Characterization of Inorganic Particulate Matter from Residential Combustion of Pelletized Biomass Fuels
Boman, C; Nordin, A; Boström, D; Öhman, M
Energy and Fuels 18(2): 338-348
2004
ISSN/ISBN: 0887-0624 DOI: 10.1021/ef034028i
Accession: 063248206
The increased focus on potential adverse health effects associated with exposure to ambient particulate matter (PM) motivates a careful characterization of particle emissions from different sources. Combustion is a major anthropogenic source of fine PM, and, in urban areas, traditional residential wood combustion can be a major contributor. New and upgraded biomass fuels have become more common, and fuel pellets are especially well-suited for the residential market.
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Amaral, S.S.õe.; de Carvalho, J.ão.A.; Costa, M.A.él.M.; Soares Neto, T.íb.G.; Dellani, R.; Leite, L.H.S. 2014: Comparative study for hardwood and softwood forest biomass: chemical characterization, combustion phases and gas and particulate matter emissions Bioresource Technology 164: 55-63
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Olave, R.J.; Forbes, E.G.A.; Johnston, C.R.; Relf, J. 2017: Particulate and gaseous emissions from different wood fuels during combustion in a small-scale biomass heating system Atmospheric Environment 157: 49-58