Analysis of synthesis gas production with a flexible H2/CO ratio from rice straw gasification

Abstract

A parametric analysis of two gasification processes (i.e., steam–air and steam–CO2) of rice straw feedstock is performed using a thermodynamic model-based approach developed in Aspen plus. The possibility of one step H2/CO ratio adjustment in a gasifier at thermal self-sufficient condition is observed. The effects of changes in the ratio of gasifying agent on the syngas yield, H2/CO ratio, total energy consumption and cold gas efficiency of the system at different gasifying temperatures in the range of 500–1000°C are investigated. The syngas yield of both gasification processes significantly increases at low temperature until it reaches a maximum value and is stable at temperatures higher than 700°C. However, the steam–CO2 system offers higher syngas productivity and a lower H2/CO ratio. The total energy consumption of the system is also investigated, and the steam–air system consumes less energy and the thermal self-sufficient conditions are revealed, whereas the steam–CO2 system shows the inverse effect. Based on the thermal self-sufficient condition for syngas production, the operating conditions offering the highest syngas yield of 42% of with Fischer–Tropsch specification can be obtained at a gasifying temperature of 700°C and steam- and air-to-biomass ratios of 0.57 and 1.17, respectively. At these conditions, the cold gas efficiency of 38% is achieved.