The impact of wood stove technology upgrades on indoor residential air quality

Fine particulate matter (PM(2.5)) air pollution has been linked to adverse health impacts, and combustion sources including residential wood-burning may play an-important role in some regions. Recent evidence suggests that indoor air quality may improve in homes where older, non-certified wood stoves are exchanged for lower emissions EPA-certified alternatives. As part of a wood stove exchange program in northern British Columbia, Canada, we sampled outdoor and indoor air at 15 homes during 6-day sampling sessions both before and after non-certified wood stoves were exchanged. During each sampling session two consecutive 3-day PM(2.5) Samples were collected onto Teflon filters, which were weighed and analyzed for the wood smoke tracer levoglucosan. Residential PM(2.5) infiltration efficiencies (F(inf)) were estimated from continuous light scattering measurements made with nephelometers, and estimates of F(inf) were used to calculate the outdoor- and indoor-generated contributions to indoor air. There was not a consistent relationship between stove technology and outdoor or indoor concentrations of PM(2.5) or levoglucosan. Mean F(inf) estimates were low and similar during pre- and post-exchange periods (0.32 +/- 0.17 and 0.33 +/- 0.17, respectively). Indoor sources contributed the majority (similar to 65%) of the indoor PM(2.5) concentrations, independent of stove technology, although low indoor-outdoor levoglucosan ratios (median <= 0.19) and low indoor PM(2.5)-levoglucosan correlations (r <= 0.19) suggested that wood smoke was not a major indoor PM(2.5) source in most of these homes. In summary, despite the potential for extensive wood stove exchange programs to reduce outdoor PM(2.5) concentrations in wood smoke-impacted communities, we did not find a consistent relationship between stove technology upgrades and indoor air quality improvements in homes where stoves were exchanged. (C) 2009 Elsevier Ltd. All rights reserved.