Co-gasification characteristics of pine bark biomass and Bangladeshi
bituminous coal using an entrained flow gasifier
Abstract
Co-gasification of coal and renewable biomass is a promising technique
to reduce greenhouse gas emission from coal gasification alone. The
co-gasification performance of pine bark (PB) biomass and Bangladeshi
bituminous coal (BBC) have been assessed using a high-temperature
entrained flow gasifier under CO2 atmosphere. Results show that
increasing biomass concentration increases the carbon conversion, syngas
quality and cold gas efficiency (CGE), while reduces emission. Using
20% CO2 as the reactant gas, an addition of 20% biomass with coal
increased the carbon conversion by 21.5, 10.6 and 4.5%-point at
temperatures of 1000, 1200 and 1400 °C compared to that of coal
respectively. Increasing biomass in the blend from 20% to 80%
increased the yield of CO by 36%, 21% and 11% with increasing
temperature, while the concentration of H2 remained nearly constant.
Also, the CGE, fragmentation index and alkali and alkaline earth
minerals in ash were increased with increasing biomass ratio.