruction and energy loss took place. The environmental impact of biomass combustion showed insignificant contents of sulfur and nitrogen oxides pollutants, which enhances the use of biomass as alternative fuel.