TY - JOUR
T1 - Emissions factors from distributed, small-scale biomass gasification power generation
T2 - Comparison to open burning and large-scale biomass power generation
AU - Ahmed, Omar Y.
AU - Ries, Matthew J.
AU - Northrop, William F.
N1 - Publisher Copyright:
© 2018 Elsevier Ltd
PY - 2019/3/1
Y1 - 2019/3/1
N2 - Waste woody biomass is one of the most readily available yet underutilized renewable energy sources. Small quantities of wood waste in remote locations are often openly burned when they are not economical to transport and burn in large-scale facilities. Small-scale (10–100 kW) distributed gasifier-generator systems offer an alternative use for this biomass. In this work, we present emissions factors experimentally measured from a commercially available gasifier-generator system. Average emissions factors per mass of dry biomass with high quality producer gas were found to be 1.53 kg-CO2, 11.3 g-CO, 8.7 g-CH4, 2.4 g-NOx, and 0.01 g-soot per kg of feedstock. On an energy basis, emissions were 2.04 kg-CO2, 30.3 g-CO, 18.6 g-CH4, 5.0 g-NOx, and 0.02-g soot per kWh of electricity produced at a maximum load of 15 kW. Our research found that producer gas heating value is inversely proportional to both power output and biomass moisture content. Low quality producer gas was found to significantly increase CO, CH4 and soot emissions from the system but decrease NOx emissions. Small-scale biomass gasification emits less CO2, CO, and soot than open burning, but further improvements are required before emissions from small-scale systems are competitive with emissions from large-scale biomass power generation.
AB - Waste woody biomass is one of the most readily available yet underutilized renewable energy sources. Small quantities of wood waste in remote locations are often openly burned when they are not economical to transport and burn in large-scale facilities. Small-scale (10–100 kW) distributed gasifier-generator systems offer an alternative use for this biomass. In this work, we present emissions factors experimentally measured from a commercially available gasifier-generator system. Average emissions factors per mass of dry biomass with high quality producer gas were found to be 1.53 kg-CO2, 11.3 g-CO, 8.7 g-CH4, 2.4 g-NOx, and 0.01 g-soot per kg of feedstock. On an energy basis, emissions were 2.04 kg-CO2, 30.3 g-CO, 18.6 g-CH4, 5.0 g-NOx, and 0.02-g soot per kWh of electricity produced at a maximum load of 15 kW. Our research found that producer gas heating value is inversely proportional to both power output and biomass moisture content. Low quality producer gas was found to significantly increase CO, CH4 and soot emissions from the system but decrease NOx emissions. Small-scale biomass gasification emits less CO2, CO, and soot than open burning, but further improvements are required before emissions from small-scale systems are competitive with emissions from large-scale biomass power generation.
KW - Biomass gasification
KW - Criteria pollutants
KW - Open burning
KW - Waste biomass
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U2 - 10.1016/j.atmosenv.2018.12.024
DO - 10.1016/j.atmosenv.2018.12.024
M3 - Article
AN - SCOPUS:85058963905
SN - 1352-2310
VL - 200
SP - 221
EP - 227
JO - Atmospheric Environment
JF - Atmospheric Environment
ER -